Method for clothes treatment device control. RU patent 2517815.

FIELD: personal use articles.

SUBSTANCE: method to control of a clothes treatment device includes a device for removal of foreign substances from the filter. The control method involves a cycle launch stage (S10) for launching the drying cycle of the clothes treatment device and a filter cleaning stage (S13) implemented at least once prior to the drying cycle completion. For this purpose the control method involves: a stage (S35) for clothes dryness degree determination by way of control of the dryness degree measurement means installed inside the clothes treatment device (the filter cleaning stage commencing when the measured dryness degree is equal or in excess of that preset by the by the control dryness degree and a stage (S11) for determination of the drying cycle end moment. Accordingly, one periodically determines whether a specific moment is the set one until the drying cycle end moment (S12). The filter cleaning stage is over simultaneously with the drying stage (S14). Prior to the drying cycle (S10) launch one may determine whether the previous drying cycle has ended abnormally (P1) while the first filter cleaning stage (P2) may be implemented based on the result of the said determination stage.

EFFECT: method improvement.

16 cl, 13 dwg

THE TECHNICAL FIELD TO WHICH THE INVENTION RELATES

The following description refers mainly to the management unit for processing service.

BACKGROUND OF THE INVENTION

Basically, the device for processing service are electrical devices used to carry out washing, drying or as washing and drying clothes. Devices for processing the service include washing machines, drying machines and machines having power as washing and drying. In the known device for processing service, capable of drying clothes, may be necessary removal of foreign substances, such as fiber, produced from air.

DISCLOSURE OF THE INVENTION

TECHNICAL PROBLEM

The aim of the present invention is to provide a way to manage a device for processing service, which includes filter filter part, executed, filters foreign substances from the air discharged from the Department to hold, compartment to accommodate the service and device for removal of foreign substances parts for the removal of foreign substances, made with the possibility of cleaning node filter.

Another aim of the present invention is to provide a way to manage a device for processing service, which includes filter filter parts that should not be cleaned each time you use the device for treatment of clothes.

Another aim of the present invention is to provide a way to manage a device for processing service, which can adjust the timing filter filter parts on the basis of drying conditions.

Another objective of the present invention is to provide a way to manage a device for processing service, which can adjust the period of time cleaning the filter, the filter parts are based on the number of service, placed to the Department to accommodate that type of service, given the degree of dryness and time of drying.

To achieve these objectives and other benefits in accordance with the present invention, as embodied in General are described in this document, the method of controlling the device for processing service, which includes the Department to accommodate to accommodate service, device for air supply, made with the possibility of air in the compartment to accommodate the filter is made, filters foreign substances from the air discharged from the Department to accommodate, and a device for removal of foreign substances, made with the possibility of removal of debris left on the filter method includes the launch phase of the cycle, run to start the drying cycle, to supply air to the Department for receiving by the control device for air supply, stage filter for the removal of foreign substances, remaining on the filter by control device for the removal of foreign substances with the purpose of removal.

How can optionally include the stage of defining the end-point of time for determining the end time, the drying cycle. Stage filter cleaning can begin at the moment of time set to a predefined period of time from the end time, the drying cycle.

Stage filter cleaning can start at a predetermined point in time, established after a predefined period of time from the initial moment of time the drying cycle.

How can optionally include the detection phase to determine whether we end up drying cycle, carried out before the start of the loop without executing phase filter, and the first stage of cleaning filter for the removal of foreign substances, remaining on the filter, before the start of the cycle, when the stage of drying is performed before the start of the loop terminates without executing phase filter.

How can optionally include the detection phase to measure the degree of dryness service, placed to the Department to accommodate, by controlling the means of measuring the degree of dryness, located in the device for treatment of clothes. Treatment step node filter starts when the measured degree of dryness can be preset control the degree of dryness or higher.

How can optionally include the stage of determining the number of service to determine the number of service, housed in the Department to accommodate, by controlling the means of measuring the quantity of service, located in the device for the treatment of service, and the stage of determining the number of service runs to the stage filter, and setup time period to time period run stage filter is proportional to the measured amount of clothing. Treatment step node filter can be done within the prescribed period run-time.

How can optionally include the definition stage drying conditions for determination of drying conditions established in the cycle of drying, and the stage of defining the conditions of drying is to phase filter and setup time period to time period run stage filter based on certain conditions of drying. Stage filter cleaning can be performed within a set period of time.

How can optionally include the stage of the installation data for the installation of at least two values of the quantity of service that is hosted in the Department to accommodate the type of service that is hosted in the Department to accommodate the specified degree of dryness, installed in the cycle of drying, and a specified period of time drying installed in the cycle of drying, and the stage of the installation data is performed before treatment stage node filter, and setup time period to time period run the cleanup phase of the node filter in the form of the sum of the values obtained by multiplying each of the periods of time to clean the filter, established on the basis of the number of service, type of service, given the degree of dryness and given period of time drying, for each of the scales set based on the number of service, type of service, given the degree of dryness and defined period of time of drying. Stage filter cleaning can be performed within a set period of time.

How can optionally include the selection mode to manual mode and automatic mode. The startup phase of the cycle and phase filter maintenance is performed consistently when using the automatic mode. Only the phase filter runs when you select the manual mode.

How can operate the device for processing service, which includes filter made, filters foreign substances from the air discharged from the Department to accommodate, and a device for removal of foreign substances, made with the possibility to clean the filter.

In addition, in accordance with the way the site filter should not be cleaned each time you use the device for treatment of clothes.

Moreover, the time to clean the filter can effectively be regulated on the basis of drying conditions.

Moreover, the period of time to clean the filter can be adjusted based on the amount of service that is hosted in the Department to accommodate that type of service, given the degree of dryness and defined period of time of drying.

A device for processing service includes the filter and the device for removal of substances. A filter is filtering substances from the air leaving the Department to accommodate, and a device for removing substances are made so that they can move substances, remaining at the site of the filter.

Way to control the device for processing service includes the definition of terms relating to a device for processing service. A way of additionally includes administration on the basis of determining the conditions and without user input after you define the condition of equipment for removing substances to start deleting substances, remaining at the site of the filter.

Specific options for implementation may include one or more of the following. The definition of terms relating to a device for processing service, includes the determination of the terms of timing, related to a device for processing service. Control device for removal of substances for the removal of substances, remaining at the site of the filter without user input after you define the condition that involves management without user input after you define the terms of timing device for removal of substances for the removal of substances, remaining at the site of the filter.

