Laundry treatment machine

FIELD: personal use articles.

SUBSTANCE: disclosed is a laundry treatment machine containing a housing with a tank attached thereto. The front section of the tank contains a forward-projecting rim section whereon water holes are made as well as one hole for steam or water circulating with the help of a circulation pump. The holes are positioned opposite each other relative to the shaft rotation axis. The drum is installed so that to enable rotation inside the tank while the drive unit contains a rotary shaft (connected to the drum), a bearing case for support of the rotary shaft so that to enable its rotation and an electric motor connected to the rotary shaft. Additionally, a controller is installed on the base front frame.

EFFECT: design improvement.

23 cl, 14 dwg

The technical FIELD TO WHICH the INVENTION RELATES.

The present invention relates to machines for handling sheets.

Basically, examples of machines for handling sheets may include washing machines and dryers. Washing machines can be divided into the washing machine pulsating and type washing machine a drum type. Some of these washing machines can be combined washing and drying machines, which are able to perform the drying operation, not only the operation of washing.

Drying machine may be the same type of machines for handling sheets for drying the wet cloth using, for example, hot air.

BACKGROUND of the INVENTION

Washing machine drum can be designed so that the tank may be positioned horizontally, and, in turn, the drum can also be positioned horizontally in the tank. Linen can be placed in the drum to turn and Laundry during rotation of the drum.

The drum can be used for the reception of water for washing, and the drum can accommodate linen to ensure Laundry.

The drum may be mounted for rotation inside the tank.

The rotating shaft can be connected to the rear wall of the drum and may receive a rotational force from the electric motor. Consequently the nutrient, the rotating force of the motor can be transmitted to the drum through the rotating shaft by rotation of the motor causing the rotation of the drum.

The drum can be rotated during the washing operation, the rinsing operation and the pressing operation (drying). However, this rotation may cause the vibration of the drum.

The rotating shaft can pass through the rear wall of the tank, thus, speaking from the tank. Some known washing machine may include a bearing housing formed by inserting at the rear of the tank. Alternatively, the bearing housing can be manufactured and mounted on the rear wall of the tank.

The bearing housing can be used to support a rotating shaft. Vibration during rotation of the drum can be transmitted to the bearing housing and Baku via a rotating shaft.

Therefore, the tank can vibrate together with the drum. To reduce vibration element for maintaining the damping can be connected to the tank.

In known washing machines vibration of the drum may be directly transmitted Baku, and the element for maintaining the damping connected with the tank, can perform the function of maintaining the transmitted vibrations.

DISCLOSURE of INVENTIONS

TECHNICAL PROBLEM

In known machines for the processing of linen, in which the tank vibrates along the drum, it may be necessary to the formation of the set of gaps between the tank and the drum and between the tank and the casing to prevent the collision between them during the vibration. Education defined gaps may impede the increase of the size of the tank and drum.

In one embodied machine for processing linen tank can be isolated from the vibration of the drum, thus providing increased tank size and volume of the drum, which may be achieved increased the capacity of the machines for processing of linen.

It should be noted that the larger the tank, the smaller the gap between the shell and the tank, and this can cause a problematic installation of the respective elements. The present invention can realize a compact internal design of a machine for processing through the effective installation of these elements.

SOLUTION

Machine for processing sheets may include a tank to contain water, a drum located for rotation in the tank, the drive unit for rotation of the drum, and a host of suspension to reduce vibration of the drum.

The tank may be provided with a hole for water and at least one hole for steam or water circulating through the circulation pump.

The hole for the water and at least one hole may be formed on the PE the front upper section of the tank.

The water supply hose may be connected to the outlet for water, and a hose for the supply of steam or coolant hose can be connected with at least one aperture.

Site suspension may contain axial bracket and radial bracket.

Radial bracket completed with passing in a radial direction relative to the axis of rotation of the shaft.

Axial bracket made with the possibility of passing in the axial direction.

Machine for processing sheets may contain a means for increasing the mass of the system vibration, in which the drum is vibrating object.

Means may be a single weight or set of weights.

The weight can be secured to the radial arm, or made as one piece with the radial bracket.

The front surface of the tank may include passing the forward section of the rim for the formation of the front holes, and a device for feeding a fluid medium may include a water supply hose connected to the top position of the section of the rim.

The device for feeding the fluid may include a hose circulation of water or a hose pair, connected with the upper position of the section of the rim.

Although the increased size of the tank can reduce the space between the tank and the casing, the inclined front of the Yaya tank surface can provide a sufficient space between the front surface of the tank and the top section of the front wall of the casing. Device for feeding a fluid medium may be connected to the tank through the space.

The water supply hose may be connected to the section of the rim in the left position or the right position based on the vertical centerline of the section of the rim, and the hose circulation of water or a hose pair can be connected with a plot of the rim on the opposite side of the water supply hose.

Site suspension may include a first sinker (first radial bracket, made as one piece with the weight and the second weight (the second radial bracket, made as one piece with the sinker)connected, respectively, with the left and right sides of the bearing housing, and a host of suspension may include a first axial bracket and the second axial bracket, connected, respectively, with the first weight and the second weight.

Inclined rear surface of the tank can provide sufficient lower space between the rear surface of the tank and the rear wall of the casing, and the weight can be located in this lower space.

Site suspension may further include a third bracket, rear bottom portion of the rear surface of the tank and connected with the center of the bottom portion of the bearing housing. When inclined position of tank space can be formed between the at the lower area of the rear surface of the tank and the rear wall of the casing, and the third bracket can be located in this space.

In a machine for processing linen tank can still be maintained, or supported by a flexible support element, such as a node charms.

In addition, the tank may be supported in an intermediate position between the fixed bearing and flexible support.

That is, the tank can be flexibly supported by a host of suspension or be maintained strictly. For example, the tank may be supported pendants, supported by rubber bushings to provide a less flexible moving than while maintaining suspensions, or still be supported by fastening screws etc.

