JP2023031573A - clothes dryer - Google Patents

Abstract

To provide a clothes dryer including a heat pump unit which has improved workability at the time of inspection and maintenance, and airtightness of a heat exchange chamber.SOLUTION: A clothes dryer includes: a housing; a drying chamber provided in the housing, and having an outlet and an inlet of the air; a circulation air passage for connecting the outlet and the inlet of the drying chamber; and a heat pump unit provided in the middle of the circulation air passage. The heat pump unit includes: an evaporator for dehumidifying the air in the circulation air passage; a condenser provided on the downstream side of the evaporator in the circulation air passage, and for heating the air in the circulation air passage; a compressor for constituting a refrigeration cycle for circulating a refrigerator inside together with the evaporator and the condenser; a heat exchange part for constituting part of the air circulation air passage, and for storing the evaporator and the condenser; a case having a compressor storage part for storing the compressor inside; a heat exchange part cover for covering a heat exchange part; and a compressor cover for covering the compressor storage part. The heat exchange part cover and the compressor cover can be attached to/detached from the case individually.SELECTED DRAWING: Figure 7

Description

Embodiments of the present invention relate to clothes dryers.

2. Description of the Related Art Conventionally, a clothes dryer provided with a heat pump unit as a heat source for drying clothes has been provided. The heat pump unit is arranged, for example, on the back or bottom of the housing, but it needs to be arranged in a limited space, and the arrangement structure needs to be devised.

For example, when the heat pump unit is placed at the bottom of the housing, the compressor can be installed in a way that avoids an increase in airflow resistance without enlarging the case of the heat pump unit or changing the installation position of the compressor. A clothes dryer has been proposed that includes a compressor cover that covers the evaporator and a heat exchange section cover that covers the evaporator, and in which an inlet for air from a circulation air passage to a heat pump unit is provided on the heat exchange section cover side.

However, the method of attaching the compressor cover and the heat exchange section cover to the case has not been sufficiently studied, and there is room for improvement in terms of workability during inspections and maintenance, and the airtightness of the heat exchange chamber. there were.

JP 2020-18915 A

Therefore, a clothes dryer equipped with a heat pump unit that improves workability during inspection and maintenance and improves the airtightness of the heat exchange chamber is provided.

A clothes dryer according to an embodiment includes a housing, a drying chamber provided in the housing and having an air outlet and an air inlet, a circulation air passage connecting the outlet and the air inlet of the drying chamber, and the circulation air passage. and a heat pump unit provided in the middle of. The heat pump unit includes an evaporator that dehumidifies the air in the air circulation path, a condenser that is provided downstream of the evaporator in the air circulation path and heats the air in the air circulation path, and the evaporation a compressor that constitutes a refrigeration cycle that circulates the refrigerant inside together with the condenser and the condenser; a heat exchange unit that constitutes a part of the circulation air passage and accommodates the evaporator and the condenser; a heat exchange section cover covering the heat exchange section; and a compressor cover covering the compressor housing section. The heat exchange section cover and the compressor cover are individually configured to be detachable from the case.

A side view showing a schematic configuration of a washing and drying machine according to one embodiment. Rear view showing a schematic configuration of a washing and drying machine according to one embodiment Schematic diagram showing a refrigeration cycle of a washer/dryer according to one embodiment 1 is a perspective view showing a heat pump unit of a washing and drying machine according to one embodiment; FIG. FIG. 1 is a plan view showing a heat pump unit of a washing and drying machine according to one embodiment; A plan view showing a case of a washing and drying machine according to one embodiment. 1 is an exploded perspective view showing a case and auxiliary members of a washing and drying machine according to one embodiment; FIG. 1 is an exploded perspective view showing a case equipped with an auxiliary member, a heat exchange section cover, and a compressor cover in a washing and drying machine according to one embodiment; FIG. FIG. 2 is a perspective view showing the heat pump unit of the washing and drying machine according to one embodiment with the heat exchange section cover removed; FIG. 2 is a plan view showing the heat pump unit of the washing and drying machine according to one embodiment with the heat exchange section cover removed; 1 is a perspective view showing a heat pump unit of a washing and drying machine according to one embodiment with a compressor cover removed; FIG. FIG. 5 is a cross-sectional view of the heat pump unit of the washing/drying machine according to one embodiment, taken along line x12-x12 of FIG. FIG. 5 is a cross-sectional view of the heat pump unit of the washing/drying machine according to one embodiment, taken along line x13-x13 of FIG. FIG. 13 is an enlarged view showing the inside of frame x14 in FIG. 13 for the heat pump unit of the washing and drying machine according to one embodiment.

Hereinafter, a washing/drying machine according to one embodiment will be described with reference to the drawings. First, referring to FIG. 1, a schematic configuration of the washing/drying machine 10 will be described. The washer/dryer 10 includes a housing 11, a water tub 12, a rotating tub 13, a rotating tub motor 14, and a door 15, as shown in FIG. The washing/drying machine 10 is also a clothes drying machine having a heat pump drying function, and is, for example, a so-called drum type washing/drying machine in which the rotation axis of the rotary tub 13 is horizontal or inclined with respect to the ground. In this embodiment, the door 15 side of the housing 11 is the front side of the washer/dryer 10, that is, the user side. Further, the direction of gravity, that is, the vertical direction is defined as the up-down direction of the washing and drying machine 10, and the horizontal direction perpendicular to the front-rear direction and the up-down direction is defined as the left-right direction.

The housing 11 constitutes the outer shell of the washer/dryer 10, and is formed of, for example, a steel plate or the like into a substantially rectangular box shape. The housing 11 has a front portion 111, left and right side portions 112, a rear portion 113, a top portion 114, and a bottom portion 115, as shown in FIGS. The front surface portion 111 constitutes the front side surface of the housing 11 , and an opening provided substantially in the center is opened and closed by the door 15 . The left and right side portions 112 constitute left and right surfaces of the housing 11 . The rear portion 113 constitutes the rear surface of the housing 11 . The upper surface portion 114 constitutes the upper surface of the housing 11 . The bottom surface portion 115 constitutes the lower surface of the housing 11 .

The water tank 12 is elastically supported and accommodated inside the housing 11 . The rotating tank 13 is rotatably accommodated inside the water tank 12 . Both the water tank 12 and the rotating tank 13 are formed in a cylindrical shape. The water tank 12 has an opening 121 formed at one end of a cylindrical shape and a water tank end plate 122 provided at the other end. The opening 121 is located above the tank end plate 122 in the inclined tank 12 . A drain port 123 is provided at the bottom of the water tank 12 to allow communication between the inside and the outside of the water tank 12 .

Similarly, the rotating tub 13 has an opening 131 formed at one end of a cylindrical shape and a rotating tub end plate 132 at the other end. The opening 131 is located above the rotating tub end plate 132 in the inclined rotating tub 13 . The opening 131 of the rotating tank 13 is surrounded by the opening 121 of the water tank 12 . The water tank 12 and the rotating tub 13 function as a washing room and a drying room for storing laundry.

The rotary tub motor 14 is provided on the tub end plate 122 outside the tub 12 . The rotating tub motor 14 is, for example, an outer rotor type DC brushless motor. A shaft portion 141 of the rotary tub motor 14 protrudes inside the tub 12 through the tub end plate 122 and is fixed to the center of the rotary tub end plate 132 . Thereby, the rotary tub motor 14 rotates the rotary tub 13 relative to the water tub 12 . In this case, the shaft portion 141, the rotation axis of the rotary tub 13, and the center axis of the tub 12 are aligned with each other.

The door 15 is provided on the outer surface side of the housing 11 via a hinge (not shown). The door 15 rotates around a hinge to open and close an opening (not shown) formed in the front surface portion 111 of the housing 11 . Laundry such as clothes is put in and taken out of the rotating tub 13 through the openings 121 and 131 with the door 15 opened.