The definition of the terms of timing, related to a device for processing service, additionally includes the determination of the initial cycle time of drying is performed by a device for processing service, and the definition of what this time is specified time after the initial cycle time of drying is performed by a device for processing service. In addition, the control device for removal of substances for the removal of substances, remaining at the site of the filter without user input after you define the terms of timing, includes the control device for removal of substances for the removal of substances, remaining at the site of the filter, based on a determination that the time is specified time before the start of the cycle time of drying is performed by a device for processing service.

The definition of the terms of timing, related to a device for processing service, also includes defining the start time and end time of drying cycle performed by a device for processing service, and the definition of what the second time is given time to end the cycle time of drying is performed by a device for processing service. In addition, the control device for removal of substances for the removal of substances, remaining at the site of the filter, without user input after you define the terms of timing, includes management for the first time a device for removing substances to start deleting substances, remaining at the site of the filter, on the basis of a determination that the first time is specified time after the initial cycle time of drying is performed by a device for processing service, and management for the second time a device for removing substances to start deleting substances, remaining at the site of the filter, on the basis of a determination that the second time is given time to end the cycle time of drying is performed by a device for processing service.

The definition of the terms of timing, related to a device for processing service, also includes additional definition scheduled time to start deleting substances, remaining at the site of the filter. Then, after determining that this time is the scheduled time for the removal of substances, remaining at the site of the filter, the device for removal of controlled substances without user input after you define the selection criteria is time to start deleting substances, remaining at the site of the filter.

The definition of terms relating to a device for processing service, includes the determination of the status drying machines related to a device for processing service, and then after determining the state of the drying machine device for removal of controlled substances without user input for the removal of substances, remaining at the site of the filter.

Determining the status drying machines related to a device for processing service, includes the definition of the end of the drying cycle performed by a device for processing service, and then device management removal of substances without user input and based on the definition of the end of the drying cycle to start deleting substances, remaining at the site of the filter.

Determining the status drying machines related to a device for processing service, additionally includes the determination during the drying cycle performed by a device for processing service, degree of dryness service, which is dried device. On the basis of determining what degree of dryness service, which dries the device that corresponds to control the degree of dryness, the device for removal of controlled substances without user input after you define the selection criteria is time to start deleting substances, remaining at the site of the filter.

Determining the status relating to a device for processing service, includes the determination of the status of the filter relating to a device for processing service. After you determine the condition of the filter device for removal of controlled substances without user input for the removal of substances, remaining at the site of the filter.

Determining the status of the filter relating to a device for processing service, includes the measurement of a quantity of substances on the filter. On the basis of a determination that the number of substances on the filter, is among the control value, the device for removal of controlled substances without user input for the removal of substances, remaining at the site of the filter.

FAVORABLE RESULTS OF THE PRESENT INVENTION

The present invention describes how to manage the device for processing service, which includes filter filter part, executed, filters foreign substances from the air discharged from the Department to hold, compartment to accommodate to accommodate the service and device for removal of foreign substances parts for the removal of foreign substances, made with the possibility of cleaning node filter.

The present invention describes how to manage the device for processing service, which includes filter filter parts that should not be cleaned each time you use the device for treatment of clothes.

The present invention describes how to manage the device for processing service, which can adjust the timing filter filter parts on the basis of drying conditions.

The present invention describes how to manage the device for processing service, which can adjust the period of time cleaning the filter, the filter parts are based on the number of service, housed in the Department to accommodate that type of service, given the degree of dryness and time of drying.

BRIEF DESCRIPTION OF DRAWINGS

Fig. 1 - schematic view of the device to handle service;

Fig. 2A and 2B - promising depicting the filter Assembly, located at the device for processing the service;

A device for processing service circulating type air in the compartment to accommodate containing clothes, circulates, and the moisture is removed (for example, runs dry) from air coming out of the Department to accommodate, and dehumidified air is then heated. The heated air is resubmitted to the Department to accommodate. A device for processing service exhaust type of heated air is supplied to the Department to accommodate, and air discharged from the Department to accommodate goes on the outside of the device for processing service without re-circulation.

May be desirable removal of foreign substances, such as fibers, from the air, produced from the Department to accommodate located in the known device for processing service, which has the function of drying. In the case of devices for processing service circulating type after air drying, released from the Department to accommodate the device for processing service circulating type heats the air by means of heat-exchange devices, and it re-heats the air in the compartment to accommodate. If foreign substances are removed before heating the air, debris can accumulate on the heat exchange device. Therefore, the efficiency of the heat exchange devices for processing the service may be reduced.

In the case of devices for processing service exhaust type, if the air is released from hospital to accommodate without filtering, lint or dust contained in the released air can be supplied into the room that contains a device for processing service.

Therefore, it may be useful to filter the air leaving the Department to accommodate the device for processing service, is able to dry clothes. Therefore, the filter is set in the device for processing service for filtering foreign substances from the air discharged from the Department to accommodate. A device for processing service can be a mechanism that provides auto filter maintenance, which in turn decreases the need for the user to check the status of the filter before or after using the device for treatment of clothes.

Fig. 1 shows an example of a device for processing service, which is subject to control in accordance with this disclosure. With reference to Fig. 1 describes the device for treatment of clothes. A device for processing service includes the filter Assembly, made filters foreign substances, and a device for removing substances, made with the possibility of removal of foreign substances remaining in the node filter.

The device is 100 to handle service in accordance with this disclosure includes a body 1, made with the possibility of education in appearance, and 2 Department to accommodate located in the housing, to accommodate the service.

In the case of devices for processing service that has only the function of drying, separation 2 to accommodate may be in the form of a drum 21, made with the possibility of formation of the given branch, capable to accommodate be drying of the product. The drum can have a cylindrical shape with open front part and an open back.

The front of the base-25 located on the front part of the drum to maintain open the front and rear of the base-27 is located on the back section of the drum to support the open back of the drum.

The front of the base-25 has a hole 251 for loading or unloading service in or out of the drum unit. The hole 251 opened and closed with doors 3, connected with the possibility of rotation with the case.

The door 3 may include door glass 31, going to the hole 251. Door glass 31 may create an effect that enables the user to see the inner part of the drum, while the device for linen and underwear treatment works, and the other effect that clothing, moved to the door during the rotation of a drum, can be directed to the inside of the drum.

