Method of washing machine control. RU patent 2520061.

FIELD: personal use articles.

SUBSTANCE: proposed is a method for operation of a washing machine with main motion for the drum rotation ensuring the washing capacity; according to the method, the user's input is waited for and at least one of steam supply into the drum is performed. According to one version of the method, the drum is brought into motion which such strong motion washing capacity exceeding that of the main motion. According to one version of the method, the drum is brought into motion which such strong motion washing capacity exceeding that of the main motion. According to the third version of the method, the drum is brought into at least either of an impact motion or a friction motion, such impact or friction motion washing capacity exceeding that of the main motion.

EFFECT: washing machine control method improves washing capacity alongside with improvement of efficiency and noise/oscillation.

19 cl, 26 dwg

The technical field

The present invention relates to a washing machine and method of management.

The level of technology

Washing machines are machines that are typically used for washing and/or drying of textiles. The washing machine can include the drum with the possibility of rotation mounted in the housing, and the drum is configured to contain the items of underwear in it for processing. In a washing machine with a top loading the drum can be focused essentially vertically with opening at the top end, through which can be the subject of linen. In the washing machine with front loading rotor can be focused essentially horizontally with opening in its front end, through which can be the subject of linen.

Disclosure of technical tasks of the invention

When linen is technologically processed in washing machines, spin at different movement. The movement of the drum and friction between objects linen, water for washing and cleaning agents, and the inner part of the drum can help remove dirt from subjects of underwear.

The purpose of the present invention is to provide a way to manage a washing machine that improve the performance of the washing machine.

According to the aspect of the present invention, the foregoing and for other purposes can be achieved by providing the means of management, which includes waiting for user input and perform at least one of the steam supply to the drum and bringing drum in a strong movement when the program entered by the user, is a program with steam.

Brief description of drawings

Options for implementation will be described in detail with reference to the following drawings, which are the same reference numbers indicate a link to identical elements, provided that:

figure 1 - exploded view in perspective approximate washing machines, as embodied in the General terms described in the materials of this application;

figure 2 exploded view another approximate washing machines, as embodied in the General terms described in the materials of this application;

figa-3I, 4A-D, 5A-5F and 6 illustrate the various movements of the drum and schemes of movement of linen, as embodied in the General terms described in the materials of this application; and

7-21 and 25, 26 - flowchart sequence of operations methods of the various work programmes, including the movement of the drum shown on figa-3I, 4A-D, 5A-5F and 6, in accordance options for implementation, as is described in the materials of this application; and

Fig-24 illustrate the steps and conditions for the determination movements.

The best variant of the invention,

I. WASHING MACHINE

Washing machine and method of management, as embodied in the General terms described in the materials of this application will be described with reference to the attached drawings. Figure 1 - exploded view in perspective washing machines according to the first variant of implementation, as is described in the materials of this application, which can be applied control methods according to different variants of implementation.

With reference to figure 1, washing machine 100 according to the first variant of implementation includes the body 110 configured to determine its appearance, tank 120 stipulated in the housing 110 to hold water in it, and rotary drum 130 stipulated in the tank 120. Housing 110 defines the appearance of the washing machine 100. Door 113 provided in the opening 114 housing 110, and the user opens the door 113 to download underwear in case 110.

Tank 120 provided in the housing 110 to hold water for washing in it. Drum 130 can be rotating in the tank 120 and can accommodate linen in it. In this case, the set of grips 135 may be provided in the drum 130 for lifting and lowering of clothes in the wash. Drum 130 includes many holes 131 to provide water for washing, held in the tank 120, unable to pass through them. Tank 120 can be supported by one or more springs are provided on the outside of the tank 120. Motor 140 mounted at the rear of the tank surface 120, and the motor 140 turns the drum 130. When vibrations are produced by a drum 130, driven by an electric motor 140, tank 120 exposed to fluctuations in cooperation with the drum 130. When the drum 130 rotates, the oscillations generated in the drum 130b and the tank has a capacity of 120 can be absorbed damper located below the tank 120.

As shown in figure 1, the tank 120 and dryer 130 can be installed essentially parallel to the base plate of the chassis 110. Alternatively, the rear of the tank 120 drum 130 can be located with an inclined orientation, with the open end of the drum 130 oriented upwards to facilitate load of Laundry in the dryer 130.

The 115 remote control can be provided on the given section the front of the housing 110. The user can select a program washing machine with 115 remote control or identify information relevant to the washing machine. For example, some 117 select the program that is configured so that the user chose a specific program washing, can be provided on the 115 remote control. Moreover, some 118 option can be provided to enable the user to configure the optional conditions of each cycle or stage stipulated in the selected program, and part 119 display can be provided on the 115 remote control to display information about the current operation of the washing machine. For more details about the washing machine is described in US patent no 6460382 B1, issued on 8 October 2002, and the application number 12/704923 for the issuance of a U.S. patent, filed February 12, 2010, whose full disclosure included in the materials of this application by reference.

Figure 2 exploded view in perspective washing machines according to another version of the implementation, as is described in the materials of this application. Washing machine according to the different variants of implementation, as is described in the materials of this application, may include tank, rigidly supported on the case, or the tank is supported by a case through non-rigid design, such as the site of the suspension, and, thus, loosely attached to it, as shown in figure 2. Moreover, the supporting structure of the tank can be located between support through the site suspension and full built structures. That is, the tank may be based loosely through the host of the suspension, which will be described later, he can lean tough to be in a more rigidly supported condition than the above loosely supported state. In the alternative variants of implementation washing machine may be provided inside the housing. For example, the space for the installation of washing machine built-in type can be defined murine design inside. That is, in some embodiments, the implementation of the chassis is configured for the formation of independent appearance may not be provided.

With reference to figure 2, the tank may include front 200 tank and back 220 tank, component rear of the front end 200 tank. Front 200 tank and back 220 tank can be assembled with screws or another appropriate mechanism of attachment, and given space formed it to contain the drum. Rear 220 tank includes an aperture formed at the back surface, and rear seal 250 can be attached to the inner circle of an aperture. Rear seal 250 can be attached to the back 230 tank, and heel 230 tank may include a through hole, with a shaft that runs through its center.

Rear seal 250 sealed and attached to each of the backdrop 230 tank and the rear 220 tank for protection of water for washing from leaking from the tank. As a backdrop 230 tank vibrates when the drum rotates, the backdrop 230 tank can be removed from the back of 220 tank at a given distance in order not to disturb the rear 220 tank. Besides, back packing 250 can be made of a soft material to give back 230 tank to the possibility of a move without interfering rear 220 tank. Rear seal 250 may include corrugated part, which is the tensile at sufficient length to allow relative motion of the background 230 tank. This option exercise is back gland 250 attached to the back 230 tank, and the present invention is not limited to this. Rear seal 250 configured to seal the gap between the tank and drive part (not shown), which includes the shaft 351 and housing 400 bearing, and to provide drive part to the possibility of a move towards Baku. As a result, the forms and the United objects in the rear seal 250 can be infinitely variable only if given the opportunity of this function. Non-rigid material 280, which will be described later as the front oil seal, can be installed on the front of the rack 200 tank.

The drum can be configured from the front of 300 dryer, Central 320 drum backdrop 340 drum. Ball balancers and 330 310 can be installed in the front and back parts of the drum, respectively. Back 340 drum can be attached to the cross 350 and cross 350 can be attached to the shaft 351. The drum is rotated inside the tank by means of rotational power transmitted through the shaft 351.

Shaft 351 can be attached to the motor and pass through the backdrop 230 tank. In some embodiments, the implementation of the motor can be attached to the shaft 351 concentrically. In some embodiments, the implementation of the motor can be attached to the shaft 351 directly and, in particular, the rotor of the electric motor can be directly attached to the shaft 351. In the alternative variants of realization of the motor and the shaft 351 can be attached to each other indirectly, for example, they can be connected with a belt.

Case 400 bearing can be attached to the back 230 tank, in order to rotate to support the shaft, between the motor and a backdrop 230 tank. The stator can be rigidly attached to the body 400 bearing. As the rotor can be located around the stator. As mentioned above, the rotor can be attached to the shaft 351 directly, with the electric motor is a motor type with external rotor that can be directly connected to the shaft. Case 400 bearing can be supported by 600 basis through the host of the suspension. Site suspension may include perpendicular suspension and inclined suspension configured to support housing 400 bearing towards the front and rear direction. For example, node a suspension under this option exercise can include three perpendicular (vertical, as shown in figure 2) suspension 500, 510 and 520 and two inclined (angled or tapered, as shown in figure 2) suspension and 530 450 configured to support housing 400 bearing towards the front and rear direction. Site suspension can be attached to the base of 600 with the specified elastic transformation, enabling front/rear and/or right/left movement of the drum, and, thus, are not rigidly attached. That is, the node suspension can build on the Foundation with sufficient given elasticity to provide the possibility of rotation at a given angle in the front/rear and right/left directions with respect to the points connected with the ground. For this elastic support perpendicular suspension can be mounted on the base by means of a rubber sleeve or other mechanism, as it should.

Perpendicular suspension site suspension may elastic hang fluctuations of the drum, and inclined suspension can damping vibrations. That is, perpendicular to the suspension can be used as a spring, and inclined suspension as a means of damping in oscillatory system, which includes means of modpluginevent and damping.

Tank relies on the case, and the fluctuations of the drum can dangerouse node suspension. As a result, washing machine under this option may not be essentially independent support structure between tank and drum, or it can be of a design that has fluctuations of the drum, not sent to the tank directly.

II. THE MOTION OF ROTATION OF THE DRUM

The introduction of diversity in motion from the drive drum, and combinations thereof, as embodied in the General terms described in the materials of this application, can result in significant improvement of the ability of washing, noise/vibrations, power, and consumer satisfaction. You will learn how to control that provides improved ability washing. The effect of hand washing can be implemented various schemes of movement of linen. For example, the effect of hand washing can be done by a combination of massage and/or untangling, and/or beating, and/or rocking, and/or friction, and/or squeeze/filtering.

Such schemes move linen can be implemented in various movements from the drive drum combination(s) of different movements from the drum drive. Movement from the drive drum can include combinations of directions of rotation and speed of rotation. Linen, located in the drum can have different directions lowering the point of lowering and distance lowering due to movements from the drum drive. Consequently, linen can have different moving inside the drum. Movement from the drive drum, for example, can be realized by controlling the direction and/or speed of rotation of the electric motor, which drives the drum.

When the drum rotates, linen rises by one or more seizures 135 provided on internal circular wall of the drum. Consequently, the direction of rotation of the drum can be managed, and shock applied to pants, may vary accordingly. That is, may vary the mechanical force applied to pants, such as friction generated between items and underwear, friction generated between linen and water, and shock lowering linen. In other words, the degree of beating or ottiene applied to subjects of linen to the Laundry, may vary, and accordingly can vary the degree distribution and turnover of clothes inside the drum.

As a result, this type of control is a washing machine can give different movements from the drive drum, and movement from the drive drum vary according to each of the cycles and specific stages that make up the cycle from the condition that a suitable mechanical strength could be used for technological processing of linen, depending on the type erase linen, pollution and other such factors. As a result, the efficiency of the washing can be improved. In addition, can be avoided excessive time required typical movement of the actuator of the drum.

In contrast, the movement from the drive drum, allowing for the delay dead or stroke, for example, tipping movement or rotational motion, can be realized in the motor type with an indirect connection, including pulley, from the condition that torque can be transferred to the shaft through a pulley. However, the motor type with an indirect connection may have limited applicability.

The movement of the actuator of the drum can be embodied by the EMD 140. As a result, the way the motor control may be subjected to diversify, and then can be realized by different movement from the drum drive.

Schemes of movements linen and movement from the drive drum, to make schemes of movements linen, will be described in detail.

The scheme of travel with massaging linen can be achieved, if the friction between linen and drum is maximized. For example, when the drum rotates continuously in a given direction at a given speed or less, linen can move by rolling to achieve the effect massaging, if the speed of rotation of the drum shown in the tilting movement, defined as the control of speed, the set speed can be the key rate. For example, movement from the drive drum, configured to rotate the drum with the set speed or less in a given direction, can be defined as "perechitivayte movement".

The scheme of travel with untying, for example, can be embodied tilting motion. The tilting movement can be defined as the movement configured for continuous rotation of the drum on the control of speed in a certain direction. The scheme of travel with untying puts the clothes inside the drum with an average distance of lowering and friction average.

The scheme of travel with drumming can be achieved by lowering the clothes inside the drum with a maximum distance of lowering. For example, if the drum rotates with the control speed or greater for lifting linen to the highest point inside the drum, then the drum abruptly halted can be achieved this effect beating. This movement from the drive drum can be defined as a "stepping movement."

The scheme of travel with swinging can be achieved when the drum rotates at a preset speed, lower than the reference speed in the direction of clockwise/counterclockwise. This movement from the drive drum can be defined as "rocking motion".

The scheme of travel with friction can be achieved when the friction between linen and drum increases. For example, if the drum is rotating with speed control or greater in a clockwise direction, sharply braked, and then rotates in a counterclockwise direction, linen is moved by rolling on internal circular surface of the drum with the set top of the drum. This movement from the drive drum can be defined as "potteraudio movement".

The scheme of travel to squeezing and filtering can be achieved, if water for washing is served along with a spin on the control of speed or greater. As soon as the drum rotates at a relatively high speed, lingerie everything or turn around and stay along the inner circular drum surface, and then the water for washing, spattered into the drum, passes through underwear, and then linen can viimase to improve the effect of rinsing. This movement from the drive drum can be defined as a "filter movement".

Various movements from the drive drum, configured to achieve the above various schemes of moving linen will be described with reference to the drawings.

Figa and 3B chart various movements from the drive drum, which is embodied in General is described in the materials of this application.

Figa (a) - chart perekachivayuschih movement. When perekidyvaem the movement of the motor 140 continuously rotating drum 130 in a given direction, and linen, located on the inner circular surface of the drum is rotating along the direction of rotation of the drum, falls out with an angle of approximately less than 90 degrees, relative to the direction of rotation of the drum, in the lower point of the drum.

That is, once the motor 140 drum rotates at a speed, which is lower than the control rotation (rotation frequency of rollovers), for example, approximately 40 rpm, linen, located at the lowest point of the drum 130, rises to the specified height along the direction of rotation of the drum 130, and then linen moved by rolling in the lowest point of the drum out of position, less than 90 degrees, relative to the direction of rotation of the drum from the lowest point of the drum. Generally, when the drum rotates in a clockwise direction, linen is constantly rolling in the third quadrant of the drum.

Linen is washed maximum friction with water for washing and maximum friction with other items for washing, and the maximum friction with internal circular surface of the drum under perekidyvaem movement. It perechitivayte movement allows sufficient turnover linen to cause the effect is similar to the soft massaging washing. The number of revolutions per minute drum movement from the drive drum can be determined on the basis depending on the radius of the drum. That is, the greater the number of revolutions per minute drum, the greater the centrifugal force, which is called in the clothes inside the drum. The difference between the value of the centrifugal force and gravity applied to subjects of clothes in the dryer, distinguishes the point where the linen falls, and the corresponding movement of clothes inside the drum. As torque force drum and friction between the dryer and linen can also be taken into account. Thus, the number of revolutions per minute drum at perekidyvaem movement may decide to provide produced by centrifugal force and force of friction opportunity to be smaller than the force of gravity (1G).

Figa (b) - chart tilting motion. When tipping the movement of the motor 140 continuously rotating drum 130 in a given direction, and linen, located on the inner circular surface of the drum, falls out of approximately 90 degrees to 110 degrees, relative to the direction of rotation of the drum, to the lowest point of the drum. If the drum managed to rotate with the correct number of revolutions per minute in a given direction, mechanical power can be invoked between linen and drum at the tipping movement. Consequently, the tilting movement can be used in the wash and rinse.

That is, linen is loaded in a drum 130, is located in the lowest point of the drum 130 before the motor 140 put into action. When the motor 140 produces a torque on the drum 130, drum 130 rotates, and capturing 135 provided on the inner circular drum surface lifts linen on a given height from the lowest point of the drum. If the motor 140 turns the drum 130 control speed, for example, approximately 46 revolutions per minute, linen can rise to the provisions of approximately 90 degrees to 110 degrees to the direction of rotation of the drum, and then to fall to the lowest point of the drum. When tipping movement revolutions per minute drum may decide to provide the centrifugal force produced the opportunity to be greater than the centrifugal force produced during perekidyvaem traffic, and be less than the force of gravity.

Clearly, if the drum is rotating in a clockwise direction when tilting movement, linen consistently rises in the third quadrant and part of the second quadrant of the lowest point of the drum. After that, linen falls in the lowest point of the drum. As a result, the tilting movement gives linen opportunity to fade shock generated by the friction of water for washing, and the shock load lowering. Consequently, when tilting motion of a mechanical power, greater than mechanical force perekachivayuschih movement, can be used to implement the wash and rinse. Besides, perechitivayte movement can be effective in sharing tangled linen and uniform distribution of linen.

Figa (c) - chart stepping movement. When walking motion motor 140 turns the drum 130 in a given direction, and linen, located on the inner circular drum surface monitored to fall into the lowest point of the drum from the highest point (approximately 180 degrees) about the direction of rotation of the drum. As soon as the motor 140 drum rotates at a speed of 130, which is higher than the control rotation (rotation frequency of rollovers), for example, approximately 60 revolutions per minute or more, linen can rotate the centrifugal force before reaching the highest point of the drum, and not sink. When walking motion drum rotates at full speed in order not to omit linen, and then dramatically slowed to maximize the impact load, applied to pants, while it falls.

After the drum rotation 130 at the specified speed, not allowing the fall of the linen (approximately 60 revolutions per minute or more)until the price reaches the highest point of the drum motor 140 reverse applies torque to the drum 130 with linen, located near the highest point of the drum (180° relative to the direction of rotation of the drum). Thus, linen rises from the lowest point of the drum 130 along the direction of rotation of the drum, the drum instantly stops reverse torque motor, and linen is falling from the highest point of the drum 130. Stepping movement gives linen opportunity to fade shock produced, while lingerie falls with a maximum height difference. Mechanical power is produced during this step the movement is more than the mechanical power is produced when perekidyvaem movement or tilting movement mentioned above.

Clearly, for stepping motion, after moving from the lowest to the highest point of the drum by the fact that the drum rotates, distance lowering inside the drum is greatest when walking motion, and mechanical power stepping movements can be effectively applied to a small number of linen. Motor 140 may be discouraged by the phase reversal when walking motion with the use of torque produced in the opposite direction relative to the direction of rotation of the electric motor. The phase voltage applied to the motor, can be changed to create a reverse torque in the opposite direction of rotation of the electric motor and braking phase reversal gives the possibility to apply a sharp braking. The braking phase reversal can be used for applying a powerful shock to pants.

Thus, after applying torque to the drum rotates in a clockwise direction, applied torque for the drum rotates in a counterclockwise direction, and the drum dramatically slowed. After that is applied torque to the drum to rotate in a clockwise direction, and embodied the stepping motion. The stepping motion can be used to wash clothes using friction between water, embroiled in a through hole 131, formed in the drum, and linen and using the shock caused by the fall of linen, when linen reaches the highest point of the drum. It is a step movement can cause the effect of washing, such as "beating linen".

Figa (d) chart rocking motion. When swinging motion of the motor 140 turns the drum 130 alternately in directions clockwise and counterclockwise, and linen falls in position, approximately less than 90 degrees, relative to the direction of rotation of the drum. That is, once the motor 140 drum rotates at a speed of 130, which is lower than the control rotation (rotation frequency of rollovers), for example, approximately 40 rpm in a counterclockwise direction, linen, located at the lowest point of the drum 130, rises to the specified height in counterclockwise direction. Before linen reaching the position almost 90 relative to the direction counterclockwise drum, the motor stops the rotation of the drum, and linen falls in the lowest point of the drum out of approximately less than 90(relative to the direction counterclockwise drum.

Hence, the motor 140 drum rotates at a speed of 130, which is lower than the control rotation (rotation frequency of rollovers), for example, approximately 40 rpm in the direction of clockwise to raise the linen to the specified height in a clockwise direction along the direction of rotation of the drum. Before linen reaching the position almost 90 relative to the direction counterclockwise drum, the motor stops the rotation of the drum, and linen falls in the lowest point of the drum out of approximately less than 90° relative to the direction clockwise drum.

Thus, swinging movement is the movement, which may be repeated rotation and stopping relative to the first direction and rotation, and about the second stop (opposite) direction. Clearly, repeatedly linen, which raised up part of the second quadrant of the third quadrant of the drum, gradually falls and rises again to part of the first quadrant of the fourth quadrant of the drum and gradually decreases.

In some embodiments, the implementation of the motor 140 can use rheostatic braking and the load applied to the motor 140, so mechanical wear and tear of the motor 140 can be reduced, and may be subject to shock applied to clothes. Using rheostatic braking, if the current is applied to the motor is switched off, the electric motor acts as a generator because of inertia of rotation and direction of the current flowing into the motor winding, will be changed to the opposite direction until then, until the power is off, and the power (on the right-hand rule Fleming) is applied along the direction, which prevents the motor to slow down the motor. Unlike braking phase reversal, rheostatic braking does not cause sudden braking, but instead gradually changes the direction of rotation of the drum. As a result, linen can move along the path eights through the third and fourth quadrants of the drum when swinging motion. Swinging movement can cause laundering, such as "swinging linen".

Figa (e) - chart potteraudio movement. When attirude the movement of the motor 140 turns the drum 130 alternately in both directions, clockwise and counterclockwise, and linen can fall from more than 90(relative to the direction of rotation of the drum.

That is, once the motor 140 drum rotates at a speed of 130, which is higher than the control rotation (rotation frequency of rollovers), for example, approximately 60 revolutions per minute or more, in a counterclockwise direction, linen, located at the lowest point of the drum 130, rises to the specified height in a counterclockwise direction. After the linen passes the position of almost 90 relative to the direction counterclockwise drum, the electric motor gives the drum reverse torque for the temporary shutdown of the drum, and linen, located on the inner circular drum surface can quickly fall, in particular, with the result that linen, located on the inner circular surface of the drum, falls in the lowest point of the drum out of position 90 or more relative to the direction clockwise drum. Thus, when attirude movement linen can quickly fall from a given height. Motor 140 can use the braking phase reversal for braking drum.

When attirude movement direction of rotation of the drum is changing fast and underwear may not depart from internal circular surface of the drum into a large number of time. Consequently, the effect of such intensive attorney washing maximized friction between linen and drum can be achieved when attirude movement. When attirude movement linen, moved to part of the second quadrant through the third quadrant, quickly drops and re-falls again after moving part of the first quadrant through the fourth quadrant. As a result, clearly visible in ottersum movement raised linen repeatedly falls on internal circular surface of the drum.

Figa (f) - chart filtering traffic. When the filter motion motor 140 turns the drum 130, so linen does not fall from the internal circular surface of the drum, and water for washing is sprayed into the bowl. That is, if the filter motion linen is spread on and keeps close contact with the inner circular surface of the drum as water for washing is sprayed into the bowl. Water is produced from the tank via through holes 131 drum centrifugal force. Because the filtering movement deploys/extends the surface area of linen and water gives an opportunity to pass through linen, water for washing can be linen evenly.

Figa (g) chart squeezing motion. When squeezing motion motor 140 turns the drum 130, so linen adjacent to/does not fall from the internal circular surface of the drum with the use of centrifugal force, and then the motor reduces the frequency of drum rotation 130 to temporarily separate the linen from internal circular wall of the drum. This sequence of operations is repeated, and the water is sprayed into the bowl during the rotation of the drum. That is, the drum rotates continuously at a speed that is high enough not to omit underwear with internal circular surface of the drum under the filter motion. In contrast, when squeezing the movement of the drum rotation frequency is changed to repeat the sequence of operations is tight underwear to and separate from the internal circular drum surface 130.

Splashing water for Laundry in the dryer 130 when filtering traffic and squeezing motion, for example, can be implemented by path and circulation pump. The pump can communicate with the bottom surface of the tank 120, with the end tract circulation, coupled with the pump, from the condition that the water for washing splashing from the tank into the drum through the other end of the path circulation.

In the alternative variants of the implementation of the water for washing can be sprayed into the bowl through a tract of supply, coupled with external water supply source outside the body. That is, one end of a path of submission is connected with an external source of supply, and the other end connected to the tank. If the spray intended for spraying water for Laundry in the dryer, water for washing can be sprayed within the drum at one or both of the filtering and the dewatering movements.