Water tank 12 has an air outlet 16 and an air inlet 17 . The air outlet 16 is provided, for example, in the peripheral wall forming the cylindrical portion of the water tank 12 and in the upper front portion. The air inlet 17 is located on the end plate 122 of the water tank, and is provided slightly above the center of the end plate 122 of the water tank. The air outlet 16 and the air inlet 17 communicate the inside and the outside of the water tank 12 . The air outlet 16 is an outlet for air from the water tank 12 and the rotating tank 13, which are drying chambers. The air inlet 17 is an air inlet to the water tank 12 and the rotating tank 13, which are drying chambers.

The water tank 12 has a drainage part 18 on the rear end side of the bottom positioned downward in the direction of gravity. The drain 18 is positioned below the air outlet 16 and the air inlet 17 . The drain section 18 is configured with a drain valve 181 and a drain hose 182 . The drain valve 181 is composed of, for example, an electromagnetic liquid on-off valve, and is provided between the drain port 123 and the drain hose 182 . The drain hose 182 connects the drain port 123 and the outside of the machine, and functions as a drain path for draining the water in the water tank 12 to the outside. In this case, the drain valve 181 opens and closes between the drain port 123 and the drain hose 182, that is, the drain path. That is, by opening the drain valve 181 , the water in the water tank 12 is discharged from the drain port 123 to the outside of the washer/dryer 10 via the drain valve 181 and the drain hose 182 .

The rotary tub 13 further has a plurality of holes 19 and a plurality of communication ports 20 . The hole 19 and the communication port 20 communicate the inside and the outside of the rotary tub 13 . The holes 19 are formed over the entire peripheral wall that constitutes the cylindrical portion of the rotary tub 13 . The communication port 20 is formed throughout the rotary tub end plate 132 . The hole 19 and the communication port 20 mainly function as water passage holes through which water flows in and out during the washing operation including the washing process, the draining process, the rinsing process, and the dewatering process, and function as ventilation holes through which air flows in and out during the drying operation. . Note that FIG. 1 shows only some of the plurality of holes 19 and communication ports 20 for the sake of simplicity.

The washer/dryer 10 includes a water supply mechanism (not shown in detail). The water supply mechanism includes a water supply hose that forms a water supply path connecting an external water source and the water tank 12, and a water supply valve that opens and closes the water supply path.

The washer/dryer 10 includes a circulation air passage 30 and a heat pump unit 40 as shown in FIGS. A circulation air passage 30 is provided outside the water tank 12 and connects the air outlet 16 and the air inlet 17 . Specifically, the air circulation path 30 includes an exhaust duct 31 , a filter device 32 , a connection duct 33 , a heat exchange section 34 and an air supply duct 35 .

The exhaust duct 31 connects the air outlet 16 of the water tank 12 and the filter device 32, as also shown in FIG. The exhaust duct 31 is composed of, for example, a bellows-shaped hose. The filter device 32 is located in the inner upper part of the housing 11 and is provided above the water tank 12 and the rotating tank 13 . A filter 321 is provided in the filter device 32 . The filter device 32 removes foreign matter such as lint contained in the air exhausted from the air outlet 16 by allowing the air exhausted from the air outlet 16 to pass through the filter 321 . The filter device 32 is connected to the upstream side of the heat exchange section 34 via a connection duct 33 . The heat exchange section 34 is located in the inner lower part of the housing 11 and is provided below the water tank 12 and the rotating tank 13 .

The heat pump unit 40 has a function of dehumidifying and heating the air passing through the inside of the heat exchange section 34 in the circulation air passage 30 to generate dry warm air. An evaporator 41 and a condenser 42 that constitute a part of the heat pump unit 40 are provided in the heat exchange section 34 . The evaporator 41 is provided upstream of the condenser 42 with respect to the flow of air in the heat exchange section 34 during the drying operation. The air passing through the heat exchange section 34 is cooled by the evaporator 41 and is thereby dehumidified. The air dehumidified by the evaporator 41 is then heated by the condenser 42 to become warm air.

The downstream side of the heat exchange section 34 in the circulation air passage 30 is connected to the air inlet 17 of the water tank 12 via the air supply duct 35 . A blower 36 is provided at the connection between the heat exchange section 34 and the air supply duct 35 . The blower 36 is configured to have a fan motor 361 and a fan 362, as shown in FIG.

The air blower 36 draws in the air in the heat exchange section 34 and discharges it to the air supply duct 35 side. As a result, an air flow is generated that circulates through the water tank 12 and the circulation air passage 30 as indicated by arrows A in FIGS. In this case, regarding the flow of air in the circulation air passage 30, the air outlet 16 is on the most upstream side, and the air inlet 17 is on the most downstream side.

In this configuration, when the compressor 43 and the blower 36 are driven, the hot air dehumidified and heated in the heat exchange section 34 is blown from the air inlet 17 through the air supply duct 35 by the blowing action of the blower 36. It is supplied into the water tank 12 . After that, the hot air enters into the rotating tub 13 mainly through the communication port 20, raises the temperature of the laundry in the rotating tub 13, deprives the laundry of moisture, and then flows into the rotating tub 13 mainly through the holes 19. go outside. Then, the humid air is sucked into the circulation air passage 30 from the air outlet 16. - 特許庁The air sucked into the circulation air passage 30 first passes through the exhaust duct 31 and the filter device 32 . After that, the air flows through the connection duct 33 to the heat exchange section 34 . In this way, the air that has entered the circulation air passage 30 from the water tank 12 is dehumidified and heated in the circulation air passage 30 and then supplied again into the water tank 12 .

The heat pump unit 40 includes an evaporator 41 and a condenser 42, as well as a compressor 43, a pressure reducing device 44, and a pipe 45, as shown in FIG. Compressor 43 , pressure reducing device 44 , and pipe 45 are provided outside heat exchange section 34 . The refrigerant circulates inside the heat pump unit 40 as indicated by arrow B in FIG. The heat pump unit 40 is configured by annularly connecting a condenser 42 , a pressure reducing device 44 , and an evaporator 41 in order in the direction in which the refrigerant flows with respect to the compressor 43 . The evaporator 41 and the condenser 42 are composed of, for example, a tube having a large number of fins provided at minute intervals. make an exchange. The evaporator 41 and condenser 42 function as heat exchangers.

The compressor 43 supplies the refrigerant to the condenser 42 by pumping. The compressor 43 is connected to a control device (not shown) and driven and stopped under the control of the control device. The decompression device 44 decompresses the high-pressure liquid refrigerant discharged from the condenser 42 into a low-pressure gas-liquid mixed state. In this case, the decompression device 44 is composed of, for example, a capillary tube or the like, but may be an electromagnetic opening/closing type expansion valve or the like that can be opened and closed under the control of the control device. A pipe 45 connects the compressor 43, the condenser 42, the decompression device 44, and the evaporator 41, respectively, and passes the refrigerant inside.

At least a portion of the housing 11 can be detachably removed. For example, the left and right side portions 112 or the back portion 113 can be removed in whole or in part. In the present embodiment, a portion including at least the lower portion of the back portion 113 can be removed, although details are not shown. The heat pump unit 40 is arranged inside the housing 11 near the rear surface portion 113 of the lower portion. With the back portion 113 partially removed, the heat pump unit 40 is exposed to the outside of the housing 11, in this case, toward the rear.

