TW201011231A - Air conditioning unit - Google Patents

Abstract

There is provided an air conditioning unit (39) in which an evaporator (31) and a condenser (32) located in the middle of an air passage (5) from a suction inlet port (391) to a suction outlet port (392) for dehumidifying and heating a circulating air, and a compressor (37) for circulating a cooling medium therethrough are build inside a unit case (38) having the suction inlet port (391) and the suction outlet port (392), wherein the evaporator and the condenser compose a heat exchanger (395) in which each other's fins are aligned in parallel, and the heat exchanger is installed inside the air passage of the unit case in which a suction outlet port surface formed by the suction outlet port is opposed to an opening surface of the evaporator or the condenser so as to form an angle smaller than a right angle.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioning unit that is mounted on a drum type washing and drying machine to adjust circulating air. t 前前冬好] Background Art ❹ 10 The conventional air conditioner unit is built in the drum type washing and drying machine by the dead space on the back of the sink, and is connected to the air passage of the ventilating fan having the air blowing fan. Thereby, the circulating air supply path repeats the following operations, and the drying step after the washing step or the washing step is performed by the driving fan, and the air in the water tank is sucked and discharged, and the air conditioning unit is introduced from the guiding inlet thereof. After the dehumidification of the evaporator and the heating of the condenser to form a dry air, the air is discharged from the suction discharge port, and the air is blown to the water tank side, and returned to the inside of the tank to dry the laundry in the rotary drum. Therefore, the conventional air conditioning unit is divided into partition walls in the unit casing for arranging the evaporator and the condenser, and the ventilation path at the suction introduction port and the suction discharge port door is accommodated for circulating the refrigerant in the evaporator and the condenser. The containment area of the compressor. The evaporator and the condenser are sequentially disposed in the ventilation path 20 independently of each other, and are arranged on the upstream side and the downstream side of the gap, and sequentially exchange heat with the circulating air that is introduced and sucked from the suction introduction port and passed through the suction discharge port. After dehumidification and heating, it is sucked and discharged from the suction discharge port. Further, this technical content is disclosed in Japanese Patent Laid-Open Publication No. 2008-79861. However, as in the prior art, the evaporator and the condenser are sequentially disposed in the phase of each of the phases 201011231, and the upstream side and the downstream side of the space are separated, and the circulating air is passed through the configuration of the evaporator and the condenser. It is only enlarged to the extent of the t-isolation m. Therefore, the heat exchange of the compressor, the evaporator, and the condenser is increased, which is unfavorable for the improvement of the drying performance. Further, the suction air 5 is guided from the suction inlet port located at both ends of the ventilation path toward the suction discharge port side with the shortest distance to the heat sink of the evaporator, temporarily restricting the flow in the direction of the fin, in the evaporator The isolation space between the condenser and the condenser is open. Therefore, the flow of the circulating air is again close to the suction discharge port side, and is strongly introduced to the suction discharge port side of the cooler. On the side of the reverse suction discharge port, 10 shows a weak bypass tendency, the effective area is narrow, the direction of the fins of the evaporator and the condenser, and the ventilation resistance of the circulating air flow from the suction introduction port side toward the suction discharge port side. Increase. Furthermore, heat exchange efficiency, drying efficiency are lowered, and drying noise is also increased. C. The present invention provides an air conditioning unit which is advantageous in reducing the installation area of the evaporator and the condenser, and which is advantageous for improving the drying performance of the dehumidification efficiency, the heating efficiency, and the drying efficiency. The air conditioning unit of the present invention is disposed in a unit casing having a suction introduction port for circulating air and a suction discharge port for circulating air of 20, and is provided with a ventilation path from the suction introduction port to the suction discharge port to dehumidify and heat the circulating air. The evaporator and the condenser, and the compressor that circulates the refrigerant in the evaporator and the condenser, the evaporator and the condenser arrange the heat sinks of each other into a side heat exchange portion, and the heat exchange portion is in the unit shell In the ventilation path 201011231 of the cover, the suction discharge port surface formed by the suction discharge port is disposed opposite to the opening surface of the evaporator or the condenser at a position smaller than a right angle. In this configuration, the evaporator and the condenser are driven by the circulation of the refrigerant due to the driving of the compressor, and the suction force acts on the suction port 5 side of the unit casing, and the attraction reaches the unit casing through the ventilation path. The suction inlet port can generate a circulating air flow which is discharged from the suction introduction port through the ventilation path and is discharged from the suction discharge port, and the circulating air leads to the evaporator and the condenser located in the middle of the ventilation path, and is used as a high temperature which is dried by dehumidification and heating. Air, even m continues to send out. In particular, the evaporator and the condenser serve as heat exchange portions for arranging the heat sinks 10 in parallel with each other, thereby avoiding space waste between the evaporator and the condenser, and forming a flow of circulating air to bypass the suction discharge port side. The reason for the isolation space. Further, the circulating air from the suction introduction port side toward the suction discharge port side is disposed at a position smaller than a right angle with respect to the suction discharge port surface by the opening surface of the evaporator and the condenser, and is oriented at the shortest distance 15 from the suction introduction port side. The direction of the circulating air flowing on the discharge port side is attracted, and the direction of the fins is smaller than the right angle, which is smaller than the right angle, so the resistance is reduced. Further, the air conditioning unit of the present invention is provided in a unit casing having a suction introduction port for circulating air and a suction discharge port for circulating air, and is provided with a ventilation path from the suction introduction port to the suction discharge port to dehumidify the circulating air 20 And the evaporator and the condenser which are heated, and the compressor which circulates the refrigerant in the evaporator and the condenser, the heat sink of the evaporator and the condenser have a small heat separation gap, and become an integral heat exchange part, the aforementioned The heat exchange unit is disposed in a state in which the suction discharge port surface formed by the suction discharge port and the opening surface of the evaporator or the condenser form a state smaller than a right angle 201011231 in the ventilation path of the unit casing. In this configuration, the evaporator and the condenser are driven by the circulation of the refrigerant due to the driving of the compressor, and the suction force acts on the suction discharge port side of the unit casing, and the attraction also reaches the unit casing through the ventilation path. The suction guide 5 inlet can generate a circulating air flow from the suction introduction port through the ventilation path and from the suction discharge port, and the circulating air leads to the evaporator and the condenser located on the way of the ventilation path, and is used as a high temperature which is dried by dehumidification and heating. Air, continuous delivery. In particular, since the evaporator and the condenser have an integral heat exchange portion with a small heat separation interval therebetween, the space can be further reduced, and the circulating air can be passed without bypass. Further, the circulating air from the suction introduction port side toward the suction discharge port side is disposed opposite to the suction discharge port surface by the opening surface of the evaporator and the condenser, and is oriented toward the suction at the shortest distance from the suction introduction port side. The direction of the circulating air on the discharge side, the direction of the fin is less than the right angle, just because it is smaller than the right angle, 15 the resistance is reduced. In the above, the unit case cover may have a rectangular parallelepiped shape, and a storage area of the compressor may be provided at one end side of the long direction, and a ventilation path is formed from the storage area to the other end side, and is divided from the storage area to attract the introduction port. It is disposed at the rear of the top wall of the ventilation path, and the suction discharge port is disposed near the front end of the end wall of the other end of the unit casing. In such a configuration, in addition to the above, the unit casing has a rectangular parallelepiped shape, and the storage area of the compressor is provided at one end side of the longitudinal direction, and the heat exchange portion is provided as the ventilation path from the storage area to the other end side. In the case of less dead space, the heat exchanger is housed and configured, and the suction inlet port 201011231 is located at the rear of the top wall of the ventilation path, and the air is led to the front of the end wall of the other end of the casing. In the vicinity of (4) the circulation of the outlets and outlets * The airflow is inclined from the rear of the ventilation path to the front of the other side in the direction of the shortest direction. Therefore, it is arranged in the direction in which the length of the unit of the exchange unit is the same. The riding in the front-rear direction is still easy to set the flow of the circulating air relative to the heat sink to be straightforward. When the venting exchange portion is in the shape of the unit casing, the ventilation path is relatively fresh and airy.