FIGU (H) - a chart illustrating the movement 'A'. The movement provides A motor ability to rotate the drum in a given direction by changing the speed of the drum to change of linen movement inside the drum. In other words, when the motor is rotating drum, the motor can change the number of revolutions per minute drum at least in two stages.

For example, the first motor may rotate the drum with the first number of revolutions per minute in a given direction, as shown in FIGU (h1), and then the motor may rotate the drum with the second number of revolutions per minute, which is faster than the first number of revolutions per minute, as shown in FIGU (h2), and then the motor may rotate the drum with the third revolutions per minute, which is faster than the second number of revolutions per minute, as shown in FIGU (h3). The number of revolutions per minute for each stage can be defined as appropriate, and each step can be performed within the set period of time.

That is, the first number of revolutions per minute can be specified to provide linen inside the drum able to fall at an angle less than 90 degrees, along the direction of rotation of the drum when the drum rotates. Consequently, when the drum rotates with the first number of revolutions per minute, the clothes inside the drum can move mainly within the lower part of the drum, not moving to the top of the drum. In particular, the first number in the rpm provides linen opportunity to climb up to an angle less than 90 degrees, along the direction of rotation of the drum and to fall and be milled on internal circular surface of the drum, in order to move to the lowest point of the drum. Clearly, you may find that the subjects of underwear consistently roll in the third quadrant of the drum when the drum rotates in clockwise direction, as shown in FIGU (h1), and that the subjects of underwear consistently rolled least in the fourth quadrant of the drum when the drum rotates in a counterclockwise direction. As a result, as soon as the drum rotates with the first number of revolutions per minute, the force of friction of clothes inside the drum (friction between linen and dryer, among the items of underwear and between linen and water for washing) can be maximized. The first number of revolutions per minute, for example, can be approximately 40 rpm.

The second number of revolutions per minute can be faster than the first number of revolutions per minute to provide linen inside the drum able to fall after rising in the upper part of the drum. When the drum rotates with the first number of revolutions per minute, the clothes inside the drum does not rise to the top of the drum, but rather falls before it reaches the top of the drum. In contrast, as soon as the drum rotates with the second number of revolutions per minute, linen can climb to the top of the drum as possible, thus increasing the height lowering linen and magnitude of the shock and mechanical force applied to pants compared with the rotation of the drum with the first number of revolutions per minute. For example, when the drum rotates with the second number of revolutions per minute, the clothes inside the drum can fall on the angle of approximately 90 degrees to 110 degrees along the direction of rotation of the drum, as shown in FIGU (h2). The second number of revolutions per minute, for example, can be approximately 46 revolutions per minute.

The third number of revolutions per minute can be faster than both the first and the second, the number of revolutions per minute. For example, when the drum rotates with the third revolutions per minute, the clothes inside the drum can be stuck to and not separated from the inner circular surface of the drum, as the centrifugal force produced in the drum is rotating with the third revolutions per minute, is greater than the force of gravity from linen. The third number of revolutions per minute can be configured based on the number of linen and the capacity of the drum, for example, approximately between 100 and 110 rpm. When the water for washing is served in the drum is rotated with the third revolutions per minute might be possible more efficient washing and rinsing. In this case, water for washing can re-submitted by circulating water for washing the inside of the drum. In other words, as soon as linen is spread on internal circular surface of the drum after rotation of the drum with the third revolutions per minute, water for washing. As water for Laundry passes through lingerie and is available from the drum, the quality of operation of washing and rinsing can be improved accordingly.

Movement uses A profile of a gradual and continuous increase in the number of revolutions per minute drum along with the rotation of a drum in a given direction. That is, the number of revolutions per minute drum gradually increase, first moving linen in the lower part of the drum and lowering linen from the bottom of the drum, then the upper part of the drum. The motion of A can occur when the number of clothes inside the drum is specified value or large, for example, when the number of clothes inside the drum is specified value, or a big, big load than necessary, can be applied to the motor for rotation of the drum with a high number of revolutions per minute from the beginning, and this will have a detrimental effect on the motor. Consequently, if the drum rotates in motion, such as the movement of A configured for the propulsion of the drum with the gradual increase of the velocity profile, as described above, when the number of linen is specified value, or a big, too big load applied to the motor, can be prevented, and the drum can rotate with a high number of revolutions per minute in a relatively short time.

Each stage of A movement can be performed in a proper pre-established period of time, which can be customized on the basis of the number and type of underwear. In some embodiments, the implementation of a movement can additionally include the stage of reducing the profile of the number of revolutions per minute drum following the steps described above. For example, the movement of A can adjust the number of revolutions per minute, so it has changed stage of the move linen to internal circular wall of the drum, and then stage lowering linen through movement on the movement of clothes in the bottom of the drum when the drum rotates.

The movement A, described above, can be explained by a combination of movements described above. That is the stage of rotation of the drum with the first number of revolutions per minute can be perekidyvaem movement, stage of rotation of the drum with the second number of revolutions per minute can be tilting movement, and the stage of rotation of the drum with the third revolutions per minute can be filtering traffic. For more detailed description perekachivayuschih, tipping and filter movements mentioned above, thus, can be omitted.

FIGU (I) - chart illustrating the movement 'B'. Movement B includes a step motor that spins the wheel in a clockwise/counterclockwise, and the stage of rotation of the drum in a given direction. At the stage of drum rotation in the direction of clockwise/counterclockwise rotations per minute drum may change and/or angle of rotation of the drum (the angle at which the drum changes the direction of rotation) may increase to change the movement of Laundry in the dryer drum.

For example, the motion of B may include stage motor, the rotating drum with the first number of revolutions per minute in both directions, as shown in FIGU (I1), stage motor, the rotating drum with the second number of revolutions per minute, which is faster than the first number of revolutions per minute, in both directions, as shown in FIGU (I2), and the phase of the electric motor, the rotating drum with the second number of revolutions per minute in one direction, as shown in FIGU (I3). As a result, the movement B may include stage of rotation of the drum with the first number of revolutions per minute in a clockwise/counterclockwise, stage of rotation of the drum with the second number of revolutions per minute in a clockwise/counterclockwise and step rotation of the drum in the specified one direction. Moreover, as the second number of revolutions per minute higher than the first number of revolutions per minute, the movement of the first number of revolutions per minute can be defined as "weak"movement, a movement with the second number of revolutions per minute can be defined as "a strong movement". As a result, the movement B may include stage weak movement configured for the drum rotates in a clockwise/counterclockwise, and the stage of repetition strong movement at least two times. A strong movement may include at least one of the specified one direction and directions clockwise/counterclockwise.

More precisely, the first stage can involve stage of rotation of the drum with the first number of revolutions per minute in a specified direction until such time as the drum reaches of the first rotation angle stage drum rotation in the direction opposite to the given direction, as long as the drum reaches the second angle of rotation, and repeat these steps for a specified time.

In some embodiments, the first rotation angle can be set to be approximately less than 90 degrees. That is, the motor rotates the drum in a given direction to the angle less than 90 degrees and the drum's rotation stops. Thus, the first number of revolutions per minute can be specified to provide linen inside the drum able to fall at an angle less than 90 degrees, along the direction of rotation of the drum, so that when the drum rotates with the first number of revolutions per minute, linen is moved to the bottom of the drum. For example, the first number of revolutions per minute can be approximately 40 rpm.

Once the drum reaches of the first rotation angle, for example, pre-set angle less than 90 degrees, the motor changes the direction of rotation of the drum is rotating drum with the first number of revolutions per minute in the opposite direction until such time as the drum reaches the second angle of rotation.

The second angle of rotation can be specified to provide linen inside the drum can move in the lower part of the drum. Thus, the second angle of rotation can be determined to be approximately less than 90 degrees, so that when rotating in the opposite direction before reaching the second angle of rotation, i.e. the angle of approximately less than 90 degrees, the subject of linen, dropped into the low point of the drum are moved within the lower part of the drum.

Following the first stage, the motor can accelerate the speed of the drum to run the second stage. The second phase could include the stage of rotation of the drum with the second number of revolutions per minute until such time as the drum reaches the third angle of rotation, stage drum rotation in the opposite direction until such time as the drum reaches the fourth rotation angle and the stage repeating these steps. The angle of rotation and the number of revolutions per minute drum when the drum rotates, can be different between the first and second stages of the movement B.

The second number of revolutions per minute of the second stage may be set to provide subjects of clothes inside the drum able to fall at an angle of approximately 90 to 180 degrees in the direction of rotation when the drum rotates. When the drum rotates with the second number of revolutions per minute, subjects of clothes inside the drum can fall from the top of the drum. For example, the second number of revolutions per minute can be approximately 60 rpm. As a result, the second number of revolutions per minute may be higher than speed tilting movement described above. The third and fourth rotation angles can be 90 or more. As a result, the motor rotates the drum with the second number of revolutions per minute, that is approximately 60 revolutions per minute, until such time as the drum reaches the third angle of rotation, i.e. pre-installed 90 or more, and then rotate the drum with the second number of revolutions per minute in the changed direction of rotation (the opposite direction) until such time as the drum reaches the fourth angle of rotation. Fourth rotation angle can be 90 or more like a third angle of rotation, to lower the clothes inside the drum on the angle from 90 to 180 degrees along the direction of rotation of the drum, as mentioned above.

When the direction of rotation of the drum is changed in the second stage, the motor can be applied torque in the opposite direction of rotation of the drum, that is the reverse torque corresponding to "the braking phase reversal"described above. As a result, when the direction of rotation of the drum is changed in the second phase, running braking phase reversal, and large mechanical power can be applied in the second stage than at the first stage. Because linen falls from the top position by a larger number of revolutions per minute at the second stage than at the first stage, a large shock and mechanical power can be applied to pants.

The third stage may include stage, shown in FIGU (I3), the rotation of the drum with the second number of revolutions per minute until such time as the drum reaches the fifth rotation angle stage stop drum on a pre-established period of time, and the stage repeating these steps. In other words, in the third stage, the motor may rotate the drum in a given direction along with the fact that the motor rotates the drum in two opposite directions on the first and second stages.

More precisely, the motor may rotate the drum with the second number of revolutions per minute until such time as the drum reaches the fifth angle of rotation. As a result, the clothes inside the drum can rotate and can be stuck to, without separating from, internal circular surface of the drum before reaching the fifth angle of rotation. Fifth angle of rotation can be determined to be approximately 180 degrees so, as the motor is rotating drum with approximately 60 revolutions per minute until such time as the drum is not rotates approximately 180 degrees, the subject linen can rotate and climb to the top of the drum along the direction of rotation of the drum without separation from internal circular surface of the drum.

After that the motor stops the drum for a specified period of time. In some embodiments, the implementation of the motor stops the drum with the use of braking phase reversal to make powerful mechanical force to pants inside the drum, and items of lingerie can fall from the top of the drum, in order to maximize the force of falling.

These steps can be repeated, while the motor may rotate the drum continuously in a given direction, and when the drum reaches the fifth angle of rotation of the electric motor may stop the drum for a specified period of time prior to the resumption of rotation.

In some embodiments, the implementation stage of rotation of the drum in a given direction without stage sudden braking may also be provided between the second stage and the third stage, that is, between the phase rotation direction clockwise/counterclockwise and the phase rotation direction. For example, stage of overturning may be provided between the second and third stages.

The order of the second and third stages described with reference to the movement of B can be changed. More precisely, the phase rotation direction, including the stage of sudden braking, may be performed first, and the phase rotation direction clockwise/counterclockwise, which includes the stage of sudden braking, may be performed later.

Movement B, described above, can be explained by a combination of other movements described above. That is the stage of rotation of the drum with the first number of revolutions per minute in two opposite directions can be swinging movement, and the stage of rotation of the drum with the second number of revolutions per minute in two opposite directions can be atirausk movement. Stage of rotation of the drum with the second number of revolutions per minute at the specified one direction may be stepping movement. As a result, more detailed description is omitted.

Figure 4 - chart stepping movements, shown in more detail.

First of all, linen is moved from a low point in the highest point of the drum 130, as shown in figure 4 (a)-(c). As described in the tank 120 standing motionless adjacent to the drum 130, linen, placed in the drum 130, moved from the position, adjacent to the low point of the tank 120, to the highest point of the tank 120. For each move linen motor 140 applies torque force, namely torque to the drum in a given direction, which is a clockwise direction, as shown on the drawings, and the drum 130 rotates along a given direction together with linen to raise linen.

Linen can rotate together with a drum in close contact with the inner surface of the drum 130 force of friction with seizures and internal circular surface of the drum 130. Linen rises to the highest point of the drum 130, without separating from the drum 130, spin 130 approximately 60 revolutions per minute or more, since this frequency of rotation causes the specified centrifugal force needed to keep the sheets from the separation from the drum 130, up to the highest point of the drum 130.

The drum rotation frequency may change, so that produced by centrifugal force is greater than the force of gravity, giving linen can be rotated together with a drum from the lowest point of the drum 130, which is the set point of the inner surface of the drum, adjacent to the low point of the tank 120, up to the highest point of the tank 120. Linen is falling from the highest point of the drum 130 in the lowest point of the drum 130, when the drum 130 sharply decelerated in the moment or just before linen reaches the highest point of the drum 130.

More precisely, in order to brake drum 130 sharply, motor 140 supplies dryer reverse torque. Reverse torque is generated by braking phase reversal configured to supply currents reverse phase motor 140, as described with reference to figa (c). The braking phase reversal is the type of the braking using the torque produced in the opposite direction to the direction of rotation of the electric motor. Phase current in the motor, may apply to generate the reverse torque in the opposite direction of rotation of the electric motor and braking phase reversal gives a sharp deceleration of the opportunity to apply to the motor. For example, as shown in the drawing, a current is applied to the motor to spin the wheel in a clockwise direction, and then the current is applied to the motor sharply to rotate the drum in a counterclockwise direction.

The moment of time binding braking phase reversal with respect to motor 140 can be closely associated with the location of the clothes inside the drum 130. As a consequence, may be provided by the device that is used to determine or predict the location of linen, and a measuring device, for example, such as the sensor on the Hall effect configured to determine the angle of rotation, can be an example of such a device. Portion control can control the angle of rotation of the drum, using the measuring device, and control motor 140 brake phase reversal when or just before the drum is the rotation angle of 180 degrees. As a result, the drum is rotated in a clockwise direction, quickly stops in response to torque the counterclockwise direction. Centrifugal force applied to clothes, cleaned, and then linen falls in the lowest point.

Hence, as shown in figure 4 (d), the drum 130 continually rotates in a clockwise direction, and the rotation/lowering linen is repeated. Although figure 4 shows that the drum is rotating in a clockwise direction, the drum can rotate in a counterclockwise direction for implementing the stepping motion. Stepping movement is a relatively large load on the motor 140, and the overall performance ratio stepping movements can be reduced.

Before descending linen reaches the lowest point of the drum, that is, while lingerie falls, drum 130 starting its rotation for the next step motion. In this case, the drum 130 rotated by angle, and after that, linen reaches the lowest point of the drum 130. From this moment linen and dryer can rotate together. While the drum is rotated 180 degrees, as it is established, linen cannot be rotated 180 degrees, that is, in the highest point of the drum 130, and it may not fall from the highest point to obtain the required capacity of washing.

Consequently, the drum 130 managed to re-spin, as shown in figure 4 (d), after linen reaches the lowest point of the drum. That is, the drum remains at the highest point before until the price reaches the lowest point of the drum. More precisely, when the linen actually begins to fall, called stop drum 130. From the moment of sinking up to the point at which linen reaches the lowest point of the drum, the drum remains stopped and not moving. Stopped time may be greater than the time taken to linen fell to the lowest point (1) from the highest point of the drum. As a result, the drum can be stopped, for example, during 0.4 seconds or, in some versions of the implementation of 0.6 seconds to ensure sufficient time in the stop state. It provides step movement the opportunity to be implemented more precisely to deliver maximum impact load, and the required capacity of washing can be achieved accordingly.

Figure 5 - chart potteraudio movements shown in more detail.

First of all, linen is moved from the lower point of the drum 130 in the position that has been achieved after rotation 90 or more in the direction of clockwise drum 130, as shown in figure 5 (a)-(c). As described in relation to Baku 120, standing motionless adjacent to the drum 130, linen inside the drum 130 moves from given point of the inner surface of the drum, adjacent to the low point of the tank 120, to the point of the inner surface of the drum is rotated 90(or more along the direction of clockwise drum 120. To call such a move linen, motor applies torque effect, i.e. the torque to the drum 130 in the specified direction (clockwise), and then the drum 130 rotates with linen to raise linen.

Linen rotates with the drum, in close contact with the inner circular surface of the drum 130, grip and friction with internal circular surface of the drum, and not separated from the drum 130. For this the drum rotates approximately 60 revolutions per minute or higher to cause sufficient centrifugal force, so that linen was not separate from the drum 130. The drum rotation frequency can be set to trigger centrifugal force greater than gravity, considering the size of the drum, such as inner diameter. As a result, linen rotates with the drum from the lowest point of the drum to the provisions of rotation 90 or more relative to the lowest point of the drum.

Lingerie then falls out of rotation 90 or more in low point. This lowering of the linen dryer 130 dramatically slowed when linen reaches the provisions of drum rotation 90 or more. Motor 140 supplies dryer 130 reverse torque to apply a sharp slowdown to the drum. As described with reference to figa (e), reverse torque is the reverse torque generated by braking phase reversal configured to supply currents reverse phase motor 140.

Part of management may determine the angle of rotation of the drum by the use of measuring devices, as described above. As soon as the angle of rotation of the drum has a value of 90 or more of the management can control motor 140, that he was hampered by the appeal phase. As a result, the drum 130 rotating in a clockwise direction, is supplied torque in a counterclockwise direction to instantly stop the spinning and remove the centrifugal force applied to pants. As shown in figure 5 (c), linen may not fall perpendicularly torque of the counterclockwise direction, but fall into the lowest point of the drum inclined to internal circular surface of the drum. Due to the inclined lowering, linen can have a relatively large amount of friction with the inner surface of the drum in the middle of the sinking, and at the same time may be relatively large friction between objects linen and between linen and water for washing.

Before descending linen reaches the lowest point of the drum, that is, while lingerie falls, drum 130 starting its rotation reverse direction for the next step motion. In this case, the drum 130 rotated by angle, and after that, linen reaches the lowest point of the drum 130. From this moment, linen and dryer can rotate together. While the drum is rotated 90 degrees, as it is established, linen cannot be rotated 90-degrees, that is, in the highest point of the drum 130, and it may not fall from the highest point to obtain the required capacity of washing.

Consequently, the drum 130 re rotates, as shown in figure 5 (d), after linen reaches the lowest point of the drum. That is, the drum managed to keep standing up until the price reaches the lowest point of the drum. More precisely, when the linen actually begins to fall, called stop drum 130. From the point in time at which linen falls, up until linen reaches the lowest point of the drum, the drum remains stopped and not moving. The amount of time the shutdown status of the drum may be greater than the time required to linen fell to the lowest point of the drum. As a result, the stop state, supported by a drum, for example, can be set in 0.2 seconds, which is less than the stop state drum for stepping movement.

While fits a stop state-supported dryer, stepping movement can be more accurately, in order to cause maximum friction between the inner surface of the drum and linen, maximum friction between objects linen and maximum friction between linen and water for washing, and the required capacity of washing can be achieved accordingly.

6 is a graph that compares the capacity of washing and vibration level of each movement, shown in figa. The horizontal axis represents the ability of washing with easier separation of impurities contained in linen, while moving to the left. The vertical axis represents the level of vibration or noise, with higher levels while moving up, and the wash is reduced for identical clothes.

Stepping movement and otherwsie movement relevant to wash programs implemented to reduce the time of washing, when the linen is of high pollution. Stepping movement and otherwsie movement have a high level of vibration/noise and typically are not used for washing delicate fabrics and/or to minimize noise and vibration.

Perechitivayte movement has a good ability washing and low vibration with minimized damage linen and low motor load. As a result, perechitivayte motion can be used in all programs washing, especially to help dissolve the detergent in the initial stage of washing and for wetting underwear.

Tipping movement has a lower ability washing than otherwsie movement, and the average level of vibration compared with atirausk movement and perekidyvaem movement. Perechitivayte movement has a lower level of vibration, but it has a longer time washing than tilting motion. Consequently, the tilting movement can be applicable to all programmes washing and can be effective in washing program is to distribute the linen.

Squeezing the movement has the ability washing, such tipping movement, and a higher vibration than tilting motion. Squeezing motion repeats the sequence of operations of attraction of linen and to the Department of linen from internal circular surface of the drum. In this sequence of operations, water for washing is produced outside of the drum, passing through lingerie. Thus, squeezing motion can be used to rinse.

Filtering movement has a lower ability washing than squeezing motion and vibration level, such perekidyvaem movement. When filtering the movement of water through lingerie and is available from the drum, with linen in close contact with the inner circular surface of the drum. As a result, the filter movement can apply to the program for wetting underwear.

Swinging movement has the lowest level of vibration and the ability washing and can be used in the program washing with low noise and low vibration and the program for washing sensitive or delicate products.

As mentioned above, every movement from the drum drive has its own advantages, and it is preferable that these various movements from the drive drum was used to maximising benefits. Every movement from the drive drum, moreover, has advantages and disadvantages relative to the amount of linen. Even in the case of one and the same program and cycle, the various movements from the drive drum can be applied differently depending on the relationship with the amount of linen.

The inner part of the drum in the washing machine drum-type may be visible to the outside through the door. Various movements from the drive drum can be implemented in the washing program, which will be described later. As a result, the user can see different movements from the drive drum, implemented inside the drum. That is, type washing with a slight accent (tilting movement), the type of washing with strong stress (stepping movement), the type of washing with easy ofiranian (perechitivayte movement) and the type of washing with strong ofiranian (otherwsie motion) can visually identified. As a result, the user may feel that Laundry is implemented well, which can cause an improved user satisfaction in addition to the substantially improved the efficiency of washing.

III. PROGRAM WASHING MACHINE

The following steps explain the different methods of management, there are different programs washing machines, as embodied in the General terms described in the materials of this application.

A. the PROGRAM A (STANDARD PROGRAMME)

Program A is described with reference to figa. Program A is A standard program that can be used for washing the usual Laundry without any additional options. The program includes A cycle of washing, rinse cycle and the cycle centrifugation. The user can select standard program with parts 117 choice program (S710).

A.1 the wash Cycle (S730):

Wash cycle includes the stage of water supply (S733), which supplies water for washing and cleanser tank 120 or drum 130 to dissolve the detergent in the water for washing, and the stage of the cycle (S742)configured for the propulsion of the drum to wash clothes. On the stage of water supply, water is supplied from an external source of water supply in the washing machine with detergent. By improving the efficiency of the stage of water supply in preparation for the phase washing, can also be achieved efficiency of the wash cycle, including efficient cleaning and reduction of time washing.

A.1.1 determination of the number of linen (S731):

As mentioned above, stage of water supply is done in preparation for the main stage of washing. As a result, the dissolution of detergent, wetting underwear and the like can be implemented rapidly and completely. However, taking into account the capacity of the drum and the amount of water for washing, filed in the drum, the movement of the actuator of the drum can be regulated according to the amount of Laundry in the dryer on the stage of water supply. That is, the movement from the drive drum, able to more effective performance of dissolution of detergent and wetting underwear, can be selected on the basis of the number of sheets in the dryer.

The stage of determining the quantity of linen configured to determine the number of linen, placed in the drum can be implemented before the stage of water supply. On the basis of a certain number of linen, the movement of the actuator of the drum can be changed on the stage of water supply.

The number of linen can be determined by measuring the electric currents consumed to drive the drum. For example, can be measured currents consumed for the implementation of the tipping movement. For the implementation of the tipping movement of the management controls the drum to rotate with the given number of revolutions per minute, for example, 46 revolutions per minute. The current value required for the propulsion of the drum with the same number of revolutions per minute can be different depending on the number of sheets in the dryer. Thus, the number of linen can be determined based on the amount of current consumed to drive the concrete drum with a specific number of revolutions per minute at a specific movement.

If the number of sheets is relatively high enough water for washing can be served in your underwear at the initial stage of the stage of water supply and the efficiency of washing can further improve. The movement of the actuator of the drum can be changed according to the number of sheets on the stage of water supply and options stage of water supply can be defined properly.