Rear support 27 includes the hole 271 for filing made with the possibility of ensuring the passage of outdoor air in the dryer, and a hole 271 to supply connected to the channel 43 feed, which will be described below.

Drum 21, supported as reference front part and the back reference part, can be rotated by an electric motor 213 drum and belt 215. The ledge 211 can be formed on the internal peripheral surface of the drum 21 for the effective and uniform shaking products subjected to drying.

A device for processing service can optionally include channel 4 and 5 device for air supply (unheated air or hot air on clothing, placed in the drum.

The channel can be formed out of the outlet channel 41, made with the possibility of the issue of internal air from the dryer, which is a branch to contain and channel 43 filing made with the possibility of fresh air in the dryer 21. Outlet 41 includes suction aperture 411 to ensure the passage of the air, coming out of the drum 21, and channel 43 supply is connected to the hole 271 to feed back the supporting part of the message from the exhaust pipe. Therefore, the air, which was held in the unit for 5 supply air can be fed into the drum.

In the case of devices for processing service circulating type outlet 41 and channel 43 supply can be connected to each other only for the formation of a single channel. Unit 5 for air supply can include fan 55, condensation part, made with the possibility of air drying, passing along the channel 4, and the heating part, made with the possibility of heating of dry air.

Fan 55 can be rotated by an electric motor 213 drum as a device for air circulation, made with the possibility of internal suction of air from the dryer in the discharge channel 41.

When rotating fan 55 internal air of channel 4 can move into the drum 21. When intake of internal air out of the channel into the drum inside the air out of the drum unit may be produced through suction aperture 411 for suction outlet 41.

The air is sucked into the outlet, can move to the channel 43 flow through the device 5 for air supply, and it can then be dried and heated in this process, so the clothing is loaded in a drum 21 may dry.

However, foreign substances, such as fiber, it can appear, while the linen dried in the device for treatment of clothes circulation type, and foreign substances, separated from service, circulate along the channel 4. Therefore, if foreign substances are filtered out of the air released from the drum, foreign material can stick to the surface of the heat-exchange devices, including condensing part and the heating part. This can lead to reduced efficiency drying device for processing service.

As a result, a device for processing service in accordance with this disclosure additionally includes the node 6 filter made, filters foreign substances from the air circulating along the channel 4 not only to prevent decrease drying efficiency, but also prevent the reduction of costs due to foreign substances.

A device for processing service can optionally include part 7 to seal foreign substances, made with the possibility of seals and storage of foreign substances, filtered node 6 filter.

Site 6 filter can be installed with the possibility of removal in the suction hole 411 outlet 41. In this case, the user can dock or undock the node 6 filter in or from the device to handle service upon opening the door, 3.

Here part 7 to seal foreign substances may be located in site 6 filter, or it can be installed separately relative to the site 6 filter.

The location of part 7 to seal foreign substances in the node 6 filter node 6 filter can be of a design is shown in Fig. 2. When part to seal foreign substances removed from the site of the filter, the filter Assembly may be of a design is shown in Fig. 3.

And as a matter of course, when part to seal foreign substances are separated from the host to the filter, part 7 to seal foreign substances and node 6 filter can be located inside the exhaust channel 41, as shown in Fig. 1, or part to seal foreign substances can be separated through input 15, formed on the front surface of the housing 1, as shown in Fig. 4.

In the latter case, part 7 to seal foreign substances can be located on the outside of the discharge channel 41 in the message with the lower section of the site filter. In the first case, the user can open the door 3 and disconnect site 7 filter from the exhaust channel 41. After that the user can separate part 7 to seal foreign substances from the site of the filter and remove foreign substances contained in part to seal foreign substances.

This option exercise includes the filter Assembly and part to seal foreign substances described above, which are located in the treatment device service the circulation of a type that has the function of drying. However, the filter Assembly and sealing of foreign substances, described above, may be used in the device for processing service, having power washing and drying, or device for processing service exhaust type that has only the function of drying.

In other words, the node 6 filter and part 7 to seal foreign substances described above can be used in the device for processing service exhaust type (which is used for drying clothes).

Tank 23 installed in the housing. Tank 23 can be configured to accommodate the drum 21 and water for washing. Therefore, the separation of 2 to accommodate is the element, which includes tank 23 and dryer 21.

The hole 231 tank formed in the tank for loading and unloading service to and from the Department to accommodate. The hole 217 drum formed in the drum for a message with a hole 231 tank.

In accordance with this design can be installed supply hose 18, made with the possibility of supplying water to wash the tank and drain hose 19, made with the possibility of draining water for washing contained in the tank. The supply hose 18 may be in the message to the tank through the container 17 detergent.

Tank 23 and case 1 can be sealed with each other through a lining 233. Outlet 41 can be in communication with the front surface of the tank 23, and channel 43 submission may be in communication with the rear surface of the tank 23.

Here the channel 43 feed can be located to supply air through the front surface of the tank unlike Fig. 5.

Site 6 filter is installed with the possibility of removal in the suction hole 411 outlet 41.

Motor 213 dryer, made with the possibility of rotation of the drum 21, may simultaneously rotate the fan 55 and dryer 21, as shown in Fig. 1, or he can only rotate the drum, as shown in Fig. 5.

In the first case the drive pulley can be located in the drum motor and the driven pulley, coupled with a drive pulley through the strap can be located on the back of the tank. Here, driven pulley mounted on the rear surface of the drum through the shaft.

Although not shown, the feed channel and outlet separated in the case of devices for processing service exhaust type having power washing and drying. A detailed description of the device for processing service exhaust type will not be repeated.

Below is described the design of the unit 6 filter with reference to Fig. 2.

Site 6 filter may include building 61, installed with the possibility of removal in the suction hole 411 exhaust channel, the surface of 63 for intake, formed in the message with a hole 411 air inlet, suction air into the chassis 61, filter 65, made filters foreign substances, such as fibers, sucked into the case, and the device 67 for the removal of foreign substances, made with the possibility of displacement of foreign substances remaining in the host filter to part 7 to seal foreign substances.

Building 61 includes the first building 611 and the second building 613, which are separated each other. The first building 611 and the second building of the 613 are connected to each other through joint 615. The surface of 63 inlet can be formed in the first case 611 or the second building 613. Fig. 2 depicts the entrance surface of 63, formed in the first case 611.

