JP4589140B2 - Integrated air conditioner - Google Patents

Description

  The present invention relates to an integrated air conditioner, and more particularly to an integrated air conditioner that uses a unit as a cold air fan or a dehumidifier in a room.

  Conventionally, when it is not possible to install a separate type air conditioner due to the difficulty of connecting refrigerant pipes due to room layout, etc. Integral type cool air fans with built-in small capacity compressors and refrigeration cycles are used. This cool air blower blows out the cool air cooled by the evaporator from the front outlet and simultaneously blows out the warm air exhausted by the condenser from the back.

FIG. 7 is a schematic cross-sectional view of the side of a conventional integrated air conditioner. A cold air inlet a is provided from the center to the lower part of the front of the housing, and a cold air outlet b is provided above the cold air inlet a. A hot air inlet c is provided from the center to the upper part of the back of the body, a hot air outlet d is provided below the hot air inlet c, and a cold air inlet a, an evaporator e, a cold air fan f, The blower outlet b is connected to form a cool air blowing path g, and the hot air inlet c, the condenser h, the hot air fan i, and the hot air outlet d are connected to connect the hot air blow path j. By providing a bypass ventilation path k that communicates the cooling air blowing path g and the warm air blowing path j, and the bypass ventilation path k includes a damper l that switches all the cooling air of the cooling air blowing path g. A cool air blower that blows out cool air from the front and exhausts heat from the back, and a condenser that cools the air after dehumidification by condensation on the evaporator That also serves as a function of the dehumidifier to use heating and there was. (For example, see Patent Document 1)
Japanese Patent Publication No. 7-104209

However, in this conventional one, condensation is generated on the outer wall due to cooling of the outer wall facing the cooling air blowing path, and the outer wall surface, floor, and the like may be soiled.
Also, since the use as a cold air blower is only in summer, the damper is located on the warm air blowing path side and is used as a dehumidifier for a long period from autumn to the spring of the following year. Insects such as dust and spiders enter the air passage between the damper and the cool air outlet, so when using the cool air by switching the damper in summer, a large amount of dust and insects In some cases, dead bodies and the like were blown out, giving the user discomfort.

This invention pays attention to this point, and in order to solve the above-mentioned drawbacks, an evaporator, a cool air fan, a cool air blowing path and a condenser, a hot air fan, and a warm air blowing path are arranged adjacent to each other through a partition in the casing. The cold air blowing path is formed by communicating a cold air inlet, an evaporator, a cold air fan, and a cold air outlet, and the hot air blowing path is a hot air inlet, a condenser, and hot air. A blower outlet that forms the cold air outlet by providing a bypass portion that communicates the air passage for the cold air and the air passage for the hot air in the vicinity of the air outlet for the cold air A frame and an inner wall of a bypass part for guiding the cool air to the warm air blowing path are integrally provided , the air direction in the left-right direction is adjusted to the air outlet for the cold air, and the air outlets for the inner and outer sides can be closed. A louver formed substantially in parallel is provided, and a part of the louver is formed. The bypass obstruction or narrowing auxiliary plate provided, is intended for closing the cold air outlet doubly by the louver during dehumidifying operation.

According to the present invention, the bypass portion inner wall that guides the cold air to the hot air blowing path is integrally provided, so that the cold air can be smoothly guided to the hot air blowing path, and the bypass portion inner wall and the left frame Condensation does not occur in the space, and assembly work is also simplified.
In addition, the louver closes the air outlet for cold air during dehumidifying operation, so even if the air is not used for a long period of time, dust and insects will not enter the inside of the air outlet for cold air. Dust and dead carcasses blown out from the cold air outlet and no longer discomfort the user.
Further, since the cold air outlet is automatically closed twice during the dehumidifying operation, the outer surface of the louver is prevented from being condensed by the cold air.

  Next, an embodiment of the present invention will be described with reference to the drawings.

  Reference numeral 1 denotes a casing of an air conditioner, which includes a bottom plate 2 and a right frame 3 and a left frame 4 that are engaged at the center of the front, top, and back surfaces. The casing 1 includes an evaporator 5, a condenser 6, a compressor 7, and the like of a refrigeration cycle. A cool air fan 8 is provided downstream of the evaporator 5, and hot air is provided downstream of the condenser 6. The cooling fan 8 is provided, and the blower motor 10 that rotates the cold air fan 8 and the hot air fan 9 on the same shaft is fixed to the cold air fan 8 side of the partition wall 11.

  The right frame 3 is provided with a cold air inlet 12 from the center to the upper part of the right side surface, and the cold air inlet 12 is covered with a filter 13 for removing dust in the intake air. A tank hole 15 for attaching and detaching the drain tank 14 is provided below the cold air inlet 12. When the drain tank 14 is mounted, the outer surface of the drain tank 14 is formed flush with the outer surface of the right frame 3. Above the cold air inlet 12, a handle recess 16 during transportation is formed integrally.