A.1.2 water Supply (S733):

A.1.2.1 determining the type of detergent (S734):

At the initial stage of the water supply can be implemented stage determine the type of detergent to determine whether detergent supplied during the initial stage of the stage of water supply, liquid type or powder type. This stage is performed to detect motion from the drive drum, or the number of rinse rinse cycle, which will be implemented after the wash cycle. Information relating to the wash cycle and the rinse cycle, can be available to the user through part 119 display at the initial stage of operation of the washing machine. Consequently, the stage of determination of the type of detergent can be implemented at the initial stage of the stage of water supply, more precisely, before the stage of stimulating the dissolution of detergent.

A.1.2.2 facilitating the dissolution of detergent (S735):

The motion, and that motion from the drum drive to move the clothes inside the drum to stimulate the dissolution of detergent could be a movement that is configured to supply the powerful force of water for washing and linen. For example, the stepping motion configured to re-raise the linen in a rotating drum for lowering linen with internal circular surface of the drum under the brake is applied to the drum, can be implemented at the stage of stimulating the dissolution of detergent. Alternatively, otherwsie movement configured to raise the linen in a rotating drum and lowering linen according to the brake and reverse rotation of the drum to re-raise linen, can be implemented instead of stepping movement. Stepping movement and otherwsie movement movements are configured to use a sharp brake to the rotating drum to dramatically change the direction of movement of linen, and apply a strong shock to pants. In addition, the stepping motion and otherwsie movement configured to also apply strong shock to the water for washing. As a result, powerful mechanical power is issued for the initial stage of water supply to stimulate the dissolution of detergent and to improve the efficiency of the wash cycle accordingly.

In the alternative variants of the implementation phase of incentive dissolution of detergent could be implemented by the repetition of a consistent combination of stepping movements and potteraudio movement. In this case, re-combine two types of motion from the drive drum, and schemes of stream water for washing can be more varied to improve the efficiency of the wash cycle.

On a typical stage of water supply, drum cited would tipping movement, which continuously rotate the drum in a given direction at a given speed for raising and lowering linen. However, found that the time required to dissolve the detergent in the water for washing when tilting movement can be greater than when either walking or potteraudio movements or a combination. For example, the time to dissolve the detergent when tilting movement in approximate the washing machine can be about 15 minutes, while the time required to dissolve the detergent in the water for washing for stepping movement or attirude movement using the same washing machine, can be from 9 to 10 minutes. Thus, the stepping motion or otherwsie movement can quickly dissolve the detergent in the water for washing, and appropriate time-specific programs for washing must be reduced.

When walking and attirude movements linen falls, and shock lowering applied to pants along with the fact that spin and stop drum can cause powerful vortex motion in the water for washing.

Additionally, stage circulation configured for circulation of water for washing, held in the tank, and for re-supply of water for washing in the drum can be implemented at the stage of stimulating the dissolution of detergent. At the stage of circulation water for Laundry held below drum, served inside the drum, further stimulating the dissolution of detergent and wetting underwear.

In some embodiments, the implementation phase of incentive dissolution of detergent, for example, can be realized within about 2 minutes, or a different amount of time as it occurred, until then, until completed water supply. Water supply may fail at the stage of stimulating the dissolution of detergent or water can optionally be supplied, because the water level may be reduced at a later stage wetting underwear. Stage of stimulating the dissolution of detergent can be realized within a relatively short time, so as not to have a significant impact on tissue damage linen. As a result, the movement of the actuator of the drum at the stage of stimulating the dissolution of detergent each of the above programs can be atirausk movement depending on the number of sheets in the dryer.

That is the stage of stimulating the dissolution of detergent can be implemented, if a certain number of linen is set to the specified level or lower, as the movement from the drive drum, configured to sum powerful mechanical strength, can be more effective with small amounts of linen, and because of a small number of linen can maintain adequate contact with water for washing. More precisely, a small amount of linen indicates that the surface area of underwear, which has contact with water for washing, small and that the dissolution of detergent and wetting underwear can be realized mechanical force applied to the treatment of linen in a relatively short time. As a result, the stepping motion or otherwsie movement gives washing effectiveness opportunity to improve, and the period of time for Laundry to be reduced accordingly.

In contrast, if the number of linen defined at the stage of determining the quantity of linen is specified level, or above, the stage of stimulating the dissolution of detergent can be skipped. That is, if the amount of Laundry is relatively high mechanical strength is not enough, the linen was created sufficient contact with water for washing, as water for washing may be submitted in/soak twisted linen in sufficient quantity.

As a result, if the number of sheets is specified level, or above, the stage of stimulating the dissolution of detergent is skipped, and immediately begins the stage of wet linen. If the number of sheets is specified level or higher, linen can create a better contact with water for washing, to stimulate the dissolution of detergent, using stage circulation on the stage of water supply.

A.1.2.3 Wetting underwear (S736):

Stage sufficient wetting underwear water for washing may be implemented at the stage of water supply along with the dissolution of the detergent. In the case of a washing machine drum, linen optional fully immersed in water for washing, and, thus, wetting underwear can quickly be implemented at the initial stage of the wash cycle. After the stage of stimulating the dissolution of detergent can be implemented stage promote wetting underwear to promote wetting underwear. This step can be implemented after the stage of water supply is implemented to the desired degree, or up until the stage of water supply is not completed, to ensure that linen is quite saturated. Alternatively, stage of stimulating the dissolution of detergent can be implemented after completion of the water supply. The water level decreases at the stage of wet linen, and can be implemented additional water supply.

Stage wetting underwear can partially be implemented at the stage of stimulating the dissolution of detergent mentioned above and the water level can be increased sufficiently to provide water for washing possibilities to accumulate inside the drum. Consequently, stage promote wetting underwear can be implemented after the stage of stimulating the dissolution of detergent. Movement from the drive drum stage promote wetting underwear may be handled differently, compared with that at the stage of stimulating the dissolution of detergent. For example, movement from the drive drum stage promote wetting underwear may include perechitivayte movement and/or filter the traffic. In some embodiments, the implementation of the filtering movement and perechitivayte movement can be implemented one by one.

Filtering movement is the movement in which linen widely distributed to expand the surface area of underwear, and, thus, filter motion can be used for uniform wetting underwear. Perechitivayte movement is a movement in which linen re-applying, to make the water for washing, held under the drum, evenly to contact with linen, and perechitivayte movement is wetting underwear. For the widest possible use of these effects different movements from the drive drum, that is, re/consistent implementation of the filtering and perekachivayuschih movements in the given order, can maximize the effect of the stage promote wetting underwear.

If the number of sheets is specified level, or above, the movement from the drive drum stage promote wetting underwear may include filter movement. That is, if the filter motion surface area linen is expanding, and water for washing is served when the filter motion, and linen is evenly distributed without tipping over, and water for washing is equally spread in lingerie. Alternatively, or in addition to filtering movement, tilting movement can also be implemented.

If the number of sheets is set lower than the specified level, the filter and/or tilting movement can be applied during the stage of stimulating wetting underwear.

The user can choose the level of pollution of linen with part 118 choice, and overall performance ratio of the electric motor may vary according to the choice. However, a common factor of steps on the stage of water supply may vary according to the chosen level of pollution, as the total factor steps on the stage of water supply pre-installed to optimize the dissolution of detergent and wetting underwear, and because they cannot be ignored concerns about excessive damage in relation linen. If the overall performance ratio decreases, the dissolution of detergent and wetting underwear can not implemented sufficiently.

Wash cycle includes the stage of washing. To prepare for the wash stage heating could be realized between the stages of washing and water supply.

The stage of heating can be configured to heat water for washing through the use of the heater is provided for under the tank, or to raise the temperature of water for washing or drum using steam supplied inside of the drum. Consequently, the stage of heating can be implemented or ignored if necessary. That is, if you use cold air or water for technological processing of linen, stage heating could not be implemented. However, if the temperature of the water for washing pre-set to be higher than the temperature of the cold water due to temperature by default, associative associated with the selected program, or if the temperature of the water for washing chosen to be greater than the temperature of the cold water, with part 118 choice, stage of heating can be implemented.

The movement of the actuator of the drum at the stage of heating may vary according to the amount of linen. The tilting movement can be implemented at the stage of heating, regardless of the number of linen. However, as mentioned above, if the number of sheets is specified level, or below, perechitivayte movement can be implemented at the stage of heating. That is, if linen is relatively small, re-rolling of sheets in the lower part of the drum may be more effective at heating and washing than the distribution of linen. Alternatively, a small number of linen at the stage of heating, can be used in combination tipping and perekachivayuschih movements, and with a large number of linen can be used tipping movement.

Stage heating may include the preparation stage heating configured to prepare for the heat after the stage of water supply. This means that stage of water supply is terminated after wetting underwear. As a result, more accurately determine the number of linen after the stage of water supply, as the subject soaked underwear cannot differ from the items of a dry linen on the basis of the number of sheets to wetting underwear. For example, the number of subjects soaked linen can be defined more than the actual number, to wetting underwear. As a result, in some embodiments, the implementation stage of a more precise definition of the quantity of linen can be implemented at the stage of heating before washing. If the stage heating is skipped, the stage corresponding to the stage of preparation of the heating can be implemented to determine the exact number of linen. That is, if the stage heating is skipped, stage determine the exact number of linen can be implemented before the stage of washing after completion of the stage of water supply.

A.1.4 Wash (S742):

Once the stage of water supply and stage heating described above is completed, can be implemented phase washing, configured for washing clothes. The movement of the actuator of the drum at the stage of washing can be sustained by a combination of a stepper and/or overturning, and/or perekachivayuschih movements for applying powerful mechanical strength and move underwear in a variety of schemes to improve the efficiency of washing.

Alternatively, the movement of the actuator of the drum at the stage of washing can be consistent with a combination of filtering traffic and tilting movements, to continuously supply water for washing linen to improve the efficiency of washing caused detergent and washing effectiveness caused by mechanical force applied to pants.

As a result, the movement of the actuator of the drum at the stage of washing may vary according to the quantity of linen, as the movement from the drive drum, capable of generating optimal effect of washing, can be different depending on the amount of linen. The number of linen can be a number of linen defined before the stage of water supply or heating. At the stage of washing motion from the drum drive may vary according to the quantity of linen, after a certain stage of water supply.

If the number of sheets is specified level, or above, the movement from the drive drum may include filter movement and/or tilting motion. If the washing machine is not equipped for circulation of water for washing, can be implemented only tilting motion. In the case of a large number of linen, water for washing can evenly submitted in linen, and mechanical power can be applied to pants to improve the efficiency of washing.

If the number of sheets is specified level, or below, the movement from the drive drum may include stepper movement and/or perechitivayte movement to improve the efficiency of washing, while underwear is moved to different schemes with mechanical force applied to pants. In some embodiments, the implementation of the tilting movement can also be implemented with the step movement and/or perekidyvaem movement.

As mentioned above, in the standard program the movement from the drive drum on the stage of water supply, stage heating and stage of washing can raznoobraziya, and the efficiency of the wash cycle can be improved accordingly. In addition, the movement of the actuator drum at each step may vary according to the amount of Laundry in the dryer, and optimized wash cycle can be implemented accordingly.

If the user selects a level of pollution of linen with part 118 choice, the General ratio of action stage heating and stage washing can adapt. If the overall performance ratio was too high in the case where the level of pollution is relatively low, linen too damaged.

A.2 rinse Cycle (S750):

A method of controlling the rinse cycle in the program A will be described with reference to figa. Under this option exercise, rinse cycle can be implemented as part of a single program together with the wash cycle described above, or it can be implemented independently. Just for ease of discussion in the future, you will learn how to control the rinse cycle, implemented after the wash cycle, mentioned in the standard program.

A.2.1. First rinse (S751):

Once completed the wash cycle, you may be the first stage rinsing configured for water supply and for the propulsion of the drum to implement rinsing.

One or more stages of the centrifuge can be implemented in the standard program in each of the wash cycle, the rinse cycle and cycle centrifugation. For example, can be realized after centrifugation of the wash cycle, and centrifugation in the rinse cycle. These stages centrifugation can be referenced as "transitional centrifugation"to distinguish it from the cycle centrifugation, which is the last cycle of the standard programme.

The level centrifugation can be determined on the basis of the number of revolutions per minute drum. Typically, transition centrifugation can be implemented on the approximately 200 to 400 revolutions in one minute and, for example, approximately 400 rpm in the program for sensitive fabrics, approximately 600 rpm in weak program, approximately 800 rpm in the middle of the program and approximately 1000 rpm in a strong program. The number of revolutions per minute drum for the transition centrifugation can be selected on the basis of a lower frequency resonant frequency and the top of the resonance frequency during operation depending on the current operating parameters.

The resonance frequency is your own physical value washing machines, and vibration washing machine radically increases the resonance frequency of approx. If the drum is rotating at a frequency of about resonance and linen are not distributed evenly, vibration washing machines will be very sharply increase. As a result, if centrifugation is implemented with the given number of revolutions per minute higher than the resonance frequency, phase untangling linen typically implemented would be to distribute the clothes inside the drum, and it is measured the vibration. If the measured vibration is less than the preset value, the phase of acceleration can be implemented to be out of band resonant frequencies.

As the supply of water and rinse repeated more times in the rinse cycle, the time required by the transitional centrifugation, realized in the middle of rinsings, it would be longer. To take measures in response to concerns about the residual detergent remaining after completion of the wash, rinse stages can be implemented at least three times or more in the rinse cycle. Transitional centrifugation implemented at this time, can add significant time to the rinse cycle, resulting in a too long rinse cycle. Under this option exercise, the number of revolutions per minute with the transition centrifugation, which is realized in the middle of the water and rinse may vary. That is, the drum can rotate with the given number of revolutions per minute, lower than the lower resonance frequency at a given specific transitional centrifugation, and with the given number of revolutions per minute higher than the top of the resonance frequency, and the other given specific transitional centrifugation.

When specific transitional centrifugation is implemented by the number of revolutions per minute, lower than the lower resonance frequency, the time required additional step untangling linen, step measures the amount of vibration and during acceleration, may be unnecessary, thus potentially reducing the time required by the rinse cycle. The number of revolutions per minute of this transition centrifugation can be set to be approximately from 100 to 110. In contrast, if specific transitional centrifugation is implemented by the number of revolutions per minute, lower than the lower resonance frequency, the time required by the rinse cycle, can be reduced, but the water for washing, including detergent, may not be discharged in full.

High-speed centrifugation (s752, granting) can be implemented at the initial stage of the first stage rinsing after the wash cycle in the standard program. In high-speed centrifugation drum can rotate with a higher number of revolutions per minute than the top resonant frequency, from the condition that the maximum amount of water for washing could be discharged from linen. For example, the number of revolutions per minute can be set to be approximately 1000 rpm. Stage high-speed centrifugation can continuously rotate the drum at high speed, i.e. approximately 1000 rpm, regardless of the user's selection so that the cleanser may discharge carefully before rinsing.

As soon as high-speed centrifugation completed the first phase of driving drum (S753) can be implemented for the propulsion of the drum after supplying water to rinse the clothes. The level of water for rinsing can be relatively high level, allowing the water level to be visible through the door, so linen immersed in water for washing. Thus, a significant amount of water for washing may be submitted for rinsing the linen on the initial stage of the rinse cycle.

Movement from the drive drum during the first driving drum can be atirausk and/or swinging motion to move the maximum number of linen, submerged in water for washing, for improved performance rinse. These otherwsie and rocking motion correspond to the sequence of continuous operations manual ottiene underwear under water for washing after diving linen to the wash water. Tipping and stepping movements correspond to the sequence of operations is repeated move linen in and out of the water for washing. As a result, the first phase of driving drum can control the drum that was set in otherwsie and/or shaking movement of high water, which allows the user to visually recognize that implemented sufficient to rinse. In the alternative variants of the implementation phase circulation configured for circulation of water for washing, held in the tank, the drum can be implemented during the first driving drum. Water for washing is sprayed into the bowl for washing linen. This sequence of operations can be specified by reference as "spray rinsing". It also appears to the user as it can be visible through the door that is implemented sufficient to rinse.

Once the first phase of driving drum completed, can be implemented the first phase of the water drain and transition centrifugation (S754). During the discharge drum water can operate stepper and/or tilting motion. Linen rises and falls to improve the efficiency of washing, and produced bubbles to improve the efficiency of washing. Movement from the drum drive may vary according to the amount of linen. In the case of a small number of linen, the drum is in walking motion to generate the maximum distance between lifting and lowering. In the case of a large number of linen, the drum may be referred to in the tilting movement.

Transitional centrifugation may be implemented at approximately from 100 to 110 rpm at the first junction of the water and the transition centrifugation. In this case, the phase untangling linen, stage vibration measurements and the stage of acceleration can be omitted, and the time required may be significantly reduced.

In the alternative variants of the implementation phase of the first water drain and transition centrifugation in the standard program, transitional centrifugation can be implemented with close to 400 revolutions in one minute, higher than the lower resonance frequency. In this case, stepper and/or tilting movement can be realized when the water is drained, and linen distributed enough. Consequently, stage untangling linen can be omitted. Even at speeds higher than the lower resonance frequency, transition centrifugation can be implemented in a short time, with the stage vibration measurements and single stage of acceleration. Such transitional centrifugation can be implemented with relatively high number of revolutions per minute to reset the cleanser and pollution that are undergoing a failure to discharged through a phase of high-speed centrifugation. However, in the case where the value of the vibration is measured on the stage vibration measurement is out of range, stage vibration measurements can be repeated in order not to perform the entrance to the stage of acceleration, and the washing could adversely increase. Consequently, stage vibration measurements can be implemented at a speed of drum approximately from 100 to 110 rpm, and if the stage of acceleration cannot begin within a specified number of times implementations stage vibration, the first stage of the water drain and transition centrifugation can end.

The second stage rinsing (S756) can follow the first stage rinsing. The second stage rinsing may include a second phase of driving drum (S757) and the second stage of the water drain and transition centrifugation (S758). The second stage of driving drum can be essentially the same as the first phase of driving drum described above. Besides, the second stage of the water drain and transition centrifugation can be essentially the same as the first stage of the water drain and transition centrifugation. However, the transitional centrifugation is implemented at approximately from 100 to 110 rpm on the second stage of the water drain and transition centrifugation, to reduce the time of rinsing as the cleanser were dropped on stage high-speed centrifugation and the first draining the water and the transition centrifugation.

Rinse cycle can use the step definition determine the type of detergent.

If the detergent is liquid-type, a relatively small amount of detergent may remain, and the second stage rinsing can be omitted to reduce the time required by the rinse cycle. If the detergent powder is a type of the first rinsing and the second stage rinsing can be executed by default.

If the detergent is liquid type, the third stage rinsing (S760) can serve as a final rinse after the first stage rinsing. If the detergent powder is the type, the third stage rinsing can serve as a final rinse after a second rinse. However, when the bubbles are detected at the stage of the third rinse (in the case of detergent powder type), the fourth stage rinsing can be implemented as a final rinse.

The water level of the final rinse (S760) may be relatively low. In the case of washing machines type with tilted drum with dryer, tilted at a given angle, the water level can be specified level, sufficient to supply water only given the lower part inclined drum. That is, the water level may be such that it is not perceived and invisible from the outside washing machine. However, this level of water is given in order no longer to form bubbles in lingerie. Even if bubbles are formed, bubbles are formed in the tank, and not in the drum, in order to prevent excessive accumulation. As a result, the user can visually identify that the bubbles are not formed for the final rinse, and satisfaction with the quality of the functioning of rinsing can be improved.

The third stage rinsing (S762) can be implemented after the third stage of driving drum (S761) at the stage of final rinse, to implement the cycle centrifugation. The drum can operate stepper and/or otherwsie motion to distribute the linen on the third stage water drain.

A.3 Cycle centrifugation (S770):

How the loop control centrifugation in the standard program will be described with reference to figa. Cycle centrifugation can be implemented as part of a standard cycle, together with the wash cycle and rinse cycle, independently or as a single program. Just for ease of discussion in the future, you will learn how the loop control centrifugation implemented after the wash cycle and rinse cycle, the components of the standard program.

A.3.1 Detangling underwear (S771):

Cycle centrifugation may include stage untangling linen configured for untangling linen by driving drum for uniform distribution of linen. Cycle centrifugation provided to minimize vibration generated when the drum rotates at high speed. If the drum is given in walking and/or otherwsie movement on the stage of the discharge of water directly after the loop centrifugation, linen probably should unravel to a given extent, a stepper and/or atirausk movement, and the time required step untangling linen, may be significantly reduced.

A.3.2 Measurement of eccentricity (S773):

After the stage of untangling linen, the value of the eccentricity when rotating drum with the given number of revolutions per minute, lower than the lower resonance frequency, within a specified period of time can be measured by means of acceleration of the drum and to determine whether distributed linen evenly inside the drum.

Stage of eccentricity measuring cycle centrifugation in the standard program according to another version of the implementation can be implemented before the stage untangling linen. A significant amount of untangling linen could be implemented by a motion from the drum drive the rinse cycle. As a result, the cycle centrifugation can begin with the measurement stage of eccentricity to reduce the cycle time of centrifugation. If the measured eccentricity in comparison with the control value of the eccentricity is defined as satisfactory, can be implemented acceleration, which will be described later. If the measured eccentricity unsatisfactory in comparison with the control value of the eccentricity, can be implemented stage untangling linen. The drum may be referred to in the step movement on the stage of untangling linen to stimulate untangling linen, and phase measurements eccentricity may re-start after the stage of untangling linen.

A.3.3 the normal Acceleration and centrifugation (S775):

After the stage of eccentricity measurement can be realized stage of acceleration of rotation of the drum to the number of revolutions per minute normal centrifugation (the stage of acceleration). After this stage normal centrifugation configured to rotate the drum with the number of revolutions per minute normal centrifugation, can be implemented to end the cycle of centrifugation. Frequency of rotation of the drum normal centrifugation can be set by default to be approximately 1000 rpm. That is, the amount of moisture contained in linen, may be reduced as much as possible to minimize the remains of the detergent. The number of revolutions per minute normal centrifugation can be changed according to user's choice, as the number of revolutions per minute normal centrifugation associated with residual moisture level and the level of the folds of the linen after a complete cycle of centrifugation. As a result, the user can choose the number of revolutions per minute stage normal centrifugation related to the moisture level and the level of the folds of the linen.

B. PROGRAM B (PROGRAM FOR HEAVY CONTAMINATION):

Program B for the heavy pollution, in which the strong contamination should be removed from the items of underwear, will be described with reference to Fig. The program for heavy soiling can be selected on the part of 117 choice program (S810).

B.1 the wash Cycle (S830):

B.1.1. Determination of the number of linen (S831):

As soon as the selected program for heavy soiling can be implemented stage determine the number of sheets to determine the number of sheets that are loaded into the drum. The method for determining the number of linen can be similar to that described above under the standard program, and, thus, re-description will be correspondingly lowered. The stage of determining the quantity of linen could be sold to the selection stage of the program.

Part of the management compares the number of linen defined at the stage of determining the quantity of linen, with reference value and controls the movements of the drive drum stage of water supply and phase washing, which will be described later, on the basis of the comparison. Essentially, a certain number of linen, more than the reference value, can be considered a heavy workload, and a certain amount of linen, lower than the reference value, can be considered a small download. Describes the movement of drum drive each stage according to some amount of linen.

B.1.2 water Supply (S833):

On the stage of water supply part of the control device of water supply (for example, a tract of water supply and water supply valve), United with the source of water supply and tank, to supply water for washing in the tank. If the number of linen, measured at the stage of determining the quantity of linen, less than the reference value, portion control can manage to drum operated tilting movement, and/or step movement, and/or otherwsie movement, and/or filtering traffic and/or perechitivayte movement.

First, if linen is loaded in a drum, confused, would get called eccentric rotation of the drum, and the part of management can manage to drum operated tilting movement on the stage of water supply, for untangling linen. When tipping movement drum rotates in a given direction, and linen falls in the lowest point of the drum out of position almost 90 or more relative to the direction of rotation of the drum, from the condition that twisted linen could unravel and evenly distributed.

Portion control manages to drum rotates at a walking motion and/or attirude movement, so shock lowering applied to pants loaded in a drum. Stepping movement and otherwsie movement may apply for easy removal of insoluble impurities. As a result, once the drum is in walking motion and/or otherwsie movement, insoluble impurities can be removed at the stage of water supply, and can be achieved short time saving and improved efficiency of washing.

