KR20210111556A - laundry treatment apparatus - Google Patents

Abstract

The present invention relates to a laundry treatment apparatus. The present invention provides the laundry treatment apparatus provided with a flow path opening and closing valve which opens a flow path only when condensed water flows in at a connection unit with a recovery flow path guiding the condensed water overflowing into a drain container mounting unit to be recovered to a condensed water recovery unit. According to the present invention, condensed water pumping in the condensed water recovery unit by a drain pump assembly may be smoothly performed without requiring residual water. The laundry treatment apparatus of the present invention comprises: the condensed water recovery unit; the drain pump assembly; a drain tank mounting unit; the recovery flow path; and the flow path opening and closing valve.

Description

laundry treatment apparatus

The present invention relates to a clothes treatment apparatus to which a structure for minimizing residual water due to condensed water overflowed from a drain container and recovered is applied.

In general, the clothes treatment apparatus includes a washing machine, a clothes dryer, a combined laundry dryer, a clothes manager, etc., and is provided to a business such as a home or a laundry, and performs overall processing such as washing, drying, or wrinkling removal of clothes or various bedding It performs a function for (treatment).

Among these clothes treatment apparatuses, a clothes dryer has a heat pump system and supplies hot air to a subject to be treated, such as clothes or bedding, put into a drum (or tub) through the operation of the heat pump system to remove moisture contained in the subject. A device configured to dry by evaporation.

In addition, the clothes dryer may be classified into an exhaust type dryer and a condensing dryer according to a treatment method of hot and humid air exiting the drum after drying the object to be treated.

Here, the exhaust type dryer is configured to directly discharge the high temperature and humidity air generated during the drying operation to the outside, and the condensing type dryer does not discharge the high temperature and humidity air generated during the drying operation to the outside and circulates it through heat exchange. It is configured to condense moisture contained in the air.

In particular, in the case of the condensing dryer, a heat pump system including a compressor, a condenser, an expander, and an evaporator is provided, and the air is heated while passing through the condenser after moisture is removed while passing through the evaporator of the heat pump system.

In relation to such a condensing dryer, it is suggested in Korean Patent Publication No. 10-2010-0090087, Patent Publication No. 10-2013-0127816, Patent Publication No. 10-2016-0087183, and Patent Publication No. 10-2016-0149852 It's like a bar.

In the condensing dryer according to the prior art described above, a large amount of condensed water is generated while heat exchanges while air passes through the evaporator.

The condensed water flows down to the bottom in the circulation passage and is collected in the condensate recovery unit, and the condensed water collected in this way is pumped by the drain pump assembly installed in the condensate recovery unit and stored in the drain container. At this time, the drain tube is installed to be able to be taken out from the dryer main body so that the drain can be drained according to the user's need.

If the condensed water stored in the drain tube is not discharged for a long time due to the user's carelessness, the condensed water exceeds the water level allowed by the drain tube, and the condensed water exceeding the allowable water level is installed in the drain tube from the drain tube. There was a problem of overflowing into the drain tank mounting part.

Accordingly, in the related art, there has been a consideration in which the condensed water overflowing from the drain container mounting part is recovered to the condensed water recovery part by connecting the drain container mounting part and the condensed water recovery part through a recovery passage.

However, when the recovery flow path is connected to the condensate recovery part as described above, the pumping performance by the drain pump assembly installed in the condensate recovery part is rapidly reduced because the inside of the condensate recovery part is opened to the outside by the recovery flow path. .

That is, in order to pump the condensed water stored in the condensate recovery part as much as possible while the drain pump assembly is mounted on the condensate recovery part, the condensate recovery part has to be sealed from the external environment. Smooth pumping is not achieved.

Of course, by submerging the recovery passage in the condensed water stored in the condensed water recovery unit, the pressure release may be prevented and condensed water recovery may be possible.

However, in the locked structure of the recovery passage, the condensed water must be stored above a certain level in the condensed water recovery unit, and thus there is a risk of contamination due to long-term storage of the condensed water stored in the condensed water recovery unit.

That is, considering that the condensed water recovered from the drain container mounting part contains various foreign substances (lint or detergent residues, etc.), there is a high risk of contamination. it had no choice but to

Laid-Open Patent Publication No. 10-2010-0090087 Laid-Open Patent Publication No. 10-2016-0087183 Unexamined Patent Publication No. 10-2017-0016754 Laid-open Patent Publication No. 10-2016-0149852

The present invention has been devised to solve various problems according to the prior art described above, and an object of the present invention is to prevent residual water from being present in the communication portion between the inside of the recovery passage and the condensed water recovery unit, while maintaining the pressure in the condensed water recovery unit. Accordingly, an object of the present invention is to provide a clothes treatment device to which a new type of flow path opening/closing valve is applied, which can stably operate the drain pump assembly.

Another object of the present invention is to provide a clothes treatment apparatus according to a new form so that an opening/closing operation of a flow path by a flow path opening/closing valve can be accurately performed.

Another object of the present invention is to provide a clothes processing apparatus according to a new form in which a flow path opening/closing valve can be easily connected or separated without interference from surrounding structures.

Another object of the present invention is to provide a laundry treatment apparatus according to a new form so that the flow path opening/closing valve is configured as an individual structure separate from the condensate recovery unit or the drain pump assembly, so that the application can be made easily and easily. .

In order to achieve the above object, the laundry treatment apparatus of the present invention is provided with a flow path opening/closing valve that opens the flow path only when condensed water flows in at a connection portion with a recovery flow path that guides the condensed water overflowing into the drain container mounting unit to be recovered to the condensate recovery unit. suggests that

That is, when the condensate pumping operation of the drain pump assembly is performed, the flow path opening/closing valve is operated by the pressure in the condensate recovery unit to block the inflow of air from the recovery flow path, and when condensed water is introduced into the recovery flow path, it is recovered while being operated by buoyancy. By opening the flow path, pumping of the condensate in the condensate recovery unit is performed more smoothly and residual water can be minimized.

In addition, the clothes treatment apparatus of the present invention proposes that the flow path opening/closing valve is provided at a connection portion between the recovery flow path and the condensed water recovery unit, thereby reducing pressure leakage in the condensed water recovery unit through the recovery flow path.

In addition, the clothes treatment apparatus of the present invention proposes that the flow path opening/closing valve is configured to be separable from the recovery path and the condensed water recovery unit, thereby making it possible to easily replace or maintain the flow path opening/closing valve.