The shape of the surface of 63 for intake can match the form of suction aperture 411 formed in the discharge channel, and the surface inlet can include many holes 631 inlet to the direction of air that is absorbed through the suction aperture 411, building 61.

Building 61 can optionally include the handle 619, designed to ensure a smooth separation outlet of the channel and the enclosure.

Filter 65 made with the possibility of removal of foreign substances from the air discharged from the Department to accommodate, and air flow in a channel 4 after that. Filter 65 can be located on at least one surface of the hull 61.

For example, a filter 65 can be made in the form of a grid for the removal of foreign substances from the air that is absorbed into the body 61, and ensure the passage of air, contain foreign substances that must be removed from it, along the channel 4.

In addition, site 6 filter may consist of a pair of filters are located on the two opposite ends of the surface of 63 intake to increase the filtering capacity (for example, maximize the amount of air passing in the node, filter).

That is, the filter can be formed from the first filter 651, located in the first building 611, and the second filter 653, located in the second building 613.

The device 67 for the removal of foreign substances can be installed with the possibility of rotation in the case 61 to move debris left on the filter 65, to a certain area (for example, storage compartment, such as part of the 7 seals foreign substances) inside the shell to seal them.

For this the device for the removal of foreign substances may include brush 671 installed in contact with the filter 65, frame 673 brushes for fastening on her brush and shaft 675 brushes made with the possibility power transmission received from motor brushes (for example, motor 69, see Fig. 1, 4 and 5), frame 673 brush.

Shaft 675 brushes can be installed on the frame 673 brushes, passing through the filter of 65, and it may include the driven gear 679 brushes, located on the outer side of the case.

As a result, when the user inserts the node 6 filter in the suction aperture 411 outlet 41, leading gear brush and driven gear brushes can be hooked.

Fig. 1 depicts the device mechanical drive that includes only the leading wheel brushes and driven gear brush. Connecting gear to connect pinion brush and driven gear brush with each other can be additionally installed in the discharge channel 41.

Connecting gear can be used as rotary effort should be transmitted to the device for the removal of foreign substances, if the electric motor is brushes, which makes a direct connection between the pinion brush and driven gear brush with each other.

In addition, Fig. 1 shows that the leading gear brush and driven gear brushes are located along a straight line. Alternatively, a leading gear brush and driven gear brushes can be located at a specified distance relative to the direction of the insertion site filter within the specified range of angles.

For example, shaft 691 motor 69 brush and shaft 675 brushes may not be placed in a straight line.

Site 6 filter is inserted into the exhaust channel 41 through suction aperture 411. If driven gear 679 brush and leading gear 693 brushes are in a straight line, the teeth of the pinion 693 brushes may not hold exactly with teeth driven gear 679 brush.

If the node 6 filter is inserted in the discharge channel, even if inaccurate engagement of the pinion teeth brush teeth driven gear brushes teeth can be damaged and design, described above, can reduce the corruption problem.

Device for removal of foreign substances revolves reciprocating in a counterclockwise direction is clockwise within a specified range of angles.

So brush 671 moves debris left on the filter 65, office 7 store, located in the building, rotation of a reciprocating inside.

When the brush 671 revolves reciprocating within a specified range of angles of foreign substances on the filter 65, can condense in the Department of the 7 store, located in the housing.

For example, when the range of angles of the reciprocating motion of the brush 671 installed for floors of storage area branch of the 7 store, brush can not only move the debris left on the filter, storage compartment, but also summarize them in ward 7 for storage.

Fig. 3 depicts the split design to detach branch of the 7 store from node 6 filter. In this case, the connection opening 617 in the message of Department 7 for storage and part 619 for connecting/disconnecting and connecting branch 7 for storage, can be additionally secured in the housing 61 node filter.

Here, the separation of the 7 store additionally includes the fitting 712, which connects to a part 619 for connection/disconnection and part of the 713 for storage below fitting 712, for storage of foreign substances.

Fitting 712 includes a hole 711 in the message with connecting hole 617.

The range of angles reciprocating rotating brushes 617 set to overlap with the scope of rotation of a brush and a storage area for storage.

Fig. 6 illustrates an example of how to manage the device to process the service described above. Here, a device for processing service with the above structure, is the example for the implementation of this method of control, which will be described below. Object of the control method in accordance with this disclosure is not limited device for processing service, which includes all the elements described above.

For example, a control object of this disclosure can be any device for processing service, such as devices for processing service with the Department to accommodate made with the possibility accommodate the service, device for air supply, made with the possibility of air supply (heated air or unheated air) to the Department to accommodate, filter, made filters foreign substances from air discharged from the Department to accommodate, and a device for the removal of foreign substances, made with the possibility of removal of foreign substances on the filter.

Here, the device for the removal of foreign substances may have a casing that provides the removal of foreign substances device for the removal of foreign substances filter through reciprocating rotation along the inside of the housing unlike the design of rotation relative to the filter.

Way to control the device to process the service in accordance with this disclosure includes the stage (S10) start to start the drying cycle and phase (S13) filter cleaning is performed at least once before the end of the drying cycle.

In the cycle of drying can be counted air supply to the Department for receiving and drum rotation 21.

Stage (S13) filter cleaning can be performed between the initial moment of time (e.g. a specific time) and end time of the drying cycle. The reason is that you need to remove debris left on the filter whenever the device is used for 100 processing service, to improve the efficiency of drying device for processing service and reduce the inconvenience is that the user must remove foreign substances whenever you use your device to handle the service.

In addition, stage (S13) filter cleaning can start at a given point in time before the end of the drying cycle. This way of management in accordance with this disclosure can optionally include the stage (S11) determine the final point in time carried out to determine the end time, the drying cycle, after step (S10) run cycle.

In this case, using the method of management in accordance with this disclosure periodically determines whether a given point in time specified point in time before the end time, the drying cycle (S12), and runs stage (S13) clean the filter when the time reaches a predefined time.

After this stage filter may fail (S14) at the end of the drying cycle.

Here, the stage filter may not be completed until the end of the drying cycle or after the closing stage of drying cycle on the basis of pre-specified period of time (e.g. time) phase filter.