The configuration of the heat pump unit 40 will be further described with reference to FIGS. 4 to 14 as well. The heat pump unit 40 has a case 50, a heat exchange section cover 60, a compressor cover 70, and an auxiliary member 80, as shown in FIGS. 4 to 8 and the like. The case 50 is formed in a container shape with an open top, and accommodates the evaporator 41 , the condenser 42 , the compressor 43 , and the pipe 45 inside. The heat exchange section cover 60 has a function of partially closing the upper opening of the case 50 and covering the evaporator 41 and the condenser 42 while attached to the case 50 so that they are not exposed to the outside. The compressor cover 70 has a function of partially closing the upper opening of the case 50 and covering the compressor 43 so that it is not exposed to the outside while it is attached to the case 50 . The auxiliary member 80 is mounted inside the case 50 . The case 50, the heat exchange section cover 60, the compressor cover 70, and the auxiliary member 80 are made of synthetic resin such as plastic.

As shown in FIG. 6, the case 50 has a heat exchange section 34, a compressor housing section 501, and a pipe housing section 502 inside. The compressor accommodating portion 501 is a space that accommodates the compressor 43 therein. The pipe accommodating portion 502 is a space that accommodates the decompression device 44 and the pipe 45 therein. Of the space within the case 50 , the heat exchange section 34 constitutes a part of the circulation air passage 30 , and the compressor accommodating section 501 and the pipe accommodating section 502 are provided in the space outside the circulation air passage 30 . In this embodiment, the compressor housing section 501 is provided on the right side of the heat exchange section 34 , and the compressor 43 is arranged on the right side of the evaporator 41 and the condenser 42 . Further, in the present embodiment, the pipe housing portion 502 is provided so as to protrude in front of the heat exchange portion 34 and the compressor housing portion 501, and the decompression device 44 and the pipe 45 are connected to the evaporator 41 and the condenser. 42 and in front of the compressor 43 .

The case 50 has a bottom portion 51 , a front wall portion 52 , a left wall portion 53 , a back wall portion 54 , an outer wall portion 55 and an inner wall portion 56 . The bottom portion 51 is formed in a substantially rectangular shape having a portion that protrudes forward in a plan view, and forms a container-shaped lower surface of the case 50 . The bottom portion 51 supports the evaporator 41, the condenser 42, and the compressor 43 from below. The front wall portion 52 , the left wall portion 53 , the rear wall portion 54 , the outer wall portion 55 , and the inner wall portion 56 each form a surface rising from the bottom portion 51 in a substantially vertical direction.

The front wall portion 52 , the left wall portion 53 , the rear wall portion 54 , and the outer wall portion 55 rise substantially vertically from the bottom portion 51 to form the outer peripheral surface of the case 50 . The outer wall portion 55 forms the outer peripheral surfaces of the compressor accommodating portion 501 and the pipe accommodating portion 502 of the case 50 . The inner wall portion 56 forms the outer peripheral surfaces of the compressor accommodating portion 501 and the pipe accommodating portion 502 in the portion not exposed to the inside of the case 50 , that is, to the outside of the case 55 . In other words, the inner wall portion 56 is located between the compressor housing portion 501 and the heat exchange portion 34, between the compressor housing portion 501 and the pipe housing portion 502, and between the heat exchange portion 34 and the pipe housing portion 502. is provided.

The front wall portion 52 forms the surface of the case 50 on the front side of the heat exchange portion 34 . The left wall portion 53 forms the left side surface of the case 50 , in this case, the left side surface of the heat exchange section 34 . A blower 36 is provided facing the outside of the left wall portion 53 . The back wall portion 54 forms the surface of the case 50 on the back side of the heat exchange portion 34 . The front wall portion 52 , the left wall portion 53 , and the rear wall portion 54 form part of the outer peripheral portion of the heat exchange portion 34 and surround the heat exchange portion 34 from the front, rear, and left sides.

The outer wall portion 55 includes a front portion 551 , a right side portion 552 , a left side portion 553 and a rear portion 554 . The front surface portion 551 forms a surface on the front side of the outer wall portion 55 . In this case, the front surface portion 551 is positioned forward of the front wall portion 52 and forms at least a portion of the front surface of the pipe accommodating portion 502 . The right side surface portion 552 forms the right surface of the outer wall portion 55 . The right side portion 552 forms the right side surface of the outer wall portion 55 and extends rearward from the right end of the front portion 551 to the right end of the back portion 554 to connect the front portion 551 and the back portion 554 . In this case, the right side surface portion 552 forms at least part of the right side surfaces of the compressor housing portion 501 and the pipe housing portion 502 in the up-down direction. In this embodiment, the right side surface portion 552 is bent in the middle of the pipe housing portion 502 . The left side surface portion 553 forms the left surface of the outer wall portion 55 and extends forward from the front wall portion 52 to connect the front wall portion 52 and the front surface portion 551 . In this case, the left side surface portion 553 forms at least a portion of the left side surface of the pipe accommodating portion 502 in the vertical direction.

The inner wall portion 56 has a front inner wall portion 561 , a right inner wall portion 562 and a rear inner wall portion 563 . The front inner wall portion 561 forms the front surface of the inner wall portion 56 . The front inner wall portion 561 extends from the rear end portion of the left side surface portion 553 toward the right, in this case, obliquely forward right to the vicinity of the surface on the upstream side of the evaporator 41 . It connects with the inner wall portion 563 . The front inner wall portion 561 forms the rear side surface of the pipe accommodating portion 502 , that is, the surface facing the heat exchange portion 34 . The front inner wall portion 561 has a communication portion 561 a that communicates the heat exchange portion 34 and the pipe housing portion 502 .

The right inner wall portion 562 forms the right surface of the inner wall portion 56 . The right inner wall portion 562 extends from the right end portion of the front inner wall portion 561 to the right, in this case, obliquely forward right, and connects the front inner wall portion 561 and the right side surface portion 552 . The right inner wall portion 562 forms a front surface of the compressor accommodating portion 501 , that is, a surface facing the pipe accommodating portion 502 .

The rear inner wall portion 563 forms the rear surface of the inner wall portion 56 . The rear inner wall portion 563 extends rearward from the right end portion of the front inner wall portion 561 and connects the front inner wall portion 561 and the rear portion 554 . The rear inner wall portion 563 forms a left surface of the compressor housing portion 501 , that is, a surface facing the heat exchange portion 34 .

The front wall portion 52 , the left wall portion 53 , and the rear wall portion 5 extend above the outer wall portion 55 and the inner wall portion 56 . The front wall portion 52 , the left wall portion 53 , and the rear wall portion 54 extend to or near the upper ends of the evaporator 41 and the condenser 42 . In this embodiment, the front wall portion 52 , the left wall portion 53 , and the rear wall portion 54 extend to near the upper ends of the evaporator 41 and the condenser 42 . Therefore, half or more of the vertical height dimension of the evaporator 41 and the condenser 42 is not exposed to the outside of the case 50 when the heat exchange section cover 60 is removed.