In addition, it is proposed that the flow path opening/closing valve of the laundry treatment apparatus of the present invention includes a case body having a communication hole in the bottom and a float valve that opens and closes the communication hole while moving up and down in the case body, thereby preventing residual water from being generated. it was made to

In addition, the clothes treatment apparatus of the present invention proposes that the water inlet pipe is formed in the case body of the flow path opening/closing valve, thereby enabling free connection with the recovery flow path.

In addition, the clothes treatment apparatus of the present invention proposes that the inlet pipe of the flow path opening/closing valve is formed on the circumferential surface of the case body, so that the float valve can be stably floated.

In addition, the clothes treatment apparatus of the present invention proposes that the inlet pipe of the flow path opening/closing valve is formed on the bottom part of the circumferential surface of the case body, so that the float valve can be floated more stably.

In addition, the laundry treatment apparatus of the present invention proposes that a seating groove is formed in a portion where the communication hole is formed, thereby enabling accurate adhesion of the float valve.

At this time, it is suggested that a communication groove is additionally formed in the seating groove, so that the float valve can float well when the condensate condensate is introduced.

In addition, the clothing treatment apparatus of the present invention suggests that the contact end in close contact with the communication hole of the float valve is formed in a spherical shape, thereby allowing the communication hole of the case body to be accurately sealed and floating well when condensed water is supplied. This was done so that it could be easily opened.

In addition, the clothes treatment apparatus of the present invention proposes that the body end extending upward from the close contact end of the float valve is formed in a cylindrical or cylindrical shape, thereby stably ascending and descending within the case body without inclination.

In addition, the laundry treatment apparatus of the present invention proposes that a plurality of guide ribs protruding in the radial direction are formed on the inner circumferential surface of the case body, and the float valve is configured to move up and down between the guide ribs, thereby making the float valve more stable. It was made to be able to ascend to

In addition, the clothing treatment apparatus of the present invention proposes that the upper end of each guide rib is bent inward, thereby limiting the ascending distance of the float valve.

In addition, the clothes treatment apparatus of the present invention proposes that the water inlet pipe is formed to face between the communication hole and the float valve, so that condensed water is supplied between the bottom wall and the float valve in the case body so that the float valve can smoothly move upwards. did it

In addition, the clothes treatment apparatus of the present invention proposes that the case body is formed as a tubular body with an open top, and the open upper surface is closed with an opening/closing cover, so that the float valve in the case body can be easily installed. did it

In addition, the laundry treatment apparatus of the present invention suggests that the flow path opening/closing valve may be provided in the drain pipe of the drain container mounting part, and thus the installation position of the flow path opening/closing valve can be diversified.

As described above, in the laundry treatment apparatus of the present invention, even if the user fails to empty the drain container and the condensate in the drain container overflows into the drain container mounting part, the overflowed condensate can be smoothly recovered to the condensate recovery part through the recovery passage. have an effect

In particular, in the laundry treatment apparatus of the present invention, the flow path opening/closing valve provided at the connection portion with the recovery flow passage is operated by the pressure in the condensed water recovery unit during the condensate pumping operation of the drain pump assembly to block the inflow of air from the recovery flow passage. By allowing the space in the condensed water recovery unit to be sealed, the pumping force by the drain pump assembly can be improved.

In addition, in the laundry treatment apparatus of the present invention, since the float valve constituting the flow path opening/closing valve has a structure that opens the communication hole while rising from the condensed water by its buoyancy, it does not require residual water during non-operation, so that the residual water is contaminated. It has the effect of fundamentally preventing problems such as occurrence.

In addition, the laundry treatment apparatus of the present invention has the effect that the float valve can rise more smoothly by locating the inlet pipe on the circumferential surface of the case body.

In addition, the laundry treatment apparatus of the present invention has the effect of preventing a decrease in pumping force due to the release of pressure in the condensate recovery part by configuring the float valve to close the communication hole by the pressure in the condensate recovery part.

In addition, the laundry treatment apparatus of the present invention has the effect that the flow path opening/closing valve can be easily connected or disconnected without interference from surrounding structures, thereby facilitating maintenance.

In addition, the laundry treatment apparatus of the present invention has an effect that maintenance is easy because the flow path opening/closing valve is configured as a separate structure separate from the condensate recovery unit or the drain pump assembly.

1 is a perspective view illustrating an internal structure of a clothes processing apparatus according to an embodiment of the present invention;
2 is a block diagram schematically showing a structure for a drying operation and a washing operation by the clothes processing apparatus according to an embodiment of the present invention;
3 is a side view schematically illustrating a structure for a drying operation by a clothes processing apparatus according to an embodiment of the present invention;
4 is a perspective view illustrating a heat pump system of a clothes processing apparatus according to an embodiment of the present invention;
5 is an exploded perspective view illustrating a heat pump system of a clothes processing apparatus according to an embodiment of the present invention;
6 is a plan view illustrating a base frame of a clothes processing apparatus according to an embodiment of the present invention;
7 is an enlarged view of part “A” of FIG. 6
8 is a cross-sectional view taken along line II of FIG. 4
9 is a state diagram of main parts showing a state in a plan view to explain a drain container mounting part of the laundry treatment apparatus according to an embodiment of the present invention;
10 is a cross-sectional view illustrating an internal structure of a drain container mounting part of a laundry treatment apparatus according to an embodiment of the present invention;
11 is a plan view illustrating a state in which a drain pump assembly is installed on a base frame of a laundry treatment apparatus according to an embodiment of the present invention;
12 is a perspective view illustrating an installation state of the drain pump assembly of the laundry treatment apparatus and the flow path opening/closing valve installed therein according to an embodiment of the present invention;
13 is a plan view illustrating an installation state of a drain pump assembly and a flow path opening/closing valve installed therein according to an embodiment of the present invention;
14 is a side view illustrating an installation state of the drain pump assembly of the laundry treatment apparatus and the flow path opening/closing valve installed therein according to an embodiment of the present invention;
15 is a cross-sectional view illustrating a main part of a drain pump assembly of a clothes treatment apparatus according to an embodiment of the present invention and an installation state of a flow path opening/closing valve installed therein;
16 is an enlarged view of part “B” of FIG. 14
17 is an enlarged view of a main part shown to explain another embodiment of FIG. 16 ;
18 is a plan view illustrating an internal state of a case body among the flow path opening/closing valves of the laundry treatment apparatus according to an embodiment of the present invention;
19 is a state diagram illustrating a state when condensed water flows into a flow path opening/closing valve of a laundry treatment apparatus according to an embodiment of the present invention;
20 is an enlarged view of part “C” of FIG. 19
21 is a perspective view illustrating a state in which a flow path opening/closing valve of a clothes processing apparatus is installed in a drain pump assembly according to another embodiment of the present invention;
22 is a plan view illustrating a state in which the flow path opening/closing valve of the laundry treatment apparatus is installed in the drain pump assembly according to another embodiment of the present invention;
23 is a plan view illustrating an internal state of a case body among the flow path opening/closing valves of the laundry treatment apparatus according to another embodiment of the present invention;
24 is a cross-sectional view illustrating a main part of a drain pump assembly of a laundry treatment apparatus according to another embodiment of the present invention and an installation state of a flow path opening/closing valve installed therein;
25 is an enlarged view of part “D” of FIG. 24
26 is a cross-sectional view illustrating a main part of a float valve among the flow path opening/closing valves of the laundry treatment apparatus according to another embodiment of the present invention;
27 is a cross-sectional view illustrating a main part of a float valve among the flow path opening/closing valves of the laundry treatment apparatus according to another embodiment of the present invention;
28 is a perspective view illustrating a coupling form between the drain pump assembly and the flow path opening/closing valve of the laundry treatment apparatus according to another embodiment of the present invention;
29 is a cross-sectional view illustrating an internal structure of a flow path opening/closing valve of a clothes processing apparatus according to another embodiment of the present invention;
30 is an enlarged view of part “E” of FIG. 29
31 is a cross-sectional view illustrating a main part of a flow path opening/closing valve of a clothes processing apparatus according to another embodiment of the present invention;
32 is a perspective view illustrating a coupling form between a drain pump assembly of a clothes treatment apparatus and another type of flow path opening/closing valve according to another embodiment of the present invention;
33 is a plan view showing a state in which the flow path opening/closing valve of the laundry treatment apparatus according to the embodiment of the present invention is provided in the drain container mounting part;
FIG. 34 is a perspective view of a main part showing in more detail a state in which the flow path opening/closing valve of the laundry treatment apparatus according to the embodiment of the present invention is provided in the drain container mounting part; FIG.
35 is a cross-sectional view illustrating the main part of the flow path opening/closing valve of the laundry treatment apparatus according to the embodiment of the present invention in more detail to explain a state in which the drain container mounting part is provided;
36 is an enlarged view illustrating a state in which the flow path opening/closing valve of the laundry treatment apparatus according to the embodiment of the present invention is provided in the drain container mounting part in more detail in a plan view;