As for another example, cases in which the tank is supported more rigidly than maintaining the node suspensions are listed below.

First, the tank can be made as one piece with the casing.

Then, the tank may be supported by means of fastening screws, rivets, rubber bushings, etc. in Addition, the tank may be welded or connected to the casing. In these cases, supporting or fastening elements have a greater rigidity than the rigidity of the node of the suspension relative to the main direction of vibration of the drum.

The drum can be increased within the space where the tank is. That is, the tank can be increased, while its peripheral surface has not reached the em (or almost reached) of the side wall or side of the frame (for example, left or right panel of the casing), limiting the amount of space, at least in the transverse direction (the direction perpendicular to the axial direction of the rotating shaft when the rotating shaft is horizontal). The tank can be made as one piece with the side walls of the casing.

The tank can be made closer in the transverse direction to the wall or frame than the drum. For example, the tank can be located from the wall or frame at a distance of 1.5 times less than the distance of the drum. Provided that the tank is enlarged in the transverse direction, the drum can also be expanded in the transverse direction. In addition, if the transverse distance between the tank and the drum is reduced, the drum can be increased in the transverse direction is directly proportional. When reducing the transverse distance between the tank and the drum, the vibration of the drum in the transverse direction can be taken into account. The weaker vibration of the drum in the transverse direction, the more increased the diameter of the drum. Therefore, the node of the suspension to reduce vibration of the drum may be designed so that the rigidity of the node of the suspension in the transverse direction more backbone node charms in other directions. For example, the node of the suspension can be designed in such a way that the rigidity of the node suspension for protivodeistvie is offset in the transverse direction is greatest compared with the rigidity of the node charms to counteract the shift in other directions.

In addition, the node of the suspension can be directly connected to the housing of the bearing supporting the rotating shaft. That is, the bearing housing includes a support section to support rotatably the shaft and protruding segment passing from the reference site, and the site of the suspension is fixed on the supporting area of the bearing housing or protruding section of the bearing housing.

Site suspension may include brackets, passing in the axial direction. In a machine for processing sheets with front loading arms can be carried forward, i.e. toward the door.

Site suspension may contain at least two hangers, which are located at a distance from each other in the axial direction of the shaft.

Site suspension may contain pendants located underneath the shaft to a stationary support. Supported object (e.g., drum) supported pendants for offline location.

Alternatively, the node suspensions may contain pendants located above the shaft for hanging support. In this case, the supported object is supported in a suspended state.

The centre of mass of the vibrating object (e.g., the combination of a drum, shaft, bearing housing and motor) can be located relative to the center longitudinal length of the drum in a hundred who Ohe, where is the motor. In a machine for processing sheets with front loading center of mass can be located at the center of the longitudinal length of the drum. In this case, at least one suspension may be located in front of or behind the center of the mass. One pendant can be located in front of the center of mass, and the other pendant at the center of the mass.

The tank may contain a hole at its rear section. The drive unit can be connected to the tank by a flexible element. The flexible element may be sealed between the tank and the drive unit to prevent leakage of water through the hole in the rear section of the tank and ensure the movement of the drive unit relative to the tank. The flexible element may be made of flexible material, which may function as a seal, for example, the gasket material that is similar to the front strip. In this case, the flexible element may be referred to as the rear gasket for convenience. The rear seal can be connected to the drive unit, provided that the rotation of the rear strip, at least in the direction of rotation of the rotating shaft is limited. In one embodiment, the flexible material may directly be connected with the shaft. In another embodiment, the flexible material can be connected with a section of the bearing housing.

In addition, the area of the drive unit, which offers the wives radially inside of the back strip and, thus, probably, is exposed to the water in the tank may be designed in such a way as to not be subjected to corrosion by water. For example, the area of the drive unit may be covered or surrounded by a separate element made of plastic, such as the rear element of the tank (which will be described below). When the area of the drive unit is made of metal, the plot may not be subjected directly to the action of water through the coating or a separate plastic element, and, thus, can be prevented corrosion of the site.

In addition, the cover may be unnecessary. For example, in the embedded machine for processing sheets, machine for processing sheets without casing can be installed in space design, surrounded by walls. However, even in this case, you may need front panel forming the front surface of the machine for processing sheets.

FAVORABLE RESULTS of the INVENTION

Machine for processing sheets in accordance with the exemplary embodiment of the present invention may be configured to prevent transmission of vibration of the drum Baku. This may increase the size of the tank, so the tank is located near the inner surface of the shell.

In addition, you can compact the inner construction is down for processing linen through effective education space between the enlarged size of the tank and casing and use this space for installation of the respective element.

BRIEF DESCRIPTION of DRAWINGS

The accompanying drawings, which are included to provide further understanding of the present disclosure and form a part of this application, illustrate embodiments of the present invention and together with the description serve to explain the principles of the present disclosure.

Drawings

figure 1 is a partial perspective view illustrating a machine for processing sheets in accordance with the exemplary embodiment of the present invention;

figure 2 is a side view of a machine for processing sheets, shown in figure 1;

figure 3 is a front view of a machine for processing sheets, shown in figure 1;

4 is a rear view of a machine for processing sheets, shown in figure 1;

5 and 6 are views illustrating the front tank forming part of the tank;

7 is a view illustrating the connected state of the water supply hose, air hose, steam and air hose, circulating water and the setting state of the main controller;

Fig-12 - types, illustrating the installation of the main controller;

Fig view illustrating the connection between, for example, the bearing housing and sinker;

Fig view illustrating the connected state of the drying fan and inlet boxes.

The BEST OPTION of carrying out the INVENTION

Reference will be made in detail to examples of domestic the present invention, examples of which are illustrated in the accompanying drawings.