If the number of sheets is higher than the reference value, the part of management can manage to drum operated tilting movement and/or filter the traffic on the stage of water supply. If the number of sheets is relatively high, more accurately, is higher than the reference value, the drum is configured for sudden braking drum, such as stepping movement and/or otherwsie movement, may impose too great a burden on the motor. When extending the initial effect of a stepper and/or potteraudio movement, which is the attachment of shock lowering, could not be achieved. Thus, stepper and/or otherwsie movement is not implemented when a large number of linen loaded in the wash drum. Moreover, if a large number of linen loaded into the drum, the effect of wetting underwear caused perekidyvaem movement, with a relatively low speed, cannot effectively be achieved, and therefore instead of tilting movement can be implemented for wetting underwear. In the end, if the number of sheets is higher than the reference value, the drum may be referred to in overturning and/or filtering traffic from the condition that the effects of the distribution of linen, removal of insoluble impurities, wetting underwear and dissolution of detergent, mentioned above, could be achieved.

B.1.3 Wash (S835):

After the stage of water supply is completed, you may start the stage of washing programs for heavy pollution. Stage of washing programs for heavy pollution may include stage soaking, stage remove dirt and stage removal of residual contamination. In this case water for washing, having different temperatures, may be submitted at each step, and each step can be implemented accordingly.

B.1.3.1 Soaking (S836):

Stage soaking is a sequence of operations soaking clothes in cold water to loosen the heavy impurities contained in lingerie. Relatively cold water, for example, having a temperature of about 15 C, is used at the stage of soaking to weaken protein components in heavy pollution attached to the underwear in a long time. If these protein components in contact with heated water, these heavy pollution tend strongly to harden in linen and is difficult to separate them from linen. Consequently, stage soaking may be implemented using cold water to prevent severe contamination with protein components from attaching to pants.

If the number of sheets is less than the preset value, the motor can lead dryer in stepping movement. Tipping movement and/or perechitivayte movement can be added after stepping movement. Since stepping movement has an excellent ability Laundry and a reduced time of washing, heavy pollution, attached to pants, can zakachivaetsja, and shock is applied to pants. As a result, stepping movement has the effect of stimulation of separation of heavy impurities from linen.

If the number of sheets is higher than the reference value, the drum may be referred to in the tilting movement and/or perechitivayte movement during immersing. That is, if a measured quantity of linen is greater than the specified reference value, the stepping motion can not be implemented due to excessive load, which was applied to the motor. As noted above, the stepping motion applies shock lowering to pants inside the drum and to improve the efficiency of washing. However, if the amount of Laundry is great, walking motion can not be implemented. When the number of linen is higher than the reference value, the stepping motion also not implemented in phases remove dirt and removal of residual pollution, which will be described later.

B.1.3.2 Removing dirt (S837):

After soaking, can begin the step of removing dirt, configured to heat water for washing in the range between 35 degrees C to 40 C to remove heavy pollution. The temperature of the water for washing, used at the stage of removing dirt, installed between between 35 degrees C to 40 degrees C, as components of sebum contained in heavy pollution, can more easily removed with a temperature that is similar to the temperature of the human body. The heater is provided on the bottom of the tank, or feeder moisture configured for supplying heated, moisture, such as steam, the tank can be used to raise the temperature of water for washing within the specified range.

During removal of pollution of the management can control the motor, so he put a spin on the tilting movement and/or perechitivayte movement, if the number of linen is the reference value or less. Tipping movement and/or perechitivayte movement can make low load to the motor and reduce the time of washing with high efficiency washing. As a consequence, can be achieved abbreviated wash.

B.1.3.3 the Removal of residual pollution (S838):

Portion control can implement stage removal of residual pollution, configured for water heating for washing, so she had a temperature of about 60 C, and for sterilization and bleaching linen, after the stage of contamination. The temperature of the water for washing can be approximately 60 C or above on stage, removal of residual contamination to sterilize and bleaching linen.

At the stage of removal of residual contamination of the management can control the drum that it was set in step movement or sequence step, and/or overturning, and/or perekachivayuschih movement, if the number of sheets is less than the reference value.

If the number of sheets is higher than the reference value, the part of management can manage to drum operated filtration movement and/or tilting movement on the stage of removal of residual pollution.

B.2 rinse Cycle (S850):

Rinse cycle programme for heavy soiling can be similar to the rinse cycle standard programs described above, and rinse cycles of other programs, which will be described later. Thus, the re-description of the rinse cycle will be omitted.

B.3. Cycle centrifugation (s 870):

Cycle centrifuge programme for heavy soiling can be similar cycle centrifugation standard programs described above, and cycles centrifugation other programs, which will be described later. Thus, the re-description of the loop centrifugation will be omitted.

C. a C PROGRAM (PROGRAM FOR FAST BOILING):

A C program will be described with reference to figure 9. A C program can be specified by reference as quick boiling", configured for water heating for washing up to the set temperature in a relatively short time, to achieve the effect of sanitary boiling linen, such as in a loop sanitation.

Typically, for sterilization and bleaching linen water for Laundry held in the tank, heated to preset the set temperature, and then realized wash. Because the washing time is relatively long, and power consumption is relatively high only for heating the water for washing, requires a long time and a large electric power to heat water for washing, held in the tank to the desired temperature. In the program for fast boiling linen can be sterilized and otbelivala, moreover, along with reducing the total time of washing and energy consumption. The program for fast boiling heat water for washing, served in a tank, for a predetermined period of time, regardless of water temperature for washing instead of heating the water for washing up until water for Laundry reaches the set temperature. To take into account the ability of washing, stage of compensation time phase washing, provided in the program fast boiling, according to the temperature of the water for washing can be included in this program for washing, as will be described with reference to figure 9.

First, the user can choose the program for fast boiling with parts 117 choice program (S910). Then, the control implements a configuration pass of time stage washing of the program for fast boiling. This configuration pass of time washing gives management the opportunity to determine the time required stage washing of the program for fast boiling, which is stored in a storage device, such as a memory. This stage may be implemented simultaneously with the selection stage of the program or the stage of water supply.

C.1 wash Cycle (S930):

C.1.1 determination of the number of linen and time settings wash (S931):

As the user selects a program for fast boiling, part management can implement the stage of determining the quantity of linen configured to measure the amount of linen, and the configuration phase, time of washing, configured to set the time required by stage washing of the program for fast boiling, on the basis of a certain number of linen. Portion control can use the time taken to rotate the drum into a certain position, to determine the number of linen, as described above, or the time remaining rotation after rotation of the drum within a specified time.

During the configuration time of washing the part of management may choose the wash, corresponding to the measured quantity of linen, of relevant times, stored in memory. Variety of time required stage washing of the program for fast boiling, stored in a storage device, such as memory, so when the selected program for fast boiling, the proper time, stored in memory can be selected part of management.

C.1.2 water Supply (S933):

Wash cycle program for fast boiling may include stage of water supply, configured to supply water for washing in the tank. On the stage of water supply part of the control device of water supply (for example, a tract of water supply and water supply valve connected to the water supply and Baku, to supply water to the tank. Besides, part of management manages the drum that it was set in motion from the drive drum, like the movement of the actuator drum stage of water supply, for example, programs for stubborn dirt, described above, and thus, for more detailed description will be omitted.

C.1.3 Stage water temperature in/compensation (S935):

Once the water served in tank, some control measures the temperature of the water for washing, using temperature temperature sensor provided for in a washing machine, and compares the measured temperature with temperature control to adjust the phase washing.

For example, part of management can compare the measured temperature of the water for washing with the control temperature, for example, higher than about 50 C. If the measured temperature is higher than the control temperature, for example, if the hot water is pumped to the tank, part of management can implement stage washing of the hour. However, if the measured temperature is lower than the control temperature, part management can implement the compensation is configured to set the stage washing.

As mentioned above, the stage of washing can be implemented after heating water for washing in the course of a specified time period in this program, regardless of water temperature. As a result, the temperature of the water for washing, held in the tank, can be different depending on temperature of water delivered into the tank after the completed stage of heating, and would be the difference in the ability of washing, due to the difference in water temperature. As a result, a stage of compensation to minimize differences in the ability of washing by water for washing, with different temperature during heating. If the temperature of the water for washing lower than the control temperature, time of phase washing increases in order to offset the ability of washing at a lower temperature.

The number of control temperatures are used to determine the temperature range can be custom properly. For example, in one of the variants of implementation can be provided by a single control temperature and the alternative variants of implementation may provide a lot of control temperatures. When the temperature of the water for washing higher than the first control temperature (for example, 50 (C), and there are three control temperature, that is provided by the first, second and third control temperature, part management can implement phase wash immediately. When the measured temperature of the water for washing is lower than the control temperature, and higher than the control temperature, the second control temperature (for example, 40 C) is lower than the control temperature (for example, 50 (C), and when the measured temperature is lower than the control temperature, and higher than the third control temperature, the third control temperature (for example, 30 degrees C) is lower than the control temperature (for example, 40 C), and when the measured temperature is lower than the third control temperature, is the stage of compensation configured to compensate for the time of phase washing, predefined during the configuration time of washing.

When that stage of washing compensated, part management can adjust the extra time that it is different depending on the temperature of the water for washing. The ability washing essentially proportional to the temperature of the water for washing. Consequently, the lower the measured temperature of the water for washing, the longer the extra time. The control temperature and the time range that is added at the stage of compensation can be set on the basis of the capacity of washing machines and other such factors.

C.1.4 Heating (S937):

As soon as the preset time stage washing compensated at the stage of compensation stage heating configured to remove contaminants contained in linen, through movement drum for simultaneous heating of water for washing, can be realized within a specified time period. The stage of heating can be implemented as an independent stage or as part of phase washing, which will be described later. Just for ease of discussion in the description of this program stage heating is described as part of phase washing.

C.1.5 Wash (S939):

Movement from the drive drum stage washing of the program for fast boiling may include walking motion, and/or tilting movement, and/or perechitivayte movement.

When walking motion drum rotates with a constant speed, providing linen opportunity not to fall from the inner circular drum surface due to the centrifugal force. When linen is located near the highest point of the drum, reverse torque is applied to the drum. As a common factor of actions walking motion is regulated, the load applied to the motor is greater for stepping movement than with other movements. Consequently, if the stage of heating, configured for water heating for washing, continued during the walking motion, power consumption would increase and could be a security problem due to the increase in current value. As a result, the stage of heating can be realized within a specified time after completion of the step movement.

Stage heating configured from the condition that the heater is not operated for a specified period of time the heat, and optional as long as the temperature of the water for washing is not reaching the set value. This provides time and electric power, the required phase washing, the ability to predskazyvat, and the user be notified predicted data. In addition, the stage of washing can be realized only within essentially the same given time, regardless of water temperature for washing, filed on stage washing of the conditions that could reduce energy consumption and a Laundry.

Hence, part of the control can control that were tilting movement and/or perechitivayte movement. In this case, the tilting movement and/or perechitivayte movement may be implemented simultaneously with the beginning stage of heating. Tipping movement and perechitivayte movement make low load to the motor and have good ability washing with reduced time washing. As a result, the tilting movement and perechitivayte movement can achieve the effect of reducing the time of washing required by phase washing, and the effect of good abilities washing, even at the stage of washing implemented with the use of water for washing, having different temperatures.

C.2 rinse Cycle (S950):

Rinse cycle program for fast boiling may be similar cycles rinsing programs described above, and rinse cycles of other programs, which will be described later. So its more detailed description will be omitted.

Cycle centrifuge program for fast boiling may be similar cycles centrifugation programs described above and cycles centrifugation other programs, which will be described later. So its more detailed description will be omitted.

D. PROGRAMME D (PROGRAM FOR COLD WASHING):

Programme D for cold washing will be described with reference figure 10. Programme D for cold washing configured for washing clothes without water heating for washing, saving energy without deterioration of the required capacity of washing. As a result, this program measures the temperature of the water for washing, served in a tank, the measured temperature is compared with a set temperature, and the operating parameters are set appropriately, giving the opportunity to preserve the ability of washing. For example, if the temperature of the water for washing does not reach the control temperature on the basis of the comparison, the wash compensated sufficiently to provide targeted capacity washing in the program for cold wash.

First, the user can select a program for cold cleaning with parts 117 choice program (S1010). As the user selects a program for functional service, part of management can implement the washing, rinse cycle and/or cycle centrifugation one by one or selectively.

D.1 wash Cycle (the first variant of implementation) (S1030):

D.1. Determination of the number of linen/time setting wash (S1031):

As the user selects a program for cold washing, portion control can implement the stage of determining the quantity of linen configured to measure the amount of linen, and the configuration phase, time of washing, configured to set the time required by the stage of washing programs for cold washing, on the basis of the measured quantities of Laundry. At the stage of determining the number of sheets of the management can use the time required to drum rotation to the given position, or the time remaining drum rotation, to measure the amount of linen, as described above. During the configuration time of washing the part of management may choose the wash, corresponding to the measured quantity of linen, of relevant times, stored in memory, according to the number of linen.

D.1.2 water Supply (S1033):

Once the water for washing served in tank, part of management can measure the temperature of water for washing the unit of measurement temperature provided for in a washing machine. Portion control can compare the measured temperature control temperature (15 C). If the measured temperature of the water for washing is a control temperature or greater, part of management can implement phase washing, without compensation of time washing the amount of linen. If the measured temperature is lower than the control temperature, part management can implement the compensation is time washing. In this example, the temperature of 15 C, presented as an example of the critical temperature, allowing the ability washing with cold water, and the control temperature test the ability of washing with cold water. As a result, if the measured temperature of the water for washing is lower than the control temperature, part of management can adjust the time of the phase washing, set during the configuration time of washing. For example, if the measured temperature is lower than the control temperature, part management can add a specified time to time phase washing, to prevent deterioration of washing through the use of cold water for washing, having a lower temperature than the reference value. For example, if the measured temperature of the water for washing is less than approximately 10 degrees C., 10 minutes can be added to the time of phase washing at the stage of compensation time washing. For example, if the measured temperature is higher than 10 C and less than 15 C, 5 minutes can be added to the time of phase washing.

D.1.4 Wash (S1037):

Once that stage of washing offset, number of linen, measured at the stage of determining the quantity of linen, mentioned above, is compared with the reference value of the number of linen, and can be implemented phase washing, which includes different movements from the drive drum, implemented according to the amount of linen. Control the number of linen can be pre-installed on the basis of the number of underwear, which provides the ability to run stepping movement, given the size of the drum and the output power of the electric motor. For example, control the number of linen can be half the capacity of the Laundry washing machine (approximately 5-6 kg in a washing machine with a capacity of 11 kg). First will be described a case in which the measured value is the number of linen is lower than the reference value of the number of underwear, and then described a case in which the measured value is a reference value or more.

When the measured value of the number of linen is lower than the reference value of the number of underwear, some controls stepper movement, and/or tilting movement, and/or perekidyvaem movement that were implemented during washing. Stepping movement applies shock lowering to pants loaded in a drum, and pollution contained in linen, can easily be removed, even if you use cold water. If lingerie entangled during phase washing, can be called eccentric rotation of the drum. Thus, the part of management leads dryer in the tilting movement and/or perechitivayte movement to unravel and distribute confusing linen.

When the measured value of the number of linen is the reference value or greater part of management controls to filter traffic and/or tilting movement were realized during washing. If the number of linen is the reference value, or a big, big load size makes it hard for the effect of applying shock to pants while walking motion and effect of putting underwear on internal circular surface of the drum under perekidyvaem movement. As a consequence, may be implemented filtering movement and tilting movement, individually or one after the other, to achieve the effect the ability of washing and distributional effects of the linen.

D.1' wash Cycle (the second option exercise) (S1130):

11 - chart program for cold wash according to the second variant of implementation, as is described in the materials of this application.

In comparison with the program for cold wash according to the first variant of the implementation of the program for cold wash according to the second variant of the implementation skips time settings washing and phase compensation, and in return heats the water for washing with the use of the heater, if the temperature of the water for washing lower than 15 C. that is, in washing cycle according to the second variant of implementation defined (S1131) number of linen, and stage of water supply (S1133) can be implemented immediately, without time settings washing. After that the temperature of the water for washing is measured (S1135) for the implementation phase of the cycle (S1137). Movement from the drum drive the drum may vary according to the quantity of linen at the stage of washing on the second version of the implementation, which is similar to the first variant of implementation described above. Phase washing, according to the second variant of the implementation optionally include the stage of heating, based on measured water temperature for washing.

Will be described a case in which the number of linen, measured at the stage of washing is lower than the reference value, in which the motion of the actuator of the drum drum includes a stepper movement, and/or tilting movement, and/or perechitivayte movement.

When the measured temperature of the water for washing is lower than the reference value, walking motion is realized after the beginning of the stage of washing. After stepping movements can be implemented stage heating configured for water heating for washing using a heater or feeder moisture stipulated in the tank. Stage heating begins after stepping movements, as the stepping motion puts increased load to the motor, as mentioned above. Thus, the problem of security, and decreased ability washing can occur if the stage of heating and stepping movement are implemented simultaneously. Moreover, if the stage heating is realized before stepping movement to avoid the above problems, the wash adversely would rise. Thus, in this embodiment, the stage of heating begins after completion of the step movement.

At the moment when you run stage heating of the management can consistently implement the tilting movement and perechitivayte movement. Tipping movement and perechitivayte movement are not forced to worry about the deterioration in the deterioration of washing and security, and may reduce the wash, even if they are implemented simultaneously along with the stage of heating.

The temperature of the water for washing re-measured after the stage of heating, and is determined reaches whether re-measured temperature control temperature. When the temperature of the water for washing reaches the control temperature phase of a heat can end. However, if the temperature of the water for washing is undergoing the failure to achieve the control temperature phase of a heat may continue during the stage of washing. That is, even if the temperature of the water for washing, heated at the stage of heating, undergoing the failure to achieve the control temperature, if the stage of washing ends, the stage of heating also ends.

If the measured temperature is the temperature control to or greater part of management leads dryer in walking motion, and/or tilting movement, and/or perechitivayte movement is essentially the same as the motion of the actuator drum according to the first variant of implementation, and thus, their additional description will be lowered accordingly.

If the number of linen is the reference value, or a large phase washing, portion control can lead dryer in the filtration movement and/or tilting motion. At this time can be a stage of warming if the measured temperature of the water for washing is lower than the control temperature. As described above, the drum is not given within walking movement during heating.

D.1" wash Cycle (the third option exercise) (S1230):

Fig - chart program for cold wash according to the third variant of implementation, as is described in the materials of this application.

In comparison with the program for cold wash according to the first variant of implementation described above, the program for cold wash according to the third variant of implementation delivers warm water in the tank, if the temperature of the water for washing, served on the stage of water supply, lower than approximately 15 degrees C. that is, after determining the number of linen (S1231), part of the management can implement stage of water supply (S1233), configured to supply water for washing in a tank on the basis of a certain number of linen, skipping the configuration phase, time of washing and compensation time.

Rinse cycle programmes for cold washing can be like rinse cycles programs described above, and rinse cycles of other programs, which will be described later. As a result, its more detailed description will be omitted.

D.3 Cycle centrifugation (S1070, S1170, S1270):

Cycle centrifuge program for cold washing may be similar cycles centrifugation programs described above and cycles centrifugation other programs, which will be described later. As a result, its more detailed description will be omitted.

E. THE E (PROGRAM FOR NON-FERROUS PRODUCTS):

The E is described with reference to Fig. The program E can be referenced as "the program for non-ferrous products are configured for more efficient washing items coloured fabrics. When washing items colored linen can be a problem of transfer of colors, which can cause the color transitions between color products, fading, the problem of education of down and the problem of formation of pellets. The above color transition could probably be called at the time, as is a large static friction between the dryer and linen. This program may include stage temperature control, configured to prevent color transition through regulation of temperature of water for washing, stage washing of non-ferrous products, configured for driving drum to prevent the formation of the down and pellets, and stage rinsing. The stages will be described in detail, as set out below.

E.1 the wash Cycle (the first variant of implementation) (S1330):

E.1.1 water Supply (S1331):

On the stage of water supply of the management manages cold water so that she was fed into the drum. The color transition probably should occur in the water for washing higher temperatures. On the stage of water supply of the management can control the electric motor to bring the drum in a swinging motion or filtering movement or a combination of both. Stage of water supply can be provided for supply of water for washing required to wash clothes in the dryer and wetting underwear loaded in the drum, in the water for washing. As a result, the drum is in the filtration movement on the stage of water supply from the condition that the wetting underwear could be implemented effectively. In addition, the drum may appear rather swinging movement on the stage of water supply than filtering movement. Swinging movement can minimize the movement of clothes inside the drum compared with other movements, to minimize the formation of the down and the formation of pellets, which could form a friction force between objects linen.

D.1.2 Stage of measurement of temperature of water/heating (S1333):

Once the stage of water supply is completed, part of management can measure the temperature of the water for washing, filed into the tank. When the measured temperature is a control temperature or greater (for example, 30 C or 40 C), part of the control can start stage wash immediately. When the measured temperature is lower than the control temperature (for example, cold water, because the water for washing, served at the stage of water is cold water), part of the control can start the stage of heating, configured for water heating for washing. In some embodiments, the implementation temperature (temperature control) water for washing, providing the opportunity to begin phase washing, can be set to be 30 C or 40 C, as the temperature of the water for washing, allow to maximize the ability of washing along with minimizing color transition, is in the range from 30 C to 40 C.

Stage heating heats the water for washing fed to the tank with the use of the heater is provided on the bottom of the tank, or device of vaporization configured for steam supply to the tank.

E.1.3 Wash (S1335):

When the stage of heating gives the temperature of the water for washing the opportunity to achieve the control temperature (30 C or 40 C), part of the control can start the stage of washing. At the stage washing of the management can control the drum that it was set in motion from the drive drum, which can minimize the effect of mechanical friction, to prevent the formation of the down and pellets, and to achieve the requisite ability washing. For example, part of management can control the drum that he had cited in a rocking motion and/or step movement on the stage washing of the program. This step movement and rocking motion can be implemented one after another, and consistent implementation can be repeated.

Swinging movement of the drum rotates in both directions and lowers linen from approximately 90(or less relative to the direction of rotation of the drum. Swinging movement applies rheostatic braking the motor, since the physical friction applied to pants, maybe as much as possible to decrease along with maintaining a given level of performance of washing. As a result, the probability of formation of the down and pellets, which can be generated by the friction between objects linen or between linen and drum, can be minimized.

As mentioned above, the stepping motion drum rotates at a preset speed, providing linen opportunity not to fall with internal circular surface of the drum centrifugal force, and then applies sharp braking drum in order to maximize the impact load, applied to pants. Consequently, stepping movement has excellent ability of washing and sufficient to compensate for the inadequate capacity of washing rocking motion. The amount of time that is the stepping motion may be shorter than the number of time for which runs swinging movement, to minimize the probability of formation of the down and pellets.

E.1' wash Cycle (the second option exercise) (S1430):

Fig - chart program for non-ferrous products according to the second variant of implementation. Unlike the above program according to the first variant of the implementation of the program for non-ferrous products according to the second variant of implementation provides step of measuring the temperature of the water and the stage of heating the opportunity to be implemented at the stage of washing (S1433) after the stage of water supply (S1431). If the phase measuring the temperature of the water and the stage of heating implemented before phase washing, Laundry adversely would rise. As a result, this implementation is a program for color products, capable to reduce time of washing, compared with the first option implementation.

After the stage of water supply (S1431) portion control can control the drum that it was set in step movement and/or shaking movement on the stage of washing, and at the same time can be determined whether the temperature of the water for washing the control temperature (for example, 30 C or 40 C) or more. When the temperature of the water for washing is a control temperature or more, on the basis of the definition, part of management manages the drum that he was constantly set in motion according to the stage of washing. When the temperature of the water for washing is lower than the control temperature, portion control can start the stage of heating, configured for water heating for washing.

Portion control can control the drum that he was not resulted in stepping movement on the stage of heating. That is, at the stage of heating, part of management leads dryer in swinging movement, not in walking motion. The reason why the stage heating is not implemented together with the stepping motion described in the above programs, and thus, for more detailed description will be omitted.

E.2 rinse Cycle (S1450):

Portion control can start the rinse cycle after the wash cycle. Portion control can control the drum that it was set in the filter movement during the rinse cycle. Filtering the movement of the drum rotates at a preset speed, providing linen opportunity not to fall with internal circular surface of the drum centrifugal force, and then splashes water for Laundry in the dryer, the conditions for the filtering movement could be applied to soak and wash clothes. Besides, filter movement may develop a slight friction between objects linen and between linen and dryer. As a result, the filter movement provides linen able to propolisovaya in a relatively short time. Portion control can implement tipping movement in the rinse cycle, to complement the ability rinsing of the filter traffic.