If the phase filter cleaning is completed before the end of the drying cycle, the period of time between the moment of completion of cleaning of the filter and the time of complete drying cycle can be set as the period of time during which only a small number of foreign substances. In this case it is not necessary to clean the filter when using the device for treatment of clothes next time (for example, when the next cycle begins drying).

Moreover, using the method of management in accordance with this disclosure is determined, does previous cycle of drying (for example, drying cycle, which runs until the drying cycle) abnormal (P1), and the method of control can additionally include the first stage (P2) filter based on the result of the detection phase.

"Abnormal termination (ending) of the previous cycle" can occur when the previous drying cycle ends without taking the stage filter (S13, called "the second stage filter" for ease of explanation).

That is the second stage (S13) filter cleaning is not performed when drying cycle forcibly terminated by the user, or fails when drying cycle is terminated for other reasons, for example because of the interruption of electricity supply and the like.

To determine complete the previous drying cycle is abnormal or not (P1), the control unit is located in the device for treatment of clothes, records of the second stage (S13) filter whenever the completion of the second stage filter.

In this case, at the stage of determining whether completed the previous drying cycle is abnormal or not (P1), checked the records of the second stage filter stored in the control unit, when power is applied to the device for treatment of clothes.

If two or more times installed the implementation of the second stage filter in the cycle of drying, on stage (P1) the definition can be determined whether all of the second stages of cleaning filter set for the previous cycle, is made.

In this case, the first stage (P2), the filter may not work when all of the latter stages of cleaning filter set for the previous cycle.

In accordance with the method of management of this disclosure stage (S13) filter cleaning can start at a given point in time after the start of the cycle, and not at a given point in time before the end of the drying cycle.

In this case, in accordance with the method of management of this disclosure is a necessary stage of definition, does a specified period of time after the start of the cycle, instead of defining the end time of drying cycle (S11) and definitions given point in time (S12).

Fig. 7 illustrates another variant of the method of management in accordance with this disclosure. Under this option the implementation of at least two stage filter maintenance is performed between the start time and end time of the drying cycle.

For example, the method of management in accordance with this option exercise may include stage (S20) start cycle, the phase (S21) determine the end time, the drying cycle, the stage to determine, does a specified period of time after the initial moment of the drying cycle (S22), first stage (S23) filter stage to determine whether a given moment of time cleaning up, set preset time, before the end time, the drying cycle (S24), and the second stage (S25) filter to clean the filter when this time is a time to start the purge. After the second stage (S25) filter cleaning can end stage (S26) filter cleaning at the end of the drying cycle.

Characteristics and the results of the stages can be similar characteristics and results of the stages described above in accordance with the above option, with reference to Fig. 6, and their detailed description will be repeated.

In addition, although in Fig. 7 not shown, in addition you can run the detection phase is finished abnormally or no previous stage of drying and purification stage of the filter is made on the basis of the detection phase to phase (S20) start the drying cycle.

In accordance with Fig. 8, the initial moment of time the stage cleaning of the filter is determined in accordance with the degree of dryness service, housed in the Department to accommodate.

Way to control the device to process the service in accordance with this option exercise has the characteristic of stages to determine whether the degree of dryness service, housed in the Department to accommodate, given degree of dryness or higher (S31)that is executed after the stage (S30) start the drying cycle.

When the degree of dryness (level of dryness) service is controlling the degree of dryness (or level of dryness or higher, stage begins (S32) to clean the filter. After the execution stage (S32) filter stage filter may fail (S33), and the drying cycle can be completed (S34).

In addition, the degree of dryness service, housed in the Department to accommodate, can be measured with a device for measuring the degree of dryness, located in the device 100 for treatment of clothes.

A device for measuring the degree of dryness can be a device for measuring humidity (S, see Fig. 1), made with the possibility of measuring the humidity of the air discharged from the Department to accommodate.

Fig. 12 is a graph of relative humidity of air discharged from the Department to accommodate during the drying cycle (for example, a graph of the current values obtained from humidity, available from the Department to accommodate the device for measurement of humidity).

The rate of heat transfer is relatively low during the initial period of the cycle, even when heated air is supplied to the Department to accommodate the device 5 for air supply. Therefore, it may be a small change in humidity, available from the Department to accommodate the period ('A').

Since clothing is wet during the initial period of the cycle, it is not easy to make the heat exchange between the hot air and clothes, even when heated air is continuously absorbed in the Department to accommodate.

However, the value of air humidity is produced from the Department to accommodate increases in the implementation cycle, and increasing the amount of humidity changes significantly when the cycle of drying reaches a specific point in time (C).

Here, the air is released to the outside compartments to accommodate after the heat exchange with clothes, may include foreign substances, such as fibers. The number of foreign substances that are released from the Department to accommodate, may increase with increasing degree of dryness service.

As a result, less foreign substances produced on the outside compartments to accommodate during the period of 'A', and more foreign substances produced on the outside compartments to accommodate during the period of 'B'when the heat exchange between the clothes and warm air is carried out intensively.

An implementation option, is shown in Fig. 8, has the characteristic, according to which the efficiency of drying is reduced due to the deterioration of filter within the period, when many foreign substances released from the Department to accommodate.

Can stage a comparison of the degree of dryness service with reference degree of dryness (S31). At the stage of comparing the degree of dryness service with reference degree of dryness (S31) data on the moisture content (for example, the current values, the appropriate humidity) are measured for air, released from the Department to accommodate the device (S) for measurement of humidity and measured data humidity are compared with the control data humidity control unit. Alternatively, the rate of change of humidity, released from the Department to accommodate, can be compared with the control rate of change of humidity.

When defining the time to clean the filter on the basis of the comparison between the rate of change of humidity and control the rate of change of humidity use what the rate of change of data on the moisture content varies significantly in time 'C' in the cycle of drying, as defined in Fig. 12.

That is, the control unit receives the information about humidity, measured by the device for measurement of humidity, and expects the rate of change of moisture per unit of time. After that, the control unit compares the calculated rate of change of control change speed and determines the time to clean the filter on the basis of the comparison (for example, use the fact, that the rate of change of humidity in the period of 'A' is close to zero, and the rate of change of humidity is a positive value (+) for a specified period of time 'C').

Stage (S31) determine the degree of dryness service, housed in the Department to accommodate, can be performed on the basis of the comparison between the level of water content in clothing and control the level of water content.