10 15

The length of the path is 5 丨 (4) from the suction guide population, and when the front side is slanted from the front side to the rear side, the difference between the front and the back sides can be reduced by half from the right angle, so that the heat exchange portion is further reduced. In the above, in the unit casing, the length of the evaporator or the condensation n is the angle formed by the suction discharge port to attract the discharge surface, the suction surface and the opening surface of the evaporator or the condenser. The maximum is also possible. In this configuration, it is possible to effectively utilize the unit casing or the ventilating path of the evaporator or the condenser, and the angle at which the heat exchange region is cut to have the largest length. . In the unit (4) of the present invention, the fins are arranged side by side so as to be wasted in the space where the evaporator and the condenser cannot be formed, and the heat exchange portion which bypasses the flow of the circulating air to the side which attracts the discharge port side is omitted. In addition, it is possible to reduce the overall size of the machine, and to improve the performance of the large-scale machine, and to improve the dehumidification efficiency and the heating efficiency. Further, the circulating air that is introduced, sucked, and discharged with respect to the flow direction of the circulating air from the suction inlet port side toward the discharge port side of the suction bow I is small, and the direction of the fin is small; the right angle a is reduced by the resistance, and the heat is increased. Exchange air volume. By the way, 201011231 has high air-conditioning performance and is equipped with a dead-end performance when it is equipped with a washing and drying machine. In the empty fresh towel of the present invention, the hot material system secret and the heat sink of the condenser have a small heat separation gap and are integrated, thereby making it more space-saving, and the circulating air can be further prepared. Bypass and pass. Further, a storage area of the retractor is disposed on one end side of the longitudinal direction of the unit casing of the substantially rectangular parallelepiped, and the heat exchange portion is disposed as the heat passage portion from the storage area to the other end side in the dead space. Less, the heat exchanger is housed and arranged so that the air flow from the suction-guided population toward the profit-discharge outlet is inclined in the shortest flow direction from the rear side of the ventilation path to the front side of the other end, «for the engraving The flow of air is set to be less than a right angle. In addition, the ventilation path formed by the heat (four) portion in the unit casing can be inclined from the front side to the rear side with respect to the unit casing and the long-distance direction, and can be inclined from the front side to the rear side. The angle of the heat sink is halved from the right angle, so the heat exchange portion is further reduced. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an embodiment of the present invention, in which the air conditioning unit of the embodiment is mounted on the side of the drum type washing and drying machine. Fig. 2 is a rear view showing the configuration of the air conditioner unit of the present invention in a drum type washing and drying machine. Fig. 3 is a cross-sectional view showing an air-conditioning fan unit of an air-conditioning unit connected to a blower fan in the form of a meal according to the present invention. Fig. 4 is a view showing a storage area of a compressor of an air-conditioning unit according to an embodiment of the present invention and a division thereof. Pathway—A cross-sectional view of one of the end-side rear regions. 20 201011231 Fig. 5 is a cross-sectional view showing a heat exchange region of an air conditioning unit according to an embodiment of the present invention. Fig. 6 is a plan view showing the air conditioning unit of the embodiment of the present invention with the dividing member on the unit casing removed. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 6 is a perspective view of an air conditioning unit in which the present invention is implemented in an open state as viewed from the oblique view. Fig. 8 is a perspective view showing the appearance of an air conditioning unit according to an embodiment of the present invention as seen from the front side. Fig. 9 is a plan view showing the exterior of the air conditioning unit according to the embodiment of the present invention as seen from the upper portion. Fig. 10 is a plan view showing the cutting member under the unit casing of the air conditioning unit according to the embodiment of the present invention. Figure 11 is a perspective view of the divided member below the 10th figure. Fig. 12 is a bottom view of the unit casing cover of the air conditioning unit according to the embodiment of the present invention. Fig. 13 is a perspective view showing a state in which the compressor and the elastic seat of the air conditioning unit according to the embodiment of the present invention are combined. Fig. 14 is a partial perspective view of the air conditioning unit according to the embodiment of the present invention as seen obliquely from the suction and discharge side in the state of Fig. 6. 2〇 Fig. 15 is a side view of the air conditioning unit according to the embodiment of the present invention as seen from the side of the storage area. t EMBODIMENT 2 Best Mode for Carrying Out the Invention The air conditioning unit according to the embodiment of the present invention will be described below with reference to Figs. 1 to 15 and 201011231. The following description is a specific example of the invention and is not limited to the scope of the patent application. Fig. 1 and Fig. 2 show an air conditioner unit according to an embodiment of the present invention installed in a drum type washing and drying machine. In the first and second figures, the drum type washing and drying machine is installed in the washing and drying machine body 44, and the water tank 3 is sighed in a floating state by a hanging structure not shown in the figure, in the water tank 3. The rotary drum 2 having a bottomed cylindrical shape is formed such that its axial direction is inclined downward from the front side toward the back side. On the front side of the water tank 3, an opening and exit opening to the opening end of the rotary drum 2 is formed, and the opening portion which is disposed on the front side of the washing and drying machine body 44 and which is inclined upward by 10 faces is opened and closed by a switch. The door 9 is taken out into the rotary drum 2 through the above-described clothing entrance and exit u, and the laundry is placed. Since the door 9 is disposed on the upwardly inclined surface, the operation of taking out the laundry can be performed without bending. A plurality of through holes 8 are formed in the circumferential surface of the rotary drum 2, and a plurality of through holes 8 are formed in the water tank 3 at a plurality of positions in the circumferential direction of the inner circumferential surface (not shown in the drawings). This rotary drum 2 is rotationally driven in the forward rotation and reverse directions by a motor 7 attached to the back side of the water tank 3. Further, the water injection pipe 12 and the water discharge pipe 13 are connected to the water tank 3, and water injection and drainage into the water tank 3 are performed by the control of the water injection valve and the drain valve not shown. The door 9 is opened, and the laundry and the detergent are put into the rotary drum 2, and the operation of the operation panel 66 provided on the front surface of the drum-type washer-dryer 1 is performed via 20, and the control substrate 67 is also disposed on the inner side thereof. After the start of the operation, a predetermined amount of water is injected from the water injection pipe 12 in the water tank 3, and the rotary drum 2 is rotationally driven by the motor 7, and the washing step is started. The laundry accommodated in the rotary drum 2 is repeatedly rotated by the rotation of the rotary drum 2 so as to be placed on the inner peripheral wall of the rotary roller 201011231. The projection of the inner peripheral wall of the cylinder 2 is lifted up to the rotational direction, and is dropped from the raised height position. Action, so the role of patching plays on the washings: Z washes. After the required washing time, the washing of the bottle is discharged from the drain line 13 to rotate the rotating drum 2 at a high speed, and the washing machine 5 is dehydrated, and then the water is injected from the water filling line 12. In the water tank 3, a washing step is performed. At this time, the washings contained in the rotary (four) cylinder 2 are rotated by the rotary drum 2, and the stirring operation is performed by the stirring of the stirring projections, and the washing is performed. 