The heat exchange section cover 60 is generally rectangular in plan view as shown in FIG. 8 and the like, and covers the heat exchange section 34 from above. When attached to the case 50 , the heat exchange section cover 60 is in direct or indirect contact with the upper end portions of the front wall portion 52 , the left wall portion 53 , the rear wall portion 54 , and the auxiliary member 80 of the case 50 . ing. In this embodiment, the heat exchange section cover 60 is attached to the case 50 and is in direct contact with the upper end portions of the front wall portion 52, the left wall portion 53, the rear wall portion 54, and the auxiliary member 80 of the case 50. bordering on

The compressor cover 70 covers the compressor 43 from above to prevent the noise of the compressor 43 from leaking to the outside. Further, the compressor cover 70 covers the pipe 45 and electrical wiring (not shown) from above to prevent them from being exposed to the outside of the case 50 . That is, the compressor cover 70 is arranged so as to cover the compressor accommodating portion 501 and the pipe accommodating portion 502 of the case 50 from above. As shown in FIGS. 5, 8, etc., the compressor cover 70 is generally L-shaped in plan view, and is formed in a container shape that is open downward. Therefore, the compressor cover 70 not only covers the compressor accommodating portion 501 and the pipe accommodating portion 502 from above, but also at least partially covers them from the sides. That is, the outer wall portion 55 and the inner wall portion 56 surrounding the compressor housing portion 501 and the pipe housing portion 502 of the case 50 from the sides are the front wall portion 52, the left wall portion 53, and the rear wall portion surrounding the heat exchange portion . The height dimension in the vertical direction is set lower than that of the portion 54 . On the other hand, the position of the lower end of the compressor cover 70 is set lower than the position of the lower end of the heat exchange section cover 60, thereby exposing the compressor 43 and the pipes 45 to the outside of the case 50. to prevent

The heat exchange section 34 further has an air inlet 341 and an air outlet 342 . The inlet 341 connects the connection duct 33 and the inside of the heat exchange section 34 and guides the air inside the connection duct 33 to the inside of the heat exchange section 34 . In this embodiment, the inflow port 341 is formed in a cylindrical shape, for example, and is provided in the heat exchange section cover 60 . More specifically, the inflow port 341 is provided in the heat exchange section cover 60 at a position facing a portion of the heat exchange section 34 closer to the compressor accommodating section 501 , that is, on the far right side in this case. The outflow port 342 is provided on the side surface of the outer peripheral surface of the case 50 that faces the blower device 36 . In this case, the outflow port 342 is a circular opening formed in the left wall portion 53 . The outflow port 342 connects the heat exchange section 34 and the air supply duct 35 via the air blower 36 and guides the air in the heat exchange section 34 to the air supply duct 35 .

As shown in FIG. 9, the evaporator 41 and the condenser 42 are arranged parallel to each other such that the evaporator 41 is on the upstream side with respect to the air flow and the condenser 42 is on the downstream side with respect to the air flow. The inlet 341 faces the upstream surface of the evaporator 41 from the upstream side of the circulation air passage 30 . The outflow port 342 faces the downstream surface of the condenser 42 from the downstream side of the circulation air passage 30 . In this case, the evaporator 41 and the condenser 42 are arranged in the heat exchange section 34 so as to be inclined with respect to the front-rear direction of the washer/dryer 10 .

The auxiliary member 80 is provided between the heat exchange section 34 and the compressor housing section 501 as shown in FIGS. 7 and 9 and the like. In this case, the auxiliary member 80 has a partition portion 81 and a wind direction adjusting portion 82 . The partition part 81 forms a side surface of the heat exchange part 34 facing the compressor housing part 501 when the case 50 is mounted. As shown in FIG. 7, the partition part 81 is formed in the shape of a wall extending substantially vertically. The partition part 81 divides the inside of the case 50 into the heat exchange part 34 side, that is, the inside of the circulation air passage 30 and the outside of the circulation air passage 30 .

The wind direction adjusting section 82 directs the flow of air that has flowed into the compressor housing section 501 from the inlet 341 toward the evaporator 41 . The wind direction adjusting part 82 forms a slope that descends toward the upstream side surface of the evaporator 41 . As a result, the wind direction adjusting unit 82 adjusts the direction in which the air entering the heat exchange unit 34 from the inlet 341 flows toward the evaporator 41 . In this case, the air flows downward from the connection duct 33 through the inlet 341 into the heat exchange section 34 . Then, the air whose direction has been changed by the wind direction adjusting unit 82 travels substantially perpendicular to the upstream surface of the evaporator 41, that is, in a direction substantially parallel to the direction in which the evaporator 41 and the condenser 42 are arranged. In the present embodiment, since the evaporator 41 and the condenser 42 are arranged horizontally, the air whose direction is adjusted by the wind direction adjusting unit 82 travels in a substantially horizontal direction to reach the evaporator 41 and the condenser 42 . pass through. In this specification, substantially vertical, substantially parallel, or substantially horizontal directions mean not only vertical, parallel, or horizontal directions, but also directions that mainly include vertical, parallel, or horizontal vector components.

In this case, the horizontal projection area of the wind direction adjusting section 82 is set larger than the cross-sectional area of the inlet 341 . The inflow port 341 overlaps the wind direction adjusting section 82 in plan view. Therefore, almost all of the air that has flowed vertically downward from the inlet 341 and flowed into the heat exchange section 34 hits the wind direction adjusting section 82 . Moreover, in this case, as shown in FIG. 9, a space S is formed in a part of the heat exchange section 34 . A space S is formed by being surrounded by the auxiliary member 80 , the evaporator 41 and the back wall portion 54 . The space S is large enough for an operator to put his or her fingers inside, and is exposed to the outside of the case 50 when the heat exchange section cover 60 is removed from the case 50 . Accordingly, by removing the heat exchange section cover 60 from the case 50, the operator can perform maintenance work by inserting fingers or cleaning tools into the space S. Cleaning, etc. can be performed.
It can be performed.

The auxiliary member 80 is detachably fixed to the case 50 . In this case, the auxiliary member 80 has holes 83 as shown in FIGS. The case 50 has a fixing portion 57 as shown in FIG. The hole portion 83 and the fixing portion 57 are provided facing each other at corresponding positions, that is, positions overlapping each other in the vertical direction when the auxiliary member 80 is attached to the case 50 . The hole portion 83 and the fixing portion 57 are fixed by a fastening member 100 shown in FIG. 7, and are restricted from moving relative to each other.

The hole 83 is provided in the vicinity of the lower end of the wind direction adjusting portion 82, that is, near the left edge and near the back edge, and is a through hole penetrating through the air direction adjusting portion 82 in the thickness direction, in this case, the vertical direction. The fixing portion 57 is formed in a hollow cylindrical shape with a bottom by recessing a portion of the bottom portion 51 of the heat exchanging portion 34 downward. The auxiliary member 80 and the case 50 are fixed by a fastening member 100 such as a male screw inserted through the hole 83 and inserted into the fixing portion 57 . In this case, when the auxiliary member 80 is attached to the case 50, the hole portion 83 and the fixing portion 57 are the lower end portion of the auxiliary member 80, closer to the dorsal edge in the front-rear direction, and to the left side in the left-right direction. located near the edge. A worker can attach or detach the auxiliary member 80 to or from the case 50 by fastening or detaching the fastening member 100 .

The auxiliary member 80 can be removed from the case 50 with the heat exchange section cover 60 removed from the case 50 . Further, the auxiliary member 80 is pressed against the case 50 by the heat exchange section cover 60 when the heat exchange section cover 60 is attached to the case 50 . Thereby, the movement of the auxiliary member 80 is further restricted.

The heat exchange section cover 60 and the compressor cover 70 can be attached to or removed from the case 50 independently of each other. That is, the compressor cover 70 can be attached to and detached from the case 50 with the heat exchange section cover 60 attached to the case 50, and the heat exchange section cover 70 can be attached to the case 50 with the compressor cover 70 attached to the case 50. 60 can be attached to and detached from case 50 . In addition, if the heat exchange section cover 60 and the compressor cover 70 are simply placed over the case 50, the heat exchange section cover 60 and the heat exchange section cover 60 may be damaged by vibration due to the rotation of the rotary tank 13, heat generated in the heat exchange section 34, and the like. There is a possibility that the compressor cover 70 may be lifted from the case 50 or may be deformed. Therefore, the heat exchange section cover 60 and the compressor cover 70 are each fixed to the case 50 so as to be detachable.

A method of fixing the heat exchange section cover 60 and the case 50 will be described. The heat exchanging section cover 60 is provided with an upward recessed groove (not shown in detail) at the edge of the lower surface. When the heat exchange section cover 60 is attached to the case 50 , the groove receives the front wall section 52 , the left wall section 53 , the rear wall section 54 , and the upper ends of the partition section 81 of the auxiliary member 80 . As a result, the case 50 and the heat exchange section cover 60 are restricted from moving relative to each other in the front-rear direction or the left-right direction. However, if the grooves are only fitted, deformation may occur due to heat, humidity, vibration, etc. during the drying operation, and air may leak from the heat exchange section 34 .