Hereinafter, preferred embodiments of the laundry treatment apparatus according to the present invention will be described with reference to FIGS. 1 to 36 .

Prior to the description of the embodiment, it is assumed that the clothes processing apparatus of the present invention is a clothes dryer that dries laundry by supplying drying hot air.

1 to 6 are views showing the structure of each part of the clothes processing apparatus according to the embodiment of the present invention, and in this case, FIG. 1 is shown to explain the internal structure of the clothes processing apparatus according to the embodiment of the present invention. It is a perspective view, FIG. 2 is a block diagram schematically showing a structure for a drying operation and a washing operation by the clothes processing apparatus according to an embodiment of the present invention, and FIG. 3 is a clothes processing apparatus according to an embodiment of the present invention. It is a side view schematically showing a structure for a drying operation, FIG. 4 is a perspective view illustrating a heat pump system of a clothes processing apparatus according to an embodiment of the present invention, and FIG. 5 is a clothes processing apparatus according to an embodiment of the present invention It is an exploded perspective view illustrating a heat pump system, and FIG. 6 is a plan view illustrating a base frame of a laundry treatment apparatus according to an embodiment of the present invention.

As shown in these drawings, in the apparatus for treating clothes according to an embodiment of the present invention, a recovery passage 190 and a recovery passage 190 for recovering the condensed water overflowing from the drain tub 160 to the condensed water recovery unit 151 are selected. The flow path opening/closing valve 900 for opening and closing is included, and in particular, the flow path opening/closing valve 900 is configured to open the flow path when condensed water flows in and to close the flow path when the inflow of condensed water is stopped. do it with

That is, it prevents residual water from being present in the communication portion between the inside of the recovery passage 190 and the condensed water recovery unit 151 and ensures that the condensed water flows smoothly. The flow path opening/closing valve 900 is blocked so that pressure leakage in the condensed water recovery unit 151 can be prevented.

The laundry treatment apparatus according to the embodiment of the present invention having these characteristics is largely a cabinet 100 , a drain pump assembly 300 , a heat pump system, a circulation fan assembly 500 , a recovery passage 190 and a flow passage. It is configured to include the on/off valve 900, and the structure of such a clothes processing apparatus will be described in more detail for each configuration with reference to the drawings.

First, the cabinet 100 will be described with reference to FIG. 1 attached thereto.

The cabinet 100 is a portion that forms the exterior of the clothes processing apparatus.

The cabinet 100 is formed as an empty cylindrical body, and the drum 200 in which the object to be dried is accommodated is rotatably installed in the cabinet 100 .

At this time, the front side of the cabinet 100 is formed with an inlet 101 for putting an object to be dried into the drum 200 , and the inlet 101 is opened and closed by the door 120 .

In addition, a drain tube 160 is provided in the cabinet 100 . The drain tube 160 is a container for temporarily storing condensed water to be drained.

The drain tube 160 is provided so as to be accommodated and taken out in the drain container mounting part 130 provided on either side of the upper end of the drum 200 . That is, the drain tube 160 is taken out from the drain container mounting part 130 according to the user's need and can be drained.

The drain container mounting part 130 is formed of a cylindrical body with an open front. Accordingly, the drain tube 160 is installed so that it can be taken out to the front through the open front surface of the drain tube mounting part 130 .

In particular, when the condensed water stored therein exceeds a set water level, the upper surface of the drain tube 160 is formed to be at least partially opened to allow the condensed water to overflow.

At the same time, a drain pipe 131 for draining the condensed water overflowing from the drain tube 160 is formed in the drain tank mounting part 130 . The drain pipe 131 is formed by recessing a part of the bottom surface in the drain pipe mounting part 130, and the communication hole 132 is formed through the drain pipe 131, and the communication hole 132 is formed in the portion where the connection pipe is formed. As the extension 132a is formed, a recovery passage 190 to be described later is connected to each other. This is as shown in the accompanying Figures 9 and 10.

Of course, although not shown, the drain pipe 131 may be configured to be directly connected to the recovery passage 190 .

In addition, a base frame 150 is provided at the lower end of the cabinet 100 , and the base frame 150 is configured to form a floor portion in the cabinet 100 . Of course, although not shown, a separate bottom plate for closing the open bottom of the cabinet 100 is further provided, and the base frame 150 may be configured to be mounted on the bottom plate and fixed.