1. The drum type washing and drying machine 1 is provided with a dryer for drying the contents contained in the rotary drum 2. Therefore, the drum type laundry drying money 1 is as described above, and the air inside the water tank 3 is sucked and exhausted, and is introduced into the air conditioner early: 39, and the high temperature air for dehumidification, heating and drying is sent to the water tank 3 again. The air blowing path 15 is provided, and the air blowing fan 15 is provided downstream of the air conditioning unit 39 in the circulating air blowing path 5. When the air blowing fan 15 is driven to rotate, the air is ventilated in the circulating air supply path 5, and the humid air in the rotating drum 2 in which the washing is accommodated is attracted to the circulating air guiding line μ on the side of the water supply fan 15 through the water tank 3 The humid air of the exhaust gas is introduced from the suction introduction port 391 to the ventilation path of the air conditioning unit 39 directly connected to the upstream side of the fan fan 15, and the evaporator 31 is positioned to condense the moisture in the air. Dehumidification, and heating with this heat exchange, as a usual dry high temperature air. After that, the door-to-door gas is sucked into the air supply duct 33 of the water tank 3 through the suction discharge port 392, and is sucked into the air supply duct 33, and is blown into the water tank 3. The air is blown to the dry air through the through hole 8 and enters the washing machine in 2010. The surface of the rotating drum 2 is contacted with the laundry, and the water is introduced into the circulating air introduction line 16 to be circulated to the air. Repeat the cycle 'to perform the drying step. Further, in the drying step using the circulating air blowing path 5, the air towel circulating in the air blowing path 5 of the circulation 5 is mainly circulated by the foreign matter mixed by the wire generated by the laundry or the like, and the evaporator 31 or the condenser 32 is clogged. The biting into the rotating portion of the blower fan 15 and the accumulation on the inner surface of the blower fan 15 are likely to cause obstacles to the execution of the drying step, and frequent maintenance is required. Therefore, generally, on the way of the circulating air supply path 5, specifically, the evaporator 31, The condenser 32 and the upstream side of the blower fan 15 are provided with a filter 35 for accommodating foreign matter in the circulating air to be stored in the middle of the circulating air introduction line 16. Thereby, even if the foreign matter is mixed into the air which has dried the laundry, it is introduced to the side of the circulating air introduction line 16 on the evaporator 31 side, and when passing through the filtration chamber 36, it is collected by the filter 35 without being mixed into the downstream side. Circulating air. Therefore, the functions of the evaporator 31, the condenser 32, and the blower fan 15 can be maintained for a long period of time. However, on the other hand, the trapped foreign matter is accumulated in the filter 35 of the filter chamber 36, the passage resistance of the circulating air is gradually increased, and the drying function is lowered, so that the filter 35 is detachably provided in the same manner. Further, the air-conditioning fan unit 39 is directly connected to the blower fan 15, and is configured to process the air-conditioning air unit unit 81' individually. However, the present invention is not limited thereto. Here, the evaporator 31 which generates the condensed water and the condenser 32 constitute a heat exchange portion, and the storage portion 63 of the condensed water is provided in the range corresponding to the bottom dehumidification region of the air conditioner cover 38, and the drain pipe having the drain pump 64 is connected. Road 65, according to the water level detection of the water level sensor not shown in the figure, the appropriate row 12 201011231 water. However, due to some drainage abnormalities, when the water level rises abnormally, there is a possibility that the stored condensate reaches the other part of the circulation air supply path 5. Therefore, the heat exchange portion is disposed at the lowest portion of the circulating air supply path 5. As described above, the air-conditioning fan unit 39 that is installed in various types of equipment has an impact on the size of the equipment, the product price, the maintenance time, and the running cost of the equipment that is mounted on the fifth unit. Therefore, it is desired to reduce the size, the number of parts, and the number of assembly work. Replacement of replacement parts. Fig. 3 is a cross-sectional view showing an air-conditioning fan unit in which an air-conditioning unit according to an embodiment of the present invention is connected to a blower fan. Fig. 4 is a cross-sectional view showing a housing area of a compressor of an air conditioning unit according to an embodiment of the present invention and a side portion of the air passage unit as a part of the air passage. The fifth embodiment is a cross-sectional view of the heat exchange area of the air conditioning unit of the present invention. Fig. 6 is a plan view showing an air conditioning unit according to an embodiment of the present invention, in which a partition member is disposed above the casing. Fig. 7 is a perspective view of the air conditioning unit of the embodiment of the present invention viewed from an oblique side in the state of Fig. 6. In the third embodiment to the seventh embodiment, the air conditioning unit 39 of the present embodiment is provided in the unit casing cover 38 having the suction introduction port 391 and the suction discharge port 392 from the suction introduction port 391 to the suction discharge port 392. On the way of the ventilation path 393, the heat 20 of the recirculating air dehumidifying evaporator 31 and the condenser 32 and the condenser 32 constitute a basic structure of the compressor 37 for circulating the refrigerant in the heat exchange portion 395, and the unit casing 38 is The plural, specifically, the upper n divided members 381 and 382 are configured, and the sealing members 384 are continuously sandwiched between the dividing lines 383 formed by the dividing members 381 and 382 adjacent to the unit casing, so that the unit casing 38 is airtight inside and outside. In the case of the above-mentioned storage unit, which is exemplified by the unit cover, the water supply unit 101 is installed on the outside of the water storage unit to discharge the water, and the drainage mechanism 101 that blocks the suction of the outside air is discharged (see Figs. 4 and 5). Thus, the unit cover 38 is composed of a plurality of divided members 381' 382, and each of the divided members 381 and 382 sandwiches the sealing member 384 between the secant lines 383 formed to face the outer surface of the unit case 38, so that the unit case is covered. The inner and outer airtight simple sealing structure, even if the ventilation path 393 of the suction introduction port 391 to the suction discharge port 392 is in communication with the storage area 394 side of the compressor 37, the suction action does not actively act, and there is no air retention. The effect of zone 394 ensures the function of the cycle and dehumidification and heating of the suction control. Further, the ventilation passage 393 and the accommodating region 394 are in communication with each other, and there is no storage area 394 and ventilation passage 393. In the event that water suddenly accumulates, the drainage mechanism 1 provided in the storage portion 63 of the unit casing 38 or the like is used. 〇1 is opened with water, and the water is discharged to respond, and it is ensured that the attraction of the outside air is prevented, and the function of introducing the circulating air into the heat exchange is introduced. ^The result is that the cost of parts and the number of parts and parts are reduced because the number of parts is reduced, and the cost of products and operating costs are reduced. In particular, as in the present embodiment, when the unit cover % is composed of two divided members and 382, the number of parts, the number of components, and the seal structure portion can be reduced step by step. In this way, by the non-sealing structure, the ventilation path 393, for example, communicates with the side of the accommodating area 2, the area 394, at the divisions of both sides, and the division effect is unified, and the suction effect is hardly accessible to the accommodating area 394, and can be more surely It ensures the attraction of air circulation and dehumidification and heating, which improves performance. The partitioning portion (10) is integrally formed on the upper and lower divided members 391 and 382, and the opposing structure of the lower dividing wall 386a and the cymbal is realized. The unit 14 is realized by a simple structure of two members. 