Figure 1 is a partial perspective view illustrating a machine for processing sheets in accordance with the exemplary embodiment of the present invention, and figure 2-4, respectively, side view, front view and rear view of a machine for processing sheets, depicted in figure 1. 5 and 6 illustrate front tank forming part of the tank. 7 is a view illustrating the connected state of the water supply hose, air hose, steam and air hose, circulating water and the setting state of the main controller. Fig-12 - types, illustrating the installation of the main controller. Fig view illustrating the connection between, for example, the bearing housing and sinker. In addition, Fig view illustrating the connected state of the drying fan and inlet boxes.

Machine for processing sheets are designed so that the tank is mounted on the casing and supported by the casing. The tank may include front tank 100, which forms the front part of the tank, and the rear tank 120, which forms the rear part of the tank. Front tank 100 and the rear tank 120 can be assembled with each other by screws and can form a space to accommodate the drum.

Front tank 100 may include passing forward section 101 rim formed on its front surface 101a, claustrophilia front holes, When viewed from the side, the horizontal width of section 101 of the rim may be gradually reduced from the upper side to the lower side. Front opening can be used as openings for loading/unloading.

Rear tank 120 may have a rear surface 128, in which a punched hole rear. The rear opening may be essentially closed rear plate 130 of the tank and the rear gasket 250, which will be described below.

The rear gasket 250 may be made of flexible material to prevent the transmission of vibrations of the rear plate 130 tank rear Baku 120.

The rear gasket 250, respectively, may be connected with the rear plate 130 of the tank, and the rear tank 120 for sealing gaps between them, thus, used to prevent leakage of water for washing of the tank. Back plate 130 tank can vibrate together with the drum 301, which will be described below, during rotation of the drum 301. In this case, the back plate 130 of the tank may be located at a sufficient distance from the rear tank 120 so as not to collide with the rear tank 120. Flexible rear gasket 250 may provide the movement of the rear plate 130 of the tank relative to the rear tank 120 without colliding with the rear of the tank 12. The rear gasket 250 may contain corrugated section 252, which can grow is to ivalsa on sufficient length to provide relative movement of the rear plate 130 of the tank.

Element 200 to prevent contamination by extraneous substances can be connected with the front end of the front tank 100 to prevent the ingress of foreign matter into the gap between the tank and the drum 301. Element 200 to prevent contamination by extraneous substances can be made of flexible material and may still be installed on the front of the tank 100. For example, the element 200 to prevent contamination by extraneous substances can be made of the same material as the rear gasket 250.

The drum 301 can be, for example, from the front of the drum, the Central part of the drum and back plate of the drum. Although not shown, the balancing balls can be installed on the front and rear sections of the drum 301. The rear plate of the drum may be connected with a cross-shaped element, and, in turn, cross-shaped element can be connected to the rotating shaft. Therefore, the drum 301 can rotate inside the tank when receiving torque forces transmitted through the rotating shaft.

The rotating shaft can pass through the back plate 130 tank for direct connection to the motor. More specifically, the rotating shaft can be directly connected to the rotor 70 of the motor. The housing 400 of the bearing may be connected to the rear surface of the o back plate 130 of the tank. The housing 400 of the bearing can be used to maintain with the possibility of rotation of the rotating shaft between the motor and the rear plate 130 of the tank.

The stator (not shown) of the motor can still be installed in the housing 400 of the bearing, and the rotor 70 can be located with surrounding stator. As described above, the rotor 70 may be directly connected to the rotating shaft.

The housing 400 of the bearing can be maintained on the basis of 600 casing using node charms. Site suspension may include three vertical suspension and two inclined in the longitudinal direction of the suspension. One of these pendants can be located between the rear lower section of the tank and the rear wall of the casing 620, and the other four charms can be located on two on the left and right sides. More specifically, when viewed from the front side, four charms can be located at two in the left and right spaces between the bottom side of the outer peripheral surface of the tank and the inner casing surface, including the inner surface of the left and right walls 630 and 640 of the casing and the inner surface of the base 600 of the casing. In the exemplary embodiment of the present invention, since the tank is tilted, as will be described below, the distance between the outer peripheral surface of the tank and the base 600 is aguja may gradually increase in the direction toward the front of the tank. Therefore, it may be preferable to position the vertical suspension in the front positions of the tank. More specifically, assuming that the two vertical suspension are located, respectively, on the left-right sides, the provisions of these vertical suspensions can be displaced in the longitudinal direction from the center of the base 600 of the casing or tank. Therefore, three vertical suspension can be located in the spaces formed due to the inclined position of the tank, so one suspension is located in the space formed between the back bottom section of the tank and the rear wall of the casing 620, and the other two pendants are in the front left and right positions of the space formed between the outer peripheral surface of the tank and the inner surface of the base 600 of the shell.

Site suspension can also be used to maintain the drum 301 by reducing the vibration of the drum 301. In fact, the tank and the drum 301 can have a separate support structure, and the tank may not vibrate even if the vibrating drum.

Below, the above-described configuration will be described in more detail in parts.

The front surface 101a of the front of the tank 100 may have a toroidal flat surface formed on the front end of the cylindrical side wall (i.e., cylindricus the second outer peripheral surface) of the front of the tank 100. The rear end of the front tank 100 is open for connection with the respective front ends of the rear tank 120.

Section 101 of the rim can be carried forward from the front surface 101a of the front of the tank 100, and the width of section 101 of the rim may be gradually reduced from the top to the bottom. In fact, section 101 of the rim may be formed in the lower part of the front surface 101a.