  The left frame 4 is provided with a hot air inlet 17 from the center to the upper part of the left side surface, and the hot air inlet 17 is covered with a filter 13 like the cold air inlet 12. In addition, a concave portion 16 having the same shape is integrally formed at a position facing the concave portion 16 for holding on the right frame 3.

  A front panel 18 is provided above the mating surface of the right frame 3 and the left frame 4 in the lower center of the front surface, and a cold air outlet 19 is provided above the front panel 18. The cold air outlet 19 is provided with a pair of left and right vertical louvers 20 that adjust the direction of the cold air in the left-right direction and close the cold air outlet 19 during stoppage or dehumidifying operation. A large number of lateral louvers 21 for adjusting the wind direction are attached.

On the right side of the partition wall 11, the cold air inlet 12, the evaporator 5, the cold air fan 8, and the cold air outlet 19 are communicated to form a cold air blowing path 22, and on the left side of the partition wall 11. The hot air inlet 17, the condenser 6, the hot air fan 9, and the hot air outlet 23 communicate with each other to form a hot air blowing path 24.
The cold air blowing path 22 on the left side of the cold air blowing outlet 19 is provided with a bypass portion 25 communicating with the hot air blowing path 24 between the condenser 6 and the hot air suction port 17, and cool air is supplied during the dehumidifying operation. It is led to the condenser 6 and heated.

26 is a blower outlet frame that is superposed on the inside of the front panel 18 to form a cool air blower outlet 19 and is formed integrally with the inner wall 27 of the bypass portion 25 to smoothly blow cool air during dehumidifying operation. The route 24 is guided.
In addition, the sealed space provided between the bypass portion inner wall 27 and the left frame 4 prevents condensation of the bypass portion inner wall 27 and the left frame 4 facing the bypass portion 25 due to the cold air directly applied during the dehumidifying operation. .
The vertical louver 20 has two inner and outer blades formed substantially in parallel with each other, and a horizontal louver 21 is rotatably provided between the two blades. A large number of the horizontal louvers 21 are connected to each other. The angle of each lateral louver 21 is made constant by being connected by (not shown).

An auxiliary plate 28 is provided inside the left side of the vertical louver 20, and the vertical louver 20 is automatically closed by a louver motor 29 during dehumidifying operation or operation stop, and the auxiliary plate 28 is interlocked with the vertical louver 20. Continuing with the inner blades of the vertical louver 20, the cold air outlet 19 is closed twice to prevent the outer surface of the vertical louver 20 from condensing with the cold air.
The louver motor 29 has a mechanism for simultaneously rotating the shafts of the two vertical louvers 20 and the auxiliary plate 28 and uses a DC step motor.

  Reference numeral 30 denotes an operation unit provided on the front side of the upper surface of the housing 1, and includes an operation switch 31 for stopping operation, a mode change switch 32 for switching between cold air operation and dehumidification operation, a timer switch 33, and the like, and an operation state. A number of lamps 34 for display are provided.

  The hot air outlet 23 is located from the rear side to the back side of the upper surface of the housing 1, and the hot air blowing direction is switched between the upward direction and the backward direction by switching the exhaust louver 35. The exhaust louver 35 is the same plane as the upper surface, covers the hot air outlet 23 on the upper surface side, and a rotating shaft provided on the left and right inside the hot air outlet 23 from the rear exhaust position where the hot air is exhausted backward. The exhaust louver 35 covers the hot air outlet 23 on the rear surface side and is warmed upward while the exhaust louver 35 slightly protrudes from the rear surface by manually turning backward about 90 degrees with a fulcrum (not shown) as a fulcrum. Is to exhaust.

  Reference numeral 36 denotes an exhaust duct, which includes a duct main body 37 formed of a flexible thin film material such as cloth or polyethylene, and a connector 38 attached to one end of the duct main body 37 with a magic tape or the like. The duct main body 37 is made of plastics, and a reinforcing ring 39 having a diameter of about 15 cm is sewn into a plurality of thin films in order to prevent the thin film from being crushed and increasing the blowing resistance.

On the back side of the hot air outlet 23, a duct mounting portion 41 having U-shaped grooves 40 is formed integrally with the right frame 3 and the left frame 4 around the left and right sides and the lower side of the outlet 23. Has been.
In order to attach the exhaust duct 36 to the hot air outlet 23, it is confirmed whether the exhaust louver 35 is on the upper surface side and the hot air blowing direction is set on the rear side, and the connection tool 38. Is inserted into the groove 40 of the duct mounting portion 41 from above, the duct main body 37 is extended, and the other end is taken out of the room or the hallway through a window or the like. Is completed.

  Reference numeral 42 denotes a storage cover that is located on the back surface of the housing 1 and below the hot air outlet 23. A storage space for the exhaust duct 36 is formed in a space between the storage cover 42 and the fan case 43 of the fans 8 and 9. 44 is formed.

