EA019780B1 - Water-bearing household appliance having a filter device in the pumping-away section and storage tank - Google Patents

Abstract

A water-bearing household appliance 1 which serves, in particular, as a laundry treatment unit for washing and/or drying laundry comprises a pumping-away section 9 which is connected to a treatment region 3, a discharge pump 10 which is arranged in the pumping-away section 9, a filter device 20 which comprises a membrane filter 22 with hollow fibers and which is arranged in the pumping-away section 9 between the treatment region 3 and the discharge pump 10, and a water storage tank 12 which is connected to the filter device 20 via an additional pump 25. By actuation of the pump 25, water can be branched off into the water storage tank 12 from the pumping-away section 9 via a filter 22 of the filter device 20. The water which is stored in the water storage tank 12 can replace part of the supplied fresh water in the case of a further programme run. The embodiment of the filter device 20 makes self-cleaning of the filter 22 possible.

Description

The invention relates to a water-consuming household appliance for processing laundry, such as a washing machine or a washer-dryer.

Background of the Related Art

In patent application I8 5868937 describes a method and apparatus for the preparation and reuse of waste water. In such a known device, a circulation pump is provided which directs the waste water to the intermediate tank through a high power filter element. From the intermediate tank, the waste water can be pumped or pumped back to a washing drum or a similar device. In addition, an additional filtering device is provided with which water from the intermediate tank can be filtered. The device is independent of the domestic appliance, but can be used to treat waste water from the domestic appliance. The disadvantage of the device described in patent application No. 5868937 and the method described in the same application is the relatively high cost of filtering. In addition, well-known maintenance costs are required since the filter elements must be replaced at regular intervals.

In patent application No. 19709085 A1, a method for washing clothes is described, according to which water from the washing is placed in an intermediate tank, filtered and accumulated in a storage tank. Since a cross-flow filter is used as the filter, several circulation loops are required. In addition, the filter device is located parallel to the outlet channel, as a result of which two storage tanks are required. This design is technically complex and takes up a lot of space, which is usually not enough in a washing machine.

In patent application No. 2910140, an apparatus for automatically washing and rinsing laundry with a storage tank is described. The detergent solution is stored in this storage tank until the next wash cycle.

In patent application EP 0207379 A1, a hollow fiber filter is described. Patent Document No. 10161095 C1 describes a membrane filtration method.

SUMMARY OF THE INVENTION

The objective of the invention is the creation of a water-consuming household appliance in which the possible accumulation of water will be improved.

According to the invention, the problem is solved by a water-consuming household appliance for processing linen, such as a washing or washing-drying machine, which comprises an outlet channel connected to the treatment zone, a pump out pump installed in the outlet channel, a storage tank for storing water and supplying it to the treatment zone and filtering a device located in the outlet channel between the treatment zone and the pump, and the filtering device is connected to the storage tank to ensure the discharge into odes from the filter device to the storage tank and contains a hollow fiber membrane filter designed to filter waste water discharged into the storage tank.

The features described in the dependent claims make it possible to realize advantageous embodiments of a water-consuming household appliance according to the invention.

An advantageous embodiment is that the filter device is located on the suction side of the pump out. As a result, a profitable mode of operation of a water-consuming household appliance with the accumulation of filtered water in a storage tank for water becomes possible.

Advantageously, the storage tank for water serves to accumulate a known amount of water that is discharged into the storage tank from a filter device located in the outlet channel. In this case, the water is advantageously filtered by a filtering device, as a result of which filtered water can be obtained from the waste water sent through the outlet channel. In this case, the filtering device can filter water to a greater or lesser extent. The degree of filtration depends on the expected contamination of the waste water used for filtration and on the intended purposes for which the accumulated water will be used. For example, a water consuming household appliance may be configured such that water discharged into the water storage tank is discharged during the rinsing process, preferably the last rinse. Water contamination after the last rinse is usually relatively small. In addition, the accumulated water can be used in the prewash phase, followed by the main wash step. In addition, the requirements for the filtering device also depend on the expected exposure time of the water in the storage tank for water. In particular, the filter device may also serve to filter bacteria and the like. Thus, the filter device can be configured for any application.

