KR101208553B1 - Laundry machine - Google Patents

Abstract

The present invention relates to a washing machine. Washing apparatus according to the present invention includes a cabinet, a drum rotatably provided in the cabinet, a heat exchanger for condensing moisture in the air exhausted from the drum, a collecting space for collecting the condensed water condensed in the heat exchanger; It is characterized in that it comprises a storage tank having a coupling portion connecting the upper and lower and integrally formed in the storage tank and the drain portion for draining the condensate.

Description

Washing machine {Laundry machine}

The present invention relates to a washing machine.

The washing apparatus may be classified into a washing machine having a washing function, a dryer having a drying function, and a combined washing machine having both a drying function and a washing function. On the other hand, in the case of having a drying function, condensed water may occur when condensing moisture in the air discharged from the drum. Such condensate can be used for various purposes.

An object of the present invention is to provide a laundry machine that can properly utilize the condensate generated in the laundry machine.

An object of the present invention as described above, a cabinet, a drum rotatably provided inside the cabinet, a heat exchanger for condensing moisture in the air exhausted from the drum, a collecting space for collecting the condensed water condensed in the heat exchanger And a storage tank integrally formed with a coupling part connecting the upper part and the lower part, and a drainage part provided in the storage tank to drain the condensed water.

Here, the coupling unit may divide the water collecting space into at least two to provide a water level of a predetermined height or more to at least one of the divided water collecting spaces. In addition, the coupling portion may be provided with a communication unit at a predetermined height in communication with the partitioned collection space. Specifically, the coupling unit may divide the water collecting space into an inflow space into which the condensed water is introduced and at least one auxiliary space into which the condensed water is introduced from the inflow space.

On the other hand, the condensate flowing into the inlet space forms a water level of a predetermined height or more and the drain portion may be provided in the lower portion of the inlet space.

Here, the drain may discharge the condensed water to the outside of the cabinet.

On the other hand, the washing apparatus according to another embodiment may further obtain a water supply device for supplying steam into the drum. In this case, the drain may supply the condensed water to the water supply device.

Furthermore, the storage tank may be detachably provided in the cabinet.

As described above, the washing apparatus according to the present invention can save water use by recycling condensed water. For example, condensate may be supplied to a water supply device to supply water, mist, or steam to the drum, and the heat exchanger may be cleaned using the condensate.

1 is a schematic view showing the configuration of a laundry machine according to one embodiment;
2 is a schematic view showing the configuration of a laundry machine according to another embodiment;
3 is a perspective view of the storage tank,
4 is a cross-sectional view taken along line IV-IV of FIG. 3;
5 is a schematic view showing the configuration of a washing apparatus according to another embodiment and
Figure 6 is a schematic diagram showing the configuration of a washing apparatus according to another embodiment.

1 is a schematic diagram showing the configuration of a washing apparatus according to an embodiment.

Referring to FIG. 1, the washing apparatus may include a cabinet (not shown) forming an external shape. Various components described later can be provided inside the cabinet.

The interior of the cabinet may be provided with a drum (10) for providing an accommodation space for accommodating clothing or the like. It may be rotatably provided in the cabinet of the drum (10). A user may inject clothes or the like into the drum 10 by opening a door (not shown) of the cabinet.

Washing apparatus according to an embodiment may have a drying function for drying the clothes. In this case, the washing apparatus may include a heat exchanger 20 for condensing moisture in the air exhausted from the drum 10. Specifically, the air exhausted from the drum 10 may be supplied to the heat exchange apparatus 20 along the exhaust duct 30, and the air that has passed through the heat exchange apparatus 20 may be again supplied to the drum (along the supply duct 32). 10) can be supplied into the interior. Therefore, the exhaust duct 30 and the supply duct 32 can form a circulation duct through which air circulates.