As shown in FIGS. 4, 5, 8, etc., the heat exchange section cover 60 has a plurality of holes 61, 62, 63. As shown in FIG. As shown in FIGS. 7 to 9 and the like, the case 50 has a plurality of fixing portions 58 and 59. As shown in FIGS. As shown in FIGS. 7 and 12, the auxiliary member 80 has one or more, in this case one fixing portion 84 .

The hole portion 61 of the heat exchanging portion cover 60 and the fixed portion 58 of the case 50 are provided to face each other at corresponding positions, that is, positions overlapping each other in the vertical direction when the heat exchanging portion cover 60 is attached to the case 50 . . The hole portion 61 of the heat exchanging portion cover 60 and the fixed portion 58 of the case 50 are fixed by a fastening member 100 shown in FIG. 9, and their relative movement is restricted.

The hole portion 62 and the fixing portion 59 are provided to face each other at corresponding positions, that is, positions overlapping each other in the vertical direction when the heat exchanging portion cover 60 is attached to the case 50 . The hole portion 62 of the heat exchanging portion cover 60 and the fixing portion 59 are fixed by a fastening member 100 shown in FIG. 9, and are restricted from moving relative to each other.

Further, the hole portion 63 and the fixing portion 84 of the auxiliary member 80 are provided to face each other at corresponding positions, that is, positions overlapping each other in the vertical direction when the auxiliary member 80 and the heat exchange portion cover 60 are attached to the case 50 . ing. The hole portion 63 and the fixing portion 84 are fixed by a fastening member 100 shown in FIG. 9 and are restricted from moving relative to each other.

The holes 61 , 62 , 63 are through holes formed through the heat exchange section cover 60 in the thickness direction, in this case, the vertical direction. The holes 61 , 62 , 63 are distributed in the front, rear, left, and right directions along the periphery of the heat exchange section cover 60 .

One or more, in this case, one hole 61 is provided near the front edge of the heat exchanging section cover 60 . In this case, the hole portion 61 is formed in a hollow cylindrical shape protruding leftward from the left edge portion of the heat exchanging portion cover 60 near the front edge portion. One or more, in this case three, holes 62 are spaced apart from each other near the back edge of the heat exchanging section cover 60 . The leftmost one of the three holes 62 is formed in a hollow cylindrical shape protruding leftward near the back edge of the left edge of the heat exchanging section cover 60 . . The remaining two holes 62 are formed on the back edge of the heat exchanging section cover 60 so as to sandwich the inflow port 341 in this case between the central portion and the right edge in the left-right direction. It is formed in a hollow cylindrical shape protruding rearward from the end. One or a plurality of, in this case, one hole 63 is provided on the left side edge of the heat exchanging section cover 60 toward the back edge. In this case, the hole 63 is provided in front of the inlet 341 and to the right of the evaporator 41 and the condenser 42 .

The fixing portions 58 and 59 are provided at positions corresponding to the holes 61 and 62 of the heat exchanging portion cover 60 when the heat exchanging portion cover 60 is attached to the case 50 . The fixed portions 58 and 59 are through holes formed through in the vertical direction or holes with an open upper portion and a closed lower portion. In this embodiment, each fixing part 58, 59 is formed in a hollow bottomed cylindrical shape with an open top and a closed bottom. Further, the fixing portions 58 and 59 are arranged in a dispersed manner on the front, rear, left, and right peripheral portions of the heat exchanging portion 34 at the upper end portion of the case 50 .

One or more, in this case one fixing portion 58 is provided on the left front portion of case 50 . In this case, the fixing portion 58 is formed in the left wall portion 53 near the front wall portion 52 so as to protrude leftward and is formed in a bottomed cylindrical shape recessed downward.

One or more, in this case three, fixing portions 59 are provided at or near the upper end of the back wall portion 54 at intervals from each other. The leftmost fixing portion 59 is formed in a hollow cylindrical shape with an open top and a closed bottom, and protrudes leftward from the upper end portion of the left end portion of the back wall portion 54 . The remaining two fixing portions 59 are provided at the center portion and the right end portion in the left-right direction of the upper end portion of the back wall portion 54 so as to protrude rearward from the back wall portion 54. The upper portion is open and the lower portion is closed. It is formed in a hollow cylindrical shape with a bottom.

The fixing portion 84 is provided near the front end portion of the upper end portion of the partition portion 81 of the auxiliary member 80 . In this case, the fixed portion 84 is formed in a hollow bottomed cylindrical shape with an open upper portion and a closed lower portion, which is provided so as to protrude from the partition portion 81 toward the central side of the heat exchange portion 34, that is, to the left in this case. . In this case, the hole portion 63 and the fixing portion 84 are located above the space S and in the front right portion when the auxiliary member 80 and the heat exchange portion cover 60 are attached to the case 50 . In other words, the fixing portion 84 is positioned substantially diagonally with respect to the hole portion 83 in the up-down direction, the front-rear direction, and the left-right direction of the auxiliary member 80 .

The heat exchange section cover 60 and the case 50 are fixed by a fastening member 100 such as a male screw that is inserted through the hole 61 and the fixing section 58, and the hole 62 and the fixing section 59, respectively. The heat exchange section cover 60 and the auxiliary member 80 are fixed by a fastening member 100 such as a male screw that is inserted through the hole 63 and the fixing section 84 . Further, relative movement between the hole portion 63 and the fixing portion 84 and between the hole portion 83 and the fixing portion 57 is restricted by the fastening member 100 between the heat exchanging portion cover 60 and the case 50 . Relative movement is regulated through each other. An operator can attach or detach the heat exchange section cover 60 to or from the case 50 by fastening or detaching the fastening member 100 .

Next, a method of fixing the compressor cover 70 and the case 50 will be described. The compressor cover 70 has a plurality of holes 71, 72, 73 as shown in FIGS. 5, 10, and the like. Further, the case 50 has a plurality of fixing portions 91, 92, 93 as shown in FIGS. 6, 7, and the like. The holes 71, 72, and 73 of the compressor cover 70 and the fixing portions 91, 92, and 93 of the case 50 overlap each other at corresponding positions, that is, in the vertical direction, when the compressor cover 70 is attached to the case 50. located opposite each other. The holes 71, 72, 73 and the fixed portions 91, 92, 93 are fixed by a fastening member 100 shown in FIG. fixed to

The holes 71 , 72 , 73 are through holes formed through the compressor cover 70 in the thickness direction, in this case, the vertical direction. The holes 71 , 72 , and 73 are arranged along the periphery of the compressor cover 70 so as to be dispersed in the front, rear, left, and right directions. The holes 71 , 72 , and 73 are arranged near the lower end of the compressor cover 70 , that is, the container-shaped opening.

One or more, in this case one, hole 71 is provided in the front edge of compressor cover 70 . Specifically, the hole portion 71 is positioned substantially at the center of the compressor cover 70 in the left-right direction at the front edge portion of the portion of the compressor cover 70 that covers the pipe accommodating portion 502 . In this case, the hole 71 is formed in a hollow cylindrical shape protruding forward from the front edge of the compressor cover 70 . One or more, in this case one, holes 72 are provided in the back edge of the compressor cover 70 . Specifically, the hole 72 is provided near the right edge of the back edge of the portion of the compressor cover 70 that covers the compressor housing portion 501 . In this case, the hole 72 is provided at the right rear corner of the compressor cover 70 and is formed in a hollow cylindrical shape. One or more, in this case one, hole 73 is provided in the left edge of compressor cover 70 . Specifically, the hole portion 73 is provided near the rear portion, that is, near the heat exchange portion 34 at the left edge portion of the portion of the compressor cover 70 that covers the pipe accommodating portion 502, and is formed in a hollow cylindrical shape.