For example, measuring device, made with the possibility of measuring the level of water content in clothing, inserted in the device 100 for processing service, and measuring device periodically measures the level of water in the clothes inside the office to accommodate. The measured level of water compared to a reference level of water content (about 30 of about 40%), and the stage of determination of the degree of dryness can be performed on the basis of the comparison.

Measuring device for measuring the level of water may be the sensor electrode installed in the Department to accommodate.

That is, when a pair of electrodes placed in the sensor electrode, made with the possibility of contact with clothing during the rotation of a drum, the control unit can compare the value of a current or voltage values measured by a pair of electrodes, with the control value previously established in accordance with the level of water content. Then, the control unit can detect the level of water in clothes.

Alternatively, the stage of determination of the degree of dryness service, housed in the Department to accommodate (S31), can be performed by determining whether the airflow from the Department to contain, control temperature or above.

Dryness becomes high when approaching the end of the drying cycle. When dryness becomes high, the air is filed with the device for air, is produced in the discharge channel at low heat exchange with clothes inside the office to accommodate. Therefore, the degree of dryness of the service can be determined by measuring the temperature of the air coming from the Department to accommodate.

As a result, if a device for measuring temperature for measurement of temperature of air is released from hospital to house, set in the device for the treatment of service, and the control unit is set for comparison of data measured with a device for measuring temperature, with a reference value, the stage of determination of the degree of dryness can be performed through the use of a device for measuring temperature.

Fig. 9 shows an example of a control method for installing the run-time phase (S13, S25 and S32) to clean the filter described above, on the basis of at least one number service, loaded to the Department to accommodate that type of service, given the degree of dryness, installed in the cycle of drying, and the specified drying times, installed in the cycle of drying.

For example, stage (S46) filter in accordance with this implementation is done before the end time, cycle, and the time period run stage filter in accordance with this embodiment is installed (S44) on the basis of at least one number service, the type of service, given the degree of dryness, installed in the cycle of drying, and the specified drying times, installed in the cycle of drying.

First of all will be described characteristic of the period runtime phase filter, established on the basis of the number of service. This feature takes into account the number of foreign substances that are released from the Department to accommodate during the drying cycle, which may increase when the number of service, housed in the Department to accommodate increases.

This way of management in accordance with this implementation is additionally includes stage (S42) determine the number of clothing and stage (S44) set the amount of time the execution stage (S46) filter that run prior to the execution stage (S46) filter cleaning.

When a device for measuring the amount of service, set on the device to process service, transmits data about the number of service in the control unit, on the stage (S42) determine the number of service compares the transferred data on the number of service with reference value, and determines the number of service contained in the Department to accommodate (e.g. the period, including the highest value and the lowest value of the data on the number of service).

A device for measuring the amount of service can be of different types, for example, a device for measuring the amount of service that is hosted in the Department to accommodate, on the basis of rotational load of the motor 213 drum unit contacted with clothing, placed in the Department to accommodate, to determine the number of service on the basis of the frequency of contact with your clothing, and the like.

On the stage (S44) set the amount of run-time phase filter cleaning can be selected period run-time, matching the number of service, measured by the control unit, from a table of data about the period of the execution time, preset based on the number of service.

In this case the table data about the period of the execution time can be a data table that contains the periods of the execution time for the relevant quantities of clothing. The experimental data, which includes a longer periods of time of execution, if the number of service becomes larger and shorter periods of time of execution, if the number of service becomes smaller.

During the installation period of time run stage filter based on the number of service in accordance with the method of management of the implementation of this option is defined, there any point in time to clean the filter (S45).

Stage to determine whether a given time moment of time to clean the filter (S45), can be performed by determining whether a given point in time specified point in time before the end time, the drying cycle, whether the time specified time after the initial moment of time the drying cycle, or whether the degree of dryness control the degree of dryness or higher.

When it is determined that this time is the time to clean the filter, the control unit activates the device for the removal of foreign substances during runtime installed on stage (S44) set the amount of run time, and a device for removal of foreign substances remove all foreign substances remaining in the filter (S46).

In addition, the number of foreign substances extracted from the Department to accommodate may differ on the basis of drying conditions, such as type of service, given the degree of dryness and drying time (specified drying times), in addition to the number of service.

For example, the clothes can include various types of service, including cotton clothes, clothes made of synthetic fabrics, clothes from fine fabrics, legkomyslennyh under the influence of heat, such as fine lingerie, woolen clothes and vocational clothes, like sports clothes.

The number of foreign substances, such as fibers extracted during the drying cycle, may differ on the basis of material service. In accordance with the results of experiments showed that the largest number of foreign substances can be removed from cotton clothing.

Given the degree of dryness is a dry state service, when the drying cycle is completed and can be one of the elements used to determine the number of foreign substances extracted from the Department to accommodate during the drying cycle.

Various specified degree of dryness can be installed by the manufacturer for processing service, for example, high, normal and low, for Ironing and the like. Here, when given the degree of dryness is intended for Ironing, dryness includes a specified amount of water (or water), remaining in clothes, Ironing after the end of the drying cycle.

When given the degree of dryness is high, the level of water in clothes can be very low at the final drying cycle. When given the degree of dryness is intended for Ironing service, the level of water may be the highest in the final drying cycle.

As described above, the number of foreign substances extracted from the Department to accommodate increases when it occurs later during the drying cycle. This means that the number of foreign substances increases when the level of water is lower.

Therefore, if the specified degree of dryness taken into account during runtime phase filter after the definition given degree of dryness installed in drying cycle, the efficiency of drying, as expected, can be increased.

Time of drying, set in a cycle of drying (for example, a given period of time drying), can be one of the elements used to determine the number of foreign substances extracted from the Department to accommodate. If a given period of time drying installed in drying cycle is long, period of time for removal of foreign substances may be relatively long.

Therefore, if the time period for execution phase filter is installed on the type of service that is loaded in the Department to accommodate the specified degree of dryness, installed in the cycle of drying, and a specified period of time, the efficiency of drying, as you might expect, increases.

To display at least one of: type of service, given the degree of dryness and given period of time drying during runtime phase filter control method in accordance with this implementation is additionally includes stage (S43) installation drying conditions for determining conditions of drying (for example, type of service, given the degree of dryness and/or a specified period of time drying).

On the stage (S43) installation drying conditions, the user can directly enter the condition drying through a portion of the input button on the device to handle the service.