E.3 Cycle centrifugation (S1470):

After the rinse cycle is complete, one can start a cycle centrifugation configured to remove water for washing of linen. Cycle centrifuge program for non-ferrous products may be similar cycles centrifugation programs described above and cycles centrifugation other programs, which will be described later, and, thus, its more detailed description will be omitted.

F. THE PROGRAM F (PROGRAM FOR FUNCTIONAL SERVICE)

The program F will be described with reference to Fig. The program F can be referenced as "the program for functional service"configured for effective washing functional service, including service to work in the open air, such as clothing for mountaineering, and other sports clothes, without damaging the fabric. Functional clothing is made to be suitable for operation in the open air, such as the practice mountain climbing, swimming, Biking, and the like. Functional clothing quickly absorbs sweat and produces absorbed moisture out, and it helps to keep body heat. However, this functional clothing made of synthetic fabric and is more fragile than other types of tissues. The program for washing for functional service can be optimized to be suitable for functional service.

First, the user can select a program for functional service with parts 117 choice program (S1510). As the user selects a program for functional service, part of the control can start the washing, rinse cycle and/or cycle centrifugation one by one or selectively.

F.1.1.1 First water supply (S1533):

Stage of water supply includes the first stage of water supply, implemented within the specified period of time. On the first stage water supply dryer provided in the swinging motion. As mentioned above, swinging movement alternately turns the drum in a given direction and opposite direction. After a 90-degree turn or less from the lower point of the drum in a given direction and opposite direction, linen can fall. As a result, alternating rotation direction clockwise/counterclockwise creates a swirling of the water for washing, and the dissolution of detergent can be stimulated. At the same time, linen, subjected to rotate 90 or less falls, and the big shock is not applied to pants. Consequently, swinging movement on the stage of the first water supply provides cleaning means the ability to dissolve in water for washing, and the big shock is not applied to functional clothes. Swinging motion may be repeated within a specified period of time a number of times.

F.1.1.2 Second water supply (S1535):

As soon as the first water supply is completed, the second water supply can be realized within a specified time period. At the second water supply is continuously supplied water for washing, and one by one implemented filtering movement and swinging motion. The first and second stages of water supply are classified according to a pre-set time. Each stage can be customized according to the quantity of linen and other settings, as appropriate. For this stage of determining the quantity of linen configured to determine the number of linen can be provided before the stage of water supply.

As mentioned above, filtering the movement of the drum rotates at high speed to produce centrifugal force, and linen is in close contact with the inner circular drum surface due to the centrifugal force. Moreover, water for washing pass through linen and through holes in the cylinder under the centrifugal force and is available in a tank. As a result, linen moistened with water for washing in the filter motion to be washed. In addition, water for washing simply pass through linen, and functional clothing may not be damaged along with soaking in water for washing. After filtering the movement is implemented within a specified period of time, can be implemented swinging motion. As mentioned above, the detergent can continuously be dissolved without damage in respect of the functional service. Linen can effectively be wetted in water for washing caused by the vortex motion and expansion, swinging movement causes the re-spin of the wheel in a clockwise/counterclockwise. Consequently, twisted linen can unravel before washing. In addition, swinging movement down clothes from a relatively low position, and damage to the fabric linen can be minimized along with untangling linen. As a result, the combination of filtration and swinging movements can minimize the damage functional service and allow effectively pursued wetting underwear, dissolution of detergent and untangling linen. Such consistent combination of filtration and swinging motions can be repeated a number of times during a specified time period.

F.1.2 Wash (S1540):

Once the water for washing submitted before the specified level of water, stage of water supply fails, and then can begin phase washing. Since the functional clothing is relatively lightweight and thin, essentially the same stage of washing can be implemented regardless of the number of sheets in the dryer.

F.1.2.1. First wash (S1541):

Stage washing may include the first phase washing, implemented within the specified period of time, with a drum shown in stepping movement. As mentioned above, the stepping motion down linen of the highest position. As a result, stepping movement on the stage of the first pre-washing evenly mixes items, linen and water for washing. Moreover, the stepping motion zamachivat pollution linen and apply shock to pants to separate pollution from linen, through the use of a large rotation/lower linen.

F.1.2.2. The second wash (S1543):

After the first phase washing, and the second stage of washing can be realized within a specified time period. On the second stage of washing water for washing is heated to more effective cleaning and removing contaminants. At first the water for washing may feel warm heater is provided on the bottom of the tank, or device of vaporization configured for steam supply to the tank. Essentially, water for washing can be heated up to approximately 25 C to 30 C, preferably, about 27 degrees Celsius C, on the second stage of washing. Functional clothing made of synthetic fabric patterns, and it may be damaged, if the temperature of heated water for washing is too high. As a result, water for washing, with the proper temperature, used in the second phase washing, can improve the efficiency of washing and will prevent damage to the fabric.

Simultaneously with heated water for washing drum can operate swinging motion on the second stage of washing. Swinging movement uses the lowering of underwear from a relatively low position and alternating rotation of the drum. Consequently, lingerie gently swaying and enough to move around in the water for washing. Water for Laundry at rocking motion can evenly heated in a relatively short time, and enough heat can be transferred linen. Besides, swinging movement can cause shock friction between the water for washing and linen and shock of the fall, and it can effectively remove contamination without damaging the fabric.

F.1.2.3. The third washing (S1545):

After the second phase washing, the third stage of washing can be realized within a specified time period. On the third stage of washing any remaining contamination can be removed, and can be a combination of shaking and walking movements. Although rocking motion can remove contamination without damaging the fabric, as mentioned above, the ability of washing is relatively low compared with other movements. As a result, added stepping movement, capable of applying the strongest impact, and the ability washing phase washing, mainly configured from a rocking motion for functional service, may be improved. In addition, a strong shock stepping movements may protect the Pooh from joining linen. As a result, the third stage of washing can minimize the damage is functional clothing and separate pollution from linen effectively and fully.

F.2. Rinse cycle (S1550):

Rinse cycle programs for functional service may be similar cycles rinsing programs include the standard program, mentioned above, and rinse cycles of other programs, which will be described later, and, thus, its more detailed description will be omitted.

To enhance the overall capacity rinse, rinse cycle can be repeated more frequently than the rinse cycle of the standard programme. For example, rinse cycle can be implemented at least three times or more. This is because the drum rotates with a lower number of revolutions per minute in the cycle centrifugation programs for functional clothes than in the standard program, thus providing a weaker ability rinse. That is, a cycle centrifuge separates water for washing of linen with the use of centrifugal force caused by the rotation of the drum with high speed, and may provide a function rinse configured for simultaneous separation of detergent and dirt with water for washing of linen. Stage normal centrifugation cycle centrifugation programs for functional service uses a relatively low number of revolutions per minute drum rotation, and the resulting ability rinse may diminish. Thus, the stage rinsing cycle rinsing programs for functional service can be implemented three times or more.

F.3 Cycle centrifugation (S1570):

Cycle centrifugation programs for functional service may be similar cycles centrifugation programs include the standard program, mentioned above, and cycles centrifugation other programs, which will be described later. Stage normal centrifugation cycle centrifugation can rotate the drum with a lower number of revolutions per minute than the stage normal centrifugation standard programs to prevent damage linen.

G. G (PROGRAM FOR high-SPEED WASHING):

Portion control can start the stage of determining the number of sheets to determine the number of linen (S731B). The stage of determining the quantity of linen can be implemented before the beginning of the stage of water supply, after the user selects a program for high-speed washing. The number of linen, measured at the stage of determining the quantity of linen standard program, as described above can be classified into two categories, that is, a large number and a small amount, to determine the next cycle or movement of the drum of each stage and other working conditions. In the programme for high-speed washing measured quantity of linen can be used to determine the total time of complete washing, i.e. the total time required to perform cycles of washing, rinsing and centrifugation. In this case the number of sheets may prescribe in greater number of categories, such as three or more categories, the program for high-speed washing. If the number of sheets is classified into more categories, different time full of washing (that is, the total time required to complete cycles of washing, rinsing and centrifugation) can be installed for each of the categories of the number of linen. As a result, full Laundry time can be adjusted in accordance with the amount of linen. As a consequence, relatively short time may appropriately be applied to a small amount of Laundry without deterioration of the real ability of washing.

For example, a measured quantity of linen can be classified into three categories, including, first, second, and third groups, or can be classified in more than three categories. For example, the first category corresponds to the load is less than approximately 1.5 kg, and the proper time washing of the first category can be set to be approximately 25 to 30 minutes, and in particular on 29 minutes. The second category can booting from about 1.5 to 4.0 kg, and the proper time washing the second category can be set to be approximately 35 to 40 minutes, and in particular 39 minutes. Finally, the third category may correspond to download more than approximately 4.0 kg, and the proper time washing the third category can be from 45 to 50 minutes, and in particular 49 minutes. Such categories and times can be stored in the memory portion control as tabular data.

As soon as the number of linen defined at the stage of determining the quantity of linen, part management determines each category, which corresponds to the measured amount of Laundry, when accessing stored the category table. After this part of management may establish the wash specified for the category corresponding to the measured quantity of linen that was a real Laundry time.

G.1.2. Water/heating/Laundry:

After the above sequence of stages of the management can consistently implement stage of water supply (S733B), stage heating (S740B) and phase of the cycle (S742B) wash cycle (S730B). Stage of water supply, stage of heating, stage of washing the washing program for high-speed washing like the ones in the washing standard program, shown in figa, and, thus, their more detailed description will be omitted.

As mentioned above in the standard program, shown in figa, the stage of preparation of heating configured to encourage water heating for washing, can be implemented before the stage of heating. However, the stage of preparation of heating can be a preliminary stage, and the drum is specified amount of time can increase a complete wash. As a result, the preliminary stages, such as the preparation stage heating of the front of the stage, the heat may not be implemented in the programme for high-speed washing. After the program of water supply can begin stage heating.

G.2 rinse Cycle:

Once completed the wash cycle, can be implemented rinse cycle (S750B), configured to remove detergent residues and contaminants remaining in lingerie. Rinse cycle (S750B) similar to the rinse cycle (S750) standard, as shown in figa, and thus, for more detailed description of the rinse cycle will be omitted.

The first stage rinsing, implemented at the initial stage of the rinse cycle standard programs may include the first phase of driving drum using filtering traffic, which requires a large amount of time. In contrast, the movement of the drum implemented in stages rinse (S751B, S756B, S760B)require relatively short period of time, along with the continued supply of linen sufficient rinsing. As a result, the filter movement phase of the first rinse under rinse cycle programmes for high-speed washing, can be omitted to reduce the total time of washing.

G.3 Cycle centrifugation:

Once completed the rinse cycle, portion control can start the cycle centrifugation (S770B). Cycle centrifugation programs for high-speed washing similar cycle centrifugation standard program, shown in figa, and, thus, its more detailed description will be omitted.

Stage untangling linen, implemented in the initial stage of the cycle centrifugation standard programs, implements the drum is capable of unraveling linen. However, such a movement of the drum may not have a significant impact on the ability of centrifugation. Consequently, stage untangling linen may not be implemented in a loop centrifugation programs for high-speed washing to reduce complete wash.

Although the drum at the stage of normal centrifugation standard programs can rotate approximately 1000 revolutions per minute, the drum at the stage of normal centrifugation programs for high-speed washing can rotate approximately 800 rpm. As the increasing frequency of drum rotation, vibration and noise drum can become more tangible, and the preparation stage, realized that the drum has reached the target number of revolutions per minute, such as the measurement stage of eccentricity, can be repeated enough to take a relatively long time. As a result, the target engine speed program for high-speed washing reduced in comparison with that of standard programs and acceleration of the speed can prevent an increase.

As mentioned above, a program for high-speed washing can be classified in the number of sheets on specific categories, and to establish a complete wash, appropriate for each category of conditions for full time washing large number of linen, and a small number of linen, declined properly. In addition, compared to the standard program, optional stages may be excluded from cycles to reduce full-time washing. Still, most of the movements drum applied to the cycles of standard programs, adapted for high-speed washing, and required the ability washing can be achieved. As a result, a program for high-speed washing can erase a small amount of Laundry in a short time, while maintaining the ability washing.

H. H (SILENT PROGRAM)

Program H is described with reference to Fig. Program H can be a link as "silent"program capable of reducing noise during washing.

In certain circumstances, lower noise washing machines may be required by the user. For example, if washing is done at night and/or sleeping baby or child, preferably, washing machine worked with a lower operating noise. Reduced working noise can be achieved in various ways. Optimization of the method of management washing can effectively reduce noise without increased production costs. Way to manage washing configured to reduce this noise can be implemented as a single program, and it is noiseless program presented by optimizing working conditions. Noiseless the program is based on the standard program and is embodied optimization or exclude certain working conditions of some cycles or stages of the standard programme. Fig - flowchart sequence of method stages quiet different from the steps of the standard programme. First, the user can choose silence program with parts 117 choice program (S1610), and part of management can implement the following sequence of operations.

H.1 wash Cycle (S1630):

H.1.1 determination of the number of linen (S1631):

Portion control can start the stage of determining the number of sheets to determine the amount of linen. The stage of determining the quantity of linen was described above, and thus, its more detailed description will be omitted. The purpose quiet of the program is to reduce the noise and/or vibration, moreover, while maintaining the ability washing. Movement from the drum drive each phase may vary according to the amount of linen.

H.1.1. Water supply (S1633):

As the user selects noiseless the program can begin stage of water supply. Stage of water supply supplies water for washing in the tank. In addition, the stage of water supply dissolve the detergent mixed with water for washing, and wets linen is loaded in a drum. On the stage of water supply noiseless program of the management can supply more water for washing in the tank, compared with the stage of water supply of the standard programme. The reason is served more water for washing, will be described in the next step of washing.

H.1.1.1 First water supply (S1635):

On the stage of water supply of the management can implement the first stage of water supply together with the supply of water for washing. On the first stage water supply part of management manages the drum that it was set in perechitivayte movement.

As mentioned above, perechitivayte movement continuously rotate the drum in a given direction, and linen is separated from the drum after turning in a position 90 or less relative to the direction of rotation of the drum from the lowest point of the drum. When perekidyvaem the movement of the drum rotates at a relatively low speed, and separated linen moves with rolling on the inner surface of the drum at the low point of the drum, not dropping to the lowest point. Consequently, the rotation of the drum and the move by rolling linen can call set a swirl in the water for washing, and the dissolution of detergent can be stimulated in the water for washing. At the same time, perechitivayte movement causes the move by rolling linen along the inner surface of the drum, and it may not have noise shock produced by sharp lowering of linen. As a result, perechitivayte movement on the stage of the first water supply can provide cleaning tool can effectively dissolved in water for washing, moreover, together with reduced noise. On the first stage water supply perechitivayte movement may be repeated within a specified period of time a number of times.

H.1.1.2 Second water supply (S1637):

As soon as the first stage of water supply is completed, part of the control can start the second stage of the water supply. On the second stage of the water supply of the management can control the drum that it was set in one after another filter movement and perechitivayte movement with a continuous supply of water for washing in the tank. The first and second stages of water supply may differ from each other in accordance with the relevant pre-set time, and time of each stage can be customized according to the amount of linen.

As mentioned above, filtering the movement of the drum rotates at high speed to produce centrifugal force and centrifugal force produced supports linen in close contact with the inner circular surface of the drum. Moreover, water for washing pass through linen and through holes in the cylinder under the centrifugal force to be produced in the tank. As a result, linen moistened with water for washing in the filter motion. In addition, water for washing simply pass through linen, and linen can not be damaged along with soaking in water for washing. After filtering the movement is implemented within a specified period of time, can be implemented perechitivayte movement. As mentioned above, perechitivayte movement on the stage of the first water supply can provide cleaning tool can effectively dissolved in water for washing, moreover, together with reduced noise. In addition, more extensive surface area linen contacts with water for washing, moving with rolling along the inner surface of the drum, and, thus, linen can soak in water for washing is more effective and more uniform. As a result, the combination of filtration and perekachivayuschih movements can minimize noise and allow effectively pursued wetting underwear, dissolution of detergent and untangling linen. Such consistent combination of filtration and perekachivayuschih movements can be repeated a number of times during a specified time period.

H.1.2 Wash (S1635):

Once the water for washing submitted before the specified level of water, stage of water supply fails, and then can begin phase washing.

H.1.2.1 Stage heating/first wash (S1640):

Once the stage of water supply is completed, part of the control can start the first stage of washing. The first stage of washing may include stage heating configured for water heating for washing up to the set temperature. Unlike stage heating and stage washing of the standard program, the first stage of washing quiet programs may include only perechitivayte movement. Perechitivayte movement gives linen able to move with the rolling along the inner surface of the drum without sharp lowering of linen. As a result, such a move by rolling can maximize the friction between linen and water for washing and between linen and drum, and the stage of washing can effectively remove dirt from linen with minimized noise.

As mentioned above, part of the management at the stage of water supply can supply more water for washing, compared with the stage of water supply of the standard programme. For example, part of management can control the amount of water for washing, served at the stage of washing noiseless program that it is 1.2 times more than the amount of water for washing, served in the same amount of linen. The increase in the number of water for washing is a consequence of the rising water level inside the drum. When linen moves with rolling in the drum with a high level of water through perekachivayuschih motion, friction between the water for washing and linen can further increase and may further improve the ability of washing. In the end, perechitivayte movement, adapted for the stage washing, can give meets the requirements of the ability of washing, moreover, along with the suppression of the production of noise.

That is, when the number of linen, measured at the stage of determining the quantity of linen is higher than the preset reference value, the tilting movement can be implemented at the stage of washing instead perekachivayuschih movement. Tipping movement continuously rotate the drum in a given direction like perekidyvaem movement, and the frequency of drum rotation while tilting movement is higher than that of the drum when perekidyvaem movement. As a result, linen is separated from the drum after turning in a position 90 or more relative to the direction of rotation of the drum from the lowest point of the drum. As the drum rotates at a relatively high speed tilting movement, separated linen falls in the lowest point of the drum, and it is different from perekachivayuschih movement. As a result, linen can be washed shock impacts caused friction between linen and water for washing, as well as lowering. Although tipping movement produces more noise than perechitivayte movement generated noise may be less than noise produced during other movements of the drum, as stepping movement and otherwsie movement, which have enhanced the ability of washing. Consequently, the tilting movement can effectively erase a large number of linen along with a greater suppression of the production of noise. When a measured quantity of linen is lower than the reference value, perechitivayte movement can be realized, as mentioned above.

To promote water heating for washing the stage of preparation of heating can be implemented before the stage of heating. However, the stage of preparation of heating may include movement of the drum, the drum may produce noise. As a result, the preliminary stages, such as the stage of preparation of the heating stage before the first wash, may not be implemented at the stage washing of this program, and water for Laundry can be heated to the set temperature on the stage of the first washing. Water for washing may feel warm heater or a device of vaporization installed in the tank.

H.1.2.2 Second wash (S1642):

Portion control can start the second stage of washing after the first wash. Pollution can better disposed on the second stage of washing. Like the first phase washing, and the second stage of washing quiet programs may include only perechitivayte movement. The formation of noise can be minimized when perekidyvaem traffic, and pollution linen can be effectively removed by perekidyvaem movement, as described above. In addition, more water for washing is served at perekidyvaem movement, in comparison with the amount of water for washing, served in the standard program. Consequently, adaptation perekachivayuschih movement can provide the ability Laundry, moreover, along with the suppression of the production of noise.

If the number of linen large, the drum is provided in the tilting movement. If the number of linen little drum is provided in perechitivayte movement, like the first stage of washing described above.

H.2 rinse Cycle (1650):

Once completed the wash cycle, can start the rinse cycle configured to remove residual detergent and dirt out of Laundry. Rinse cycle similar to rinse cycles of standard programs described above, and thus, its more detailed description will be omitted.

The first stage rinsing, implemented at the initial stage of the rinse cycle standard program includes the first stage of driving drum using filtering traffic that can produce large amounts of noise. As a result, the filter movement is not implemented in the rinse cycle noiseless program. Although the stages of the rinse cycle standard programs can fit different movement of the drum, noiseless the program may only be used perechitivayte movement to the stages of the rinse cycle to reduce noise during washing.

To enhance the overall capacity rinse stages rinse repeated more times in silent program than in the standard program. For example, rinse cycle can be four times or more. This is because the drum rotates with a lower number of revolutions per minute by centrifugation silent programmes than the cycle centrifugation standard programs, thus impairing the ability rinse. That is, in the cycle of centrifugation water for Laundry typically separated from linen centrifugal force caused by the rotation of the drum with high speed and detergent and pollution at the same time separated from linen together with water for washing. However, at the stage of normal centrifugation cycle centrifugation noiseless program the drum rotates with a lower number of revolutions per minute and thus, the total capacity of washing may deteriorate. As a result, the stages rinse may take four or more times in a loop rinse noiseless program.

H.3 Cycle centrifugation (S1670):

At the stage of normal centrifugation noiseless program the drum can spin more low number of revolutions per minute, during normal centrifugation standard programs to reduce noise. For example, to reduce noise drum can rotate with the given number of revolutions per minute, which has a value of 50% of the number of revolutions a minute cycle normal centrifugation of the standard programme. That is, the drum can rotate approximately 400 rpm.

I. The program I (Program for cotton, synthetic, mixed fabrics)

Like the program for functional service, described above, can be programmes that correspond to the types of items, linen and types of fabrics of linen. For example, can be provided by the program for cotton fabrics, configured for washing cotton fabrics, such as towels, tablecloths, t-shirts, and the like, the program for synthetic fabric or program for easy care, configured for washing synthetic fabric, and the program for mixed fabrics, configured for washing mixtures types of fabrics, such as cotton and synthetic fabrics. Synthetic material, for example, may include polyamide, acrylic, polyester, and other such fabrics.

Cotton fabric and synthetic fabric have different characteristics. That is, cotton fabric more resistant to abrasion and shock load, with less concern about the strain than synthetic fabric. In addition, cotton fabric can absorb more water for washing, than synthetic fabric, and causes less to worry about wrinkles than synthetic fabric. However, it is not easy to separate the items linen, of cotton fabrics from items of underwear made of synthetic fabric and implement appropriate programmes for Laundry to wash them separately all the time. This is because the user usually wears clothes made of both cotton and synthetic fabrics, and does not want to erase individual partial downloading, cotton and synthetic clothes. As a result, may be provided by the program for washing, combining the advantages of the program for cotton fabrics and programs for synthetic fabrics, that is the program for mixed fabrics.

Program for mixed fabrics can be useful for many reasons. For example, if the user shares the subject of linen, of cotton fabrics and items of underwear made of synthetic fabric to wash them separately, washing will adversely stay up until there is a set number of underwear, and, thus, dirty linen can be ignored for a relatively long time. Of course, if a small amount of Laundry washed separately, energy can be spent for nothing. As a result, the program for mixed fabrics, able to wash items linen from traditional kinds of fabric, can prevent the problem of ignoring linen and waste of energy.

In the provided programme for washing, corresponding to such mixtures tissue types, shown in Fig, the washing, rinse cycle and the cycle centrifugation may vary according to the characteristics of a particular type of tissue. As outlined below, the program for cotton fabrics, synthetic fabrics and program for mixed fabrics with working conditions of each stage, customized based on the type of tissue, will be described with reference to the cycles and phases of standard programs described above. In comparison with the standard program, re detailed description is omitted, as appropriate, and the difference will be described in detail.

As the user selects a program for cotton fabrics, a program for synthetic fabrics or program to mixed fabrics (S1710) according to the type of fabric linen, portion control can implement the wash cycle (S1730), rinse cycle (S1750) and the cycle of centrifugation (S1770), and the stages according to the selected program.

I.1 wash Cycle:

I.1.1 Stage determine the number of sheets (S1734):

Part of management may determine the amount of Laundry in the washing cycle, and the method for determining the number of linen in this program is similar to the above methods, and re-description will be omitted. A measured quantity of linen can be properly used in the next phase, which will be described in detail.

I.1.2. Stage of water supply (S1733):

Portion control can implement stage of water supply, configured to supply water for Laundry detergent and water in a tank or drum and to dissolve the detergent in the water for washing. That is, water for washing is supplied from an external source of water with detergent. For the initial supply of water for washing and cleaning detergent in linen, water for washing and cleanser served in the clothes inside the drum. That is, the path of water supply for washing can be located in front of the upper part of the drum towards the inside of the drum, not at the bottom of the tank. When detergent powder is a type dissolution of detergent lack to be implemented sufficiently, and the movement of the drive drum stage of water supply, which will be described later, can effectively dissolve the detergent. As a result, water for washing and cleanser served in lingerie at the initial stage of the wash cycle, and the time required by the wash cycle, can be reduced to improve the efficiency of washing.