The fixed portions 91, 92, and 93 are through-holes formed through in the vertical direction, or hole portions whose upper portion is open and whose lower portion is closed. In this embodiment, each fixing part 91, 92, 93 is formed in a hollow bottomed cylindrical shape with an open top and a closed bottom. The fixing portions 91 , 92 , and 93 are arranged at the upper end portion of the case 50 so as to be dispersed along the front, rear, left, and right peripheral portions of the compressor housing portion 501 and the pipe housing portion 502 .

One or more, in this case, one fixing portion 91 is provided on the outer wall portion 55 of the case 50 , specifically, on the front portion 551 . The fixing portion 91 is formed in a hollow bottomed cylindrical shape with an open upper portion and a closed lower portion, protruding forward from the front surface portion 551 of the case 50 . One or a plurality of fixing portions 92 , in this case one fixing portion 92 , are provided on the outer wall portion of the case 50 , specifically on the right side portion 552 , near the rear portion 554 . The fixing portion 92 is provided at a corner portion of the right side portion 552 that is connected to the rear portion 554, and is formed in a hollow bottomed cylindrical shape with an open top and a closed bottom. One or a plurality of fixing portions 93 , in this case one fixing portion 93 , is provided on the outer wall portion 55 , specifically, on the left side portion 553 of the case 50 . The fixing portion 93 is formed in a hollow cylindrical shape with an open top and a closed bottom, and protrudes leftward from the left side portion 553 of the case 50 .

The compressor cover 70 and the case 50 are fastened members such as male screws that are inserted through the hole 71 and the fixing portion 91, the hole 72 and the fixing portion 92, and the hole 73 and the fixing portion 93, respectively. Fixed by 100. An operator can attach or detach the compressor cover 70 to or from the case 50 by fastening or detaching the fastening member 100 . Note that the compressor cover 70 and the heat exchange section cover 60 or the auxiliary member 80 are not fixed by a fastening member.

The heat exchange section cover 60 and the compressor cover 70 are not fixed by a fastening member such as a male screw, and can be attached to and detached from the case 50 independently of each other. 70 is attached to the case 50 , the compressor cover 70 restricts the upward movement of the heat exchange section cover 60 . As shown in FIGS. 8, 13 and 14, the heat exchange section cover 60 has a regulated section 64, and the compressor cover 70 has a regulated section 74. As shown in FIGS. The restricted portion 64 is restricted from moving forward or upward by the restricting portion 74 in a state in which the heat exchanging portion cover 60 and the compressor cover 70 are attached to the case 50 . With the heat exchanging section cover 60 and the compressor cover 70 attached to the case 50 , the regulating section 74 comes into contact with the regulated section 64 from the front and the upper side, thereby pushing the heat exchanging section cover 60 forward or upward. movement is restricted. The restricted portion 64 is integrally molded with the heat exchanging portion cover 60 . The restriction portion 74 is integrally molded with the compressor cover 70 .

The restricted portion 64 is provided at the front edge portion of the heat exchanging portion cover 60 . When the heat exchange section cover 60 is attached to the case 50, the regulated section 64 is provided above the front inner wall section 561 of the case 50 and extending rightward from the front wall section 52 in plan view. there is The restricted portion 64 is provided so as to protrude upward from the front edge portion of the heat exchanging portion cover 60, and is formed in a plate shape perpendicular to the front-rear direction, for example. A convex portion 641 is formed on the front surface of the regulated portion 64 . The convex portion 641 protrudes forward from the surface formed by the regulated portion 64 and extends in the left-right direction. The restricting portion 74 is provided in a portion of the compressor cover 70 covering the pipe accommodating portion 502 and facing the heat exchanging portion 34 . When the compressor cover 70 is attached to the case 50 , the restricting portion 74 is positioned above the front inner wall portion 561 of the case 50 . The restricting portion 74 forms a surface substantially perpendicular to the front-rear direction that extends downward from the upper surface forming the container-shaped bottom portion of the compressor cover 70 .

The regulating portion 74 and the regulated portion 64 form surfaces parallel to each other. face contact from the front. Thereby, the restricting portion 74 restricts the forward movement of the restricted portion 64 . A tip portion 741 , which is a free end, that is, a lower end portion of the restricting portion 74 contacts the convex portion 641 from above when the heat exchange portion cover 60 and the compressor cover 70 are attached to the case 50 . As a result, the distal end portion 741 of the restricting portion 74 restricts upward movement of the convex portion 641 of the restricted portion 64 . Thus, the heat exchange section cover 60 is further prevented from floating upward.

The tip 741 has chamfered rear corners. The regulated portion 64 is released from the regulation of the regulating portion 74 by pulling the free end portion, ie, the upper end portion thereof backward by the operator, so that the regulated portion 64 can move upward. In this case, the tip portion 741 does not have to be chamfered, but if the corners of the tip portion 741 are chamfered, the contact between the convex portion 641 and the tip portion 741 is easily eliminated. In other words, it becomes easier for the operator to release the restriction of the restricted portion 64 .

Next, the procedure for assembling the heat pump unit 40 will be described. First, the evaporator 41, the condenser 42, the compressor 43, the piping 45, etc. are assembled. Next, the assembled evaporator 41 and the like are arranged in the case 50 . Further, the auxiliary member 80 is attached to the case 50 and fixed to each other by the fastening member 100 . Subsequently, the heat exchange section cover 60 and the compressor cover 70 are attached to the case 50 in order and fixed by the fastening member 100 . In this case, either the heat exchange section cover 60 or the compressor cover 70 may be mounted and fixed first. When the compressor cover 70 is attached and fixed first, the restricting portion 74 facilitates positioning when the heat exchange section cover 60 is attached. In other words, the operator moves the heat exchange section cover 60 toward the case 50 from the rear obliquely upward direction, and from the sound and response generated by the contact of the regulated section 64 with the regulating section 74, the operator determines the mounting position of the heat exchange section cover 60. can be confirmed. The heat pump unit 40 assembled in this way is inserted and fixed inside the housing 11 through an opening provided in part or all of the rear surface portion 113 of the housing 11 . Thus, the heat pump unit 40 is assembled and installed inside the housing.

After manufacturing the washer/dryer 10, the compressor 43 may be inspected before shipment from the factory. In this case, the operator first opens an opening provided in part or all of the back surface portion 113 to expose the heat pump unit 40 to the outside. Then, while the heat pump unit 40 is installed inside the housing 11 , the operator removes the fastening member 100 and removes the compressor cover 70 from the case 50 . After completing the inspection of the compressor 43 , the operator mounts the compressor cover 70 again and fixes it to the case 50 with the fastening member 100 . After the opening of the back portion 113 is closed, the washer/dryer 10 is shipped.

When the washer/dryer 10 is used for a long period of time or frequently, lint may adhere to the upstream surface of the evaporator 41 even after the lint is collected by the filter device 32 . In this case, the operator can maintain the washing/drying machine 10 in the following procedure.

First, the operator removes part or all of the back portion 113 from the housing 11 . The heat pump unit 40 is exposed in the rear direction when part or all of the rear portion 113 is removed. In other words, the worker can reach the heat pump unit 40 through the opening formed in the back surface portion 113 . Then, the worker can remove the fastening member 100 using a tool such as a screwdriver while the heat pump unit 40 is stored in the housing 11 .