In particular, the drain pump assembly 300 , the heat pump system, the circulation fan assembly 500 , and the circulation flow path 800 , which will be described later, are attached to the upper surface of the base frame 150 as shown in FIGS. 4 to 6 . It is installed or formed on the (bottom surface in the cabinet).

In addition, a plurality of recessed portions are provided on the upper surface of the base frame 150 . The depression portion includes a depression portion 152 for installation of the compressor 410 , a depression portion 153 for installation of the drum driving motor 220 , and a depression portion for installation of the drain pump assembly 300 . do. This is as shown in the accompanying FIGS. 4 and 6 .

At this time, the recessed portion for installation of the drain pump assembly 300 is used as the condensed water recovery unit 151 for storing water for drainage. The water for drainage may be condensed water generated during heat exchange between water and air generated during a drying operation. That is, condensed water is condensed on the surface of the evaporator 440 of the heat pump system through which the humid air passes during the drying operation, and the condensed water flows down the surface of the evaporator 440 and then is recessed in the base frame 150. It is to be stored in the condensed water recovery unit (151).

Meanwhile, a circulation passage 800 is formed on one side of the upper surface of the base frame 150 .

The circulation flow path 800 is configured such that the evaporator 440 and the condenser 420 of the heat pump system are sequentially installed therein, and also the air flows through the evaporator 440 and the condenser 420 sequentially. It is formed in a duct-like structure (see attached FIG. 5) having left and right wall surfaces 801 for guiding the . At this time, the upper surface of the circulation passage 800 is formed to be open, and the bottom surface in the circulation passage 800 is formed of the upper surface of the base frame 150 .

Of course, the shape of the circulation flow path 800 may be formed in various structures such as a cylindrical duct as well as a box-shaped duct with an open upper surface in consideration of the shape of the surrounding structures or air flow characteristics.

In addition, an inlet duct 810 guiding the supply of dry air into the drum 200 is connected to the air outlet side, which is the rear side, of the circulation path 800 , and the air inlet side which is the front side of the circulation path 800 is connected to the An outlet duct 820 for guiding the discharge flow of air discharged from the drum 200 is connected. This is as shown in the attached FIG. 1 .

With this, the open upper surface of the circulation passage 800 is configured to be closed by covering with the base cover 830 (see attached FIGS. 4 and 5 ). That is, the inside of the circulation passage 800 by the base cover 830 has a space blocked from the external environment.

In addition, a seating recess 154 is recessed (see attached FIG. 8) on the bottom surface of the circulation flow path 800, and the evaporator 440 and the condenser 420 are mounted and fixed in the seating recess 154. A water cover 180 is installed. At this time, a through hole 802 (see attached FIGS. 5 and 7 ) communicating with the inside of the condensed water recovery part 151 is formed in the side wall (rear side wall) of the seating recess 154 .

That is, the condensed water that has fallen to the floor in the circulation passage 154 flows down into the seating recess 154 and then flows backward along the bottom surface in the seating recess 154, and continues through the passage hole 802 to recover the condensed water. It is stored in 151. At this time, the bottom surface in the seating recess 154 is formed to be inclined toward the portion where the condensed water recovery part 151 is located, so that the condensed water flowing down to the floor in the seating recess 154 is recovered along the inclined bottom surface. It is possible to smoothly flow down to the part 151 .

At the same time, the residual water stored in the condensed water recovery unit 151 is made to be drained into the drain tube 160 after every operation.

Meanwhile, a control unit 170 is provided inside the cabinet 100 .

The control unit 170 is provided to control the operation of the clothes processing apparatus.

The control unit 170 is configured to control the operation of the clothes processing apparatus based on a user's manipulation applied through the input unit 140 of the cabinet 100 .

In addition, the control unit 170 controls the operation of the circulation fan assembly 500 and the compressor 410 while performing a drying operation on the object to be treated, and based on the water level checked by the water level sensor 326, the drain pump ( 310) to control the operation of the condensate recovery unit 151 to pump and drain the residual water stored in the condensate recovery unit 151 is programmed to perform a drain operation. At this time, the water level sensor 326 is a sensor provided to detect the level of the condensed water in the condensed water recovery unit 151 while being installed in the drain pump assembly 300 .

Next, the drum 200 will be described with reference to FIGS. 1 and 3 attached thereto.

The drum 200 is formed as a cylindrical body having openings on front and back surfaces, and the front opening of the drum 200 is installed to communicate with the inlet 101 of the cabinet 100 . At this time, the drum 200 is configured to support its rotation using the rollers 201 in the cabinet 100 .

At the same time, high-temperature dry hot air is passed through the inside of the drum 200 , wherein the dry hot air is introduced into the inner space through the rear opening of the drum 200 , and then of the drum 200 . It is made to be discharged to the outside of the drum 200 through the front opening.

In addition, the circulation passage 800 through the evaporator 440 and the condenser 420 of the heat pump system to be described later is connected to the front opening and the rear opening of the drum 200 .

That is, the object to be dried in the drum 200 is dried with the high-temperature dry air provided from the heat pump system by the circulation passage 800, and the humid air containing moisture while drying the object is heated again. As it is supplied to the pump system, the circulating operation is repeated. This is as shown in the attached FIG. 2 .

Meanwhile, a dryness detection unit 210 (see attached FIG. 2 ) is further provided inside the drum 200 .

The dryness detection unit 210 is configured to check the dryness (dryness level) of the object to be dried, and may include two electrodes. At this time, the two electrodes are provided to be exposed toward the inside of the drum 200 while being spaced apart from each other. The dryness detection unit 210 may be installed, for example, in the door 120 or in the cabinet 100 on the door side.

The dryness detection unit (two electrodes) 210 converts an electrode value to an electrode value converted based on a current value that varies depending on the state of the drying object (eg, the wetness of the drying object) when the drying object is in contact with the drying object. Assess dryness. That is, considering that the drying object acts as a resistance with respect to the dryness sensing unit (two electrodes) 210, the resistance value varies according to the moisture content of the drying object, so the current flowing through the circuit also varies. The change in current is converted into a predetermined electrode value so that the degree of dryness can be judged by this electrode value.

In this case, the predetermined electrode value may be an arbitrary value converted into a numerical range that is easy to control the clothing treatment value.

Next, the drain pump assembly 300 will be described.

The drain pump assembly 300 is a portion provided to pump the condensed water stored in the condensed water recovery unit 151, and is configured to be accommodated and mounted in the condensed water recovery unit 151 as shown in FIG. 11 .

In addition, the drain pump assembly 300 includes a drain pump 310 and a pump cover 320 as shown in FIGS. 11 to 13 .