The heat exchanger 20 may first provide moisture by removing moisture in the air exhausted from the drum 10. To this end, the heat exchange device 20 may be provided with a configuration capable of heat exchange with the air exhausted from the drum (10). For example, by sucking the air from the outside of the washing machine it can be condensed by exchanging the air and the air exhausted from the drum with each other. In addition, the heat exchanger may be configured as a heat pump. Here, the heat pump may include an evaporator, a compressor, a condenser, and an expansion valve through which the refrigerant circulates, and may be defined as a configuration in which the evaporator and the condenser exchange heat. In the heat pump, the refrigerant evaporates in the evaporator and condenses ambient air to remove moisture, and the ambient air can be heated simultaneously with the refrigerant condensing in the condenser. Therefore, when the heat pump is provided, it is possible to remove the moisture of the air exhausted from the drum 10 and simultaneously heat it to a predetermined temperature without a separate device. Since the configuration of such a heat exchanger or a heat pump is well known to those skilled in the art, further detailed description thereof will be omitted.

The heat exchanger 20 may include a collecting part 40 in which condensed water condensed with moisture in the air exhausted from the drum 10 is collected. That is, when moisture in the air exhausted from the drum 10 is condensed, the condensed water is first collected in the collecting part 40. As shown in the figure, when the collecting part 40 is positioned below, the condensate may be supplied to the collecting part 40 by using a drop. In addition, although not shown in the figure, a pump may be provided to supply the condensed water to the water collecting part 40 by driving the pump.

On the other hand, the washing machine may further include a storage tank (50) for collecting the condensed water condensed in the heat exchanger (20). Here, it is also possible to provide a configuration in which only the storage tank 50 is provided without the water collecting part 40 described above. That is, the condensed water condensed in the heat exchanger 20 may be directly supplied to the storage tank 50. However, in this configuration, since the condensed water is directly supplied from the heat exchanger 20 to the storage tank 50, the condensed water may be excessively supplied and the storage tank 50 may overflow. Therefore, it is preferable that the heat exchanger 20 includes a collecting part 40 for collecting condensate first, and a storage tank 50 for supplying the condensate from the collecting part 40.

The condensed water may be supplied to the storage tank 50 along the condensed water supply line 42 from the water collecting unit 40. In this case, although the storage tank 50 may be provided at the lower portion of the collecting portion 40 to supply condensed water using a drop, the storage tank 50 may be provided above the collecting portion 40 for various reasons described later. Can be. Therefore, the pump 44 is provided along the condensed water supply line 42, and condensed water can be supplied by driving the pump 44.

When the washing apparatus performs the drying function repeatedly, condensed water may be continuously supplied from the heat exchanger 20 to the storage tank 50. By the way, since the quantity of the storage tank 50 is limited, it is necessary to discharge the condensed water supplied to the outside suitably. Hereinafter, various embodiments of discharging condensed water supplied into the storage tank 50 to the outside of the storage tank 50 will be described.

First, although not shown in the drawings, the storage tank may be provided detachably to the washing apparatus. In this case, the user can separate the storage tank from the washing apparatus and discard the condensed water therein. Preferably, the level of the condensate in the storage tank, or may be further provided with a level sensor, a display unit for indicating that the level of the condensate has risen above the predetermined level.

On the other hand, in one embodiment shown in Figure 1 the storage tank 50 may be provided with a drain for draining condensate. In this embodiment, the drain portion may be composed of a drain line 58 for draining the condensed water to the outside of the washing apparatus. That is, when condensate is collected in the storage tank 50, the condensate may be discharged to the outside through the drain line 58.

Furthermore, although not shown in the drawing, it may further include a water level sensor (not shown) for detecting the water level inside the storage tank 50 and a valve (not shown) for selectively opening and closing the drain line. The controller of the washing apparatus may detect the water level of the storage tank 50 through the water level sensor, and may open the valve to drain the condensate when the water level of the condensate reaches a predetermined level.

Figure 2 is a schematic diagram showing the configuration of a washing apparatus according to another embodiment. Compared with the embodiment of FIG. 1 described above, there is a difference in that the condensed water in the storage tank 50 is supplied to the water supply device 60. Hereinafter, the differences will be mainly discussed.

Referring to FIG. 2, the washing apparatus includes a water supply device 60 capable of supplying moisture, mist, or steam (hereinafter, referred to as 'steam') to the drum 10. Can be. When steam is supplied into the drum 10 by the water supply device 60, a refresh function such as antistatic of clothes, wrinkle removal of clothes, or odor removal of clothes may be performed.