201011231 The casing 38 divides the receiving region 394 and the ventilation path 393. And has a complex space shape body. Further, a single partition wall integrally formed of one of the upper and lower divided members 381, 382 may be used as the partitioning portion 386 instead of the partition wall 38 such as 386b. The valve mechanism 101 is a 6X discharge port 5 1〇1a placed on the outer wall of the water storage portion such as the storage portion 63, and a check valve 101b' check valve for closing the drain port 1〇la from the outside by the pressure in the unit casing 38. When the 〇 作用 作用 作用 作用 作用 作用 作用 作用 作用 作用 作用 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 101 The function of 39, and if there is a large amount of water, it can be drained by its own weight and drained, and when it is not working, it does not need to be specifically closed, and can be realized by a simple chip valve without closing characteristics (refer to 4th) Figure, Figure 5). Specifically, the rubber sheet check valve 101b can elastically engage the hook portion 1〇1^ integrally formed at the upper end thereof with the mounting hole 1〇ld provided at the upper portion of the drain port l〇la, and is simply installed even if Attraction, corresponding to the closure of the release of the attraction, the release of the closure frequently, 15 the stroke of the action is small, without accelerating fatigue, and rarely become a replacement part for maintenance. In the present embodiment, in connection with the communication structure of the ventilation paths 393, 394, there is a possibility that the sudden accumulation of water reaches the side of the accommodation area 394. Therefore, the storage portion 63 corresponding to the heat exchange portion 395 similarly serves the bottom of the accommodation area 394. 20 is the water collecting portion 396, and the valve mechanism 1 is provided. Therefore, when the water reaching the storage area 394 side cannot be resolved on the side of the storage portion 63 of the ventilating path 3 due to the relationship between the ventilation path 393 and the storage area 394, It can also be drained on the side of the containment area 3 94. Fig. 8 is a perspective view showing the appearance of an air conditioner unit according to an embodiment of the present invention from the front side. Fig. 9 is a plan view showing the appearance of an air conditioning unit according to an embodiment of the present invention as seen from the upper portion. In Figs. 8 and 9, the unit case cover 38 is provided with a suction introduction port 391 at the rear end of the top end of the one end and a rectangular parallelepiped shape of the suction port 392 at the end wall of the other end. The compressor 37 is housed in a receiving area 394 on the one end side of the unit casing 5 cover 38 near the front portion, and the accommodating area 394 is ventilated with respect to the accommodating area 394 on the rear side and the other end side of the unit casing 38. The path 393 extends from both of the divided members 381 and 382 constituting the unit casing 38, and constitutes a dividing wall 386a, 386b or a dividing wall divider extending one of the partitioning portions 386 (refer to Fig. 7). The evaporator 0 10 31 and the condenser 32 are provided to partition the heat exchange area 393a between the partitioning portion 386 facing the longitudinal direction of the unit casing 38 and the end wall into a front-rear suction introduction side and a suction discharge side. Further, the suction introduction port 391 is higher than the top wall of the heat exchange region 393a of the unit case 38, and is opened upward, and as shown in FIGS. 4 and 7, as viewed in plan, overlaps from the rear side of the housing area 394. The position is the size of the heat exchange area 393a of the venting path 393 from the front - 15 to the end side rear area 393b of the rear side of the unit casing 38, and is set to a volume that does not extend to the air conditioner cover. 38 outside.通风 The ventilation path 393 has a base opening from the suction guiding population 391 which is smoothly connected to the one end side rear region 393b, guides the circulating air to the downward longitudinal 20 bending region 393c, and causes the heat exchange region to be attracted to the introduction side to be smaller than the suction introduction. The height of the port 391 is extended from the suction introduction port 391 upward to the other end side of the air-conditioning case 38, and the rearward portion is swelled upward. Thereby, the suction introduction port 391 at the rear end of the top wall of the unit casing cover 38 and the suction discharge port 16 of the end wall provided at the other end are arranged in the unit, except for the unit. In the vicinity of the front portion of the cover 38, the compressor 37 is housed, and the ventilating path 393 of the unit casing cover 38 is used almost completely, and the circulating air is easily attracted from the suction introduction port 391. The heat is exchanged by the heat exchange unit 395 smoothly, and is sucked and discharged to the suction discharge port 392. At this time, the circulation air 393 is introduced into the circulating air introduced from the suction introduction port 391 as indicated by an arrow in FIG. 7 to be deviated from the heat exchange region 393a beside the accommodation region 394 to the end side of the end side of the unit casing 38. The region 393b deviates from the rear portion of the heat exchange region 393a to the upper rear portion upwardly expanded portion 393d, merges at the suction introduction side as the rear portion of the heat exchange region 393a, and is evaporated by the heat exchange portion 395 provided in the heat exchange region 393a. The equalization of the resistance of the compressor 31 and the condenser 32 by the full effect of the resistance can generate a heat exchange flow that passes through all of the regions of the evaporator 31 and the condenser 32 without deviating from the rear portion to the front portion. Therefore, the air conditioning function with improved heat exchange efficiency can be improved. At this time, the position where the ventilation path 393 is viewed in plan from the suction introduction port 391 on the rear side of the accommodation area 394 of the compressor 37 almost overlaps the one end side rear area 393b of the ventilation path 393, thereby While increasing the amount of air introduced into the circulating air, the flow rate of the rear end region 393b which is smaller than the one end of the suction introduction port 391 is reduced, but is guided smoothly by the longitudinal bending path 393c without being disturbed or pressure-damped. The rear portion of the heat exchange region 393a is attracted to the introduction side, and the air is introduced from the suction introduction port 391 to the other end side of the unit casing cover 38 to the side of the upward expansion region 393d. As a result, it is possible to further promote the uniform diffusion of the circulating air introduced into the ventilation path 393 to the suction surface 395a after the heat exchange portion 395 toward 17 201011231, and the heat exchange efficiency can be further improved. Further, in the longitudinal curved path 393c, as shown in FIG. 4, the air introduced into the air by the suction is bent, and the moisture removed from the accompanying washing may be mixed or mixed: the detergent component or the soft (four) portions are centrifuged and separated, and In the reading and hiding display, the undulating shape portion (10) which avoids interference with the upper end of the compressor 37 is subjected to the impact separation. 10 15 20 Here, as shown in FIGS. 4 to 7 , the storage portion 63 described above is a rectangular shape formed by the heat exchange portion 395 constituting the disk exchange area 393a, and the load bearing heat exchange portion 395 is directed toward The upper open # 赖 exchange part is formed by tearing the disk. The heat exchange portion 395 disposed on the tearing plate of the heat exchange portion of the heat exchange portion is configured to form an evaporation (four), a heat sink 395 of the condenser 32, and a minute heat separation gap (not shown). - the unit of the body 'by the aforementioned heat separation gap, so that the heat transfer from the condensation 1132 to the new (four) is suppressed in suppressing the growth of the frost or ice of the evaporator 31, even in the low outside: the gas, the temperature of the refrigerant may rise, The cream is dissolved to ensure that the η is dry and the degree of efficiency. Therefore, since the isolation space provided between the evaporator η and the condenser 32 is omitted, the installation space is reduced, and the overall size is increased, and the performance can be increased in response to the increase in size of the machine, and the discharge can be suppressed by the suction bow. The passage of the gap caused by the gap of the Π392 side will effectively pass the large area, improve the dehumidification, efficiency, heating efficiency, drying efficiency, and also reduce the dry noise.