At this time, although not shown in detail, the drain pump 310 is configured to pump the condensed water stored in the condensed water recovery unit 151 by rotation of the impeller by driving the drain motor.

In addition, a discharge port 322 for guiding the discharge flow of the condensed water pumped by the operation of the drain pump 310 is formed in the pump cover 320 to protrude upward, and a pumping guide hose is provided at the discharge port 322 . (not shown) is connected and the condensed water pumped by the drain pump 310 is guided by the pumping guide hose, passes through the flow guide valve 640, and then is stored in the drain tube 160.

In addition, a water level sensor 326 is installed on the pump cover 320 . At this time, the water level sensor 326 is configured to sense the water level in the condensed water recovery unit 230 and provide it to the control unit 170 , and the drain pump 310 is configured to sense the water level in the condensed water recovery unit 230 , and the drain pump 310 is a condensed water recovery unit sensed by the water level sensor 326 . It is controlled to operate based on the water level in 230 .

Next, a heat pump system will be described with reference to FIG. 2 attached thereto.

The heat pump system is a device configured to receive the humid air discharged from the drum 200 and heat it to generate high-temperature dry air.

That is, the air supplied into the drum 200 by the heat pump system can always achieve a high temperature and dry state.

The heat pump system includes a compressor 410 , a condenser 420 , an expander 430 , and an evaporator 440 .

Here, the compressor 410 is a device that receives a high-temperature and low-pressure refrigerant for heat exchange and compresses it into a high-temperature and high-pressure refrigerant, and the condenser 420 receives the high-temperature and high-pressure refrigerant and condenses it into a low-temperature and high-pressure refrigerant. The expander 430 is a device that receives the condensed low-temperature and high-pressure refrigerant and expands it into low-temperature and low-pressure refrigerant, and the evaporator 440 is a device that receives the low-temperature and low-pressure refrigerant and exchanges heat with the air passing through it. am. At this time, the refrigerant that has passed through the evaporator 440 forms a high-temperature and low-pressure state, and the high-temperature and low-pressure refrigerant repeats the circulation provided to the compressor 410 .

In the laundry treatment apparatus of the present invention, the compressor 410 is located on either side of the upper surface of the base frame 150 (see attached FIG. 4 ), and the condenser 420 and the evaporator 440 are connected to the circulation passage 800 ) (see attached FIGS. 5 and 8) in the .

At this time, the evaporator 440 performs a function of removing moisture by exchanging the air with a low-temperature and low-pressure refrigerant while being disposed on the side where the humid air is introduced in the inner space of the circulation passage 800, and the condenser ( The 420 is disposed on the air outlet side of the evaporator 440 and performs a function of heating the dry air whose temperature is lowered while passing through the evaporator 440 .

Of course, considering that the compressor 410 is a device that generates a large amount of heat during its operation, it is configured to be disposed adjacent to the heat dissipation fan 411 for dissipating heat of the compressor 410 . That is, the heat dissipation is made possible by the heat dissipation fan 411 .

The compressor 410 and the expander 430 are provided at a location separate from the circulation passage 800 so as not to affect the circulated air (air flow and temperature).

Next, the circulation fan assembly 500 will be described with reference to FIG. 5 attached thereto.

The circulation fan assembly 500 is configured to forcibly circulate air.

That is, the air that has sequentially passed through the evaporator 440 and the condenser 420 in the circulation passage 800 by the driving of the circulation fan assembly 500 is supplied into the drum 200 through the induct 810, In addition, the air passing through the drum 200 is circulated to sequentially pass through the evaporator 440 and the condenser 420 in the circulation passage 800 through the outlet duct 820 .

The circulation fan assembly 500 is located on the air outlet side of the condenser 420 in the circulation passage 800 .

In particular, the circulation fan assembly 500 includes a circulation fan 520 installed to be accommodated in the fan housing 510 and a fan motor 530 for driving the circulation fan 520 . In this case, the inlet of the fan housing 510 is connected to the circulation passage 800 , and the exhaust port of the fan housing 510 is connected to the inlet duct 810 .

Next, the recovery passage 190 will be described.

The recovery passage 190 is a passage for guiding the condensed water overflowing from the drain tube 160 and flowing into the drain tube mounting unit 130 to be recovered to the condensed water recovery unit 151 .

Such a recovery passage 190 is configured to allow free connection and free installation while being made of a hose made of a material that can be bent and deformed.

At this time, one end of the recovery passage 190 is connected to the connection pipe 132a of the drain tank mounting part 130 , and the other end of the recovery passage 190 is connected to a passage opening/closing valve 900 to be described later.

Next, the flow path on/off valve 900 will be described.

The flow path opening/closing valve 900 is configured to selectively open and close a flow path for a connection portion with the recovery flow path 190 .

In particular, the flow path opening/closing valve 900 is provided at a connection portion with the recovery flow path 190 to open the flow path when condensed water flows in, and to close the flow path when the inflow of condensed water is stopped.

In the embodiment of the present invention, it is suggested that the flow path opening/closing valve 900 is provided at the connection portion between the recovery flow path 190 and the condensed water recovery unit 151 .

The flow path opening/closing valve 900 is configured to include a case body 910, an inlet pipe 920, and a float valve 930 (see attached FIG. 14) as shown in the accompanying FIGS. 12 to 14 . .

Here, the case body 910 is a portion formed with an empty tubular body.

The bottom of the case body 910 is closed with a bottom wall 912 having a communication hole 911 formed therein. At this time, a water outlet pipe 913 protruding downward from the communication portion with the communication hole 911 is formed on the bottom surface of the bottom wall 912 . This is as shown in the accompanying FIGS. 15 and 16 .

The case body 910 may be configured such that the water outlet pipe 913 is exposed to a space within the condensate recovery unit 151 while being fixed by penetrating any one part of the pump cover 320 up and down. Of course, the case body 910 and the pump cover 320 may be formed as a single body by injection molding.

Meanwhile, a discharge hole 918 for discharging residual water in the case body 910 may be formed through the bottom wall 912 as shown in FIG. 17 .

In addition, the acquisition pipe 920 is a pipe for connection with the recovery flow path 190 , and is press-fitted into the end of the recovery flow path 190 .

The inlet pipe 920 is formed to communicate with the inner space of the case body 910 , and at this time, the case body 910 is formed as a tubular body with an open upper surface and the inlet pipe 920 is the case body 910 . ) is made to be integrally formed with the cover case 940 covering the open upper surface of the embodiment.

That is, after the condensed water is supplied to the upper part of the case body 910 through the inlet pipe 920 , the water is discharged to the water outlet pipe 913 through the communication hole 911 formed in the bottom wall 912 in the case body 910 . it was made to be

Also, the float valve 930 is provided in the case body 910 and opens and closes the communication hole 911 .