Here, the water tank 12 is approaching above the heat pump unit 40 . That is, the heat pump unit 40 is arranged at a position overlapping the water tank 12 in plan view. The distance between the compressor cover 70 and the lower end of the water tank 12 is set at approximately 8 cm, for example. For example, even a small tool such as a screwdriver has a length of about 12 cm, so it cannot be inserted above the compressor cover 70 inside the housing 11 in a vertical state. Therefore, it is difficult to insert a tool especially in the vicinity of the front edge of the compressor cover 70 in this state.

Here, since the water tank 12 is elastically supported, it can be moved about 5 cm in the front-rear direction. Therefore, by pushing the water tank 12 forward against its elasticity, the operator secures a space for inserting the tool above the compressor cover 70 and inserts the tool near the front edge of the compressor cover 70. insert into As a result, the operator can remove the fastening member 100 that fixes the hole portion 61 and the fixing portion 58 and the fastening member 100 that fixes the hole portion 63 and the fixing portion 84 . At this time, the tool does not necessarily have to be inserted into the housing 11 in a vertically standing state, and may be in an inclined state with respect to the vertical direction as long as the fastening member 100 can be removed. The tool may be tilted, for example, at an angle of tilt with respect to the vertical direction of about 15° or less.

Furthermore, the worker needs to release the regulation of the regulated portion 64 by the regulating portion 74 in order to remove the heat exchange section cover 60 . The operator elastically deforms the restricted portion 64 by pulling the free end portion, that is, the upper end portion of the restricted portion 64 toward the rear side, that is, toward the operator. As a result, the contact between the convex portion 641 of the restricted portion 64 and the tip end portion 741 of the restricting portion 74 is released, and the heat exchanging portion cover 60 becomes movable upward.

When the heat exchange section cover 60 is removed, the evaporator 41 is exposed through the upper end of the back wall section 54 of the case 50 as shown in FIG. A worker can put his hand into the space S between the upstream surface of the evaporator 41 and the case 50 from the outside of the housing 11 . In other words, the evaporator 41 is arranged so that an operator can access it from the outside of the housing 11 in a state in which part or all of the back portion 113 and the heat exchange portion cover 60 are removed. The operator can further remove the auxiliary member 80 if necessary. In this case, the worker removes the auxiliary member 80 by removing the fastening member 100 that fixes the hole 83 of the auxiliary member 80 and the fixing portion 57 of the case 50 with a tool.

Then, the operator can remove the lint adhering to the upstream side of the evaporator 41 by inserting a finger or a cleaning tool from the outside of the housing 11 . Specifically, the operator can scrape off the lint by rubbing the surface on the upstream side of the evaporator 41 with a brush or the like, and then remove the lint by suction using a cleaner or the like.

After removing the lint, the operator puts the auxiliary member 80 back into the case 50 and fixes the hole portion 83 and the fixing portion 57 with the fastening member 100 . Subsequently, the operator positions the heat exchanging section cover 60 by engaging the restricting section 74 and the restricted section 64 and attaches it to the case 50 again. Then, the worker fixes the hole portion 61 and the fixing portion 58 , the hole portion 62 and the fixing portion 59 , and the hole portion 63 and the fixing portion 84 of the auxiliary member 80 with the fastening member 100 , thereby fixing the heat exchange portion. The cover 60 is fixed to the case 50. After that, the operator closes the opening of the back portion 113 . In this manner, lint or the like adhering to the evaporator 41 can be removed.

Here, the heat pump unit 40 may be installed, for example, on the lower back side of the clothes dryer, and if the case 50 cannot be easily disassembled, maintenance workers can easily install it in situations where work space is limited, such as at the user's home. Maintenance such as cleaning cannot be performed. Also, the evaporator 41 is connected to a condenser 42, a compressor 43, and the like via refrigerant pipes 45. As shown in FIG. In this case, in order to remove the evaporator 41 from the washer/dryer 10, it is necessary to remove the pipe 45. However, since the refrigerant must be properly treated during removal and attachment, it takes a lot of time and effort. Therefore, even if the lint can be removed, the entire heat pump unit 40 may have to be replaced, which is not preferable from the viewpoint of the user's economic burden and the viewpoint of global environmental protection.

Here, when the heat exchange section cover 60 and the compressor cover 70 are separated, in order to increase the airtightness of the heat exchange section 34, the heat exchange section cover 60 is pressed from above by the compressor cover 70 and fixed. is preferred. On the other hand, foreign matter such as lint that has not been completely collected by the filter device 32 may accumulate in the heat exchange section 34 . Therefore, for example, at the place where the washing/drying machine 10 is installed, a worker may perform maintenance work of opening a part of the housing 11 and removing the lint. At that time, it is troublesome for the operator if the heat exchange section cover 60 cannot be opened unless the compressor cover 70 is removed. In that case, it is conceivable to stack the heat exchange section cover 60 on the compressor cover 70 and fix it to the case 50 . Further, the performance of the compressor 43 may be inspected at the factory, for example before shipment. In this case, if both the heat exchange section cover 60 and the compressor cover 70 have to be removed in order to expose the compressor 43 to the outside of the housing 11, workability during inspection will be reduced.

On the other hand, according to the present embodiment described above, the washer/dryer 10 as a clothes dryer includes the housing 11, the drying chamber including the water tank 12 and the rotating tub 13, the air circulation path 30, and the heat pump. a unit 40; A drying chamber is provided within the housing 11 and has an air outlet 16 and an air inlet 17 . A circulation air passage 30 connects the air outlet 16 and the air inlet 17 . The heat pump unit 40 is provided in the middle of the circulation air passage 30 . The heat pump unit 40 has an evaporator 41 , a condenser 42 , a compressor 43 , a case 50 , a heat exchange section cover 60 and a compressor cover 70 . The evaporator 41 has a function of dehumidifying the air inside the circulation air passage 30 . The condenser 42 is provided on the downstream side of the evaporator 41 in the air circulation passage 30 and has a function of heating the air in the air circulation passage 30 . The compressor 43 constitutes a refrigeration cycle that circulates the refrigerant inside together with the evaporator 41 and the condenser 42 . The case 50 constitutes a part of the air circulation path 30 and has therein a heat exchange section 34 that houses the evaporator 41 and the condenser 42 and a compressor housing section 501 that houses the compressor 43 . The heat exchange section cover 60 has a function of covering the heat exchange section 34 . The compressor cover 70 has a function of covering the compressor accommodating portion 501 . The heat exchange section cover 60 and the compressor cover 70 are individually configured to be attachable and detachable to and from the case 50 .

According to this, only the heat exchange section cover 60 can be removed when the heat exchange section 34 is to be accessed, for example, during maintenance work. Further, when it is desired to access the compressor accommodating portion 501, for example, during inspection before shipment, only the compressor cover 70 can be removed. Therefore, a clothes dryer that reduces the burden on the operator during inspection and maintenance is provided.

Here, since the water tank 12 is approaching above the heat pump unit 40, it is difficult to remove or fasten the fastening member 100 by inserting a tool from the back side of the housing 11. FIG. Therefore, for example, it is conceivable to fix the heat exchange section cover 60 to the case 50 by, for example, snap fitting or fitting without providing a hole for inserting the fastening member 100 in the front edge of the heat exchange section cover 60 . . However, in order to secure the airtightness of the heat exchange section 34 , it is desirable that the heat exchange section cover 60 is fixed to the case 50 by the fastening member 100 not only at the back edge but also at the front edge.

On the other hand, the drying chamber includes a water tank 12 that is elastically supported so as to be movable forward at least relative to the housing 11 . The heat pump unit 40 is arranged near the back of the housing 11 and at least partially overlaps with the water tank 12 in plan view. Case 50 has a plurality of fixing portions 58 and 59 . The heat exchange section cover 60 has a plurality of holes 61 and 62 fixed by a fastening member 100 inserted through each of the plurality of fixing sections 58 and 59 . Of the plurality of holes, the hole 61 provided at the front edge of the heat exchanging section cover 60 allows the fastening member 100 to be removed or fastened by moving the water tank 12 forward. In this embodiment, the hole portion 61 allows the fastening member 100 to be removed or fastened by moving the water tank 12 forward against its elasticity.