That is, the stage (S43) installation drying conditions may include input stage of the type of service, entering a given degree of dryness and entering a specified period of time of drying that run to the stage (S44) set the amount of execution time.

Here, if you display some type of service, given the degree of dryness and given period of time drying during runtime phase filter, step to enter the corresponding drying conditions may run up to the stage (S43) installation drying conditions.

In addition, stage (S43) installation drying conditions accepts the conditions of drying of drying, selected by the user to the stage (S41) the beginning of the drying cycle.

The operation of drying is the drying cycle. Temperature of air, which will be submitted to the Department to accommodate during the drying cycle, the amount of air and conditions for the end of the drying cycle is stored in the operation of drying. The user can choose the operation of drying displayed on the block 11 of the display, to perform the drying cycle.

Also, can persist in the operation of drying information on the number of service, which is the goal of the operation concerned, information about the type of service (for example, information about a given clothes), information about a given degree of dryness of the underlying transaction and information about the specified period of time of drying of the operation.

As a result, the way of control in accordance with this option exercise additionally includes stage (S41) choose the operation of drying pre-phase (S42) the beginning of the cycle. Stage (S43) installation drying conditions sets the given clothing, given the degree of dryness and given period of time drying, which are stored in the operation of drying, selected at the stage of choosing the operation of drying, the drying conditions.

When installing drying conditions on the stages described above, the time period for execution phase filter is set on the basis of drying conditions (S44). When it comes time to clean the filter (S45), the filter is cleaned (S46 and S48) during the period of time (S47)set on the stage (S44) set the amount of execution time. After cleaning filter (S48) drying cycle can be completed (S49).

Here, the stage of the installation period of execution performed on the basis of the number of service, as described above, is separated from the setup time of execution on the basis of drying conditions. However, in accordance with this embodiment, it can be ensured that stage (S44) set the amount of execution time running after you run stage (S42) determine the number of clothing and stage (S43) installation drying conditions (setup data, S42+ S43).

If at least two or more of the number of service, type of service, given the degree of dryness and given period of time drying displayed in the period runtime phase filter, on the stage (S44) set the amount of execution time can be fixed the sum of the values obtained by multiplying each of the control periods of time established for appropriate conditions, in each weight assigned to the relevant conditions, as the period of time to clean the filter.

For the implementation of the characteristics of the storage device or module is installed in device for processing service, may include a number of control data time period (such as 10, 20 and 30 C, see Fig. 13), established on the basis of quantities service (A1, A2 and A3, see Fig. 13)the number of control data time period (for example, 10, 30 and 50), established on the basis of the types of service that are classified on the basis of the amounts recoverable villi (B1, B2 and B3), the number of control data time period (such as 10, 15 and 20), established on the basis of predetermined degrees (C1, C2 and C3) dryness, and a host of control data time period (for example, 5, 10 and 15), established on the basis of predetermined periods (D1, D2 and D3) drying time.

In addition, the control unit or a storage device can include weight (w) depending on the number of service, the weight (x) depending on the type of service, the weight (y) depending on the degree of dryness and weight (z) depending on the time period of drying, which are established on the basis of the limit in which the number of service, type of service, given the degree of dryness and given period of time drying affect the number of foreign substances extracted from the Department to accommodate.

In case of installation of the period of execution stage (S46) filter based on the number of service, type of service, given the degree of dryness and given period of time drying stage (S44) set the amount of execution time is set period of time run stage filter in the form of the sum of the values obtained by multiplying the control of the data about the period of time stipulated based on the number of service, by weight, depending on the number of service, the value obtained by multiplying the control of the data about the period of time stipulated in the type of service, by weight, depending on the type of service, values by multiplying the control of the data about the period of time stipulated based on a given degree of dryness, by weight, depending on the degree of dryness and values are obtained by multiplying the control of the data about the period of time established on the basis of a specified period of time drying, by weight, depending on the period of time of drying.

Fig. 10 depicts the characteristics in which prior to the beginning of the drying cycle (S52) in accordance with management method, described above, is determined whether to filter cleaning or not (S51), although foreign substances with the filter is deleted each time you use the device for 100 processing service.

For example, the method of controlling the device for processing service according to this option the implementation includes the stage to measure the amount of debris left on the filter (S50)to (S52) the beginning of the drying cycle.

The amount of debris left on the filter 65 can be determined by different devices, and devices may include a device for measuring the amount of air, optical sensor or device for measuring the temperature set in the device for 100 processing service.

If foreign substances remain on the filter, the amount of air passing along the channel 4, will increase. Therefore, at the stage to determine the amount of debris left on the filter (S50)may compare to the amount of air measured by the device for measuring the amount of air, with pre-set control number (S51) to the stage (S52) the beginning of the drying cycle.

Here, in case of measurement on the stage (S50) measuring the amount of foreign substances using the device for measuring the amount of air is not necessary to submit hot air unlike the drying cycle. Therefore, the device for air supply can be managed for filing unheated air at the stage of measuring the amount of foreign substances.

If the amount of debris left on the filter is high, the number of transmitted light will be small. Therefore, the voltage (or current value)obtained part for the reception of light, compared to a reference value, and can be expected amount of debris left on the filter. Here, the filter is located between the part for the reception of light and a part for the light emission opposite part, for reception of light.

If the amount of debris left on the filter, is a large, can be difficult air circulation inside the channel, and the pressure or the temperature inside the channel can be increased. So when the pressure or temperature, measured by a device for measuring the pressure or device for measuring temperature, located in the channel, compared with a control pressure or temperature control, then you may be determined by the amount of debris left on the filter.

When the number of foreign substances, measured by the devices described above is less than the reference value, which is the amount of foreign substances requiring cleaning filter (or reference value or less), starts drying cycle (S52). However, when measured by the number of foreign substances is the reference value or more (or more reference values)in compliance with the way management this option, the implementation is in the early stage (S61) clean the filter, and the stage (S52) the beginning of the drying cycle is performed after the end of the first stage (S62) filter cleaning.

Stage (S50) measuring the amount of foreign substances, the first phase (S61) clean the filter control in accordance with this option exercise can improve the efficiency of drying.

When begins the cycle, can be performed stage (S53a) determine the number of service, stage (S53B) installation drying conditions, stage (S54) the time period for the second stage of purification filter to set the amount of time the second stage (S56) filter cleaning. A detailed description of each stage of the above, and the detailed description will not be repeated.