An advantageous variant is that the filtering device comprises a chamber in which the specified membrane filter is located and which is connected to the outlet channel and the outlet of the device, and is configured in such a way that the waste water directed through the outlet channel to the outlet passes through the filter device, capturing the filter cake accumulated in the filter. As a result, water discharged into the water storage tank can advantageously be directed through

- 1 019780 cut filter filter device. As a result, depending on the filter embodiment, the required purity of the water accumulated in the water storage tank can be achieved. Of course, this raises the problem of clogging the filter with filter cake over time. Of course, this sediment is captured by waste water, which is sent through the exhaust channel to the outlet. Waste water passes by the filter chamber, flowing past the filter in such a way as to ensure the cleaning effect of the filter. As a result, depending on the filter embodiment, the filter device can be maintenance-free, or at least the filter service life can be increased. As a result, it is possible to increase the convenience of using a water-consuming household appliance, and the accumulated water can reduce water consumption.

It is also advantageous in that the filtering device comprises a flange, and a storage tank for water is connected to the flange at least indirectly, and both ends of the hollow fibers of the hollow fiber membrane filter are connected to the flange. In membrane filters based on hollow fibers, in which the liquid to be cleaned is pressed through the pores in the fiber sheath into the fiber and removed as through a hose, a large surface can be used for filtration with respect to the volume to be filtered. At the same time, for example, a bag containing from one hundred to a thousand fibers can be bent in the form of a letter and placed on the flange with the end side. The waste water to be filtered enters the filter chamber and is forced through the pores in the fiber sheath due to the pressure difference between the filter chamber and the flange. Substances deposited in this case form a filter cake, which is deposited externally on the surface of the shells of individual hollow fibers, while purified water is directed through the cavities of the hollow fibers through the flange into the water storage tank. Given the very large surface area of the hollow fiber membrane filter, filtration and thus filling of the water storage tank can occur even at relatively low pressure, for example at a pressure difference of 50 kPa (0.5 bar). In this case, the necessary pressure difference depends, inter alia, on the required degree of purification. Thanks to the self-cleaning of the filter device, which is carried out by passing the waste water through the filter chamber to the outlet, the increase in pressure necessary for filtration is prevented. Since, as a result, the supply system of the filter device can operate without applying pressure, unlike systems operating under pressure, during the filter operation, no special measures are required to separate the rest of the system. In addition, this makes it possible to perform pumping and filtering in parallel.

Advantageously, the hollow fibers are arranged in the membrane filter chamber in such a way that the flow of waste water moving along the exhaust channel to the outlet mechanically moves the hollow fibers relative to each other. At the same time, in addition, a variant is advantageous in which the hollow fibers are located in the membrane filter chamber in such a way that they, due to mechanical movement under the influence of the waste water stream, rub against each other. Thus, when pumping waste water to the outlet of a water-consuming household appliance using a pump, an automatic transverse flushing can be provided, which, due to the small mobility of the hollow fiber membrane, has a good cleaning effect. Due to the fact that the water is already pumped out and has mechanical energy when pumping, cleaning the filtering device can be implemented without additional costs. In particular, neither additional technical measures nor additional energy costs will be required. Thanks to the automatic transverse flushing, the filter device only occasionally needs maintenance or even does not need it at all. Thus, additional special filter cleaning programs using additional equipment and additional time and energy costs are not required.

An advantageous embodiment is in which a storage tank for water is connected to the filtering device by means of an additional pump. In this case, the additional pump, in an advantageous way, can be made in the form of a suction pump, which overcomes the ambient pressure, since the pressure used in the case of a membrane filter based on hollow fibers is relatively small.

Also advantageous is the option in which a control device is provided that is capable of shutting down the pumping pump and activating an additional pump to divert water from the filter device to the storage tank. As a result, it is possible to fill the storage tank for water, for example, during the last rinsing process. Also advantageous is the option in which the additional pump, by means of which the storage tank for water is connected to the filtering device, is made in the form of a double-acting pump, and the control device is capable of shutting down the exhaust pump and turning on the additional pump in the filter cleaning mode, ensuring the storage tank is connected to the filtering device in the opposite direction and the reverse flow of water from the storage tank into the chamber of the filter device for cleaning the filter of the filter device wa. Thus, a double-acting suction pump in pressure mode can improve the cleaning effect due to backwashing during pumping. Such

- 2 019780 cleaning program can be integrated into the normal washing process. For example, filter cleaning can be performed after a certain number of program cycles. The system, which consists of a storage tank for water, a filter device and a pump, is compact and reliable and can be additionally installed in the bottom area of a front-loading water-consuming household appliance along with other auxiliary components that may be required.