I.1.2.1 promote the dissolution of detergent (S1735):

At the stage of stimulating the dissolution of detergent movement from the drum drive may vary according to the type of fabric linen. For example, otherwsie movement can be realized for items linen, of cotton fabric, and the stepping motion can be implemented for the subjects of underwear made of synthetic fabrics. In the alternative variants of implementation can be realized otherwsie movement and/or the stepping motion.

Otherwsie movement Flex/stretches and attire linen by lowering linen to cause friction. Consequently, such attorney by human hands effects can be expected at the initial stage of the wash cycle. However, this otherwsie movement can be realized for the tissue, which, to some extent, resistant to abrasion, and the movement of the drive drum can be atirausk movement on the stage of stimulating the dissolution of detergent program for cotton fabrics.

According to the characteristics of synthetic fabrics, objects of linen from synthetics are much easier than the subject of cotton linen, and linen made of synthetics have a lower percentage of water than the subject of cotton linen. Besides, subjects of underwear from synthetics make more worried about the damage caused by friction than the subject of cotton linen. Consequently, the stepping motion can be implemented at the stage of stimulating the dissolution of detergent to stimulate the dissolution of detergent and to prevent tissue damage. That is, the movement of the actuator of the drum at the stage of stimulating the dissolution of detergent for synthetic fabrics may be stepping movement. Stepping movement will make maximum impact load lowering easy to synthetic fabric to stimulate the dissolution of detergent, and the effect is similar to the accented man washing can be expected at the initial stage of the wash cycle.

Movement from the drive drum stage of stimulating the dissolution of detergent in the program for mixed fabrics can be a combination of stepping movements and potteraudio movement. That is, the stepping motion and otherwsie movement, which is optimal for cotton and synthetic fabrics, respectively, can be combined, of the conditions for the dissolution of detergent could be stimulated and the effect of washing could be expected at the initial stage of the wash cycle. In this case, combined different movements from the drive drum, as a result of the scheme of movement of linen and schemes of moving water for washing can be quite varied to improve the efficiency of the wash cycle.

I.1.2.2 Wetting underwear (S1736):

At the stage of wetting underwear standard program the drum can rotate when perekidyvaem movement. Perechitivayte movement produces less friction applied to pants than the above otherwsie movement, and perechitivayte movement is being implemented during the period of receiving implemented wetting underwear. As a result, although the friction is applied between soaked items of lingerie will be little concern about the damage linen, and stage wetting underwear implemented in perekidyvaem movement, can be implemented in a similar way, regardless of the types of fabrics of linen.

Regardless of whether the fabric of cotton or synthetic, perechitivayte movement can be implemented at the stage of wetting underwear. Even when the user selects any one of the programs for cotton fabrics, programs for mixed fabrics or programs for synthetic fabrics, perechitivayte movement can be implemented at the stage of wetting underwear after the stage of stimulating the dissolution of detergent.

Movement from the drive drum stages of the first and second wetting underwear may vary to wet underwear more effectively and to evenly apply in linen as detergent and water for washing. For example, movement from the drive drum phase of the first wetting underwear can be perekidyvaem movement, and the movement from the drive drum second stage wetting underwear can be a combination of perekachivayuschih movement and filter traffic. That is, perechitivayte movement can be realized with a given overall performance ratio during the first wetting underwear. On the second stage of wetting underwear, after filtering the movement realized once, perechitivayte movement is implemented four times and it is a single cycle. The cycle can be repeated.

Perechitivayte movement continuously turns linen in the lower part of the drum to increase the contact time between the water for washing and cleanser. Filtering traffic widely stretches linen and provides water for washing and cleaning means the ability to evenly submitted in linen, of conditions that could be possible effective wetting underwear. This typically can take approximately 13 minutes to complete wetting underwear when perekidyvaem movement, along with the fact that wetting underwear can take approximately 10 minutes under this option implementation.

Movement from the drive drum phase of the first wetting underwear may vary according to the amount of linen. Movement from the drive drum phase of the first wetting underwear may vary according to the quantity of linen defined at the stage of determining the amount of linen. For example, if a certain number of linen is specified level, or more than, the drum is provided in perechitivayte movement, as mentioned above. If a certain number of underwear is less than the specified level, the drum may be referred to in a combination of a stepper and perekachivayuschih movements.

Stepping movement sharply lowers linen after raising. If the number of linen great distance lowering linen can be reduced. Thus, the walking motion is appropriate for a small number of linen. This step movement could cause damage in respect of linen. As a result, the program for cotton fabrics, when the number of sheets is less than the specified level, the combination of stepping movement and perekachivayuschih movement can be implemented during the first wetting underwear. When the number of linen is specified level or higher, perechitivayte movement can be implemented during the first wetting underwear. In the program for synthetic fabrics and the program for mixed fabrics, forcing to worry about the damage linen, perechitivayte movement can be implemented during the first wetting underwear regardless of the number of linen.

In the alternative variants of the implementation phase circulation can be implemented at the stage of water supply, as for the propulsion of the drum. That is the stage circulation can be synchronized with the drive motor is configured for the propulsion of the drum. Water for washing, subjected circulation, when linen moves the drive drum, can be served in linen, and the purpose of the stage of water supply can be achieved more effectively.

Stage of stimulating the dissolution of the washing means and the stage of wet linen is included in the stage of water supply under this option implementation. However, the stage of stimulating the dissolution of detergent and stage wetting underwear could be provided regardless of the stage of water supply. In this case, after the filing of the water, can be realized stage of stimulating the dissolution of detergent or stage wetting underwear.

I.1.3. Heating (S1741):

Stage heating may vary according to the chosen programme of work in this program. For example, the temperature of the water for washing, used at the stage of heating can be installed in different depending on the type of fabric linen.

Cotton fabric somewhat resistant to heat. As the temperature of the liquid for washing increases, a greater amount of detergent is dissolved in water for washing, and additionally stimulated activation detergent. As a result, when the selected program for cotton fabrics, the temperature of the water for washing can be set to be approximately 60 C at the stage of heating. This temperature water for washing can get out of range, stretching from the cold water to the water with about 95 degrees C, through part 118 choice. As the temperature of the water for washing increases, activation of detergent can further be stimulated, and the ability washing can further be improved, further improving the sterilization effect/whitening, if appropriate.

Movement from the drive drum stage of heating can be tilting movement irrespective of the chosen program. This is because the tilting movement can unravel linen along with the reduction of damage linen. As a result, the tilting movement can provide steam or hot water for washing the ability to effectively ignored in lingerie.

In the alternative variants of the implementation phase circulation can be implemented at the stage of heating. Stage circulation can be synchronized with drum drive. Because the stage circulation is implemented after the initial heating sold to a given extent, stage circulation can be synchronized with drum drive at the specified time after starts the initial move of the drum.

I.1.4 Wash (S1742):

Movement from the drive drum stage washing can be consistent combination perekachivayuschih movement, and/or tilting movements, and/or rocking motion. Movement from the drive drum stage washing can be changed according to the selected program, as must be attained as the effect of protection cloth, and the effect of the improved ability of washing.

That is, in the case washing clothes made of cotton, can be implemented motion from the drum drive configured for washing clothes with use of powerful mechanical strength. In case washing clothes made of synthetic fabric, can be implemented motion from the drum drive configured for washing clothes by using relatively low mechanical strength. Stage washing may include one of the stages of the wash cycle, which requires very long time. As a result, the stage of washing can be managed for the implementation of laundering more effectively. Because the time required stage of washing is long, the greatest damage linen likely will be called during washing.

Given this, the drum may be given in combination perekachivayuschih movement and tilting movement on the stage of washing when the selected program for cotton fabrics. The combination of two different movements applies various schemes powerful mechanical forces to pants, and efficient cleaning can improve. That is, according to the characteristics of cotton, there is little concern about damage to the fabric. As a result, powerful mechanical force is applied to wash clothes, and the effect of washing can improve to a greater extent. When the selected program for cotton fabrics, a combination of filtering traffic and tilting movement can be implemented at the stage of washing, and stage circulation synchronized with drum drive. Because cotton fabric makes less worried about the damage linen, filtering movement can supply water for washing and cleanser linen continuously and effectively.

In contrast, when the selected program for synthetic fabrics, dryer can rotate in combination rocking motion and tilting movements during washing. The combination of two different movements can improve the effect of washing. Swinging motion, gently rocking linen in water for washing, and thus the damage caused by friction, can be minimized. In addition, the time during which the linen contacts with water for washing, may increase sufficiently to improve the effect of washing.

As the program for mixed fabrics provided for effective washing together like items of cotton linen, and the subjects of underwear made of synthetics, the effect of washing should improve, and damage to the linen should be reduced as much as possible, regardless of the type of fabric linen. To meet this, the movement from the drive drum phase washing, when the selected program to mixed fabrics, can be a combination of tipping movement, and/or rocking motion, and/or perekachivayuschih movement. That is, can be provided by swinging movement configured to prevent damage linen, and can be provided perechitivayte movement configured to improve the ability of washing.

In the program for synthetic fabrics and the program for mixed fabrics stage circulation can be synchronized with drum drive to provide water for washing and cleaning means, the ability to continuously fed into linen.

As mentioned above, although you select one of the programs for cotton fabrics, programs for synthetic fabrics or programs for mixed fabrics, the movement from the drive drum stage washing can be managed to combine two different movements. This should form the various schemes of the mechanical strength and move linen, and clearly improve customer satisfaction.

Once the wash cycle is completed, you may start the rinse cycle. In the rinse cycle stages rinse configured to drain water for washing after linen rinsed using filed water for washing, may be repeated. Stage rinsing cycle rinse in this program may be repeated three times or more.

Water for washing can be fed to the water level of the rinse cycle was higher than the level of water in the wash cycle. That is, water for washing can be delivered to a specified level of water, which is visible from the outside, to improve the effect of rinsing through the use enough water for washing.

Movement from the drive drum rinse cycle may be tilting motion. Tipping movement plunges/picks linen in/out of the water for washing, and this can be repeated. High level of water along with tilting movement clearly notifies the user sufficient to rinse. Tipping the movement of the rinse cycle can prevent overheating of the motor, as well as to improve the efficiency of rinsing. That is, the water level of the rinse cycle may be higher than that of the wash cycle, and the load applied to the drum, it may be appropriate to increase water for washing. Stepping movement, otherwsie movement and swinging motion repeat turning and braking. As a result, the braking may cause excessive strain on the engine. Besides, if the water level is high, the load caused by water for washing, can be increased. In the cycle rinse with a high level of washing, the movement from the drum drive even has a sharp braking, to prevent overheating of the motor. Thus, tilting movement configured to rotate the drum in a given direction, it may be preferable to rinse cycle.

Stage circulation can be implemented in a loop rinse for circulation of water for washing, held in the tank, in the drum. This can cause the effect of visual notify sufficient rinse.

I.3. Cycle centrifugation (S1770):

Once the cycle wash and rinse cycle is completed, can be implemented cycle centrifugation as possible, the release of water for washing of linen. At the stage of normal centrifugation cycle centrifugation number of revolutions per minute drum may vary according to the program selected by the user, whereas the percentage of water content and residual wrinkling, according to the type of tissue.

Cotton fabric has a high percentage or soak up water with less concern about the folds. Even if there are folds formed cotton fabric, folds easily removed. In contrast, synthetic fabric has a low percentage or soak up water with great anxiety about the folds. As a result, the program for cotton fabrics specified number of revolutions per minute may be higher than in the programme for synthetic fabrics and the program for mixed fabrics, and pre-defined number of revolutions per minute, for example, can be 1000 revolutions per minute or more. Here, the number of revolutions per minute centrifugation can be changed through some variant is chosen by the user.

The specified number of revolutions per minute program for synthetic fabrics and programs for mixed fabrics can be set to be between 400 to 600 rpm. Even by centrifugation items of underwear made of synthetic materials with a low number of revolutions per minute, the water for washing can be discharged from objects linen of synthetic enough, and can be prevented folds. In this case, the number of revolutions per minute centrifugation can be changed through some variant is chosen by the user. In some embodiments, the implementation of a number of revolutions per minute centrifugation is set at a maximum of 800 rpm.

J. THE PROGRAM J (PROGRAM FOR WOOLEN FABRICS):

The program for washing provided according to the type of fabric linen, also preferable may include a programme for woolen fabrics than the program for cotton fabrics, a program for synthetic fabrics and program to mixed fabrics. Program for woolen fabrics used for linen, with less pollution and more concern about damage to the tissue. That is, the program for woolen fabrics can be provided for Laundry items of underwear made of wool, which are washable by hand. If erased using powerful mechanical strength, items of underwear made of wool, should probably damaged. As a result, the program for woolen fabrics drum is specified in the motion to have weak mechanical strength, for example, swinging motion. Taking into account the characteristics of wool fabric, movement from the drive drum loop washing, rinse cycle and cycle centrifuge program for woolen fabrics can be different from the movement of the drum of the standard programme.

J.1. Wash cycle:

In the program for woolen fabrics, it is important to prevent damage to the fabric, and the drum can operate swinging movement, configured for cautious move linen right and to the left at the bottom of the drum, in the cycle of washing programs for woolen fabrics. In this case, the water level may be high enough to provide the water level inside the drum opportunity to be visible from the outside. Consequently, the friction between internal circular surface of the drum and linen can be minimized, and touch grips linen can be repeated with rotation linen, submerged in water for washing, and this prevents damage in respect of linen, and it provides the washing and rinsing the opportunity to be implemented smoothly. This is a rocking motion can minimize damage in respect of linen and to increase time of contact of water for washing and cleanser with linen, to improve the effect of washing.

Program for woolen fabrics shown Fig. Select the wash cycle programmes for woolen fabrics (S1810). At the initial stage of the wash cycle (S1830) water for washing and cleanser can be served in a tank or drum, i.e. it can be implemented stage of water supply (S1833). Stage of water supply may include stage of stimulating the dissolution of detergent (S1835) and phase wetting underwear (S1836). Stage of stimulating the dissolution of detergent configured to stimulate the dissolution of detergent implemented at the initial stage of the stage of water supply and stage wetting underwear configured for wetting underwear sufficient for the preparation stage of washing after completion of the water supply. Stage wetting underwear can be implemented prior to or after completion of the water supply.

The detergent used in the program for woolen fabrics, can be neutral detergent, and, typically, liquid type that may not require so much time to dissolve in the water for washing, as powder type. Given this, the detergent is served in lingerie at the initial stage of water supply with water for washing. As soon as the supply of water, water for washing is served in a liquid detergent, held in the box for detergents. Water for Laundry and liquid detergent served together in a tank or drum. Faster to supply water for washing and liquid detergent in linen, water for washing and liquid detergent mixed with each other, can be sprayed on linen, located in the drum. For more effective dissolution of detergent can be implemented stage circulation configured to supply water for washing, held in the tank, in the upper part of the drum.

The drum can operate swinging movement, and then the weak vortex motion is called in the water for washing, of the conditions for the dissolution of detergent could be promoted along with the simultaneous prevention of damage linen. As soon as the water supply is completed, swinging movement and stage circulation may be implemented jointly to prepare for the stage of washing. This can be considered a type of stage wetting underwear.

Once the stage of stimulating the dissolution of detergent and stage wetting underwear completed, if necessary, can be implemented stage heating (S1841)configured for water heating for washing. However, the temperature of the water for washing at the stage of heating can be regulated, not to exceed 40 C. the Heat generated if the temperature of the water for washing is increased too much, will deform linen and damage linen, of wool fabrics. The temperature of 40 C does not cause thermal deformation and stimulates the activation of detergent and water penetration for washing linen.

Movement from the drive drum phase of the cycle (S1842) can be swinging motion. Stage washing requires the longest time of the stages of the wash cycle, and, in order to prevent damage underwear on stage washing, swinging motion is used during washing. If the application and stop the mechanical power is re-applied to clothes made of wool, can be called tissue damage. Such mechanical repetition causes shrinkage of woolen fabric. To prevent shrinkage rocking motion can continuously be implemented at the stage of washing.

As mentioned above, swinging movement in motion dryer, using rheostatic braking, and it may not make a big load to the motor. In addition, swinging movement can have a drum drive configured for making reciprocating motion between the left and right sides of less than 90 degrees. As a result, a big load is not required to lift linen. If the drum continuously operated tilting movement and stepping movement, excessive load can be applied to the motor. When tipping movement, a smaller load can be applied to the motor than attirude movement and walking motion, but linen rises and falls to cause tissue damage. Given this, swinging motion is realized on the stage of washing.

J.2 rinse Cycle (S1850):

Once the wash cycle is completed, can be implemented rinse cycle. First, can be implemented intermediate centrifugation. After intermediate centrifugation water for washing is served to start the rinse and rinse cycle is implemented multiple times if necessary. That is, after the filing of the water and rinsing can be repeated drain water. Typically, intermediate centrifugation is implemented in the middle of the water after the water drain.

Intermediate centrifugation unravels linen at a relatively low speed. Intermediate centrifugation includes transitional centrifugation configured for untangling linen at a relatively low frequency of rotation, along with measurement of vibration, and the main centrifugation configured for centrifugation linen at a relatively high speed during the preset period of time. Transitional centrifugation can be implemented on approximately 100 revolutions per minute, and the main centrifugation can be implemented on the approximately 200 rpm (low resonance frequency) or more.

However, when the selected program for woolen fabrics, intermediate centrifugation can be omitted. Intermediate centrifugation is a sequence of operations on abstraction of water for washing of linen centrifugal force, and the tensile strength can inevitably be produced in lingerie. Consequently, linen, woolen fabric, which is the external force, may be subject to damage in the cycle of centrifugation. For exemption from such anxiety, intermediate centrifugation can be ignored. For example, the main centrifugation and intermediate centrifugation removed, and can be realized only transitional centrifugation. If you removed all the sequence of operations divert water for washing the centrifugal force, the ability rinse may degrade dramatically. Taking into account the ability rinse and damage linen can be implemented transitional centrifugation, and the main centrifugation can be omitted.

The sequence of stages rinse, including the supply and discharge of water, can be exercised three or more times, as the cleanser should be effectively allocated from linen. The level of water rinse may be higher than the water level phase washing, and stage circulation can be implemented when rinsing. When you use a liquid detergent, you can usually enough to take the cleanser because the stage rinsing is implemented twice, and intermediate centrifugation. However, in the case of this programme, the main centrifugation of intermediate centrifugation omitted to prevent damage linen, and stage rinsing can be implemented three times to achieve the desired effect of rinsing.

Move drum stage rinsing can be swinging motion to prevent damage linen. Swinging motion, gently rocking linen in water for washing and provides detergent residues, soaked in linen, possibility of discharge into the water for washing, from a condition to the effectiveness rinse could be enhanced.

J.3 Cycle centrifugation (S1870):

Once the rinse cycle is complete, one can start a cycle of centrifugation. Cycle centrifugation similar cycle centrifugation standard programs described above, the number of revolutions per minute drum stage normal centrifugation can be set to be 800 rpm or less, to protect wool fabric linen.

K. THE PROGRAM K (PROGRAM FOR DELICATE FABRICS):

The program for washing provided according to the type of fabric linen, may include a programme for delicate fabrics, as shown in Fig to erase items of underwear made of delicate fabrics such as silk, plastic fabric, items of underwear with metal accessories attached to them, and other such sensitive products. The movement of the drum with relatively weak mechanical strength, for example, swinging movement, can be implemented for careful washing of the objects underwear delicate fabrics in the program for delicate fabrics like the program for woolen fabrics. As a result, taking into account the characteristics of delicate fabrics, movement from the drive drum loop washing, rinse cycle and cycle centrifuge program for delicate fabrics can be different from the movements of the drum drive standard programs.

K.1 wash Cycle (S1930):

Like the program for woolen fabrics, selected (S1910) program for delicate fabrics, and the drum is in a swinging motion in the cycle of washing (S1930) program for delicate fabrics, and water for washing is served (S1933) to relatively high water level. In addition, the stage of stimulating the dissolution of detergent (S1935) may be similar stage of stimulating the dissolution of detergent program for woolen fabrics, as detergent liquid type is usually used for washing items of underwear made of delicate fabrics in the program for delicate fabrics, as in the programme for woolen fabrics. However, after the stage of stimulating the dissolution of detergent, stage wetting underwear (S1936) may be different from the stage wetting underwear program for woolen fabrics. Wool has a relatively good water absorption ability in comparison with the delicate tissue, and the delicate fabric more prone to heat damage compared with woolen cloth. As a result, the temperature of the water for washing, used for washing delicate fabrics, can be set to be approximately 30 C. Although could be selected cold water, the temperature higher than 40 C, usually not selected.

Wetting underwear can be effectively implemented with the use of filtering traffic at the stage of wetting underwear. Stage circulation may also be implemented. After rotational driving drum and uniform distribution of clothes inside the drum to expand the surface area of linen, stage circulation machines circulation water for washing, held in the tank, linen. In addition, swinging motion is implemented for flooding the linen in the water for washing, and to induce calm move linen to promote wetting underwear. Filtering traffic and swinging motion is repeated in various schemes to stimulate wetting underwear. But the movement from the drive drum stage wetting underwear can only be swinging motion.

As soon as wetting underwear completed, can begin the phase of the cycle (S1942). The movement of the drum wash cycle can be swinging motion. Delicate fabric may be more resistant to external shock load compared with woolen cloth. In order to achieve more effective washing effectiveness, the movement of the drum stage washing can be a combination of rocking motion and tilting movement with relatively high levels of water for washing.

Alternatively, only the tilting movement can be implemented at the stage of washing. In that case descending linen encounters with surface water for washing, and not from the inner surface of the drum, the drum, due to the high water level. This means that the distance lowering reduced. Although shock applied to pants, reduced high-water level, the whirl is called in the water for washing, to improve the effect of washing. Because linen has a relatively low pollution, stage of washing can be set to be relatively short, and the overall performance ratio can be set to be relatively low. Although implements only the tilting movement can prevent damage linen. Stage circulation can also be implemented at the stage of washing.

K.2 rinse Cycle (S1950):

Once the wash cycle is completed, you may start the rinse cycle. As mentioned above, detergent liquid type can be used in the program for delicate fabrics, and the cleanser can adequately be discharged stage rinsing implemented twice. Like the program for woolen fabrics, intermediate centrifugation can be omitted in the program for delicate fabrics. For example, intermediate centrifugation is not passed, and can carry only the main centrifugation. The drum is the rinse cycle can only be tilting motion. This tilting movement has the effect of distribution of linen. That is, tilting movement provides a surface area of linen opportunity evenly to contact water for washing and take the cleanser out. In this case, the level of water for washing may be relatively high. Swinging motion can be added to the tipping movement in the rinse cycle.

K.3 Cycle centrifugation (S1970):

Once the rinse cycle is complete, one can start a cycle of centrifugation. Cycle centrifugation of this software may be similar to that of the program for woolen fabrics. The number of revolutions per minute drum stage normal centrifugation can be set not to exceed 800 rpm. Delicate fabric has a low percentage content/absorption of water and water for washing can be discharged adequately, even when the drum rotates with a relatively low number of revolutions per minute on stage normal centrifugation. Besides, normal centrifugation can be implemented with relatively low number of revolutions per minute to prevent tissue damage caused by centrifugation.

L. THE PROGRAM L (PROGRAM FOR SPORTSWEAR):

Next will be described in the programme for sportswear, shown in fig.2D, which may be provided in the programme for washing, kategorisierung based on the type of fabric linen. The program for the sports service may be provided to erase items of underwear made of functional fabrics, with good air permeability and good function absorb sweat, such as clothing for mountaineering, costumes for health run and sports clothing. Like the program for woolen fabrics or program for delicate fabrics, the movement of the drum with weak mechanical force, such as rocking motion can be implemented in the program for sportswear. Therefore, given the characteristics of the fabric of sport clothing, the movement of the drum washing cycles, rinse and centrifugation, provided in the program for sportswear, may be different from the movements of the drum in the standard program. Once selected (S2010) program to sports clothing, wash cycle (S2030), rinse cycle (S2050) and the cycle of centrifugation (S2070) can be implemented like the program for woolen fabrics and the program for delicate fabrics. However, due to the characteristics of sport clothing, wash cycle programmes for sports clothing may be different from the washing of other programs described above.