  The fan case 43 is formed integrally with the partition wall 11 by resin molding, or is provided separately and assembled by engagement of claws or the like.

The evaporator 5 and the condenser 6 are fin tube type heat exchangers in which a copper tube penetrates a large number of aluminum fins having good thermal conductivity.
A compressor 7 is provided on the bottom plate 2, and the compressor 7, the condenser 6, an expansion device (not shown) such as a capillary tube, the evaporator 5, etc. are sequentially communicated with refrigerant pipes to perform a refrigeration cycle. Forming.
A drain pan (not shown) is provided below the evaporator 5, and condensed water generated in the evaporator 5 is collected by the drain pan and stored in the drain tank 14.

  A control unit 45 is connected to switches such as the operation switch 31 and the mode change switch 32 and a temperature sensor 46 and a humidity sensor 47 on the input side, and to the blower motor 10, the compressor 7 and the louver motor 29 on the output side. And a lamp 34 are connected to change the operation mode, the amount of air blown, etc. according to the operation of the switch at the operation unit 30 and the signals of the sensors 46 and 47.

Explaining the air flow path during cold air operation, the air sucked from the cold air inlet 12 is dedusted by the filter 13, cooled by the low temperature evaporator 5, passed through the cold air fan 8, Cold air is guided and blown out from the outlet 19 by the vertical louver 20 and the horizontal louver 21.
At the same time, the air sucked from the hot air suction port 17 is dust-removed by the filter 13, heated by the high-temperature condenser 6, passed through the hot air fan 9, and warm air from the hot air outlet 23. If the exhaust duct 36 is connected to the hot air outlet 23, the exhaust duct 36 exhausts the air to the outside.

  Explaining the air blowing path during the dehumidifying operation, the air sucked from the cold air inlet 12 removes dust by the filter 13 and is cooled by the low temperature evaporator 5 to remove moisture in the air. The cooling air is passed through the fan 8 toward the cold air outlet 19, but since the cold air outlet 19 is closed by the vertical louver 20 and the auxiliary plate 28, the cold air passes through the bypass portion 25 and is sent to the condenser 6. Then, the air heated by the condenser 6 passes through the hot air fan 9, and the dried air is blown out from the hot air outlet 23. The dry air is used to dry the laundry and dehumidify the room.

As described above, the bypass portion inner wall 27 that guides the cold air to the hot air blowing path 24 is integrally provided, so that the cold air can be smoothly guided to the hot air blowing path 24 and the Condensation does not occur due to the space with the frame 4, and the assembling work is simplified.
Further, since the cold air outlet 23 is closed by the vertical louver 20 during the dehumidifying operation, even when the cold air operation is not used for a long period of time, dust, insects, etc. do not enter the inside of the cold air outlet 23. When used, the dust and insect carcasses blown out from the cold air outlet 23, and the user is no longer discomforted.
Moreover, since the cold air outlet 23 is automatically closed twice during the dehumidifying operation, the surface of the vertical louver 20 is not condensed by the action of the cold air, and the floor below the cold air outlet 23 is not contaminated with condensed water. It is.
Further, the louver motor 29 is operated only by operating the mode changeover switch 32, and the cold air operation and the dehumidifying operation can be easily switched.

The perspective view at the time of the cold wind driving | operation of one Example of this invention. The perspective view at the time of the dehumidification driving | operation. The principal part plane expanded sectional view at the time of the cold wind driving | operation. The principal part plane expanded sectional view at the time of the dehumidification driving | operation. . The perspective view which shows attachment of the same exhaust duct. The block diagram of the control circuit. The schematic sectional drawing of a prior art example.

Explanation of symbols

4 Left frame 5 Evaporator 6 Condenser 12 Cooling air inlet 17 Hot air inlet 19 Cold air outlet 20 Vertical louver 22 Cooling air blowing path 23 Hot air outlet 24 Hot air blowing path 25 Bypass section 26 Blowing Exit frame 27 Bypass section inner wall 28 Auxiliary plate

Claims (1)

An evaporator, a cool air fan, a cool air blow path and a condenser, a hot air fan, and a warm air blow path are disposed adjacent to each other via a partition in the housing, and the cool air blow path is a cold air suction port and an evaporator. The hot air fan and the cold air outlet are formed in communication with each other, and the hot air blowing path is formed in communication with the hot air inlet, the condenser, the hot air fan, and the hot air outlet. A bypass part that connects the cold air blowing path and the hot air blowing path is provided in the vicinity of the cold air blowing outlet, and a bypass frame that forms the cold wind blowing outlet, and a bypass part that guides the cold air to the hot air blowing path. An inner wall is provided integrally, the air outlet in the left-right direction is adjusted at the air outlet for cold air, a louver capable of closing the air outlet for cold air and having inner and outer blades formed substantially parallel to each other is provided. And an auxiliary plate that closes or squeezes the bypass part. Integral type air conditioner which is characterized in that for closing the cold air outlet doubly by the louver during operation.

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