+... The exchange portion 395 is configured such that the suction discharge port 391 is configured to attract the discharge port 2, the opening surface of the radiator 31 or the condenser 32, for example, the suction surface 395a or the row 395b is formed in a state smaller than a right angle, and is specifically arranged to face 18 201011231. 5 ❹ 10 15 φ 20 The relative distance between the suction surface 395a and the heat exchange region 3933 of the air-conditioning case 38 opposite to the suction-introduction side rear wall is from the side of the rear side region 393b connected to the one end side of the suction introduction port 391 toward the unit casing The state in which the other end side of the 38 is reduced is arranged in the oblique direction with respect to the longitudinal direction of the unit casing 38 as shown in the drawings and FIG. Thereby, the heat exchange area 393 & direction is the direction a shown in FIG. 6 which forms the shortest inclination direction from the one end side rear area 393b side toward the suction discharge port 392, and the direction of the heat sink 395C of the heat exchange part 395. When the inclination angle 0 is smaller than when the heat exchange portion 395 is disposed in the longitudinal direction of the air-conditioning case 38, the ventilation resistance is further reduced, and the ventilation distribution by the heat exchange portion 395 is more uniform. Therefore, the dehumidification efficiency and the heating efficiency are further improved, and the air conditioning performance, the drying efficiency, the drying performance, and the quietness of the laundry dryer can be improved. Here, the direction in which the heat exchange portion 395 is disposed is preferably such that the heat exchange region 393 & is as close as possible to the shortest inclination direction a from the one end side rear portion 393b toward the suction discharge port 392. Fig. 10 is a plan view showing a dividing member under the unit casing of the air conditioning unit according to the embodiment of the present invention. Figure U is a vertical view of the split member below Figure 10. In Figs. 10 and 11, the heat exchange portion 393a has a heat exchange portion carrier 393a1 and a suction discharge side of the heat exchange portion 395 provided therein as a storage portion 63, and the heat exchange portion 5 attracts air. The bottom side of the unit case cover 38 having a higher introduction side is formed, and the accommodation area 394 is formed to have a bottom shape of the unit case 38 in a state lower than the reservoir portion 63 as shown in FIG. Thereby, the installation height of the compressor 37 of the unit casing 38 can be suppressed, and the center of gravity can be lowered. 19 201011231 Heat exchange unit carrier plate 393al is a heat exchange unit 395 which is placed upright and placed without a filter as shown in Fig. 3, and a part of the evaporator 31 is taken as a condensed water generated by the evaporator 31. And the discharged condensate drain tray 21, the portion of the condenser 32 that receives the heat exchange portion 395 is scratched from the portion of the evaporator 32, as the moisture removed from the washing material accompanying the circulating air or enters the circulation. The components of the system detergent or softener are separated before passing through the heat exchange portion 395 to receive the drained separation water drain tray 23 to substantially separate the partition walls 28 that separate the two. However, the drain port 22 is provided in the condensate drain pan 21, and the split water drain pan 23 is discharged through the condensate drain pan 21. φ 10 This water in the circulating air passes through the evaporator 31 and goes as condensed water.

Except that it is discharged from the condensate drain pan 21, there is no problem. When the component of the detergent or the softener having a high viscosity entering the circulating air enters the heat exchange portion 395 or the blower fan 15, it adheres to narrow the air passage, block the air, or increase the rotational resistance of the blower fan 15. Therefore, before the heat exchange unit 395 enters the heat exchange unit 395, the liquid 15 is separated, and the water is drained from the separation water drain tray 23 via the condensate drain pan 21 without burdening the drain pump 64. The gas-liquid separation of course also includes the water accompanying the circulating air. The G component of the highly viscous detergent or softener which has been separated by the gas-liquid separation is washed or diluted with the water of the gas-liquid separation, and the drainage pump 64 may be omitted. It is suitable for the burden. Therefore, the gas-liquid separation, the suction air introduction side of the heat exchange region 393a is formed in the divided member 382 under the unit casing 38, and the frame portion 24 and the inclined portion 25 are formed, and the frame portion is substantially horizontal from the rear wall of the unit casing 38. Extending to the front side, from the suction inlet port 391 and the rearward upward expansion portion 393d' including the one end side rear region 393b, the rearward suction surface 395a of the heat exchange portion 395 and the unit 20 201011231 between the rear walls of the casing 38 The air flowing downward is temporarily blocked at the intermediate position in the height direction shown in FIG. 4, FIG. 5 and FIG. 7 of the heat exchange portion 395, and then guided to the heat exchange portion 395 side from the frame portion 24 to the heat. The exchange unit table tray 393al is connected obliquely downward and connected to the air, and is guided by the suction guide 5 of the rack portion 5 to be integrated by the rearward suction surface 395a of the heat exchange portion 395 provided on the heat exchange portion carrier tray 393al. Thereby, the suction air introduced into the ventilation path 393 hits the frame portion 24 and is guided to the heat exchange portion 395 side while flowing downward from the suction introduction port 391 and the rear portion upward expansion portion 393d toward the heat exchange portion 395. Then, by this collision, the moisture removed from the strip accompanying the suction of the air, the detergent or the softener entering the circulation system is separated from the suction air. The components of the separated separated water, detergent or softener also have a flow of suction air, and the frame portion 24 is moved to the inclined portion 25 side and falls along the inclined portion 25. Specifically, the separated water is actively flushed to the side of the inclined portion 25, and after reaching the inclined portion side in the form of washing away the component of the detergent or the softener, the _ Ή attracts the flow of the air. The effect of human gravity falls along the inclined portion 25. The separated water or the like falling along the inclined portion 25 is blocked by the rib 26 shown in Fig. 5 and Fig. 11 at the lower portion of the inclined portion 25, and is shown as a receiving region 34 to the one end side as shown in the figure. The communication path 27 shown in Fig. 3 and Fig. u of the separation water drain pan 23 is discharged, and flows into the separation water drain pan 23. On the other hand, the bottom of the entire heat storage portion carrying tray 393a1 and the suction and discharge side 63 is reduced toward the drain port 22 provided in the condensate drain pan 2 . Further, the separation water drain pan 23 has a minute communication portion 29a with the partition wall 29 