After that in accordance with the method of control of implementation of this option determines whether a given point in time by the time the second filter (S55), and run the second stage (S56) filter over a period of time (S57)set on the stage (S54) set the amount of time the second filter, to finish cleaning filter (S58) and the drying cycle (S59).

Fig. 11 shows an example of how device control for processing service according to another version the implementation of this disclosure. Under this option exercise device for treatment service is managed differently based on auto mode and manual mode.

Automatic mode is management, which are implemented consistently stage filter cleaning and drying cycle. Manual mode is the mode in which management is carried out only filter cleaning.

This option exercise includes the stage to determine which mode from manual mode (S90) and automatic mode (S80) selected (S70).

When you select the manual mode in accordance with the method of management of the given variant of implementation measures the amount of debris left on the filter (S91), and compares the measured amount of foreign substances with predefined reference value (S92).

Stage to measure the amount of debris left on the filter, and to compare measured in the number of foreign substances with reference value is identical to the description with reference to Fig. 10, and a detailed description will not be repeated.

When the amount of debris left on the filter, is a pre-defined value or more in accordance with the method of management of the given variant of implementation is the stage (S93) filter by device management for the removal of foreign substances for the removal of foreign substances, remaining on the filter. As a result, in accordance with this embodiment, the user can only clean the filter, when required, regardless of the execution cycle.

In addition, only if the user wants to carry out drying cycle after cleaning the filter, manual mode (S90) may include stage (S94) determine whether the drying cycle to determine whether you want the drying cycle.

When the amount of debris left on the filter, is less than the reference value, in manual mode (S90) is the stage (S95) alerts by displaying on the block (11) display, located in the device for processing service that stage filter does not need to perform. Can be stage (S94) determine whether the drying cycle.

If you select the automatic mode on the stage (S70) determine the mode selection in accordance with the method of management of the given variant of the implementation is in the early stage (S83) filter before drying cycle (S72).

The first stage (S83) filter cleaning can be performed by definition, does previous drying cycle is abnormal (S81), as shown in Fig. 11, or whether the amount of debris left on the filter, reference value or more, as shown in Fig. 10.

After that in accordance with the method of management of this option exercise can be performed stage (S71) choose the operation of drying stage (S72) start cycle, the phase (S73a) determine the number of service, stage (S73b) installation drying conditions and the stage (set S74) set the amount of time the second phase of the filter.

When the initial moment of time the second stage of the filter (for example, a moment of time set in the given period of time after the start cycle, the time set in the given period of time, until the end of the drying cycle and/or moment of time set when the dryness is a control dryness or higher) (S75), in accordance with the method of management of the given variant of implementation is the second stage (set s76 and S78) filter within the specified period of time (S77), and then completes the cycle of drying (S79).

Specialists in the art should be understood that there are different modifications and changes in the present disclosure without departing from the essence and scope of the present disclosure. Thus, it is understood that this disclosure includes the modification and amendment of this disclosure, provided that they are included in the scope of the claims and its equivalents.

3. The method according to claim 1, further comprising the step of defining the end time, the drying cycle, the phase filter begins at the point in time before the specified time period from the end time, the drying cycle.

4. The method according to claim 1, according to which stage filter begin in time, established after a specified period of time from the initial moment of time the drying cycle.

5. The method according to claim 4, further comprising the step of defining the end time of drying cycle; and the second stage filter cleaning is performed between the end time of the phase filter and end time of the drying cycle.

6. The method according to claim 5, according to which the second phase filter begins at the point in time before the specified time period from the end time, the drying cycle.

7. The method according to claim 4, according to which at the stage of determining the degree of dryness of clothing and carry the stage of determining the period of time of drying is required for the drying cycle, the phase filter starts when 50% of the measured period of time of drying.

8. The method according to claim 1, further comprising the step of determining whether we end up drying cycle performed before the start of the loop without executing the stage of purification filter; and the first stage of cleaning filter for the removal of foreign substances, remaining on the filter, before the start of the cycle, the drying cycle, carried out before the start of the loop terminates without executing phase filter.

9. The method according to claim 1, according to which at the stage of determining the degree of dryness of the service is exercised by the phase velocity measurements of humidity changes, produced from the Department to accommodate, by means of humidity measurement and control unit, made with the possibility of calculating the data measured by means of measurement of humidity, and the stage filter starts when the measured rate of change of humidity is pre-determined reference value or more.

10. The method according to claim 1, according to which at the stage of determining the degree of dryness of clothing and carry phase measurement of humidity, available from the Department to accommodate, through management tool for measurement of humidity, located in the device for the treatment of service, and the stage filter starts when measured humidity is pre-determined reference value or more.

11. The method according to claim 1, according to which at the stage of determining the degree of dryness of the service is exercised by the stage level measurement of water content in clothing, placed in the Department to accommodate, by controlling the means of measuring the level of water located in the device for the treatment of service, and the stage filter starts when the measured level of water is preset reference value or less.

12. The method according to claim 1, further comprising the step of determining the number of service, housed in the Department to accommodate, by controlling the means of measuring the quantity of service, located in the device for the treatment of service, and the stage of determining the number of service runs to the stage of purification filter; and the stage of the installation period of time run stage filter is proportional to the measured quantity of the service, and the stage filter maintenance is performed within the prescribed period run-time.

13. The method according to claim 1, further comprising the step of determining drying conditions established in the cycle of drying, and the stage of defining the conditions of drying is to stage purification filter; and the stage of the installation period of time run stage filter based on the given conditions of drying, and the stage filter maintenance is performed within the prescribed period run-time.

14. The method according to 14, in which the condition drying represents at least one type of service, given the degree of dryness, installed in the cycle of drying, and a specified period of time drying installed in the cycle of drying.

15. The method according to claim 1, further comprising the step of determining whether the amount of debris left on the filter, pre-specified value, or more, and the identification stage is to launch phase of the cycle; and the first stage of cleaning filter for the removal of foreign substances, remaining on the filter by device management for the removal of foreign substances before the start of the cycle, when measured by the number of foreign substances is pre-determined reference value or more.

16. The method according to claim 1, further comprising the step of selecting the mode to manual mode and automatic mode, the startup phase of the cycle and phase filter maintenance is performed sequentially, when you selected the automatic mode and is only a stage of the filter when the manual mode is selected.