According to this, the heat exchanging part cover 60 and the case 50 are fastened and fixed by the fastening member 100, so that the airtightness of the heat exchanging part 34 can be ensured. On the other hand, the operator can open the heat exchange section cover 60 without removing the heat pump unit from the housing 11 . Therefore, the clothes dryer provided with the heat pump unit 40 with improved workability during inspection and maintenance and improved airtightness of the heat exchange section 34 is provided.

Here, in the present embodiment, the number of holes 61 in the front edge of the heat exchanging section cover 60 is one, which is smaller than the number of holes 62 in the back edge of three. Therefore, for example, when the housing 11 vibrates due to the rotation of the rotary tub 13, there is a possibility that the heat exchanging section cover 60 may be lifted especially on the front edge side due to the vibration.

On the other hand, the heat exchange section cover 60 has an elastically deformable regulated section 64 . The compressor cover 70 has a regulating portion 74 that comes into contact with the regulated portion 64 and regulates the upward movement of the heat exchanging portion cover 60 when the compressor cover 70 and the heat exchanging portion cover 60 are attached to the case 50 . have With the compressor cover 70 attached to the case 50, the restricted portion 64 is elastically deformed by the operator, so that the restriction by the restricting portion 74 is released and the heat exchange portion cover 60 can move upward. becomes.

According to this, since the heat exchange section cover 60 is suppressed from being lifted by the restricting section 74, the airtightness of the heat exchange section 34 is ensured. Further, when the heat exchanging section cover 60 is attached while the compressor cover 70 is attached, the contact between the regulating portion 74 and the regulated portion 64 causes the worker to perceive a response and a contact sound. becomes easier. Therefore, assembly work during manufacturing or maintenance of the clothes dryer is facilitated.

Here, in the case 50 of the present embodiment, at the boundary portion between the heat exchange portion 34 and the compressor housing portion 501, the inner wall portion 56 in this case, the rear wall portion 56, is arranged at the boundary portion between the heat exchange portion 34 and the compressor housing portion 501 for moldability and effective use of the space below the auxiliary member 80. The side inner wall portion 563 does not rise to near the upper end portion of the evaporator 41 . Instead, the partition portion 81 of the auxiliary member 80 forms the side surface of the heat exchange portion 34 facing the compressor housing portion 501 . Therefore, the heat exchange section cover 60 cannot be directly fixed to the case 50 in the area adjacent to the compressor housing section 501 .

On the other hand, the heat pump unit 40 has an auxiliary member 80 forming a side surface of the heat exchange section 34 facing the compressor housing section 501 . The heat exchange section cover 60 and the auxiliary member 80 are fixed to each other by the fastening member 100 , and the auxiliary member 80 and the case 50 are fixed to each other by the fastening member 100 .

According to this, in a region where the heat exchange section cover 60 and the case 50 cannot be directly fixed and the heat exchange section cover 60 and the compressor housing section 501 are adjacent to each other, the heat exchange section cover 60 and the case 50 are held together by the auxiliary member 80. can be fixed indirectly through Therefore, the fixation of the heat exchange section cover 60 to the case 50 can be made more reliable overall, and the airtightness of the heat exchange section 34 can be improved.

Here, since the pipe 45 may be condensed because a low-temperature refrigerant passes through the inside, it is desirable to store the pipe 45 inside the case 50 to collect the condensed water. Also, if the pipe 45 is exposed to the outside, it may come into contact with other components and be damaged. On the other hand, in order to efficiently dehumidify and heat the circulating air, it is not preferable to block the flow of the circulating air by accommodating components other than those necessary in the heat exchange section 34 .

On the other hand, the heat pump unit 40 has a pipe 45 that connects the compressor 43, the evaporator 41, and the condenser 42 and passes the refrigerant therein. The case 50 has a pipe housing portion 502 that houses the pipe 45 therein. The compressor cover 70 is configured to cover the pipe accommodating portion 502 when attached to the case 50 .

According to this, the pipe 45 can be accommodated inside the case 50 outside the heat exchange section 34 . Therefore, the dew condensation water can be collected from the pipe 45 while maintaining the efficiency of dehumidification and heating of the circulating air, and the occurrence of breakage of the pipe 45 can be suppressed.

Although one embodiment of the present invention has been described above, this embodiment is presented as an example and is not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and equivalents thereof.

DESCRIPTION OF SYMBOLS 10... Washer-dryer (clothes dryer), 11... Housing, 12... Water tank (drying chamber), 13... Rotating tank (drying chamber), 16... Air outlet, 17... Air inlet, 30... Circulating air path, 34 ... heat exchange part, 40... heat pump unit, 41... evaporator, 42... condenser, 43... compressor, 45... pipe, 50... case, 501... compressor housing part, 502... pipe housing part, 57, 58, 59... Fixed part 60... Heat exchange part cover 61, 62, 63... Hole 64... Restricted part 641... Convex part 70... Compressor cover 74... Regulating part 741... Tip part 80... Auxiliary member 81... Partition part 82... Wind direction adjustment part 100... Fastening member

Claims (5)

a housing;
a drying chamber provided within the enclosure and having an air outlet and an air inlet;
a circulation air passage connecting the outlet and the inlet of the drying chamber;
a heat pump unit provided in the middle of the circulation air passage,
The heat pump unit is
an evaporator that dehumidifies the air in the circulation air passage;
a condenser that is provided downstream of the evaporator in the circulation air passage and heats the air in the circulation air passage;
a compressor that constitutes a refrigeration cycle that circulates a refrigerant inside together with the evaporator and the condenser;
a case that constitutes a part of the circulation air passage and has therein a heat exchange section that accommodates the evaporator and the condenser, and a compressor accommodation section that accommodates the compressor;
a heat exchange section cover that covers the heat exchange section;
a compressor cover that covers the compressor housing,
The clothes dryer, wherein the heat exchange section cover and the compressor cover are individually detachable from the case. The drying chamber includes a water tank that is elastically supported so as to be movable forward at least with respect to the housing,
The heat pump unit is arranged near the back of the housing and at least partially overlaps with the water tank in a plan view,
The case has a plurality of fixing parts,
The heat exchange section cover has a plurality of holes fixed by a fastening member inserted through each of the plurality of fixing sections,
Of the plurality of holes, the hole provided at the front edge of the heat exchanging section cover can remove or fasten the fastening member by moving the water tank against elasticity. The clothes dryer according to claim 1. The heat exchange section cover has an elastically deformable regulated section,
The compressor cover has a regulating portion that comes into contact with the regulated portion and regulates upward movement of the heat exchanging portion cover when the compressor cover and the heat exchanging portion cover are attached to the case. have
The heat exchange section cover can be moved upward when the restricted section is elastically deformed by an operator while the compressor cover is attached to the case, thereby releasing the restriction by the restricting section. The clothes dryer according to claim 1 or 2. The heat pump unit has an auxiliary member forming a side surface of the heat exchange section facing the compressor housing section in the heat exchange section,
The heat exchange section cover and the auxiliary member are fixed to each other by a fastening member,
The clothes dryer according to any one of claims 1 to 3, wherein the auxiliary member and the case are fixed to each other by a fastening member. The heat pump unit has a pipe that connects the compressor, the evaporator, and the condenser and passes the refrigerant inside,
The case has a pipe accommodating portion that accommodates the pipe inside,
The clothes dryer according to any one of claims 1 to 4, wherein the compressor cover is configured to cover the pipe accommodating portion when attached to the case.

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