However, in order to supply steam, a configuration such as a water supply source for supplying water to the water supply device 60 is required. In this embodiment, the storage tank 50 may serve as a water supply source for supplying water to the water supply device 60. That is, as shown in the figure, the storage tank 50 may supply condensed water to the water supply device 60 through the water supply line 62. In this case, the storage tank 50 may supply the condensed water using a drop, or the pump 64 may be provided along the water supply line 62 to supply the condensed water by driving the pump 64. As a result, in the present embodiment, the water supply line 62 for supplying condensed water from the storage tank 50 to the water supply device 60 serves as the above-described drainage part.

On the other hand, the water supply device 60 and the drum 10 may be connected by the steam supply line (66). Therefore, the steam supplied from the water supply device 60 may be supplied to the drum 10 through the steam supply line 66.

As described above, when the storage tank 50 serves as a water supply source, it may be important to supply an appropriate amount of condensed water from the storage tank 50 to the water supply device 60. In particular, when the amount of condensed water supplied from the heat exchanger 20 to the storage tank 50 is small, it may be difficult to supply the condensed water from the storage tank 50 to the water supply device 60. Hereinafter, the configuration of the storage tank 50 capable of supplying the condensed water to the water supply device 60 smoothly even when the amount of the condensed water supplied from the heat exchanger 20 is small.

3 is a perspective view illustrating the storage tank 50.

Referring to FIG. 3, the storage tank 50 may include a housing 52. The housing 52 may be provided to have a predetermined volume to provide a collecting space through which the condensed water is collected. In the case of providing a space for collecting condensate, it may have a shape of a cube having an open top. However, in the form of the upper open as described above, water may overflow due to the flow of internal water when condensed water is supplied. Therefore, in the present embodiment, it may be provided with a housing 52 having a collecting space therein.

A predetermined position of the upper portion of the housing 52 may be provided with an inlet hole 56 to which the condensed water supply line 42 into which the condensed water flows. The condensed water supplied through the condensed water supply line 42 may be introduced into the housing 52 through the inlet hole 56. On the other hand, the condensed water condensed in the heat exchanger 20 may include foreign matters and the like while moving along the condensed water supply line (42). As such, when the condensate containing the foreign matter is supplied to the water supply device 60, a malfunction of the water supply device 60 may occur. Therefore, the inlet hole 56 through which the condensed water is introduced may further include a filter device 57 for filtering the condensed water. The foreign matter can be removed by filtering the condensed water by the filter device 57.

On the other hand, the housing 52 can be manufactured in various ways. For example, the upper cover and the base may be separately manufactured, and then the upper cover and the base may be combined to form a housing. In this case, a process of combining the top cover and the base may be required, which may require a lot of time and money in the manufacturing process. In addition, there is also a need for a sealing portion for preventing the leakage of condensate inside the coupling portion between the upper cover and the base. Therefore, in the present embodiment, when manufacturing the housing 52, it can be manufactured integrally with one body. That is, in the case of manufacturing the housing 52, instead of separately manufacturing the upper cover and the base, it is formed integrally with one body. Hereinafter, the internal structure of the housing 52 will be described.

4 is a cross-sectional view taken along the line IV-IV of FIG. 3, showing the internal structure of the housing 52.

Referring to FIG. 4, the housing 52 may be provided to have a predetermined volume to provide a collecting space through which the condensed water is collected. On the other hand, the interior of the housing 52 may be provided with a coupling portion 58 for connecting the top and bottom. The coupling part 58 serves to maintain the shape of the housing 52 when the housing 52 is manufactured. As described above, in the present embodiment, the housing 52 may be integrally provided. However, when the housing 52 is integrally molded, a predetermined space is provided therein, so that the housing 52 may swell during molding. Therefore, the coupling portion 58 may be further provided therein to prevent the housing 52 from swelling during molding. Coupling portion 58 serves to connect the upper and lower in the housing 52 to prevent the housing 52 from swelling in the forming step.

Meanwhile, in addition to the above-described role, the coupling unit 58 may partition the collecting space inside the housing 52 into at least two spaces. That is, as shown in FIG. 4, the coupling part 58 may partition the inside of the housing 52 into at least two spaces. In this case, a space in which condensate is communicated with the inflow hole 56 may be defined as an inflow space 54, and other spaces may be defined as an auxiliary space 55.