L.1 wash Cycle (S2030):

Sportswear has hydrophobic properties, which prevent moisture from easy absorption into the fabric. As a result, in comparison with other kinds of fabrics, fabric sportswear has a low percentage content/water absorption, and, thus, water is filled into the fabric of sportswear sufficient and continuous cycle of washing. For this movement from the drive drum wash cycle (S2030), in particular, the stage of water supply (s2033 hardeners)provided for in the cycle of washing, may be different from the movement of the drum wash cycle in other programs.

First in the programme of the movement from the drive drum stage of stimulating the dissolution of the detergent (S2035) can be atirausk movement and/or stepping movement. Fabric sportswear is low damage tissue compared with wool or sensitive tissue, so the program for sportswear can use motion from the drum drive capable of holding more powerful mechanical strength than swinging motion.

Stage wetting underwear (s2036 hardeners) program for sports clothing can be a great program for woolen fabrics and programs for delicate fabrics. Although it can prevent damage linen, swinging movement lacks ensure sufficient to supply water for washing in folded areas linen, due to hydrophobic characteristics of fabrics of sports clothing. Given this, the filter movement (including the stage circulation) may be implemented at the stage of wetting underwear program for sportswear. Filtering traffic evenly distributes the clothes inside the drum and evenly supplies water for Laundry in the dryer. Together with filter movement can continuously be implemented perechitivayte movement configured to turn linen.

L.2 rinse Cycle (S2050):

Rinse cycle of this program may be similar to rinse cycles of standard programs, programs for woolen fabrics and programs for delicate fabrics, and, thus, its more detailed description will be omitted.

L.3 Cycle centrifugation (S2070):

Cycle centrifugation of this software may be similar cycles centrifugation standard programs, programs for woolen fabrics and programs for delicate fabrics, and, thus, its more detailed description will be omitted.

M. PROGRAM M:

In the washing machine according to the second variant of implementation described above in figure 2, the tank is directly attached to the body, and the drum is provided in the tank. According to the second variant of implementation, the tank is stationary, and only vibrates dryer. As a result, it is important to protect the drum from contact with the tank when the drum rotates, and the distance between the tank and the drum may be larger than the distance in a washing machine according to the first variant of implementation, shown in figure 1.

When the distance between the tank and drum great, linen is loaded in a drum, may not be sufficiently moistened with water for washing, filed into the tank. Consequently, when the water is served in the washing machine according to the second variant of implementation, the circulation pump is put into effect for the effective wetting underwear, and water for Laundry submitted to the tank may be subjected circulation. For example, the circulation pump can continuously operate or operate at a specified interval, which is an open valve in the water supply.

However, when water is in the tank, the water supply line and circulation are used to supply water for washing from the front of the tank. As a result, linen, located in front of the drum, spacewalks would be first, and the load on the front of the drum is greater than the load on the rear part. This may cause the front part of the drum to move down. If the front of the drum moves down, noise and vibration may increase during rotation of the drum and can make a drum to come into contact with the inner surface of the tank. As a result, in the washing machine according to the second variant of the implementation of linen, located in the front and back of the drum, must be evenly moistened, when the water is supplied to pants. Program M is specified by the link as a program for washing, apply to the washing machine according to the second variant of implementation, namely standard program washing machines according to the second variant of implementation. This program will be described with reference to Fig.

M.1 wash Cycle (S2130):

Fig - flowchart sequence of method according to the program M. As the user selects it from the part of the selection program (S2110), part of the management can implement the following cycles of sequences of operations.

Wash cycle could include the stage of determining the number of sheets (S2131), the stage of water supply (S2133), stage wetting underwear (S2135), stage heating (S2137) and phase of the cycle (S2139). In the following description of the stage wetting underwear described as an independent stage, separate from the stage of water supply. However stage wetting underwear can be included in the stage of water supply.

M.1.1. Water supply (S2133):

After measuring the amount of Laundry in the washing cycle, can begin stage of water supply. The stage of determination of linen from the stage of water supply are described in detail in the above program, and, thus, its more detailed description will be omitted.

Part of management of supplies water for washing the inside of the tank at the stage of water supply. More precisely, of the management opens the valve in the water supply to supply water to wash the tank through the water line and a box of detergent. As stated below, when the water for washing is served in the clothes in the washing machine according to the second variant of the implementation will be described options for methods of water, allowing uniform wetting underwear, located in the front and back of the drum.

According to the way of water supply according to the first variant of implementation, when the stage of water supply supplies water circulation pump is put into effect for the circulation of water for washing, and simultaneously enters into force dryer. Portion control can lead dryer in otherwsie movement of movements drum described above.

In the washing machine according to the second variant of implementation, the distance between the dryer and the tank is larger than the distance between the tank and the drum in the first variant of implementation. Thus, in the second variant of implementation, if the drum is provided in the tilting movement (as in the first variant of implementation during the stage of water supply, linen, located in the back part of the drum, lacking, in order to evenly moistened. That is because the gap between the drum and the tank is great water for washing between the drum and the tank is lacking, to climb the rotation of the drum at the tipping movement, and, in particular, linen, located in the back part of the drum, doesn't get to be wetted.

As a result, at the stage of water supply of this program otherwsie movement is implemented instead of tilting motion. As mentioned above, otherwsie the movement of the rotating drum with a higher number of revolutions per minute (compared with tilting movement), and water for Laundry, located between the drum and the tank, can rise rotation of the drum, and then to fall on linen.

In particular, if the rear of the drum and the tank is tilted downwards in the washing machine according to the second variant of implementation, water for washing, located at the rear of the tank may be placed on a surface area of linen atirausk movement. Otherwsie movement of the drum rotates in a clockwise/counterclockwise, dramatically changing the direction of rotation is reversed. As a result, sharply turned the drum's rotation creates a swirling of the water for washing clothes and located in the front and rear drum, can evenly moistened.

In particular, if the rear of the tank, is provided for in a washing machine according to the second variant of implementation, tilted down, a lot of water for washing can accumulate in the back of the tank. Hence, after undergoing a specified time, the drum is driven and turns, and water for Laundry, held at the rear of the tank, can uniformly wet underwear, located at the back of the drum. When the drum is driven in a washing machine according to the second variant of implementation, the drum may be tilting movement or atirausk movement.

When the valve in the water supply offer to supply water according to the second variant of implementation, without driving dryer, power on/off water supply valve can be controlled. That is when the valve in the water supply is open for water, water for washing can be set pressure due to the pressure of external water supply source, such as a water tap, and then the water for washing, supplied by the water supply line, can be served in front of the drum under the pressure of the water from the condition that the linen, located in front of the drum, can more easily be wetted.

As a result, while the water flow in the second variant of implementation, the valve in the water supply again managed to turn on and off, and not to be open continuously, and then supplied water for Laundry can be managed to turn on and off to get the set pressure of water, sufficient to not be served directly in the drum. Pressure, sufficient to not be served directly in the drum, means the pressure of the water that gives the water supplied through a water supply line, the opportunity to fall on the drum, Baku or the door to accumulate in the bottom of the tank, not to spray directly into the drum. Water, descending on the drum, Baku or the door, can accumulate in the back of the tank, and description of water for washing, accumulated in the tank, like the second version of the implementation, so the repeated description can be omitted.

When the clothes inside the drum entangled during the stage of water supply, linen can partially be wetted. In particular, linen, situated in the center of lump twisted linen, may not be wetted, and can be moistened only linen, situated on square surface of the ball. If moistened only some of linen, washing cannot be implemented in a cycle of washing, and the ability washing may deteriorate. As a result, part of the administration can result in the filtering drum movement for uniform wetting underwear, if lingerie confused.

That is, the part of management opens the valve in the water supply for water supply and it drives the circulation pump for the simultaneous circulation of water for washing. Besides, part of management of the drum rotates with the given number of revolutions per minute. The specified number of revolutions per minute is defined to be the number of revolutions per minute, giving the bill the opportunity not to fall under the force of gravity, but to be in close contact with the inner surface of the drum during the rotation of the drum. As a result, a number of rpm can be installed to the centrifugal force caused by the rotation of the drum, was greater than the acceleration of free fall, when the drum rotates. In addition, a number of revolutions per minute can be set to be lower than the area of the high speed (approximately 200 rpm up to 35 rpm), which resonates in the washing machine. When the drum rotates with a higher number of revolutions per minute than the area high speed, noise and vibration can significantly increase the resonance. As a result, a number of revolutions per minute can be set to be approximately 100 rpm up to 170 rpm in this method of control.

As a result, once part of the management of the drum rotates with the given number of revolutions per minute, linen can be in close contact with the inner surface of the drum due to centrifugal force. Water for washing, supplied through the circulation and the water supply line, can be distributed parallel to the rotation of the drum. Distributed water for Laundry can be fed into the drum and linen in close contact with the inner surface of the drum, from the condition that the linen could evenly moistened.

M.1.2 Wetting underwear (S2135):

After the stage of water supply portion control can start stage wetting underwear. At the stage of wet linen of the management closes the valve in the water supply. Portion control drives the drum, and water for Laundry exposed circulation along with the actuation of the pump. Although wetting underwear is implemented at the stage of water supply, the water supply valve turned off during wetting underwear, and wetting underwear can be implemented by the move of the drum.

During the implementation phase wetting underwear of the management classifies stage wetting underwear on the first and second stages of wetting underwear. The first and second stages of wetting underwear can operate according to the movement of the drum, the drum, that's part of management can control the movement of the drum stage of the first and second wetting underwear, so they were different from each other. The circulation pump is next.

More precisely, during the first wetting underwear portion control can lead drum in one of perekachivayuschih and/or stepping movements. The choice of the movements of the drive drum can be determined according to the amount of linen. That is, if the number of clothes inside the drum is less than the specified reference value, for example, if the number of linen small part of management may result in the movement of the drum under the stepping motion. If the number of linen is the reference value, or more, of the management can result in the movement of the drum under perekidyvaem movement.

As mentioned above, if the number of sheets is small, you may improve the effect of lowering linen stepping movement. As a result, if a small amount of Laundry on the first stage of wetting underwear, stepping movement down linen with a maximum distance of lowering to provide water for the opportunity to soak in lingerie. Meanwhile, if the number of sheets is high during the first wetting underwear, implemented perechitivayte movement. This is because the distance lowering linen walking motion is relatively larger in the case of a large number of linen.

From here, on the stage of the second wetting underwear, part of management can result in the movement of the drum with the given number of revolutions per minute, giving bill the opportunity to be in close contact with the inner surface of the drum, not to fall under the power of gravity, that is, according to filter traffic. Finally, the drum rotates with the given number of revolutions per minute, and linen can be in close contact with the inner surface of the drum due to centrifugal force. Water for washing, submitted by the circulation pump is applied evenly to pants, attached to the inner surface of the drum, and, thus, lingerie evenly moistened.

On the second stage of wetting underwear portion control can implement one more movement from the drum drive after filtering traffic. For example, part of management can implement perechitivayte movement after filtering traffic. In this case, the filtering movement distributes linen, to supply water for washing linen, and perechitivayte movement moves by rolling lingerie to uniformly wet underwear in the water for washing.

M.1.3 Heating (S2137):

After this part of the control starts stage heating. More precisely, the part of management in motion dryer according to one of tipping, and/or perekachivayuschih, and/or swinging movements at the stage of heating, with actuation of the heater is provided for in the tank for heating water for washing, held in the tank.

In a washing machine on the second version of the implementation gap between the drum and the tank is larger than the gap in the first scenario implementation. Consequently, when the water for washing is heated by the actuation of the heater, the drum rotates, and heated water for washing, held in the tank, and no water for washing, held in the drum. As a result, in comparison with heated water for washing, pollution linen can not be removed without hindrance during washing, which will be described later, due to the relatively low temperature of linen.

Consequently, the control method applied to the washing machine according to the second variant of implementation, activates the circulation pump at the stage of heating, to expose the circulation of water for washing. The heated water for washing, held in the tank, re-fed into the upper part of the tank has a circulation pump, from the condition that the linen could be hot. However, at the stage of heating circulation pump can operate periodically, with the specified interval, and not operate continuously. In particular, at the stage of heating circulation pump can be controlled so that the time of power-off of the coolant circulation pump longer than the time of inclusion. If the circulation pump is powered continuously during heating or if the switch-on time of coolant circulation pump longer than the time off, he would have been circulating water for washing, not heated to the desired temperature, and water for washing may not be heated to the desired temperature.

If the heater is provided in the tank, it is important to operate the heater when not put out of the water surface. If the heater is driven, while naked, puts too much pressure is applied to the motor, and the heater can operate properly. As a result, if the heater is driven at the stage of heating, specified level of water away from heater (hereinafter, the control of water level), can be maintained at the stage of heating. That is, when the water level is lower than the control level is at the stage of heating, portion control turns off the heater. When the water level increases up to the specified level or more re-supply of water, some control again turns on the heater (hereinafter, 'cuts').

However, if the stage heating is used to cut-off in the washing machine according to the second variant of exercise, too much stress can contribute to the heater and variety of schemes, and can reduce the useful life of the washing machine.

That is the stage of heating washing machine according to the second variant of the exercise of power and heat heater along with simultaneous actuation of the circulation pump, as mentioned above. As a result, the water level inside the tank may not be supported continuously by the actuation of the circulation pump, but can change continuously to the desired extent. In this case, the level of water inside the tank is changed sufficiently to fall below the reference level of the water. In particular, if the level of water inside the tank is changing above the reference level, the heater can be switched on when the water level is above the reference level, and off if the water level is below the reference value, of the conditions to enable/disable the motor could be continuously repeated. Re-enabling/disabling the heater can exert too much pressure to the heater and variety of schemes, and this can shorten its useful life.

As a result, if the level of water inside the tank is reduced to reach the reference level during excitation of motor phase heating washing machine according to the second variant of implementation, replenishment of water can be implemented to prevent re-activate/deactivate the heater. More precisely, when the water level inside the tank is reduced below the control level is at the stage of heating, part of the control stops the drive drum and off the circulation pump. At this time, advanced, open the valve in the water supply for the implementation of replenishment of water. The reason off the drum and a circulation pump, is that it is difficult to measure the exact water level due to changing water level, when the drum and recirculation pump are driven. When the extension you can turn off the motor. Meanwhile, replenishment of water can be realized within a specified time or until such time has not yet implemented the supply of water to the water level reached the reference level or above the reference level by measuring the water level. Specific water level at the replenishment of water may vary according to the type of the program selected in the initial stage of heating.

M.1.3 Wash (S2139):

After the stage heating of the management can implement phase washing, configured for activation of the circulation pump, along with the move of the drum. At the stage of washing motion from the drum drive the drum can select appropriately from the movements of the drum under the program selected by the user. For example, movement from the drive drum stage washing can be defined like one of the stages of washing stipulated in the above programs. Circulation pump can operate at a specified interval for circulation of water for washing, held in the tank.

M.2 rinse Cycle (S2150):

Once the wash cycle is completed after the above steps, portion control can start the rinse cycle. General rinse cycle may include stage rinsing-centrifugation, stage of water supply, stage driving drum stage water drain. First, part of the control starts rinse-centrifugation, rotating drum with the second speed (number 2 rpm) (S2151), at the stage rinsing-centrifuge to remove residual moisture and detergent in linen along with the rotation of the drum with approximately 500 rpm to 700 rpm. Portion control stops the drum and opens the valve in the water supply to supply water to rinse the tank. The level of water for rinsing can be pre-installed according to the program selected by the user, or according to the manual configuration of the user.

Rinse cycle-centrifugation, stage of water supply, stage driving drum stage water drain, described above, can be a single cycle in the rinse cycle. Portion control can implement the cycle once or several times according to the selected program or the user's choice. However, the single cycle of the rinse cycle may include stage rinsing-centrifugation. The second speed stage rinsing-centrifugation can correspond approximately 500 rpm to 700 rpm, as mentioned above, and rotation frequency of such rinse-centrifugation can match the field of high speed (approximately 200 rpm up to 350 rpm), which resonates washing machine.

As a result, if the Laundry is located in the drum, not evenly distributed, can be implemented stage distribution linen configured for distribution of linen, and after that the speed of the drum can accelerate for rinsing-centrifugation. The distribution stage linen again turns the drum with the given number of revolutions per minute in a clockwise direction and/or counterclockwise. After the stage of distribution of linen, identified the level of eccentricity of the drum. If the eccentricity of the reel is less than the preset value, can be implemented rinse-centrifugation. If the eccentricity is specified value or large, the distribution stage linen can be repeated. Because the distribution stage linen is implemented before the stage rinsing-centrifugation, the cycle time rinse may increase. In particular, as repeats the distribution stage linen, cycle time rinsing can significantly increase and the time consumed by the rinse cycle, may not accurately predskazyvat.

As outlined below, to resolve the above problems will learn how to control the rinse cycle, allowing the reduction of the total time consumed by the rinse cycle.

As shown in Fig, rinse cycle washing machines according to the second variant of implementation may include stage of water supply for washing, stage of driving drum (S2151) and the stage of the discharge of water (S2153). Compared with the first option exercise, rinse cycle according to the second variant of the implementation skips rinse-centrifugation. Because the rinse cycle-centrifugation omitted, the time of the rinse cycle may be reduced as much as that stage of rinse-centrifugation, and the distribution stage linen may not be compulsory, thus preventing significantly increased the time of the rinse cycle, caused by the repetition of the distribution stage linen. Although the transmission stage rinsing-centrifugation reduces the time of the rinse cycle, the phase rinse-centrifugation configured to remove residual detergent rotation linen at a relatively high speed, passed, and then it would be difficult to remove residual detergent enough.

As a result, in the way of managing the rinse cycle according to the second variant of the implementation of the drum rotates with the second speed (number 2 rpm) for approximately from 1 to 3 minutes and stops at the stage of the discharge of water. The second speed is determined to be a specified speed, which provides linen opportunity to join the inner surface of the drum due to gravity, and not to fall during rotation of the drum. Second, the frequency of rotation can be set so that the centrifugal force caused by the rotation of the drum, was greater than the acceleration of free fall. Furthermore, the second rotation speed can be set to be lower than the area of high-speed washing machines. When the drum rotates in the field of high speed, resonance can significantly increase noise and vibration. As a result, the second rotation speed can be set to be approximately from 100 to 170 rpm.

In the end, the stage water drain the drum rotates at a given speed and thus, linen can be in close contact with the inner surface of the drum due to centrifugal force, in order to remove residual detergent from linen. Compensating missed stage rinsing-centrifugation, stage water drain the drum rotates on the second speed compromising the ability of rinsing.

At the stage of rotation of the drum with the second speed (the speed set that provides linen opportunity to be in close contact with the inner surface of the drum), if the water held in the tank, merges, all of the stages of the water drain may be implemented before the rinse cycle. That is, even if water is discharged into the cycle of washing, can be implemented stage of rotation of the drum with the given number of revolutions per minute.

M.3 Cycle centrifugation (S2170):

Cycle centrifugation of this software may be similar cycles centrifugation other programs, for example, cycle centrifugation A. Thus, its more detailed description will be omitted.

Following are the option of time management. As a rule, once selected specific programme, the work of the selected program started on the basis of a predetermined algorithm, and finish work within the specified amount of time. The time required for implementation of the programme, could be the amount of time required by a specific cycles that make up the program. This is the total time can be displayed on the part 119 display.

In certain circumstances, the time may be too long. For example, if you have to leave after 1 hour, and setting work time is 1 hour and 20 minutes, while working for 20 minutes longer than is desirable to the user. In contrast, strong pollution can have surgery washing sold for 1 hour and 20 minutes, insufficient for washing clothes. To solve the problem, a washing machine is provided and the method of management, capable to time management.

Washing machine, described above, may include option management time stipulated for time management. That is, the time-specific programs can increase or decrease over part of choices. More precisely, the user can choose to save time from version control. Alternatively, the user can choose the intensive variant by variant management. If no such options are not selected, the work can be implemented according to the preset program. This choice of time management can be implemented before start wash cycle and after selecting the programme of work.

For example, when the user chooses save time, if the time of work program for cotton fabrics is set to 120 minutes, the required time, for example, can be reduced to 100 minutes. When the user selects an intensive option, the operating time can be increased up to 140 minutes to guarantee adequate cleaning of heavily soiled items of underwear. Can be specified difference between the pre-established time and actually required time.

Required cycle time of washing and/or rinse cycle can be changed according to the option of saving time. That is, a cycle whose function time is changed/adjusted, can be different depending on the selected program. For example, in the case of a program for cotton fabrics, programs for synthetic fabrics and programs for mixed fabrics, it is important to improve the ability of washing. Consequently, the required cycle time normal washing may not be altered, even if you choose to save time. Thus, the time required is one of the components of the rinse cycle can be considered to configure.

Rinse cycle repeats the supply of water, drain water and centrifugation. Rinsing can be implemented twice, three times or four times. Centrifugation can be implemented in the same manner cycle centrifugation, with the number of revolutions per minute, and by the time the main centrifugation, less than in the cycle centrifugation. As a result, when you selected save time, the main centrifugation of the rinse cycle can be ignored.

When you selected save time, the stage of determining the quantity of linen can be skipped depending on the chosen program. For example, when the selected program for woolen cloth, delicate fabrics or sports clothes, the amount of this special fabric relatively little. If such items of fabric are dirty, the user tends to wash them immediately. As a result, rarely have to wash a large number of these types of items of clothes at one work program. With this in mind, the stage of determining the number of linen can be skipped when the selected program for woolen fabrics, delicate fabrics or sports clothes.

In contrast, when selected intense option may increase the number of implementations rinse cycle rinse or required cycle time of washing or may increase both.

This option controls the time to match the specific objectives of the program and allows the user to conveniently manage their time.

O. Program O:

"Program O" will be described with reference to Fig. "Program O" can be installed as a program inherent linen, mandatory for washing with enhanced washing, such as clothing with the contamination or baby clothes. That is, enhanced the ability of washing is required for washing clothes with severe pollution, such as working clothes. In this case, at least one stage of this programme may include the submission pair in linen, when steam is applied in the linen, temperature linen increases ferry high temperatures and contamination attached to clothes, soaked to improve the ability of washing and/or rinse. In addition, in the case of service, required for sterilization such as baby clothes, steam is used to achieve the effect of sterilization. Here, the device of vaporization (not shown) may provide for the formation of steam through the use of the water supplied from an external source of water supply for steam supply on linen, in other words, the device of vaporization takes water from an external source of water supply and it heats the water to form a pair. After that, the device of vaporization submitted couples in lingerie, in this case, the steam line is configured to move the pair through him, and steam nozzle configured for steam, can be provided in the device of vaporization. The device of vaporization can be multipurpose, to be the type of accumulation configured to store water in it, or type temperature configured to move the water.

O.1 Stage waiting for user input:

First of all, washing machine performs the stage waiting for user input (S2510), configured to wait for user input. In this case, washing machine displays the input to the program via the display device to wait for user input. Alternatively, washing machine can report the enter user audible.

O.2 Execution of the chosen program:

When the user selects the program, the controller detects whether the selected program program with steam (S2530). Here, the program with the steam is a program that includes at least one stage with the use of steam. In other words, at least one stage, included in the process of washing, rinsing and centrifugation selected program involves stage using steam, and then the program can be called as the program with the steam.

When the selected program with steam, part of the Department executes the submission pair in the washing machine and the stage of the drum drive at least once (S2570). Here, couples may be generated by the device of vaporization, described above, and the device of vaporization can be submitted in pairs dryer, when the drum is driven, movement from the drive the drive pulley can be a strong movement, such as otherwsie and/or step movement, which includes the stage of sudden braking or "hitting movement" and/or "brushing the", otherwsie and stepping movement described above, and re-description will be omitted. Such a phase of the supply of steam and stage movement of the drum can be executed, and their sequence is combined with each other.

For example, first served pairs, and stage movement of the drum is executed later. Even so, foreign substances, attached to pants, can effectively to soak for steam. Consequently, when the drum is executed after the stage of steam supply, foreign substances, attached to pants, can easily be removed. In other words, the stage soaking using steam and phase washing, using the movement of the drum can be included in the composition. In particular, stage movement of the drum may include movement, with a strong movement, such as otherwsie and/or step or stage of sudden braking, and may remove foreign substances more efficiently. As a result, when the stage of the movement of the drum is executed once the fed pairs, efficiency washing can significantly improve. When the stage of the movement of the drum is executed once the steam is supplied in linen, set period of each stage may overlap each other, in this case, may achieve a similar effect.