In particular, the float valve 930 is formed as a buoyant body, whereby when condensed water does not flow in the case by its own weight and the pressure (negative pressure) in the condensed water recovery unit 151 that is provided in reverse through the communication hole 911 The communication hole 911 is closed while in close contact with the upper surface of the bottom wall 912 in the sieve 910 , and when the condensed water is introduced, the communication hole 911 is opened while rising from the condensed water.

The float valve 930 may be formed of various types of buoyancy bodies, and in the embodiment of the present invention, it is suggested that the float valve 930 is formed of a block body made of Nitrile-Butadiene Rubber (NBR) or sponge.

That is, in the case of a buoyant body made of a conventional PP material, when the recovery passage 190 is full of water, the phenomenon of closing the communication hole 911 without floating due to the effect of the head pressure applied to the float valve 930 Considering that it may be generated, by forming the float valve 930 with the above-described foamed rubber or sponge material, the force rising by the buoyancy force can be greater than the sum of the head pressure and its own weight.

In particular, the diameter of the float valve 930 is formed to be larger than the diameter of the communication hole 911 . The difference in diameter between the float valve 930 and the communication hole 911 allows the buoyancy of the float valve 930 to be further increased.

At the same time, on the peripheral portion of the communication hole 911 among the upper surface of the bottom wall 912 in the case body 910, a mounting protrusion 914 on which the bottom surface of the float valve 930 can be placed may be formed. . That is, the condensed water introduced into the case body 910 through the additional formation of the mounting protrusion 914 smoothly flows between the bottom surface of the float valve 930 and the top surface of the bottom wall 912, and the float valve 930 is operated. This was done to make it easier to float.

In particular, the mounting projections 914 may be formed to be spaced apart from each other along the circumferential direction of the bottom wall 912 .

In addition, a close contact protrusion 919 for maintaining airtightness of the communication hole 911 may be further formed around a portion of the upper surface of the bottom wall 912 in the case body 910 where the communication hole 911 is formed. .

In addition, it is suggested that a plurality of guide ribs 915 protruding in the radial direction are formed on the inner circumferential surface of the case body 910 , and the float valve 930 is configured to be raised and lowered between the respective guide ribs 915 . .

That is, in the process where the condensed water is introduced into the upper part of the case body 910, the condensed water can flow down to the spaced portion between the inner circumferential surface of the case body 910 and the outer circumferential surface of the float valve 930 formed by the respective guide ribs 915. This was done to reduce the effect of hydrostatic pressure.

At this time, the guide rib 915 is so that its inner end protrudes only to a distance that does not reach the communication hole 911 . Preferably, the cross-sectional area of the float valve 930 is maximized by protruding from the inner circumferential surface of the case body 910 to a distance of 1/2 or less compared to the separation distance from the communication hole 911 so that sufficient buoyancy can be provided. .

Meanwhile, the non-explained reference numeral 600 of FIG. 2 denotes a cleaning unit for cleaning the surface of the evaporator 440 .

Hereinafter, a process for the drying operation of the clothes processing apparatus according to the embodiment of the present invention described above will be described in more detail.

Prior to the description, the control of each operation element or sensor and valves for each operation is performed based on information that the control unit 170 is programmed or set in advance, and in the following description, even if there is no separate mention, each control is performed by the control unit ( 170) as an example.

First, the drying operation is an operation for drying the object to be dried.

This drying operation is performed by the user's operation. That is, when the drying operation by the user's operation is selected, the control unit 170 controls the operations of the heat pump system and the circulation fan assembly 500 .

That is, by the flow of the refrigerant circulating in the heat pump system by the operation of the compressor 410 and the circulation flow of the air sequentially passing through the evaporator 440 and the condenser 420 by the operation of the circulation fan assembly 500 , the air The moisture contained in it is removed and supplied into the drum 200 in a heated state to dry the object to be dried.

At this time, the humid air discharged from the drum 200 is introduced into the circulation passage 800 through the outlet duct 820 and then passes through the evaporator 440 located in the circulation passage 800 to remove moisture. In addition, the temperature is increased while passing through the condenser 420 , and the circulation supplied into the drum 200 is repeated while flowing through the fan housing 510 provided with the circulation fan assembly 500 and flowing into the inlet duct 810 . .

In addition, while the humid air passes through the evaporator 440 during the air circulation process, the moisture contained in the air is condensed on the surface of the evaporator 440 (the surface of each heat exchange fin) and rides on this surface. After falling to the water cover 180 as it flows, it gathers in the seating recess 154, and then flows to the rear side within the seating recess 154 by the inclination of the bottom surface in the seating recess 154, and then passes through the hole It is stored in the condensed water recovery unit 151 through (802).

At this time, the water level sensor 326 provided to the condensed water recovery unit 151 detects the level of the condensed water stored in the condensed water recovery unit 151 . Then, based on the sensed water level, the control unit 170 determines whether to drain the remaining water in the condensed water recovery unit 151 to the drain tube 160 . If the drainage into the drain tube 160 is determined, it is pumped into the drain tube 160 and stored by the operation of the drain pump 310 and the flow guide of the flow guide valve 640 .

In particular, when the operation of the drain pump 310 is performed, the internal pressure of the condensed water recovery unit 151 gradually increases to form a negative pressure state, and the flow path opening/closing valve 900 is closed by the pressure in the condensed water recovery unit 151 . The float valve 930 closes the communication hole 911 while being in close contact with the communication hole 911 formed in the bottom wall 912 of the case body 910 . Accordingly, a smooth pumping operation of the drain pump 310 is possible. This is the same as the state shown in the accompanying Figures 15 to 17.

On the other hand, when the amount of condensed water pumped to and stored in the drain tube 160 exceeds the allowable storage amount of the drain tube 160 , the condensed water overflows from the inside of the drain tube 160 , and thus the drain tube 160 . The condensed water overflowing from the drain pipe flows down into the storage unit 130 and is drained through the drain pipe 131 formed in the drain storage unit 130 .

And, the condensed water drained to the drain pipe 131 flows into the case body 910 through the water inlet pipe 920 of the flow path opening/closing valve 900 along the recovery flow path 190 connected to the corresponding drain pipe 131 .

In addition, the condensed water introduced into the case body 910 is filled in the case body 910 . At this time, the float valve 930 provided in the case body 910 opens the communication hole 911 while floating by the buoyancy caused by the condensed water filled in the case body 910 . At this time, the condensed water flows down to the bottom in the case body 910 through the spaced portion between the inner circumferential surface of the case body 910 and the outer circumferential surface of the float valve 930 formed by each guide rib 915, thereby the float valve 930. A smooth upward movement of the float valve 930 is possible while the head pressure applied to the water is minimized.