Section 101 of the rim can be performed, for example, with a hole 104 for the water hole 103 for intake of hot air, a hole 106 for circulating water and a hole 105 for the pair. A hole 104 for water can be used to supply water to the washing tank, and a hole 103 for intake of hot air may be used provided that has the function of drying. In addition, water for washing, circulating through the circulation pump 60 can be fed into the tank through the opening 106 for the circulation of water and steam may be supplied into the tank through the opening 105 for the pair. In a machine for processing sheets in accordance with the exemplary embodiment of the present invention, in which the tank has a markedly reduced vibration, for example, a device for supplying water, including the hose 90 to the feed water, the drying device comprising the inlet duct 40, a device for steam supply and the device for supplying the circulation water may butiagina connected to the tank and supported by the tank.

Hole 103 for intake of hot air may have the approximate shape of a rectangular hole passing up from section 101 of the rim. In this paper, the hole 103 for intake of hot air may be necessary if a machine for processing sheets is combined washing and drying machine. In other words, in the case of a washing machine that does not have the function of drying, the hole 103 for intake of hot air can be excluded.

In the example of implementation of water supply for washing, etc. may be performed on the front side of the tank, because the hole 104 for water, etc. may be located in the front area of the front of the tank 100.

A hole 104 for water, etc. may be located ahead of the front end of the drum 301, located in the tank. Therefore, for example, water for washing can be directly fed into the drum 301 through the opening of the drum for loading/unloading.

In addition, the hole 104 for water, etc. may be placed in the upper position of section 101 of the rim. In the exemplary embodiment of the present invention the tank is tilted back so that the upper parts of the front surface 101a and the back surface 128 of the tank is tilted to the rear. At such an angle can be formed by the space between the upper area of the front surface 101a and perenesennoy casing and the space between the lower area of the rear surface 128 of the tank and the rear wall of the casing 620. These resulting space can be used to accommodate, for example, the holes 104 for water and sinker. In the present embodiment, as shown in the drawings, the front surface 101a and the back surface 128 of the tank can be tilted to the rear. When the inclination of the front surface 101a and the back surface 128 of the tank even if the tank has an increased size in the longitudinal direction, it may be possible the efficient formation of spaces between the top area of the front surface 101a of the tank and the front wall of the casing and between the lower area of the rear surface 128 of the tank and the rear wall of the casing 620.

Section 101 of the rim may be formed at its front end with a connector for connecting element 200 to prevent contamination by extraneous substances. The connector can be carried forward from the front end section 101 of the rim and may have the approximate shape of a cylindrical ring of small diameter. As cylindrical annular connector is inserted into the element 200 to prevent contamination by extraneous substances, element 200 to prevent contamination by extraneous substances can connect with section 101 of the rim.

Front tank 100 can be still connected with the front wall of the casing. To make this connection, for example, four to epagny protrusion 107 can be formed on the front surface 101 of the front tank around 100 section 101 of the rim.

Hose 96 to the steam supply may be connected to the hole 105 for the pair, and the hose 97 to supply the circulating water can be connected with a hole 106 for the circulation of water. The steam generator may be located at the rear of the tray detergent, which will be described below, and the hose 96 to the steam supply may be connected to the steam generator. The circulation pump 60, which is connected with a hose 97 to supply the circulating water can be located under the front tank 100 in the front left position of the base 600 of the casing. The circulation pump 60 can also be used as a bilge pump in accordance with the switching operation of the valve.

The connector can be formed in the lower part of the front of the tank 100 to the fixed installation of the front of the tank 100 on the basis of 600 casing.

Front tank 100 can be connected to the rear tank 120 to form a space to accommodate the drum. In this case, the front tank 100 and the rear tank 120 can be fastened with screws to each other. For this set of mounting holes, the screws may be located on the circumference on the rear end of the front of the tank 100. As described above, the tank can be mounted on the base 600 of the casing so that the tank is tilted to provide moving up the front end of the tank.

The drum 301 can also be the aclone to provide moving up the front end of the tank.

As described above, section 101 of the front rim of the tank 100 may be gradually reduced in width from top to bottom. In this form of plot 101 rim front opening of the tank, through which the sheets are loaded into the drum 301 and unloaded from the drum 301, oriented horizontally for going forward, not sloping.

Element 200 to prevent contamination by extraneous substances can be used to prevent the passage of foreign matter into the gap between the tank and the drum 301.

In a machine for processing sheets in accordance with the exemplary embodiment of the present invention may be excessive compaction of the gap between the front opening of the tank and the front wall of the casing in contrast to the known machines for handling sheets. For this reason, it may be possible to prevent the passage of foreign matter into the gap between the tank and the drum 301.

Element 200 to prevent contamination by extraneous substances can be made of the same material as the rear gasket 250. Below, for convenience of the description element 200 to prevent contamination by extraneous substances will be designated as the front gasket 200 unlike the rear gasket 250.

The front gasket 200 may contain a section of the rim corresponding to section 101 of the front rim of the tank 100.

Section 201 for connection cor the BA for the connection of the inlet ducts 40 may be formed on the upper side section of the rim of the front gasket 200. As the supply duct 40 is partially inserted in section 201 for connection boxes, hot air can be directed into the hole 103 for intake of hot air. The hot air passing through the supply duct 40 can be fed into the tank through the section 201 for connection boxes.

When the present embodiment is not used in a combined washing and drying machine may be unnecessary to provide a site for connection to the inlet of the duct 40. In particular, if the front tank 100, is made with a hole 103 for intake of hot air, continues to be used, section 201 for connection boxes may take the form of a blocked site, and not the shape of the cavity. In this case, the hole 103 for intake of hot air may be closed during the production process. That is, the General form of the front gasket 200 may be changed depending on the use of a combined washing and drying machine.

Hole 103 for intake of hot air may be located in the upper center section 101 of the rim of the tank. The inlet duct 40 may be connected to the top center of the outer peripheral surface of the tank for connection with a hole 103 for intake of hot air. For this purpose one end of the inlet duct 40 can be connected with a hole 103 for intake of hot air, and d is ugogo the end of the inlet duct 40 can be connected to the drying fan 41. In this United state the middle portion of the inlet duct 40 may be located in the longitudinal direction in the upper center of the outer peripheral surface of the tank. The drying fan 41 may be located above the upper-left area of the outer peripheral surface of the tank for connection with a hole 121 for the release of hot air, which will be described below.