on the suction discharge side, and has a minute communication portion 28a with the partition wall 28 21 201011231 of the condensate drain pan 21. As a result, the separated water or the like that has flowed into the separation water drain pan 23 flows into the condensate drain pan 21 via the communication portion 28a, flows to the drain port 22 located in the condensate drain pan 21, and is drained by the drain port 22. When the pump 64 is malfunctioning or the like, the water overflows to the suction exhaust side, or the accumulated water flows into the separation water drain pan 23 via the communication portion 29a, and then flows to the condensate drain pan 22 via the communication portion 28a'. Arrived at the drain port 22. The communication portions 28a and 29a are provided with the heat exchange portion 395 on the heat exchange portion carrier plate 393al without providing a filter, and are set so that the water can smoothly pass through, and the wire residue or the high viscosity washing into the circulating air The ingredients of detergents or soft ones cannot pass directly through the size. Similarly, the communication portion 41 and the blocking projection 42 that do not pass the components of the slag, the detergent or the softener are provided in the flow path of the condensate drain pan 22 and the separation water drain pan 23. Even if the communicating portions 28a, 29a, 41 and the blocking projections 42 block the slag, the total amount thereof is small, so that the normal drainage is not affected. Conversely, the blocked swarf helps prevent the lotion from becoming 15 parts. The ingredients of the lotion prevent the passage of water, and the blocked water accumulates while the detergent is released, and the diluted detergent soon flows to the drain port 22. Here, the ingredients of the detergent or softener which enter the circulating air are effectively separated from the water removed from the strip accompanying the circulating air, and are drained after dilution, so that it is not The drain pump corrects the load or stops it. The communicating portion 41 is formed by cutting the intermediate portion of the partition wall 41a across the flow path into a V shape, and can surely restrict the passage of the components of the line slag, the detergent or the softener which are washed along the bottom, even if it is restricted. The line slag volume is slightly increased, and the passage of water is restricted, the water that is restricted is increased due to the volume increase, and the communication portion 41 is expanded upward to reduce the limit, 201011231, and the diluted detergent can be easily used. The ingredients flow together. 5 Φ 10 15 ❹ 20 Further, the frame portion 24 and the inclined portion 25 are effectively actuated by reducing the inner region of the lower portion of the unit casing cover 38, and as a result, the lower half of the unit casing 38 is rearward. The wall is provided with a recessed shape shown in Figs. 4 and 7 which is recessed toward the inside, and a space S which is open at the rear and below is formed under the frame portion 24. When the air-conditioning unit 39 or the air-conditioning fan unit 81 is disposed along the rear wall on the bottom of the washing machine body 44 as shown in Fig. 1, as shown in Figs. 1 and 4, it can be effectively utilized. The wiring space of the wiring performed by the air conditioner unit 39 or the air conditioner fan unit 81, the installation space of an external device such as a sensor, and the like. Further, the frame portion 24 and the inclined portion 25 are integrally formed on the side of the lower divided member 382, and the continuity thereof is easily ensured. The frame portion 24 is formed to be joined to the upper divided member 38 by the secant line 383 between the lower divided member 382 and the lower divided member 38. The joint flange 382a is slightly lower. The joint flange 382a accommodates the annular seal member 384 in the recess of the entire circumference thereof, and the rib of the joint flange 381a of the upper divided member 381 is fitted into the joint structure of the concave-convex fitting and clamping seal member 384 of the concave strip, and the sealing secant is sealed. 383 rooms. This joining and sealing system holds the engaging flanges 381a, 382a as shown in Fig. u, and is held stable by the screw locking portion 68 shown in Fig. 3 of a plurality of locking holes provided in the circumferential direction. Here, the hot parent changing portion 395 is placed on the housing region side 394, and the partition portion 386 of the ventilation path 393 and the housing region 394 is inserted into the upper and lower divided members 381, 382 as shown in FIG. 3 and FIG. The end portion of the opening 51 has a metal plate protruding forward and backward as shown in the fourth, sixth, and seventh figures, and a partition wall 52 having high corrosion resistance such as aluminum, and the partition wall 52 is inserted into the upper portion by 23 201011231 is formed on the edge of the opening, especially the longitudinal edge, on the side of the receiving area 394 - the position is defeated, and the rough sealing structure of the portion of the opening 51 of the road (four) weeping area 394 is suppressed. Further, the demon 1: the end of the opposite side of the portion 395, that is, the end portion on the side of the suction discharge port 392 = the hot money that is roughly embedded in the upward direction-body formed in the figure 382 shown in Fig. 6 and _ The suction of the Ministry of Health 393al (4) the side of the exit of the exit is located between the guides 53a, 53b of the front rear corner. By the end of these

The position heat exchange portion 395 is positioned at a predetermined position on the heat exchange portion carrier tray. 10 帛 12 is a unit cover of an air conditioning unit according to an embodiment of the present invention

The following figure of the cutting member. In Fig. 12, the heat exchange portion milk abuts against the inside of the top wall of the upper divided member 381 by the rib-shaped partition wall 54 formed from the partition wall 386a to the other end wall opposite thereto, and the partition portion (10) The upper edge of the opening 51 cooperates to prevent the heat exchange portion 395 from floating from the heat exchange portion 15 of the disk 393al. At the same time, in the heat exchange region 393a, the suction introduction air on the suction introduction side is prevented from bypassing from the periphery of the heat exchange portion 395 to the suction discharge side. The compressor 37 is positioned in the recess 394a of the bottom portion 394c of the receiving area 394 by the elastic seat 43, and is elastically supported, cushioned, and absorbing. With this configuration, it is possible to reduce the size, weight, and cost of the compressor 37 itself. Further, the elastic branch which is positioned by the elastic seat 43 in the concave portion 394a exerts a vibration absorbing effect on the vibration of the compressor 37, and also exerts a high cushioning action on the external vibration in the lateral direction during dehydration. For example, the compressor 37 is conventionally viewed as having a large volume of about 140 mm, and since it is reduced to about 9 mm, the necessary space of the receiving area 394 is reduced, so that the unit casing 38 is as large as conventionally known as 24 201011231. The air passage 393 and the heat exchange portion 395 provided therein are increased to improve the heat exchange efficiency' to improve the air conditioning performance.