The reason for partitioning the inside of the housing 52 by the coupling part 58 is to provide a space capable of providing a water level above a predetermined height in the inside of the housing 52, that is, the collecting space.

As described above, when the amount of condensed water supplied from the heat exchanger 20 is small, it becomes difficult to supply a sufficient amount of condensed water to the water supply device 60. In particular, the storage tank 50 may be provided at the top inside the washing apparatus to smoothly supply condensed water to the water supply device 60. This is because the moisture supply device 60 is provided at the top. In particular, the storage tank 50 preferably has a height of more than the moisture supply device 60 in order to smoothly supply condensed water. Therefore, in order to consider the inner space of the narrow washing machine, so that the connection between the storage tank 50 and the water supply line 62 has a height higher than the water supply device 60, the housing 52 is shown in FIG. As shown, it may have a shape extending in the horizontal direction. When a small amount of condensate is supplied in such a shape, the condensate may be spread along the bottom, and thus it may be difficult to secure a sufficient drop to supply the condensate to the water supply device 60.

Therefore, in the present embodiment, the inner space of the housing 52 is partitioned by the coupling portion 58 so that at least one space, that is, the inflow space 54, can secure a drop of more than a predetermined height even if a small amount of condensate is introduced. have. Specifically, the coupling portion 58 may partition the inner space of the housing 52 so that the water level rises more quickly when the condensed water is introduced as compared with the absence of the coupling portion 58. As a result, even if a small amount of condensed water is supplied, the water level is more than a predetermined height, so that the condensed water can be smoothly supplied to the water supply device 60. A lower portion of the inflow space 54 may include a water supply hole 61 to which the water supply line 62 is connected. The water supply hole 61 is provided in the lower portion of the inflow space 54, preferably at the bottom to supply the largest amount of condensed water.

On the other hand, when the condensed water is continuously supplied to the inlet space 54, a larger amount of condensed water may be supplied than the volume of the inlet space 54. In this case, the condensed water in the inlet space 54 may further include a communication portion 59 to be supplied to the auxiliary space (55). The communicating unit 59 may be provided in the coupling unit 58 and may be provided at a predetermined height or more from the bottom or adjacent to the ceiling. When the communication unit 59 is provided adjacent to the bottom, the condensate may be supplied directly to the auxiliary space 55 without being sufficiently supplied to the inflow space 54. Therefore, the communication part 59 may be provided at a bottom or above a predetermined height or adjacent to the ceiling so that the condensed water may be sufficiently supplied to the inflow space 54.

As a result, when the condensed water is supplied to the storage tank 50, the condensed water overflowed from the inflow space 54 may be supplied to the auxiliary space 55 through the communication unit 59. . On the other hand, when the condensed water is continuously supplied to the auxiliary space 55, it is preferable to drain the condensed water. Therefore, although not shown in the drawing, it may be provided with a drain line for selectively draining the condensed water in the auxiliary space (55). A valve may be provided along the drain line to selectively drain the condensate according to a command of the controller.

Figure 5 is a schematic diagram showing the configuration of a washing apparatus according to another embodiment.

Compared with the above-described embodiments, the present embodiment differs in that the condensed water stored in the storage tank 50 is supplied to the heat exchanger 20 again. The heat exchanger 20 condenses moisture in the air to generate dry air and simultaneously generate condensed water. Therefore, the part which comes into contact with condensate needs to be cleaned relatively frequently. However, it is quite difficult for a user to disassemble the cabinet of the washing apparatus to clean the heat exchanger 20, and to call a serviceman frequently to clean the heat exchanger 20 may cause inconvenience. Therefore, the present embodiment differs from the above-described embodiments in that the condensate stored in the storage tank 50 may be supplied to the heat exchanger 20 to clean the heat exchanger 20. Hereinafter, the differences will be mainly discussed.

Referring to FIG. 5, the washing apparatus may include a drain part for draining the condensed water to the outside in the storage tank 50. In the present embodiment, the drain portion may be made of a condensate water supply unit 70 for supplying and cleaning the condensate water from the storage tank 50 to the heat exchange device 20.