Element for sealing the door can be located on the front end of the strip 200 doors for entry into intimate contact with the glass doors (not shown), thus, used to prevent water leakage. When the door is closed, the element for sealing the door comes into tight contact with the glass door to seal the gap between the door glass and gasket 200 doors, thus preventing leakage of water.

In a machine for processing sheets in accordance with the exemplary embodiment of the present invention the tank can have a very low vibration, and therefore may not require the gap as the gap to prevent the transmission of vibrations. This may allow you to position the outer surface of the tank as close as possible to the casing. Consequently, it is possible to increase the size of the tank even without increasing the size of the casing, and, consequently, it is possible to increase the capacity of the machine for processing sheets without increasing the overall size of the machine for which the processing of linen. In the exemplary embodiment of the present invention the distance between the left wall 630 or right wall 640 of the casing and the tank may be only about 5 mm, although the known machines for the processing of linen, in which the tank vibrates together with the drum, you may have a length of approximately 30 mm to prevent the transmission of vibrations of the tank housing. If you use this stock distance to increase the diameter of the tank, it should be understood that the diameter of the tank in the machine for processing sheets in accordance with the exemplary embodiment may be increased by 50 mm on the basis of the above-mentioned known machines for handling sheets. This can lead to a significant improvement consisting in that the capacity of the machine for processing sheets can be simultaneously increased on the basis of the same outer size of the machine for processing sheets.

In addition, when these elements are properly provided that the size of the tank is increased to the maximum within the internal volume of the casing, the resulting machine for processing sheets can be achieved increased capacity on the basis of the same outer size of the machine for processing sheets while providing a compact internal structure.

Hose 90 for water supply may be connected to the tray 95 for washing cf is DSTV. In addition, the hose 90 to supply water may be inserted into the hole 104 for water front tank 100.

Rear tank 120 may have a cylindrical shape to surround the drum 301. Rear tank 120 may have an open front end and rear toroidal surface 128. Outdoor front end of the rear tank 120 can be connected with the front tank 100 with sealing, toroidal back surface 128 may have a rear opening. The inner diameter of the rear openings may be large enough compared to the outer diameter of the rear plate 130 of the tank. Therefore, the rear plate 130 of the tank may be located at a sufficient distance from the rear surface 128 of the rear tank 120 to prevent the transmission of vibrations of the rear plate 130 tank rear surface 128. The rear gasket 250 may be installed in the gap between the rear surface 128 of the rear tank 120 and the back plate 130 of the tank. The rear gasket 250 may be used to seal the gap between the rear surface 128 of the rear tank 120 and the back plate 130 of the tank. The rear gasket 250 may have a corrugated section 252, which has sufficient flexibility to prevent obstacles from the side of the rear gasket 250 vibration of the rear plate 130 of the tank.

In the case of a combined washing and drying machine the hole 121 to release the hot air which may be formed in the left position on the outer peripheral surface of the rear tank 120. In addition, the hole for the injection of cooling water can be formed for supplying cooling water into the tank. It should be understood that the hole 121 to release hot air and a hole for injection of cooling water can be excluded, if the machine for processing sheets only has the function of washing and does not have the function of drying.

Rear tank 120 may include a connector 123 for connecting the rear tank 120 with the rear wall of the casing 620.

Rear tank 120 can also be fixed on the base 600 of the shell.

Back plate 130 of the tank may have a center hole through which a rotating shaft for rotation of the drum 301. Back plate 130 of the tank may be connected to the front surface of the housing 400 of the bearing.

The housing 400 of the bearing may include a section for maintaining the bearing to support the bearing, and a section for fixing the stator passing radially from the site to maintain the bearing.

Plot for fastening the stator may include six tabs for fastening the stator for fastening the stator and the holes for fastening the back plate of the tank for securing the back plate 130 of the tank.

The first protruding portion 406a and the second protruding portion 406b may pass radially from the left and right sides of the plot for fastening the stator. The first protruding portion 406a and storagestorage part 406b can be connected, accordingly, the first connector 409a and the second connector 409b that pass back perpendicular to the first and second protruding parts 406a and 406b. In turn, the first portion 410a to secure the sinker and the second section 410b to secure the sinker can radially be held, respectively, from the first connector 409a and the second connector 409b.

The stator may be located behind the first protruding part 406a and the second protruding part 406b and in front of the first and second connectors 409a and 409b. The rotor 70, which is directly connected with the rotating shaft, may also be located in front of the first connector 409a and the second connector 409b. Specifically, the rotor 70 and the stator can be positioned in the space formed in front of the first connector 409a and the second connector 409b and the rear of the first protruding part 406a and the second protruding part 406b.

The first protruding portion 406a and the second protruding portion 406b may have fastening holes for fastening the back plate 130 of the tank.

The upper surface of the first connector 409a and the second connector 409b may form a support for the back plate of the tank to maintain the rear plate 130 of the tank.

The first protruding portion 406a of the first connector 409a and the first section 410a to secure the sinker can, respectively, be the symmetric second act is her part 406b, the second connector 409b and the second portion 410b to secure the sinker.

The third protruding portion 408 may be located between the first protruding part 406a and the second protruding part 406b, and, in turn, the third connector 408a can be carried back is perpendicular to the third protruding part 408. The third bracket 408b can be carried out from the third connector 408. As will be described below, the third spring 500 cylinder may be connected with the third bracket 408b. The third bracket 408b, as shown in the drawings, may include the mounting bolt to pin or unpin a third spring 500 cylinder.

The housing 400 of the bearing may be approximately horizontally symmetrical shape.