When the stage of steam supply is performed after the stage movement of the drum, it is expected that couples can remove creases and odor from underwear and prevent static electricity. Stage movement of the drum can be run in a loop wash or rinse cycle, as a consequence, when steam is applied after the movement of the drum in this cycle, can be expected refreshing effect using a pair, such as sterilization linen, removing wrinkles, remove the unpleasant smell or prevent static electricity linen. When the stage of steam supply is performed after the stage movement of the drum set period of each stage may overlap each other, in this case, may achieve a similar effect.

The above program to refresh the ferry can be described as follows. For example, if you try to increase the temperature inside the drum fed pairs, and the temperature of the inside of the drum can be increased up to the preset temperature or more when the temperature of the inside of the drum is increased to the desired temperature or greater, part of management can result in the movement of the drum with steam, a strong movement of the drum allows to withhold foreign substances, such as dust, attached to pants. Steam allows to achieve a refreshing effect. After that steam flow stops for untangling the clothes inside the drum, and the stage of the movement of the drum runs only for a specified period of time. Alternatively, to remove wrinkles with linen through the use of a strong movement, stage movement of the drum stops and the stage of the supply of steam and the submission can be performed within one of the specified period of time.

Meanwhile, if the program is entered by the user is not a program with steam, the program can be executed, as determined in advance (S2550). Here, when a user selects one of the above programs, the selected program can be performed as described above.

P. Program P:

"The program of P will be described with reference to Fig. "The program P" can be used for sterilization of items of clothes, such as children's clothes. In other words, enhanced the ability of washing may be required for washing clothes with a high level of pollution, such as working clothes. In this case, at least one stage, included in such a program may include stage splash pair on the clothes in the dryer. When steam is applied on the clothes, the temperature of the service increases ferry high temperatures, dirt attached to clothing may zakachivaetsja to improve the efficiency of washing and/or rinse. Besides, if need be sterilized items of underwear, such as baby clothes, couples may be submitted to achieve the effect of sterilization linen. Steam can be applied to the device of vaporization configured to generate steam from water, adopted from an external source of water supply. Such a device evaporation may include the steam line is configured to move steam, and the steam nozzle configured for steam supply. Type with water accumulation type with heating water flow, and the like, can be used as a device of vaporization.

"The program P" may include the washing, rinse cycle and the cycle centrifuge for washing and/or sterilization objects with high level of pollution, such as working clothes or baby clothes. The user can select a program P with parts 117 choice program (S2610).

P.1 wash Cycle (S2630)

P.1.1 Stage of water supply (S2631):

Detergent is served at the stage of water supply with water for washing, and can execute a sequence of dissolution of detergent in the water for washing. To increase the efficiency of the wash cycle dissolution of detergent could be effectively met at the initial stage of the water supply. Thus, the stage of stimulating the dissolution of detergent can be performed on the stage of water supply to stimulate the dissolution of detergent.

To stimulate the dissolution of detergent movement from the drive drum, providing linen able to move inside the drum can be a movement that can bring powerful mechanical force as to water for washing and linen. For example, the stepping motion configured to re-lowering linen raised in a rotating drum, with internal circular surface of the drum, brake drum, can be implemented during the stage of water supply to stimulate the dissolution of detergent. Otherwsie movement configured to re-lowering and re-raising linen, rising along the rotating drum, brake drum and reverse rotation of the drum can be implemented in addition to or instead of stepping movement. Stepping movement and otherwsie movement both abruptly stop the drum after the drum rotation of the conditions to the direction of travel linen could change dramatically. Consequently, these movements apply strong shock to the water for washing, and powerful mechanical force is applied at the initial stage of the water supply. As a result, the dissolution of detergent is stimulated and the efficiency of the wash cycle can be improved.

Moreover, consistent combination of a stepper and potteraudio movements can be repeated to stimulate the dissolution of detergent. In this case another type of movement from the drive drum can be combined, and the type of linen movement and type of movement of water for washing can raznoobraziya to further improve the efficiency of the wash cycle.

In some embodiments, the implementation phase circulation configured for circulation of water for washing the inside of the tank, to re-supply water for Laundry in the dryer, can be performed on the stage of water supply to stimulate the dissolution of detergent. This stage circulation provides water for washing the opportunity to stay under the drum to be the circulation back into the drum, further stimulating the dissolution of detergent and wetting underwear.

P.1.2 stage of the discharge of water (S2633):

Programs using the pair may include intermediate stage drain the water after stage of water supply for bringing to maximum effect of steam.

In other words, the stage of water supply, as described above, delivers water to wash with detergent and proper motion from the drum drive gives cleaning means the ability to dissolve enough, and linen enough wetted. When cleanser adequately absorbed in linen, water inside the drum can merge, and then can be fed pairs. In other words, as soon as detergent adequately absorbed in linen, and removed the water, the temperature of the drum and the temperature of the linen can increase the ferry, and then the effect soaking the clothes inside the drum can be achieved for more efficient washing during washing. This stage of the discharge of water may not be used in all programs, but rather applied selectively. That is, provided that it takes time to replenish water after draining the water and steam supply, stage water drain may be applicable only when the garment has a high level of pollution. To complete the program for washing in a relatively short amount of time, using a couple of basic and intermediate stages of the water drain can be excluded.

During the main water drain, the drum can rotate with the given number of revolutions per minute or more. Along with the rotation of a drum, intermediate centrifugation can run, and water can be removed from the clothes inside the drum, maximising the effect of soaking and steaming described above. In this case, the number of revolutions per minute drum can be defined to be the number of revolutions per minute, which provides water for the opportunity to be removed from linen. For example, when the drum rotates during the discharge of water, revolutions per minute can be defined to be the number of revolutions per minute, providing underwear inside the drum possibility to contact internal circular surface of the drum.

P.1.3 Stage heating (S2635):

Wash cycle may include stage heating between main stage of washing and stage of water supply for heating the inner part of the drum in preparation for the main stage of washing.

Stage heating applies steam inside the drum and maintains or increases the temperature of the water for washing or drum until the preset value or more. In the description of the "program P, couples sprayed on the main stage of washing, which will be described later. However pairs can be supplied in other moments, along with the implementation of the program P washing. For example, if the steam is served in the rinse cycle, the stage of heating can be provided in the last part of the wash cycle before the rinse cycle.

During the heating device of vaporization, described above, heats the water and produce steam. As a result, the unit heater steam driven, and means motion from the drum drive can be configured appropriately on the stage of heating. For example, relatively high load can be applied to the motor when one of the movements from the drive drum, including sharp braking, such as otherwsie or stepping movement. If the motion, which includes such a sharp braking is implemented along with the operation of the heater for steam generation, excess weight may venerate the washing machine. As a result, when the heater is used to generate steam, may be sold movement from the drive drum, which do not use sharp braking, such as perechitivayte, and/or overturning, and/or shaking movement(ia).

P.1.4 Stage of the cycle (S2637):

Once the stage of water supply and stage heating is completed, the main stage of the washing can be performed and completed to the end of the wash cycle.

Stage washing of this software can include stage steam configured for steam supply to the inside of the drum. This steam can be performed on one or more of the initial stage, the intermediate phase or stage of the second half of the stage of washing to enhance the effect of steam. This steam can properly be combined with appropriate movement of the actuator of the drum before, along with or after the stage of steam. The movement of the actuator of the drum can be implemented in at least one of the front of the stage steam, after a phase of the supply of steam and/or during the stage of steam supply.

The movement of the actuator of the drum at the stage of washing may include sequential combination of walking, tipping and perekachivayuschih movements for applying high mechanical strength and a variety move linen, to improve the efficiency of washing. Alternatively, the movement of the actuator of the drum at the stage of washing can be consistent with a combination of filtering traffic and tilting motion. This gradual movement from the drive drum provides water for washing the opportunity to go in lingerie continuously to improve the efficiency of washing and evenly applied mechanical force to pants to improve the efficiency of washing. As a result, the movement of the actuator of the drum at the stage of washing may vary according to the number of sheets to achieve optimized effect of washing.

In some embodiments, the implementation of a number of lingerie can be a number of linen defined before the stage of water supply, or the amount of lingerie defined during the stage of heating. A small amount of wet linen can mistakenly be determined by a large number of linen, so the movement of the actuator of the drum at the stage of washing can be modified according to the number of linen, after a certain stage of water supply.

When the number of linen is specified level, the number of linen or more movement from the drive drum may include filter movement. Together with filter motion, may also be implemented tipping movement. If not centrifuged for circulation of water for washing, can be implemented only tilting motion. In the case of a large number of linen, efficient cleaning can be intensified even and continuous supply of water for washing linen along with the simultaneous use of mechanical power to pants.

When the number of sheets is less than the specified level number of linen, the movement of the actuator of the drum can be a stepping movement or perekidyvaem movement, who exert a powerful mechanical force with the use of various types of motion to improve the efficiency of washing. Moreover, the tilting movement can be implemented along with this movement.

As mentioned above, stage of water supply, stage heating and phase washing, make up the wash cycle, and associative related traffic from the drive drum can change to improve the efficiency of the wash cycle. In addition, the movement of the actuator drum at each stage can be changed, so that the optimal wash cycle can be performed according to the amount of linen.

P.2 rinse Cycle (S2650):

Rinse cycle in this program can run like the rinse cycle other programs described above and, thus, re-description respectively will be omitted.

P.3 Cycle centrifugation:

The cycle of centrifugation in this program can be executed like a cycle centrifugation other programs described above and, thus, re-description respectively will be omitted.

IV. THE MOVEMENT OF THE ACTUATOR OF THE DRUM UNDER THE PROGRAM AND STAGE OF THE PROGRAM

Next will be described in motion from the drum drive by every cycle of each program. As mentioned above, the movement from the drum drive includes a combination of the direction of rotation of the drum and the frequency of rotation of the drum and to distinguish the direction of lowering and lowering linen, located in the drum, in order to make different movement of the drum. These movements from the drive drum can be implemented to drive a motor.

Because linen rises capture provided on the inner circular drum surface during spin, speed and direction of rotation of the drum are managed for the modification of a shock, attached to pants. That is, could mutate mechanical force, including friction between objects linen, friction between linen and water for washing and shock lowering. In other words, the level of stress or ottiene linen may vary, to wash clothes, and may vary the level and distribution of linen or level of treatment of clothes.

As a result, the movement from the drum drive may vary according to each cycle of the various programs for washing, and each specific phase of each cycle, so lingerie technologically processed optimized mechanical strength. As a result, the efficiency of the washing can be improved. In addition, single fixed motion from the drum drive may result in excessive time washing. Next will be described in the movement from the drive drum for each cycle.

Wash cycle:

Wash cycle includes the stage of determining the quantity of linen, stage of water supply and stage of washing. Stage of water supply includes the stage of stimulating the dissolution of detergent configured to dissolve the detergent, and stage wetting underwear configured for wetting underwear. Stage of stimulating the dissolution of detergent and stage wetting linen can be provided independently, separately from the stage of water supply. Stage heat can be additionally provided according to each program.

On the stage of water supply, water for washing is served along with detergent, and can be implemented stage of dissolution of detergent. To improve the efficiency of the wash cycle, the dissolution of detergent could be effectively met at the initial stage of the water supply. For the rapid dissolution of detergent in the water for washing can be an effective movement configured for applying powerful mechanical strength. That is, a powerful mechanical force is applied to water for washing, to dissolve the detergent in the water for washing more effectively. As a result, at the stage of stimulating the dissolution of detergent drum rotates according to the stepper movement and/or attirisanu movement. As mentioned above, the stepping motion and otherwsie movement rotate the drum at a relatively high speed, putting sharp braking to the drum to change directions, and may be issued powerful mechanical strength. The combination of stepping movement and potteraudio movement may be possible at this stage.

At the stage of stimulating wetting underwear important to moisten linen in water for washing, mixed with detergent. In this case, the movement of the actuator of the drum can be filtering traffic. Alternatively, can be consistently implemented filtering movement and perechitivayte movement. Perechitivayte movement continuously turns linen, to give the water for washing, held in the lower part of the drum, the ability to evenly contact with linen, and appropriate wetting underwear. Filtering movement extends linen during the rotation of a drum, to bring linen in close contact with the inner circular surface of the drum along with simultaneous spraying water for Laundry in the dryer, from the condition that the water for washing could be produced from the tank through linen and through holes drum due to the centrifugal force. As a result, the filter movement extends the surface area of linen and provides water for washing the opportunity to pass through linen. As a consequence, may achieve the effect of a uniform supply of water for washing linen. Besides, to use such effect, two different movement from the drive drum, that is filtering traffic and perechitivayte movement, consistently repeated at the stage of stimulating wetting underwear. If the number of sheets is specified value or more, the effect of wetting underwear may worsen with perekidyvaem movement, with relatively low drum rotation frequency, and thus tilting movement with a relatively high frequency of drum rotation, can be implemented instead perekachivayuschih movement.

However, the stage of stimulating the dissolution of detergent or stage wetting underwear stage of the water supply can be classified according to the movement from the drive drum, when the water for washing is served continuously. As a result, it is difficult to distinguish between the above steps on the stage of water supply. From a user perspective, it seems that the drum is driven according to one perekachivayuschih, and/or overturning, and/or stepping movements on the stage of water supply, or a combination of two or more of the movements.

According to the type of fabric linen, there may be software configured to prevent damage to the fabric of underwear. Besides, according to the program, can be software configured for suppressing the production of noise when linen washed based programs. When the drum is driven according to the movement, capable of applying high mechanical strength, at the stage of water damage to the fabric of the clothes or the generation of noise, in General, can be difficult to avoid. As a result, at the stages of water supply is provided by movement capable as much as possible low levels of noise or prevent tissue damage. In these programs, the effect of the dissolution of detergent and effect wetting underwear achieved so that in these programs dryer can be operated when swinging motion, or can be increased time perekachivayuschih movement.

Swinging movement can minimize the movement of clothes inside the drum compared with other movements, and it can minimize tissue damage caused by friction items, linen and friction between linen and dryer. In addition, perechitivayte movement causes the move by rolling linen along the inner surface of the drum and does not cause shock produced by sharp lowering of linen.

If the dissolution of detergent and hydration linen are implemented on the stage of water supply, stage circulation configured for circulation of water for washing, may provide for at least the given stage. This stage circulation can be implemented at the stage of water supply or at a given stage of the water supply.

1.3 Heating:

At the stage of heating can be provided by the movement from the drive drum, configured for transmission of heat produced, while the heater is provided for in the tank, heat water for washing, linen. At the stage of heating the drum is driven according to the tipping movement configured for continuous rotation of the drum in a given direction. If the direction of rotation of the drum is changed, the whirl is called in the water for washing, and heat transfer efficiency may deteriorate. If the number of sheets is less than the specified level number of linen, the drum is driven at perekidyvaem movement. If the number of sheets is specified level, the number of linen or large, the drum is driven when tilting motion. Perechitivayte movement can effectively heat linen, if the number of sheets is less than the specified level. If the number of sheets is specified level or higher may be relevant tipping movement configured to rotate the drum at relatively high speed.

1.4 wash:

Stage washing may take the longest time of the wash cycle. At the stage of washing pollution linen can essentially be removed, and the movement of the drive drum stage washing may be a movement capable of moving underwear in different schemas. For example, movement from the drive drum stage washing can be one of or a combination of stepping movements, and/or tilting movements, and/or perekachivayuschih movement. This combination of movements can exert a powerful mechanical force to pants. Especially in the case of a small number of linen, the combination of these movements can be effective.

Movement from the drive drum stage washing can be a combination of filtering traffic and tilting motion. This movement from the drive drum can supply water for washing linen continuously to improve the efficiency of washing and can attach a mechanical force to pants evenly to improve the efficiency of washing. This combination can be effective when a large number of linen.

Stage heating is provided before phase washing, and water for Laundry can be heated during washing, to improve the efficiency of washing. If water for washing is heated, the movement from the drive drum can be combined. For example, if the heater is provided for in the tank, is driven to heat water for washing, the drum can be operated according to the movement from the drive drum, no sudden braking.

As mentioned above, in programs that are configured to prevent damage to tissue and inhibiting the production of noise, movement, capable of applying relatively weak mechanical strength for linen can be provided at the stage of washing. For example, during the washing of the above programs, rocking motion can be implemented to reduce the generation of noise and prevent tissue damage. As a result, the duration of rocking motion can be longer than other movements in the program. If the stage of washing implemented only by shaking movement, efficient cleaning will be affected, and may additionally be provided by the movement, which has high mechanical strength. Time of action of the movement, which has high mechanical strength can be set to be shorter than in motion with weak mechanical strength.

2. Rinse cycle:

In the rinse cycle, stages of water supply, driving drum and water drain are repeated for washing off the dirt attached to pants, or detergent residues. As a result, the movement of the actuator drum rinse cycle may be a movement capable of generating such attorney effect. For example, movement from the drive drum rinse cycle can be atirausk movement and/or shaking movement. As otherwsie movement and swinging motion have the effect of continuous ottiene and swinging linen in water for washing to improve the ability rinse.

When the drum is driven in the rinse cycle, the phase circulation configured for circulation of water for washing, held in the tank inside the drum, and filter traffic may be implemented jointly. That is, water for washing is sprayed into the bowl, and linen porositsa running water. Filtering movement produces powerful centrifugal force and can separate detergent and pollution from linen together with water for washing.

As mentioned above, the programs selected to prevent damage to tissue and inhibiting the production of noise, movement, capable of applying relatively weak mechanical strength for linen can be provided at the stage rinsing. For example, swinging movement can be provided in cycles rinsing programs. In the program, selected to reduce the time of washing, you can reduce the time of the rinse cycle. For example, filtering traffic consumes a relatively large amount of time and, therefore, the filter motion can be ignored during driving drum rinse cycle if the program selected to reduce the total time of washing.

3. Cycle centrifugation:

In the cycle of centrifugation drum rotates at the specified speed or higher for removal of moisture contained in linen, and the cycle centrifugation may include stage untangling linen and phase measurements of eccentricity to accelerate the frequency of drum rotation to a specified number of revolutions per minute. Proper movement of the actuator of the drum can be chosen according to the purpose of each stage. For example, at the stage of untangling linen useful to apply relatively high mechanical strength to pants. If the movement capable of applying high mechanical strength, provided in the previous cycle rinse, enough movement, have low mechanical strength. Moreover, in order to accurately measure the eccentricity, the movement from the drive drum, configured for continuous rotation of the drum in one direction may be relevant at the stage of eccentricity measurement.

V. NEW PROGRAMS

In the description of different programs, each program includes the washing, rinse cycle and the cycle centrifugation. However, you can skip a single cycle of each program per the user's choice. That is, you can skip the wash cycle of the program A (standard programme) or skip the rinse cycle of program B (program for stubborn dirt), or skip cycle centrifugation of the program (the program for fast boiling). By extension, one of the cycles specified in each program can be installed as an additional program. For example, the washing program F (programs for functional service) can be installed as the new program. In this case, it can be a link as "wash functional service". Rather than washing, rinse cycle or the cycle of centrifugation provided in each program can be installed as the new program.

Although the washing, rinse cycle and the cycle centrifugation described in a specific order to explain each of the programs, such cycles from one program can be combined with cycles of another program to create a new program. For example, rinse cycle and the cycle centrifuge program A (standard programme) can be combined with the wash cycle program B (program for stubborn dirt) and installed as the new program. Alternatively, each cycle can be taken from other programs. For example, rinse cycle program A (standard programme) and the cycle of centrifuge program M can be combined with the wash cycle program B (program for stubborn dirt) and installed as the new program. In this case, the steps that are configured for connection of cycles can be set or changed, as it should.

In addition, a new program can be created on the basis of the effects and conditions of washing. Fig-24 illustrate the stages, the effects and the terms used to define the movements for standard programs, programs for strong motion (program for stubborn dirt, programs for fast boiling and programs for cold washing) and programs for weak movements (programs for color, delicate or woolen fabrics). On the basis of the required effects and conditions can be chosen movement of the drum, interchangeable between the standard program, the program for strong motion and program for weak movements to create new control programs. The present disclosure and signs, in addition, can be applied to the movement of the dryer drum, for example, are disclosed in publications of U.S. patent no 2009/0126222, 2010/0005680 and 2010/0162586, whose full disclosure included in the materials of this application by reference.

While the options for implementation were described with reference to a number of his illustrative options for the implementation, it should be clear that numerous other modifications and variants of implementation can be thought up by experts in the field of technology, which will be subject to the nature and scope of the principles of this disclosure. More precisely, different options and possible modifications in the constituent parts and/or layouts subject Raman link within the scope of disclosure, drawings and make the claims. In addition to variants and modifications in the constituent parts and/or layouts, alternative applications will also be obvious to specialists in a given field of technology.

1. The method of operation of the washing machine with a major movement to rotate the drum for the ability of washing, according to which await user input and perform at least one of the steam drums and drum drive in heavy traffic when the program entered by the user, is a program with steam, and the ability washing strong movement exceeds the ability of the washing of the main traffic.

2. The method according to claim 1, according to which when executed at least one of the steam drums and drum drive in a strong movement additionally serves pairs inside drum lead drum in a strong movement before serving pairs inside the drum, or when they file pairs inside the drum or within a specified period, which overlaps with the steam inside the drum, with a strong movement contains at least one rotation of the drum with the given number of revolutions per minute in a given direction or rotation of the drum with the given number of revolutions per minute with alternating direction clockwise and counterclockwise direction.

3. The method of claim 2, according to which a strong movement additionally contains sharp braking drum on the basis of an angle of rotation of the drum.

4. The method according to claim 3, according to which when braking drum apply torque in direction opposite to the current direction of rotation of the drum.

5. The method according to claim 3, according to which sharp braking drum temporarily stops the rotation of the drum in a given direction or change the direction of rotation of the drum with the alternation between directions clockwise and counterclockwise.

6. The method according to claim 1, according to which the conversion of a drum in a strong movement makes clothes in the dryer to fall from the top of the drum.

7. The method of operation of the washing machine with the main motion for a spin, according to which await user input and perform at least one of the steam supply to the drum and application of sudden braking to the drum on the basis of an angle of rotation of the drum when the program entered by the user, is a program with steam, and the level of vibration in the application of sudden braking to the drum exceeds the level of vibration specified main motion.

8. The method according to claim 7, according to which when executed at least one of the steam supply to the drum and application of sudden braking to the drum on the basis of an angle of rotation of the drum additionally serves pairs inside the drum; drive the drum before steam supply or after the filing of a couple or in a specified period that overlaps with steam inside the drum, and when you move drum rotating drum with at least the given number of revolutions per minute and periodically used sharp braking to the drum on the basis of an angle of rotation of the drum.

9. The method of claim 8, under which drive the drum is rotating drum with the first number of revolutions per minute in a given direction and/or rotate the drum with the second number of revolutions per minute with alternating direction clockwise and counterclockwise direction.

10. The method of claim 8, according to which applied periodically sudden braking apply torque to the drum in the direction opposite to the current direction of rotation of the drum.

11. The method according to claim 10, according to which the applying torque to the drum rotation of the drum with the first number of revolutions per minute in a given direction temporarily stops the rotation of the drum in a given direction, and applying torque to the drum alternating directions clockwise and counterclockwise changes the direction of rotation of the drum.

12. The method according to claim 7, according to which the use of sharp braking to the drum makes the clothes in the dryer to fall from the top of the drum.

13. The method of operation of the washing machine with a major movement to rotate the drum for the ability, under which await user input and perform at least one of the steam drums and drum drive in at least one of the striking movement or brushing motion when the program entered by the user, is a program with steam, and the ability washing hitting motion or brushing motion exceeds the ability of washing specified main motion.

15. The method of 14, according to which, when the drum is driven after steam, advanced soaked linen supplied steam and drive the drum loop wash or rinse cycle.

16. The method of 14, according to which, when the drum is driven before steam, advanced perform at least one of sanitary processing of linen, remove wrinkles with linen, remove odor from underwear and prevention of static electricity linen supplied with steam.

17. The method of 14, according to which, when the drum is driven in a given period, which overlaps with the steam inside the drum increases the temperature of the inside of the drum until the specified or more of temperature by steam applied for sanitary processing of linen, remove wrinkles with linen, remove odor from underwear and prevention of static electricity and remove foreign substances from linen through movement of the drum.

18. The method of 14, under which drive the drum is rotating drum with the first specified number of revolutions per minute in a given direction and/or rotate the drum with the second specified number of revolutions per minute with alternating direction clockwise and counterclockwise direction.

19. The method of 14, under which drive the used drum sharp braking to the drum on the basis of an angle of rotation of the drum, while the application of sudden braking to the drum apply torque to the drum in the direction opposite to the current direction of rotation of the drum, making clothes in the dryer to fall from the top of the drum.