In addition, when the communication hole 911 is opened as described above, the condensed water filled in the case body 910 is recovered into the condensed water recovery unit 151 through the communication hole 911 .

The recovery flow of the condensed water is as shown in FIGS. 19 and 20 attached thereto.

As a result, even if the user fails to empty the drain tube 160 by the above-described series of processes and the condensed water in the drain tube 160 overflows into the drain tube mounting part 130, the overflowed condensate flows through the recovery passage 190. It can be smoothly recovered to the condensed water recovery unit 151 .

On the other hand, the flow path opening/closing valve 900 constituting the laundry treatment apparatus of the present invention is not limited to being implemented only with the structure of the above-described embodiment.

The accompanying FIGS. 21 to 26 show a flow path opening/closing valve 900 according to another embodiment of the present invention.

As can be seen through this, the flow path opening/closing valve 900 of the present invention is not limited to that the water inlet pipe 920 receiving the condensed water from the recovery flow path 190 is formed on the upper surface of the case body 910 .

That is, as shown in another embodiment of the present invention, the inlet pipe 920 may be formed on the circumferential surface of the case body 910 .

In particular, the water inlet pipe 920 is located at the lower end of the circumferential surface of the case body 910 and condensed water toward the bottom surface of the float valve 930 and the upper surface of the bottom wall 912 constituting the case body 910 . It is more preferable to be able to supply.

That is, while condensed water is supplied between the bottom surface of the float valve 930 and the top surface of the bottom wall 912, not only the self-buoyancy of the float valve 930 but also the floating lifting force by the supply of the condensed water is provided (attached Fig. 26) reference) so that the float valve 930 can be raised more smoothly.

In addition, it is more preferable that the float valve 930 is formed so that the contact portion (bottom surface of the float valve) formed in the bottom wall 912 has a spherical surface. That is, by forming the lower end of the float valve 930 in a spherical structure, the lifting by the condensed water supplied to the periphery can be made more smoothly.

Such a float valve 930 may be formed of a spherical ball as shown in FIG. 27, and the contact end 931 and the contact end 931 formed in a spherical shape as shown in FIGS. 24 and 26. It may be formed in a structure consisting of a cylindrical or cylindrical body end 932 while extending upward.

In addition, when the bottom surface of the float valve 930 is formed as a spherical surface, the circumference of the communication hole 911 among the upper surfaces of the bottom wall 912 is inclined downward or rounded toward the communication hole 911. A seating groove 916 may be formed so that the bottom surface of the float valve 930 can be more precisely in close contact with the communication hole 911 .

Of course, even if the bottom surface of the float valve 930 is in excessive contact with the communication hole 911 due to the pressure in the condensed water recovery unit 151 and condensed water flows in through the recovery passage 190, the float valve 930 is A plurality of communication grooves 917 for partially communicating the inner space of the case body 910 and the inner space of the condensed water recovery unit 151 are further formed in the seating groove 916 to prevent the floating phenomenon (see attached FIG. 25 ). see) can be

The communication groove 917 may include a slit formed in the height direction (up and down direction) of the seating groove 916 . Accordingly, even when the drain pump assembly 300 is operated, the effect on the pressure in the condensate recovery unit 151 is insignificant, so that smooth condensate pumping is possible.

In addition, the flow path opening/closing valve 900 according to another embodiment of the present invention having the above-described structure is configured separately from the recovery flow path 190, the condensed water recovery unit 151 and the drain tank mounting unit 130, and the recovery flow path ( 190) and the condensed water recovery unit 151 may be configured to be detachably connected from the connection portion.

That is, it is more preferable to easily perform maintenance such as selective replacement by forming the flow path on/off valve 900 as a product independent from other components as shown in FIG. 28 or FIG. 32 .

In this case, a connection pipe 321 for connection with the water outlet pipe 913 constituting the flow path opening/closing valve 900 may be further formed in the pump cover 320 . At this time, the connecting pipe 321 is formed as an empty pipe inside and communicates with the space in the condensed water recovery unit 151 . In this regard, it is as shown in the accompanying Figures 29 to 31.

In addition, the flow path opening/closing valve 900 constituting the laundry treatment apparatus of the present invention may be provided in the drain container mounting unit 130 .

That is, it is possible to provide the float valve 930 of the flow path on/off valve 900 in the drain pipe 131 formed in the drain tank mounting part 130 as shown in FIGS. 33 to 36 .

At this time, the drain pipe 131 is configured to have the same shape as the case body 910 of the above-described embodiment (a shape having a bottom wall in which a communication hole is formed while the top surface is opened and the inside is formed as a hollow tube), and a float valve ( 910) is positioned to close the communication hole 132 when condensed water does not flow into the drain pipe 131, and when condensed water flows into the drain pipe 131, it floats by the condensed water and the communication hole 132 is configured to be positioned to be open.

In particular, it is preferable that a plurality of guide ribs 133 protruding in the radial direction are formed on the inner circumferential surface of the drain pipe 131 , and the float valve 930 is configured to be raised and lowered between the respective guide ribs 133 . . At this time, a bent end 133a is formed at the upper end of each guide rib 133 to prevent the float valve 930 from being accidentally separated and lost.

The bent end 133a may be formed by seating the float valve 930 between each of the guide ribs 133 and then heating the upper end of one or two or more of the plurality of guide ribs 133 and then bending it. . Of course, in order to form the bent end 133a, a portion of the upper end of the guide rib 133 may be formed to protrude more than other portions, as shown in FIG. 31 .

In addition, a mounting protrusion 914 and a close contact protrusion 919 may be further formed on the bottom surface of the drain pipe 131 as shown in FIG. 36 .

As such, in the laundry treatment apparatus of the present invention, even if the user fails to empty the drain tube 160 and the condensed water in the drain tube 160 overflows into the drain tube mounting unit 130 , the overflowed condensate flows through the recovery passage 190 . It can be smoothly recovered to the condensed water recovery unit 151 .

In addition, in the laundry treatment apparatus of the present invention, the flow path opening/closing valve 900 provided at the connection portion with the recovery flow path 190 blocks the recovery flow path 190 when the condensed water does not flow, so that the space in the condensed water recovery unit 151 is reduced. Since the sealed state can be achieved, the pumping force by the drain pump assembly 300 can be improved.