In accordance with the foregoing description of the space for installation of the electric motor can be formed in front of the first connector 409a and the second connector 409b (in the longitudinal direction of the rotating shaft). In this paper corrugated section 252 of the rear gasket 250 may be located behind the first connector 409a and the second connector 409b.

The weight may include a first weight 431 and the second sinker 430. The first weight 431 may be connected with the first section 410a for fixing the weight and the second weight 430 may be connected with the second section 410b to secure the sinker. The first weight 431 and the second is ruzic 430 may be located symmetrically to each other.

In addition to using as elements of mass of the first weight 431 and the second sinker 430 may be used, respectively, for connecting the first axial bracket 450 and the second axial bracket 440, which will be described below with the housing 400 of the bearing.

More specifically, the weights 430 and 431 may be used to prevent excessive lowering of the front end of the drum 301, when linen is placed in the drum, moves and going to the front. In addition, the weights 430 and 431 can be used as a balancing weight relative to system vibration of the drum 301.

The first weight 431 and the second sinker 430, respectively, may consist of a radial section extending from the rotating shaft, and plot for the connection of the bracket passing forward from the distal end of the radial section. These weights 431 and 430 may include mounting holes punched at their upper ends to ensure secure weights 431 and 430 on the relevant elements 410a and 410b to secure the weights. For example, each weight can have four mounting holes.

The first weight 431 and the second sinker 430 may be connected, respectively, with the first axial bracket 450 and the second axial bracket 440 using their land to connect the brackets. The plot for the connection of the bracket may be what Azalee the rest of the plot, ie, radial plot. This ensures that the weight has a lower center of gravity, providing increased resistance against vibrations.

The first weight 431 and the second sinker 430 can be made by casting. In addition, the first weight 431 and the second sinker 430 can be located in the lower area of the space between the rear surface 128 of the tank and the inner rear surface of the casing. More specifically, the first weight 431 and the second sinker 430 can be located behind the bottom portion of the rear surface 128 of the tank. Since the tank is mounted in an inclined position, the upper portion of the rear surface 128 of the tank can be tilted to the rear, causing the space to install the sinker may be formed behind the lower section of the rear surface 128 of the tank.

Site suspension may include vertical suspension to reduce the vertically applied force and inclined suspension to reduce the horizontally applied force. One of the vertical suspensions may be located behind the centre of the base 600 of the casing, while the other two vertical suspension can be located in the left and right positions in front of the centre of the base 600 of the casing. Two sloping suspension can be located in the left and right positions, respectively, for tilting in the longitudinal direction of the tank.

Site suspension may include a first spring 520 cylinder, a second spring cylinder 510, the third spring 500 cylinder, the first damper 540 cylinder and the second damper cylinder 530.

The corresponding spring cylinder can be designed in such a way that the spring is installed between the cylinder and the piston. This configuration, using a cylinder and piston, can provide a sustainable change of length during the mixing. The cylinder can be connected with the corresponding axial bracket, and the piston may be connected to the base 600 of the shell.

The corresponding damper cylinder can be made with the possibility of providing fade resistance due to friction caused by the movement of the piston within the cylinder.

The first spring cylinder 520 may be connected between the first axial bracket 450 and the substrate 600 and the second spring cylinder 510 may be connected between the second axial bracket 440 and the base 600.

The third spring 500 cylinder can be directly connected between the housing 400 of the bearing and the base 600.

When using springs 520, 510 and 500 cylinder tank can be maintained with the possibility of damping in his one rear and two front left and right positions.

The first damper 540 cylinder can be inclined between the first axial bracket 450 and C the ne end of the base 600 of the casing, and the second damper cylinder 530 may be inclined between the second axial bracket 440 and the rear end of the base 600 of the shell.

The third spring 500 cylinder may be located in the rear center position of the base 600 of the casing, and first and second springs 520 and 510 of the cylinder can be located in the front left and right positions of the base 600 of the casing. In addition, the first damper 540 cylinder and the second damper cylinder 530 may be located between the rear position of the third spring 500 cylinder and front positions of the first and second springs 520 and 510 of the cylinder. The first damper 540 cylinder and the second damper 530 cylinder can be horizontally symmetrical with respect to each other.

All springs 520, 510 and 500 cylinder can be connected with the base 600 of the casing by means of rubber bushings located between them.

Spring cylinder can be made to provide a damping force. Like the damper cylinder spring cylinder can be made to provide for the effects of attenuation, resistance due to friction caused by the sliding of the piston along the inner wall of the cylinder. The damper cylinder may contain a spring. Like the spring cylinder damper cylinder can be designed in such a way that the spring is connected between the piston and the cylinder for the elastic support of the piston, thus, is using spring force to the vibrating drum 301.

The second axial bracket 440 may be symmetrical to the first axial bracket 450.

The first axial bracket 450 may be in the form of a U-shaped notch. More specifically, the first axial bracket 450 may comprise a top wall and a pair of side walls perpendicular downward from left and right sides of the top wall. In addition, the width of the first axial bracket 450 may be gradually reduced from the rear side toward the front.

The first axial bracket 450 can have four mounting holes punched at its rear end for connecting the first weight 431. When installing on the first weight 431 first axial bracket 450 can knit with it bolted.

The base 600 of the housing may include a front frame 602 of the base, passing perpendicularly upward from the front end of the base 600.

Front frame 602 can include a lower portion 602a of the frame to install the drain filter.

Below will be described in more detail the operation of the machine for processing sheets, having as a function of washing and drying function.

As shown in Fig, the drying fan 41 may be installed over the hole 121 to release hot air in the rear tank 120, and the inlet duct 40 may be connected to section 201 for connection boxes of the front gasket 200. Heater to generate hot in the spirit can be installed in the supply duct 40. After operation of the fan 14, the internal air tank, passed through the hole 121 to release the hot air can return to the tank through the inlet duct 40 and section 201 for connection boxes.