The condensate water supply unit 70 may include a water supply line 72 extending from the storage tank 50, a valve 74 and a nozzle 78 that are selectively opened and closed along the water supply line 72. That is, when the cleaning of the heat exchanger 20 is necessary, the controller may open the valve 74 to supply the condensed water to the heat exchanger 20 along the water supply line 72. In this case, the nozzle 78 may be provided adjacent to the heat exchanger 20 to directly supply the condensed water to the heat exchanger 20. In particular, the nozzle 78 can be supplied above the predetermined pressure of the condensed water to improve the cleaning efficiency. In addition, the pump 76 may be further provided along the water supply line 72 to smoothly supply the condensed water. The controller can smoothly supply the condensed water by driving the pump 76 with the opening of the valve 74.

On the other hand, the storage tank 50 in the present embodiment may have the configuration of Figures 3 and 4 described above. In this case, the water supply line 72 may be connected to the water supply hole 61 of the inflow space 54 described above. The configuration of the storage tank is similar to the description of FIGS. 3 and 4 described above, and thus repetitive description thereof will be omitted. In addition, although not shown in the drawings, the storage tank 50 of the present embodiment may be provided with a drain line for draining condensed water from the storage tank 50 in addition to the water supply line 72. A valve may be provided along the drain line to selectively drain the condensate according to a command of the controller.

Figure 6 is a schematic diagram showing the configuration of a washing apparatus according to another embodiment.

Compared with the above-described embodiments, there is a difference in that the condensed water in the storage tank 50 may be selectively supplied to the water supply device 60 and the heat exchanger 20 or drained to the outside.

Referring to FIG. 6, the washing apparatus according to the present embodiment drains water to the drum 10, a water supply device 60 for supplying steam, a condensate supply unit 70 for supplying condensed water to the heat exchanger 20, and condensate to the outside. Drain line 58 may be provided. The drain line 58 has been described in FIG. 1, the water supply device 60 has been described in the embodiment of FIG. 2, and the condensed water supply unit 70 has been described in FIG. In addition, since the storage tank 50 is similar to the description of FIGS. 3 and 4 described above, repeated description thereof will be omitted.

In the present embodiment, the four-way valve 80 may be provided to supply the condensed water to at least one of the water supply device 60, the condensed water supply unit 70, and the drain line 58 in the storage tank 50. That is, the controller may selectively supply the condensed water by operating the four-way valve 80.

For example, when steam supply is required, the controller operates the four-way valve 80 to supply the condensed water to the water supply device 60, and when the cleaning of the heat exchanger 20 is necessary, to the condensed water supply unit 70. Condensate can be supplied. Of course, it is also possible to operate the four-way valve 80 to supply the condensed water together with the water supply device 60 and the condensed water supply unit 70. In addition, when the condensate is collected at a predetermined level or more in the storage tank 50, the condensed water may be drained through the drain line 58 by operating the four-way valve 80. It is of course also possible to supply the condensed water to at least one of the water supply device 60 and the condensed water supply unit 70 while draining the condensed water.

10 ... drum 20 ... heat exchanger
40 collection tank 50 storage tank
60 ... moisture supply device 70 ... condensation water supply

Claims (9)

cabinet;
A drum rotatably provided in the cabinet;
A heat exchanger for condensing moisture in the air exhausted from the drum;
A water collecting space for collecting the condensed water condensed by the heat exchanger, and connecting the upper and lower portions of the water collecting space to divide the water collecting space into at least two spaces to provide at least one height higher than a predetermined height. A storage tank having a coupling for providing a water level; And
And a drain provided in the storage tank to drain the condensed water. delete The method of claim 1,
The coupling unit washing apparatus characterized in that it comprises a communication unit at a predetermined height in communication with the partitioned collection space. The method of claim 3,
The coupling unit is characterized in that the washing compartment is partitioned into the inlet space into which the condensed water is introduced and at least one auxiliary space into which the condensed water is introduced from the inlet space. 5. The method of claim 4,
The condensate flowing into the inlet space forms a water level of a predetermined height or more, and the drainage is provided in the lower portion of the inlet space. The method of claim 1,
The drainage unit is characterized in that for discharging the condensate to the outside of the cabinet. The method of claim 1,
The washing apparatus further comprises a water supply device for supplying steam to the inside of the drum. The method of claim 7, wherein
The drainage unit, characterized in that for supplying the condensed water to the water supply device. The method of claim 1,
The storage tank is laundry device, characterized in that detachably provided in the cabinet.

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