In addition, in the laundry treatment apparatus of the present invention, since the float valve 930 constituting the flow path opening/closing valve 900 has a structure that opens the communication hole 911 while rising from the condensed water by its buoyancy, the remaining water is removed during non-operation. Since it is not necessary, problems such as contamination of the residual water are prevented at the source.

In addition, in the laundry treatment apparatus of the present invention, the float valve 930 can rise more smoothly by locating the water inlet pipe 920 on the circumferential surface of the case body 910 .

In addition, in the laundry treatment apparatus of the present invention, the float valve 930 is configured to close the communication hole 911 by the pressure in the condensed water recovery unit 151 , thereby maintaining airtightness in the condensed water recovery unit 151 and lowering the pumping power. is prevented

In addition, in the laundry treatment apparatus of the present invention, the flow path opening/closing valve 900 can be easily connected or disconnected without interference from surrounding structures, thereby facilitating maintenance.

In addition, in the laundry treatment apparatus of the present invention, since the flow path opening/closing valve 900 is configured as a separate structure separate from the condensate recovery unit 151 or the drain pump assembly 300 , replacement work is easy and maintenance is facilitated.

100. Cabinet 101. Inlet
120. Door 130. Drain tank mounting part
131. Drain pipe 132. Through hole
133. Guide rib 140. Input part
150. Base frame 151. Condensate recovery part
152. Compressor depression 153. Motor depression
154. Seating recess 160. Drainage tank
170. Control unit 180. Water cover
190. Recovery passage 200. Drum
201. Roller 210. Dryness sensor
220. Motor for drum driving 300. Drain pump assembly
310. Drain pump 320. Pump cover
321. Connector 326. Level sensor
410. Compressor 411. Heat Dissipation Fan
420. Condenser 430. Expander
440. Evaporator 500. Circulation fan assembly
510. Fan housing 520. Circulating fan
530. Fan motor 600. Washing part
640. Flow guide valve 800. Circulation flow path
801. Wall 802. Pass-through
803. Installation hole 810. Inlet duct
820. Outlet duct 830. Base cover
900. Flow opening/closing valve 910. Case body
911. Pipe hole 912. Low buttress
913. Outlet pipe 914. Resting projection
915. Guide rib 916. Seating groove
917. Communication groove 920. Intake pipe
930. Float valve 931. Closed end
932. Body end 940. Cover case

Claims (20)

a condensate recovery unit provided in the cabinet and providing a space in which condensed water is collected and stored;
a drain pump assembly installed in the condensed water recovery unit to pump the condensed water stored in the condensed water recovery unit and store it in a drain container;
It is provided in the cabinet, the drain tank mounting portion to which the drain tank is installed;
a recovery passage for guiding the condensed water overflowing from the drain tube into the drain container mounting portion to be recovered to the condensed water recovery portion;
a flow path opening/closing valve configured to block the inflow of air from the recovery flow path while being operated by the pressure in the condensed water recovery unit during the condensate pumping operation of the drain pump assembly and to open the recovery flow path when condensed water flows into the recovery flow path; Clothes processing apparatus, characterized in that it comprises a. The method of claim 1,
and the flow path opening/closing valve is provided at a connection portion between the recovery flow path and the condensed water recovery unit. 3. The method of claim 2,
The flow path on/off valve is
A case body having a bottom wall formed with a hollow tube inside and forming a bottom and having a communication hole therein;
A water inlet pipe connected to the recovery passage while being provided to communicate with the inner space of the case body;
It is provided in the case body, and is positioned to close in close contact with the communication hole when the condensed water does not flow, and includes a float valve that is positioned so that the communication hole is opened while floating by the condensed water when the condensed water flows into the inlet pipe. Clothes processing apparatus, characterized in that it is configured. 4. The method of claim 3,
and a water outlet pipe formed on a bottom surface of the bottom wall to protrude downward from a communication portion with the communication hole and through which the condensed water passing through the communication hole is discharged. 4. The method of claim 3,
A seating groove formed to be inclined downward or rounded toward the communication hole is formed around the communication hole in the upper surface of the bottom wall,
and the float valve is configured to open and close the communication hole while seated in the seating groove. 6. The method of claim 5,
and a plurality of communication grooves for communicating the inner space of the case body and the inner space of the condensed water recovery unit are further formed in the seating groove. 4. The method of claim 3,
and the float valve is formed such that a portion in close contact with the communication hole forms a spherical surface. 8. The method of claim 7,
The float valve is
a close contact end formed in a spherical shape while forming a close contact area with the communication hole;
and a cylindrical or cylindrical body end while extending to an upper portion of the close contact end. 4. The method of claim 3,
A plurality of guide ribs protruding in the radial direction are formed on the inner circumferential surface of the case body,
and the float valve is configured to move up and down between the respective guide ribs. 10. The method of claim 9,
and an upper end of each of the guide ribs is bent inwardly to limit a rising distance of the float valve. 4. The method of claim 3,
and the water inlet pipe is provided on the upper surface of the case body. 4. The method of claim 3,
The inlet pipe is provided on a circumferential surface of the case body. 13. The method of claim 12,
and the water inlet pipe is provided on a circumferential surface of a lower end of the circumferential surface of the case body. 14. The method of claim 13,
The inlet pipe is formed to face between the communication hole formed in the bottom wall and the float valve. 4. The method of claim 3,
The upper surface of the case body is formed to be open,
An opening/closing cover is provided on the open upper surface of the case body. 4. The method of claim 3,
and a mounting protrusion on which a bottom surface of the float valve can be mounted is formed on a portion of the upper surface of the bottom wall on a peripheral side of the communication hole. The method of claim 1,
The flow path opening/closing valve is configured separately from the recovery flow path, the condensed water recovery part, and the drain container mounting part, and is detachably connected to the connection part between the recovery flow path and the condensed water recovery part or the connection part between the recovery flow path and the drain container mounting part. Garment processing device characterized in that. The method of claim 1,
A drain pipe for draining the condensed water overflowing from the drain tank is formed in the drain tank mounting part while the recovery passage is connected,
and the flow path opening/closing valve is provided in the drain pipe. 19. The method of claim 18,
The drain pipe is configured to have a bottom wall in which a communication hole is formed while the inside is formed as a hollow pipe while the upper surface is opened,
The flow path opening/closing valve is positioned to close the communication hole when condensed water does not flow into the drain pipe, and a float valve positioned to open the communication hole while floating by the condensed water when condensed water flows into the drain pipe. Garment processing device characterized in that. 20. The method of claim 19,
A plurality of guide ribs protruding in the radial direction are formed on the inner circumferential surface of the drain pipe,
and the float valve is configured to move up and down between the respective guide ribs.

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