The hole 121 to release the hot air can be located closer to the rear surface 128 of the tank than the middle position between the front surface 101a and the rear surface 128 of the tank, and a drying fan can also be placed in an appropriate position. When inclined position of the tank, the space between the upper part of the outer peripheral surface of the tank and the inner ceiling surface of the casing may gradually grow back. Drying fan may be located in a wider rear region of space.

In a combined washing and drying machine can be included circulating a drying system that uses the circulation of hot air. In this case, the channel for condensation, which is usually installed above the tank, may be unnecessary. The space between the drum and the tank can be used as the condensation space. To increase the effects of condensation on this condensing space of the condensation plate can be installed on the inner surface of the tank wall.

Below describes how to install the GLA is the main controller 650. The main controller 650 may control the basic operations of the machine for processing sheets, such as, for example, the operation of the driving drum, upon receiving the user command from the control panel. In this paper, the control panel may correspond to the user interface, used to receive user commands.

The main controller 650 may be located in the front left position, based on the 600 casing and, thus, can be located under the front section of the tank.

The inclined position of the tank can provide space between the bottom of the front section of the tank and the base 600, so that the main controller 650 may be installed in this space.

The lower part of the front section of the tank may include a flat section 101c. Although the outer peripheral surface of the tank has an approximately cylindrical shape, a flat plot 101c may form a plane. For the formation of a flat section 101c lower end of the front surface 101a of the front of the tank 100 may be cut for the formation of flat end 101b. The front surface 101a may be approximately circular in shape except for a flat end 101b.

In the inclined position of the tank is a flat area 101c can be tilted so that the front end is higher than its rear end. Heat the motor can be installed in the tank in position in the rear part of the flat section 101c. For this Department for the insertion of the heater may be formed in the bottom of the tank for passing down from the rear end of the flat section 101c. Compartment for insertion of the heater may be provided with a hole for insertion of the heater.

The heater may be located behind the main controller 650. In this case, the rear surface of the main controller 650 may encounter with the heater, if the main controller 650 pushed back after installation. In particular, as the heater may include electrical terminals on its front surface, it may be necessary to protect the heater from a collision with the main controller 650. For this limiter 101d can be located on the bottom surface of the flat section 101c to prevent movement back to the main controller 650. The limiter 101d may be in the form of ribs, passing downwards from the lower surface of the flat section 101c.

Front frame 602 of the base 600 in the form of a front flange may include a support for the heater. Bearing heater may contain vertically passing the connecting rack 602e, located on the left end of the front frame 602 of the base. The distance between the connecting stand 602e and bottom section 602a of the frame located on the right end of the front frame 602 of the base, may be greater than the longitudinal length glavnog the controller 650 to ensure easy insertion of the main controller 650. The front frame section 602 of the base between the connecting stand 602e and bottom section 602a of the frame (hereinafter called a middle connecting section may have a height less than the height of the connecting rack 602e and the bottom portion 602a of the frame. Specifically, the height of the middle connecting section can be half or one third or less than the height of the connecting rack 602e. This height can be used to provide easy installation of the main controller 650 under the tank in a state in which the tank was pre-installed on the base 600.

The main controller 650 may include a plurality of hooks for engagement with the front frame 602 of the base. The plurality of hooks may include a first hook 651c, located on the left end of the main controller 650 corresponding to the connecting rack 602e, and the second hook 651a and the third hook 651b, located near the lower end of the main controller 650 with a specified distance between them. Corresponding hooks can be performed with the passing of the first forward from the front surface of the main controller 650 and then bend to the left. Alternatively, the hooks may be bent to the right after passing forward.

To match the hooks front frame 602 can include connectors for hooks to insert bent between the mi plots of the respective hooks and the front surface of the main controller 650. As shown in Fig, the first connector 602d for the hook may be formed on the upper end of the connecting rack 602e. The first connector 602d for the hook may be formed by cutting the top section of the right edge of the connecting rack 602e, so that the vertical right edge of the first connector 602d for hook may be shifted farther to the left than the right edge of the connecting rack 602e. The first connector 602d for a hook may be inserted between the curved section of the first hook 651c and the front surface of the main controller 650, thus connecting with the first hook 651c.

The middle connecting section may include a second connector 602c for the hook and the third connector 602b for the hook. The second connector 602c for the hook or the third connector 602b for the hook can be made by cutting vertical slits from the top edge of the middle connecting section on a given length and a given width and then cut horizontal slits to the left from the lower end of the vertical slot. Therefore, the second connector 602c for the hook and the third connector 602b for hook may be approximately inverted L-shaped slots (when viewed from the rear side).

For connecting the second hook 651a with the second connector 602c for hook, the second hook 651a of stable the t to the second connector 602c for hook to first move down along the vertical slots and then move left along the horizontal slits. The connection between the third hook 651b and the third connector 602b for hook can be performed in the same way.

The second vertical support rib 651d and third vertical edge 651e can protrude from the front surface of the main controller 651 to be located, respectively, between the curved sections of the second hook 651a and the third hook 651b and the front surface of the main controller 650. In the state in which the second and third hooks 651a and 651b are connected with the second and third connectors 602c and 602b for hooks, the front ends of the support ribs 651d and 651e can come into contact with the rear surface of the middle connecting section. When using hooks and supporting ribs, it is possible to prevent unintentional rotation and separation of the forward or backward of the main controller 650 mounted on the base 600.

In addition, when connecting with connectors for hooks hooks can come into contact at their bottom surfaces with the corresponding edges of the connectors for hooks, thus, using it for support, the main controller 650.

When using the above-described connection configuration of the main controller 650 may be held in a stationary floor is hereto in connection with the front frame 602 of the base.