At the same time, a water-consuming household appliance according to the invention and its advantageous embodiments determine the advantageous steps of a method for controlling a water-consuming household appliance.

List of drawings

Preferred embodiments of the invention are disclosed in the description below based on the attached drawing, which shows a schematic view of a water-consuming household appliance in accordance with one embodiment of the invention.

Information confirming the possibility of carrying out the invention

The drawing schematically shows the functional units and details of a water-consuming household appliance 1. In particular, a water-consuming household appliance 1 can be made in the form of a device for the care of linen. In particular, the water consuming household appliance 1 may be a washing machine or a washer-dryer. Of course, the features of a water-consuming household appliance 1 disclosed herein apply to other embodiments, in particular, a household appliance may be a dishwasher.

Water-consuming household appliance 1 contains a tank 2, which in this embodiment is designed as a tank for washing solution. Tank 2 includes a zone 3 of the treatment of a water-consuming household appliance 1.

A water-consuming household appliance 1 comprises a pipe 4 through which a water-consuming household appliance 1 can be connected to a pipe for supplying clean water. A pipe 5, in which a shut-off valve 6 is installed, leads from the nozzle 4 to the flushing tray 7. Processing means, in particular, laundry treating means, can be placed in the flushing tray 7. When pure water is supplied through pipeline 5, pure water enters the wash tray 7, overcoming the air gap, and flushes the laundry treatment agent, in particular, detergent or conditioning agent, from the wash tray 7 through the connecting channel 8 to the tank 2. Using a mixture of water and means for processing linen can be processed linen available in the tank 2. As a result, it is possible to perform washing or other processing of linen. After washing or other processing of the laundry, the waste water can be pumped out of the treatment zone 3 through the outlet channel 9 using a pump 10 installed in the outlet channel 9. There is a pipe 11 through which the outlet channel 9 of the water-consuming household appliance 1 can be connected to the sewer .

During the execution of the program, clean water can be repeatedly supplied through line 5. For example, one or more rinsing processes may be provided which are intended to rinse the laundry in the processing zone 3. At least a portion of the water used for rinsing may be temporarily stored in the storage tank 12 for water of the water consuming household appliance 1. The storage tank 12 for water is connected by a pipe 13 to a connecting channel 8. A pump 14 is installed in the pipe 13. The water stored in the storage tank 12 for water, in another cycle of the program can replace part of the incoming clean water. This saves water. For example, a portion of the clean water flowing through conduit 5 may be replaced by the water accumulated in the storage tank 12 during the prewash process. The capacity of the storage tank 12 for water may be, for example, 12 liters

A filter device 20 is installed in the outlet channel 9. The filter device 20 comprises a filter chamber 21 and a filter 22 located in the filter chamber 21. In this case, the filter device 20 is located between the tank 2, covering the processing zone 3, and a pump 10 installed in the exhaust channel 9. In particular, the filter device 20 can be located on the suction side 23 of the pump 10.

Waste water, which the pump 10 sends through the exhaust channel 9 to the outlet 11, flows through the filter chamber 21 of the filter device 20. During the rinsing process, relatively clean waste water is in the filter chamber 21.

In this embodiment, the water-consuming household appliance 1 comprises a control device 24. In addition, an additional pump 25 is provided by which the filter device 20 is connected to the storage tank 12 for water. In this case, an additional pump 25 is installed in the pipeline 26, which is connected on one side to the flange 27 of the filtering device 20, and on the other side to the storage tank 12 for water.