Fig. 13 is a perspective view showing a combined state of a compressor and an elastic seat provided in an air conditioning unit according to an embodiment of the present invention. In Fig. 13, the compression machine 37 is positioned such that the elastic seat 43 (refer to Fig. 3) which is covered at the lower portion thereof has a small radial gap 45, and the member 381 is divided from the unit casing 38. As shown in Figs. 3 and 12, the downwardly projecting projection 145 is opposed to the predetermined gap 46 shown in Fig. 3 at the upper end of the compressor 37, and the recess 394a' from the compressor 37 is prevented from exceeding the allowable amount. Fall off. Specifically, the gap 45 is about 5 mm 10 and the gap 46 is about 5 mm. Here, the allowable amount of detachment is a range in which the vibration absorbing and buffering action of the compressor 37 is not impaired. Thereby, the compressor 37 compresses the elastic seat body 43 to the elastic supporting force of the elastic seat body 43 by its own weight, and is stable inside the recessed portion 39, and has a slight amount in the radial direction and the up-and-down direction in the housing area 394. The gap is 15 and the floating support. As shown in FIGS. 3, 5, and 13, the elastic seat body 43 has an annular leg portion 43a that is elastically supported opposite to the lower outer peripheral region of the compressor 37, instead of the simple structure, and the compressor 37 is improved. Vibration absorption of vibration. Further, the lower end of the leg portion 43a is inserted into the second concave portion 394b which is concentric and shallow in the concave portion 394a, and is restrained by the movement in the radial direction thereof, and the support force in the radial direction of the compressor 37 is raised at the lower end portion. 'And it is possible to slightly allow the foot portion 43a of the compressor 37 to be centered in the range of the aforementioned gap 45. Further, as shown in FIG. 3, FIG. 6, and FIG. 13, the elastic seat body 43 has a cover portion 43b' which is attached to the upper end of the ankle 43a and covers the outer periphery of the lower portion of the compressor 37 with a slight thickness. When the rocking of the compressor 37 exceeds the gap 25 of the above-mentioned 25 201011231 in a certain specific radial direction, it may be compressed in a specific radial direction corresponding to the cover portion 43b between the recessed portion 39 and the inner circumference, so that the vibration can be shaken. The vibration absorption function can reduce the impact sound when the vibration is transmitted to the unit casing 38. The cover portion 43b is disposed on the outer circumference thereof, and the ribs 43c in the axial direction are disposed in the circumferential direction, and the vibration absorption by the compression between the inner circumference and the inner circumference of the concave portion 394a can be performed elastically and appropriately 5 degrees, and the compressor 37 can be used. The resilient support is within a predetermined radius within the recess 394a. Further, when the lid portion 43b forms an engagement concave portion that engages with a portion of the pipe protruding from the compressor 37 to the side of the main body portion, the rotation preventing structure of the elastic seat body and the compressor 37 is formed. Further, the elastic seat body 43 and the recessed portion _ 10 394 & can be placed together to prevent the rotation of the engaging portion or the stagnation portion. Further, the leg portion 43a of the elastic seat body 43 can be separated from the cover portion 43b and the like. In other words, it is a basic condition to seal the space between the recessed portion 3 94a and the lower end portion of the compressor 37 by the elastic member. As shown in Fig. 3, the bottom portion 15 39 of the recessed portion 394a is formed as shown in Fig. 3 The gap is slightly higher than the bottom of the heat exchange portion carrying tray 393a1 and the suction and discharge side 393a2, and the side of the receiving area 394 and the side of the air passage 393 are defined around the opening $1 of the heat exchange portion 395 sandwiching the partition portion 386. The lower portion a is further recessed to connect the receiving region 394 side to the separated water drain pan 23 on the side of the ventilation path 393. Specifically, the connecting path 27 is connected, and the connecting 20 passage path 47 is formed at the bottom portion 394c. The heat exchange portion 395 is provided. Further, the inner peripheral wall of the concave portion 394a is extended to the upper portion 394c, and the annular rib 48 shown in Fig. 3, Fig. 4, Fig. 6, and Fig. 1 is formed. One of the aforementioned bottom portions 39 corresponds to the low temperature pipe 37a around the compressor 37. The lower part of the water droplets prevents the condensed water from dripping. As a result, the water from the low temperature pipe 37a is in operation 26 201011231, and the water is the bottom portion of the concave portion 39_, and the lower portion of the opening edge of the opening 51 of the blade/knife portion 386 The connected road formed by the level of the continent is #47, the flow is low to the bottom; the bottom water is separated from the separated water drain pan 23, and the separated water is discharged from the wire in the recess 394a, which is blocked by the rib 48, instead of one water hole, Can be deleted:: Water: = The external lead causes the drying efficiency at low temperature to decrease.

10, as described above, in the oblique direction of the longitudinal direction of the unit casing cover 38 of the heat exchange portion 395, the suction from the downstream air supply fan 15 to the suction bow discharge port 392 is discharged toward the front portion of the heat money portion 395 (four)%. It still operates as strongly as it is near the suction outlet 392. Therefore, on the side of the suction side of the heat contact portion, the condensed water generated when passing through the evaporator 31 from the side close to the suction discharge port 392 of the front discharge surface 395b of the heat exchange portion 395 is sucked to the discharge surface 395b side, through The discharge port 392 is sucked and sucked into the blower fan 15. 15 Fig. 14 is a view from the suction discharge side obliquely in the state of Fig. 6.

A partial perspective view of an air conditioning unit according to an embodiment of the invention. Fig. 15 is a side view of the air conditioning unit according to the embodiment of the present invention as seen from the side of the accommodating area. In the fourth embodiment, in the present embodiment, the guide member 53a is extended to the upper side of the end portion of the end portion of the heat exchange portion carrying tray 393a, and the upper portion of the guide member 53a is formed to block the force of the suction and discharge port 392. A shielding wall 56 that attracts the condensed water of the action. Further, in Fig. 15, the strong suction action is such that the blower fan 15 connected to the suction discharge port 392 has a dome-shaped case 15b, and the blow-out portion 15d (see Fig. 12) is disposed in a positional relationship in which the rear portion is erected upward. The corner portion of the half portion and the lower end portion of the lower end edge of the lower end of the suction discharge port 392 along the discharge surface 395b of the heat exchange portion 395. Accordingly, the shielding wall 56 is as shown in FIG. 3, FIG. As shown in Fig. 11, the guide member 53a may be included, and the stepped shape of the simple shape will cover the discharge surface of the heat exchange portion 395 by a minimum of 30%, and in other respects, in order to prevent the shield wall 56 from shrinking the discharge surface as much as possible. When the projection portion 53& is protruded from the temple shown in Fig. 6 from the discharge surface 395b, the shielding wall 56 of the guide member 53& is in the suction discharge port 392 which is concentric with the fan 15a of the blower fan 15, and the shielding wall 56 is opened. As shown in Fig. u, the circular longitudinal straight edge 392b' having a circular shape around the axis of the fan 15a which narrows the suction discharge port 392 protrudes to the axial side, and the suction of the heat exchange portion 395 is easily prevented.