The main controller 650 may be still connected to the casing due to screw fastening. As shown in figures 9 and 11, the main controller 650 may include a first protrusion 652a formed on its upper left end, and a second protrusion 652b, formed on its lower right end. The first protrusion 652a may be connected by screws connecting the stand 602e front frame 602 of the base or may be connected by screws with the front flange of the left wall 630 of the casing. The second protrusion 652b may be connected by screws with the front frame 602 of the base.

The main controller 650 may be located at a specified distance from the bottom of the base 600. This can be used to prevent the occurrence of contact of the lower surface of the main controller 650 with the lower part of the base 600, because the water may be on the bottom of the base 600.

INDUSTRIAL APPLICABILITY

The present invention describes a machine for processing sheets, in which essentially prevent the transmission of vibrations of the drum Baku, the size of the tank can be increased so that the tank is located near the inner surface of the casing. In addition, you can perform a compact internal design of a machine for processing sheets through effective education space between the enlarged size of the tank and casing, use the given space for installation of the respective element.

Specialists in the art should understand that various modifications and changes in the present invention without departing from the spirits or scope of the present invention. Thus, it is understood that the present invention includes modifications and changes of the present invention provided that they are included in the scope of the attached claims and their equivalents.

1. A machine for processing sheets, containing
casing;
a tank to contain water, attached to the casing, and the tank has at its front upper plot hole for water and at least one hole for steam or water circulating through the circulation pump, with the front section of the tank contains a protruding section of the rim and the holes drilled in the area of the rim;
a drum mounted for rotation in the tank;
the drive unit containing a rotating shaft connected with the drum, a bearing housing to maintain with the possibility of rotation of the rotating shaft and a motor connected to the rotating shaft;
site suspension to reduce vibration of the drum.

2. Machine for processing sheets according to claim 1, in which the hole for the water and at least one hole located opposite each other relative to the axis of rotation of the shaft.

3. Machine for processing sheets according to claim 1, in which toroi tank contains the intake of hot air on the site of the rim.

4. Machine for processing sheets according to claim 1, in which the tank is inclined.

5. Machine for processing sheets according to claim 1, in which the main controller is located under the front section of the tank.

6. Machine for processing sheets according to claim 1, in which the host of the suspension is fixed to the bearing housing for the tank.

7. Machine for processing sheets according to claim 6, in which the host suspension contains one or more radial brackets, passing along the radius behind the tank;
one or more axial brackets, passing in the axial direction of the drum; and
the suspension is connected to the axle brackets.

8. Machine for processing sheets according to claim 7, in which
one or more radial brackets consist of a pair of radial arms, passing radially from the center of the bearing housing, and one or more axial brackets consist of a pair of axle brackets parallel to the axis of rotation of the drum.

9. Machine for processing sheets according to claim 7, in which the host charms additionally includes the suspension below the axis of rotation and over the tank.

10. Machine for processing sheets according to claim 3, additionally containing tray detergent, located in the upper left or right position on the outer peripheral surface of the tank; and
drying fan, located on the opposite side of the tray detergent.

11. M is the bus for processing linen according to claim 1, optionally containing a flexible material to prevent water leakage from the tank toward the drive unit and providing movement of the drive unit relative to the tank.

12. Machine for processing sheets according to claim 1, in which the tank is supported more rigidly than the drum.

13. Machine for processing sheets according to claim 1, which further comprises a base having a front frame of the base, passing upwards from the front end of the base; and
a controller installed on the front of the base frame.

14. Machine for processing sheets in item 13, in which
front frame base includes a bottom frame located on one side of the line, connecting a rack positioned on the other side, and a middle connecting section for connecting the bottom portion of the frame and connecting the rack; and
the middle connecting section has a height equal to half or less the height of the connecting rack, and the distance between the connecting bar and the lower frame more longitudinal length of the controller.

15. Machine for processing sheets in 14, in which the front surface of the controller are connected by means of hooks with steering rack or middle connecting section.

16. Machine for processing sheets indicated in paragraph 15, in which
the controller contains on its front surface, at least one to ucok, the hook consists of passing forward section protruding from the front surface, and a bent section, passing to the left or to the right from the end of the passing forward of the plot; and
front frame base includes at least one connector to hook, and the connector for the hook is inserted between the curved section of the hook and the front surface of the controller when the controller is moved in the direction of the bend of the hook.

17. Machine for processing sheets indicated in paragraph 15, in which
the first hook is located on the upper area of the front surface of the controller;
the second hook is located on the lower area of the front surface of the controller to the location on the inside compared to the first hook;
the first connector to hook corresponding to the first hook formed on the connecting rack; and
the second connector to hook that corresponds to the second hook formed on a middle connecting section.

18. Machine for processing sheets in 17, in which
the first hook and the second hook respectively consist of passing forward section protruding from the front surface of the controller, and a bent section, passing to the left or to the right from the end going forward area;
the first connector to hook carved on the upper end of the connecting rack, so Vertica the other inner edge of the first connector to hook located on the outside than the vertical inner edge connecting the rack; and
the second connector to hook formed by cutting vertical slits from the top edge of the middle connecting section and then cut a horizontal slot from the lower end of the vertical slot and a horizontal slot passes in the direction of bending of the second hook.

19. Machine for processing sheets on p, in which at least one support rib formed on the front surface of the main controller for placement on the rear surface of the middle connecting section.

20. Machine for processing sheets indicated in paragraph 15, in which the controller includes at least one protrusion for connecting the screws with the front flange of the right wall of the casing or the front frame of the base.

21. Machine for processing sheets in item 13, in which the tank is tilted so that its front end is moved upward.

22. Machine for processing sheets on item 21, in which the lower part of the front section of the tank, located above the controller, forms a flat plot.

23. Machine for processing sheets on p.22, in which
the heater is inserted into the tank in position on the back of the controller; and
the limiter is formed on the bottom surface of the flat section for restraining the back of the controller.