The control device 24 is connected by a control wire 28 to a pump 10, a control wire 29 with an additional pump 25, and a control wire 30 with a pump 14. To pump the remaining water from the tank 2 to the pipe 11, the control device 24 activates the pump 10. in the water storage tank 12, the control device 24 switches off the pump 10 and activates the additional pump 25. This is preferably done after the rinse. Moreover, in the chamber 21 of the filter

- 3 019780 there is relatively pure water, which, when the additional pump 25 is activated, is filtered through the filter 22. Water filtered through the filter 22 can be temporarily stored in the water storage tank 12 for future use. When the water storage tank 12 is full, the control device 24 turns off the additional pump 25. The remaining water can be completely pumped out of the tank 2 by turning on the pump 10. To direct the water from the water storage tank 12 to the tank 2, replacing part of the clean water, the control device 24 includes a pump 14.

The filter 22 of the filter device 20 is a hollow fiber membrane filter. In this case, the filter 22 contains many hollow fibers 31, and in the drawing, for the sake of simplification of the image, only hollow fiber 31 is shown. In this case, for example, from about a hundred to a thousand such hollow fibers 31 can be provided. Each of the hollow fibers 31 is curved in the form of a letter and, both the tip 32 of the hollow fiber 31 and the tip 33 of the hollow fiber 31 are held from the end side in the flange 27. Through the sheath surface of the hollow fiber 31, water flows from the filter chamber 21 into the hollow fiber 31. From the inside of the hollow fiber 31 bottled water is transported by an additional pump 25 to the storage tank 12 for water. Due to the presence of a plurality of hollow fibers 31, a very large surface area of the filter 22 is provided with respect to the occupied volume. As a result, a relatively low discharge pressure will suffice for the additional pump 25. In particular, the auxiliary pump 25 may be a suction pump that develops a pressure of about 50 kPa (0.5 bar), overcoming the ambient pressure.

During the filtration of water directed to the water storage tank 12, the filter cake, separated from the waste water, settles on the surface (shell) of the hollow fibers 31 of the filter 22. Of course, the design and arrangement of the filter device 20 allows the filter 22 to be cleaned, which prevents progressive filter clogging 22.

Owing to the intrinsic elasticity of the hollow fibers 31 and, thereby, their mobility, the filter 22, consisting of a plurality of hollow fibers 31, can be cleaned with relatively little mechanical energy. Due to the fact that the filtering device 20 is installed in the outlet channel 9, in particular, at the inlet (suction side 23) of the pump 10, the waste water pumped by the pump 10 from the tank 2 to the outlet 11, washes the outer side (surface) of the hollow fibers 31 Thus, the filter cake that has accumulated on the outside of the hollow fibers 31 is constantly washed off when pumping the waste water. While washing the hollow fibers 31 of the filter 22 occurs, on the one hand, due to the mechanical movement of the waste water stream. Waste water, which traps the filter cake of filter 22, enters the outlet 11 from a water-consuming household appliance 1. On the other hand, individual hollow fibers 31 are located in the filter chamber 21 so that they can rub against each other. Due to such mechanical friction, the cleaning effect is improved, as a result of which the filter cake is torn off from the outside of the hollow fibers 31.

Advantageously, the water storage tank 12 is filled at a relatively late stage of the washing program, for example during the last rinse. In the next program, when contaminated laundry is again placed in the tank 2, the waste water flowing through the filter chamber 21 to the outlet 11 becomes cleaner and cleaner. This corresponds to the normal execution of the washing program, which may consist of the stages of prewash, the main wash and one or more rinsing steps. With this washing, the filter chamber 21 is washed and thereby the filter 22 is cleaned. Since the waste water is becoming cleaner, the cleaning quality of the filter 22 is also improved. Thus, by the time of the last rinse, the filter 22 will be at least as clean as possible. As a result, at least a portion of the water from the last rinsing step can be filtered through a cleaned filter 22 to fill the water storage tank 12. In this case, the waste water in the filter chamber 21 is driven by an additional pump 25 through the flange 27 of the hollow fiber membrane filter 22.

The design of the hollow fibers 31 of the filter 22 is defined by the respective field of application. In particular, the pore widths of hollow fiber membranes can vary over a relatively wide range. In particular, hollow fibers 31 with pores with a width of about 6 nm can be selected. This pore width also allows you to filter out bacteria, etc. The camera 21 of the filter can be made in the form of a filter chamber. In this case, the filter chamber 21 can also be formed by the chamber on the suction side of the pump 10, which is formed inside the housing of the pump 10.