丨φ ίο Inhalation of water from the outlet. Similarly, the lower edge of the suction discharge port 392 is also formed in a lateral straight edge 392c which is reduced upward toward the axis to the same height as the heat exchange portion carrying tray 393al, and restricts the suction of moisture at the bottom of the reservoir portion 63. The suction port of the unit casing 38 is connected to the blower fan 15 as shown in Fig. 3, and has a gap in the inner circumference of the suction and discharge port, and the fitting housing 15 has a screw 15& The port _15cl is connected, and the front end of the connecting cylinder 15cl is crimped to the flange wall 392a of the inner circumference of the suction port 392, and the screw casing 15b and the air-conditioning casing 38 are connected to the suction port. © a plurality of, for example, three or more screw-connecting portions 62 around the portion, the crimping state is maintained, and the connecting portion is easily sealed. Thereby, it can be omitted that the cost of the product and the running cost of the 20-piece member of the consumables are reduced. Further, when the unit casing is composed of three divided members, the advantage of the capacity reduction of each of the molded articles is also apt to respond to complicated shapes. When applied to the example shown in the figure, referring to Fig. 8, the singulation line (two-point chain line) 61 adjacent to the outer surface of the unit casing 38 is provided on the simple horizontal plane shown in Fig. 8 and will be at 28 201011231 In the upper divided member 381, the portion below the top wall of the heat exchange region 303al, the portion above it, that is, the upwardly expanding region 393d, the suction introduction port 391, and the upper portion of the receiving H domain 394 are This lining 61 continuous sealing member of the whole week, when the outer seal is sealed outside the lake, can be characterized by the above-mentioned embodiment of the 2 minute 5 gin 10 15 20 cutting structure. . According to the present invention, the sealing structure of the accommodating area of the compressor and the venting path of the evaporator and the condenser can be omitted, and the product cost and the running cost are reduced. [Circle type simple green " Ming] Fig. 1 is a side view showing an air conditioning unit according to an embodiment of the present invention installed in a drum type washing and drying machine. Fig. 2 is a rear view showing the arrangement of an air conditioning unit according to an embodiment of the present invention in a drum type washing and drying machine. Fig. 3 is a cross-sectional view showing an air-conditioning fan unit in which an air-conditioning unit according to an embodiment of the present invention is connected to a blower fan. Fig. 4 is a cross-sectional view showing a housing area of a compressor of an air conditioning unit according to an embodiment of the present invention and a rear portion of the air passage unit. Fig. 5 is a cross-sectional view showing an air conditioner according to an embodiment of the present invention. Fig. 6 is a plan view showing the air conditioning unit of the present embodiment by removing the dividing member above the unit casing. Fig. 7 is a perspective view of the air conditioning unit of the embodiment 29 201011231 of the present invention viewed from the oblique side in the state of Fig. 6. Fig. 8 is a perspective view showing the appearance of an air conditioning unit according to an embodiment of the present invention as seen from the front side. Fig. 9 is a plan view showing the outside of the air conditioning unit according to the embodiment of the present invention from the upper portion. Fig. 10 is a plan view showing a dividing member under the unit casing of the air conditioning unit according to the embodiment of the present invention. Figure 11 is a perspective view of the divided member below the 10th figure. Fig. 12 is a bottom view showing the upper and lower cutting members of the unit casing of the air conditioning unit according to the embodiment of the present invention. Fig. 13 is a perspective view showing a combined state of a compressor and an elastic seat provided in an air conditioning unit according to an embodiment of the present invention. Fig. 14 is a partial perspective view of the air conditioning unit according to the embodiment of the present invention as seen obliquely from the suction and discharge side in the state of Fig. 6. Fig. 15 is a side view of the air conditioning unit according to the embodiment of the present invention as seen from the side of the storage area. [Main component symbol description] 1...Drum type washing and drying machine 11...Clothing type entrance and exit 2...Rotary drum 12...Water injection line 3...Sink 13...Drainage line 5.. Circulating air supply path 15...air supply fan 7...motor 15a...fan 8...through hole 15b...spiral case 9··. door 15c... suction port 30

201011231 15cl...Connecting cylinder 15d...Blowing out section 16.. Circulating air introduction line 21.. Condensate draining tray 22..Draining port 23.. Separating water draining tray 24.. 25.. inclined portion 26... rib 27.. communication path 28.. partition wall 28a... communication portion 29.. partition wall 29a... communication portion 31.. evaporator 32.. 33.. Air supply line 35.. Filter 36... Transition chamber 37.. Compressor 3 7a... Low temperature piping 38·.·Unit housing (air conditioning cover) 39.. Air conditioning fan unit 41. .. communication portion 41a... partition wall 42.. blocking protrusion 43.. elastic seat 43a... foot portion 43b... cover portion 43c... rib 44.. washer dryer body 45 ... gap 46.. gap 69.. communication path 48... rib 51.. opening 51a... guiding groove 52.. partition wall 53a... guide 53b... guide 54.. Partition wall 56.. shielding wall 56a... protruding portion 61.. secant line 62.. joint portion 63.. storage portion 64.. drainage pump 65.. drain circuit 31 201011231 66.. operation Panel 67.. Control substrate 68.. Screw locking part 81.. Air conditioning fan unit 101.. Valve mechanism (drainage mechanism) 101a... Drain port 101b... Check valve 101c ...hook portion 101d...mounting hole 111.. gap 303al...heat exchange region 381.. upper dividing member 381a...joining flange 382.. lower dividing member 382a...joining convex Edge 383.. . secant line 384... sealing material 386... dividing portion 3 86a... upper dividing wall 386b... lower dividing wall 391... suction introduction port 392.. suction suction port 392a... convex Edge wall 392b...longitudinal straight edge 392c...transverse straight edge 393.. ventilation path 393a...heat exchange area 393al...heat exchange part carrier disk 393b...end side rear area 393c.. The longitudinally curved region 393cl...the undulating shape portion 393d...the rear portion upwardly expanding region 394..the receiving region 394a...the recessed portion 394b...the second recessed portion 394c...the bottom portion 395.....the heat exchange Part 395a... suction surface 395b... discharge surface 395c... heat sink 396.. water accumulation part A... direction 5.. space 32

Claims (1)

201011231 VII. Patent application scope: 1. An air conditioning unit is provided in a unit casing having a suction introduction port of circulating air and a suction discharge port of circulating air, and is provided with ventilation at the suction introduction port to the suction discharge port. In the middle of the path, an evaporator and a condenser for dehumidifying and heating the circulating air, and a compressor for circulating the refrigerant in the evaporator and the condenser, and the air unit is characterized in that: the evaporator and the condenser are The mutually radiating fins are arranged in a heat exchange portion arranged side by side, and the heat exchange portion has a suction discharge port surface formed by the suction discharge port and an opening surface of the evaporator or the condenser in the ventilation path of the unit casing Form a state relative to less than a right angle. 2. An air conditioning unit, which is disposed in a unit casing having a suction inlet port for circulating air and a suction discharge port for circulating air, and is provided with a circulating air in the middle of the ventilation path from the suction introduction port to the suction port. a dehumidifying and heating evaporator and a condenser, and a compressor for circulating a refrigerant in the evaporator and the condenser, and the air unit is characterized in that: the evaporator and the condenser are mutually arranged with a heat sink a heat exchange portion that is integrated into the heat exchange portion, wherein the heat exchange portion has a suction discharge port surface formed by the suction discharge port and an opening surface of the evaporator or the condenser in the ventilation passage of the unit casing Form a state relative to less than a right angle. 3. The air conditioning unit according to claim 1 or 2, wherein the unit casing 33 201011231 has a rectangular parallelepiped shape, and the storage area of the compressor is disposed at one end side of the long direction from the storage area to the other end side. The ventilation passage is divided from the storage area, the suction introduction port is provided in a rear wall of the ventilation duct, and the suction discharge port is provided in the vicinity of a front portion of an end wall of the other end of the unit casing. 4. The air conditioning unit according to claim 1 or 2, wherein the heat exchange portion is set to be in a direction in which the longitudinal direction of the unit casing is aligned in the ventilation path, or is set to be long with respect to the long direction. The suction introduction port side to the suction discharge port side is inclined from the front side to the rear side. 5. The air conditioning unit according to claim 1 or 2, wherein in the unit casing, the suction discharge port surface and the suction discharge port surface formed by the suction discharge port and the evaporator or the condenser are The length of the evaporator or the condenser is the largest at the angle formed by the opening surface. 34