In a water-consuming household appliance 1, a filter cleaning mode may also be provided. The additional pump 25 is in the form of a double-acting pump 25, so that it can pump water in the opposite direction from the water storage tank 12 into the filter chamber 21 of the filter device 20. In the filter cleaning mode, the control device includes an additional pump 25 in the reverse direction, while the drain pump 10

- 4 019780 works by pumping waste water through the exhaust channel 9 to the outlet (outlet) 11. In this case, cleaning the filter 22 from the filter cake helps reverse pumping of water from the water storage tank 12 to the filter chamber 21. Thus, in the filter cleaning mode, the cleaning effect of the hollow fibers 31 of the filter 22 can be improved. In this case, an advantageous option is that the filter cleaning mode can be combined with pumping out during program execution. As a result, the user does not need to intervene or select a special mode. The control device 24 can independently start the cleaning mode upon reaching a certain number of hours worked or a certain number of program cycles.

Depending on the embodiment of the water-consuming household appliance 1, other operating modes are possible. For example, the control device 24 may start an additional pump 25 to fill the storage tank 12 for water even during pumping when the pump 10 is operating.

The invention is not limited to the described embodiments.

List of reference signs.

water consuming household appliance tank treatment zone pipe piping shut-off valve flushing tray connecting channel exhaust channel pump drain pipe water storage tank piping pump filter device filter chamber filter suction side control device additional pump pipeline flange

28, 29, 30 hollow fiber control wire

32, 33 end of the hollow fiber

Claims (9)

1. A water-consuming household appliance (1) for processing laundry, such as a washing or washing-drying machine, comprising an outlet channel (9) connected to the treatment zone (3), a pump out pump (10) installed in the outlet channel (9), a storage a reservoir (12) for accumulating water and supplying it to the treatment zone (3) and a filter device (20) located in the outlet channel (9) between the treatment zone (3) and the pumping pump (10) connected to the storage tank (12) to ensure that water is drained from the filter device (20) in ln tank (12) and containing a membrane filter (22) with hollow fibers, designed to filter the waste water discharged into the storage tank (12). 2. The device according to claim 1, in which the filtering device (20) comprises a chamber (21) in which the specified membrane filter (22) is located and which is connected to the outlet channel (9) and the outlet (11) of the device, and is thus designed that the waste water directed through the outlet channel (9) to the outlet (11) passes through a filtering device (20), capturing the filter cake accumulated in the filter (22). 3. The device according to claim 2, in which the filtering device (20) contains a flange (27), and a storage tank (12) for water is connected to the flange (27), both ends (32, 33) of the hollow fiber (31) of the membrane filters (22) are connected to the flange (27). 4. The device according to claim 3, in which the hollow fibers (31) are located in the chamber (21) of the membrane filter (22) in such a way that the flow of waste water directed through the outlet channel (9) to the outlet (11) mechanically moves the hollow fibers (31) relative to each other. 5. The device according to claim 4, in which the hollow fibers (31) are located in the chamber (21) of the membrane filter (22) so that they rub against each other due to mechanical movement caused by the flow of waste water. 6. The device according to one of claims 1 to 5, in which the storage tank (12) for water is connected to the filtering device (20) by means of an additional pump (25). 7. The device according to claim 6, which contains a control device (24) capable of shutting down the pump out pump (10) and turning on the additional pump (25) to drain water from the filter device (20) to the storage tank (12). 8. The device according to claim 7, the additional pump (25) of which is a double-acting pump, and the control device (24) is capable, in the filter cleaning mode (22), of switching off the exhaust pump (10) and turning on the additional pump (25), providing a connection the storage tank (12) with the filtering device (20) in the opposite direction and the reverse flow of water from the storage tank (12) into the chamber (21) of the filtering device (20) for cleaning the filter (22) of the filtering device (20). 9. The device according to one of the preceding paragraphs, in which the filtering device (20) is located on the suction side (23) of the evacuation pump (10).