JP2007040608A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner, capable of locally cooling an electric part which is heating by effectively ventilating a control device. <P>SOLUTION: In the air conditioner adapted to perform switching between cooling operation or heating operation by selectively supplying refrigerant compressed by a compressor 3 provided on an outdoor unit 1 to an indoor heat exchanger 8 or an outdoor heat exchanger 4, the outdoor unit 1 comprises a heat exchanger chamber 33, a compressor chamber 30, a control device chamber 32 storing the control device 7, and a gas enriching device chamber 31 storing a suction fan 21 and a gas enriching device enriching the air sucked by the suction fan 21. This air conditioner comprises a ventilation passage for sucking the air within the compressor chamber 30 and the control device chamber 32 by the suction fan 21 and feeding it to the gas enriching device. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an air conditioner capable of effectively cooling heat generated by an electrical component such as a microcomputer used in a control device at low cost.

  FIG. 1 is a block diagram schematically showing a configuration of a conventional separate type air conditioner. In FIG. 1, the indoor unit 2 includes an indoor heat exchanger 8, an indoor fan 9, an indoor fan motor 10 that is a drive source of the indoor fan 9, and a control device 11. The outdoor unit 1 and the indoor unit 2 are connected by a connection pipe 12 so that the refrigerant can circulate, and are electrically connected by an electric wire 13.

  The outdoor unit 1 includes a compressor 3, an outdoor heat exchanger 4, an outdoor fan 5, an outdoor fan motor 6 that is a driving source of the outdoor fan 5, and a control device 7. There is provided a gas enrichment device including an intake fan 21 that sucks in air, a gas enrichment film 22 that enriches the suctioned air with a gas, and a pump device 23 that sends the gas enriched air to the indoor unit 2.

  The outdoor unit 1 includes a compressor 3, a compressor chamber 30 in which a four-way valve (not shown) and the like are disposed, a gas enrichment chamber 31 in which a gas enrichment film 22, a pump device 23, and the like are disposed, and an air It has a control device chamber 32 in which a control device 7 and the like for controlling the operation of the conditioner are arranged, and a heat exchanger chamber 33 in which the outdoor fan 5, the outdoor heat exchanger 4 and the like are arranged. In the conventional air conditioner, the gas enrichment device chamber 31, the compressor chamber 30, the control device chamber 32, and the heat exchanger chamber 33 are separated, and the outside air sucked by the intake fan 21 from the suction port 20. Is supplied to the gas-enriched film 22, decompressed by the pump device 23, and sent to the indoor unit 2 through the blower pipe 24.

The control device 7 includes a large number of electrical components such as a microcomputer, a switching element that switches at a high voltage, and generates heat when used for a long time. Therefore, the control device chamber 32, the compressor chamber 30 and the heat exchanger chamber 33 can be ventilated, and the electrical components in the control device chamber 32 are cooled by the air sent by the outdoor fan 5 (Patent Literature). 1).
JP 2004-170057 A

  However, in the air conditioner disclosed in Patent Document 1, a large amount of wind cannot be sent to the control device room 32, and since the air is not blown to the entire control device room 32, heat is generated locally. There is a problem that it is difficult to effectively blow air to the parts.

  The present invention has been made in view of the above-described circumstances, and an object thereof is to provide an air conditioner that can effectively ventilate a control device room and locally cool an electrical component that is generating heat. And

  In order to achieve the above object, an air conditioner according to the present invention selectively supplies a refrigerant compressed by a compressor provided in an outdoor unit to an indoor heat exchanger or an outdoor heat exchanger to perform cooling operation or heating. In the air conditioner that switches operation, the outdoor unit includes a heat exchanger chamber, a compressor chamber, a control device chamber that houses a control device, an intake fan, and a gas that enriches the air sucked by the intake fan. And a gas enrichment chamber for accommodating the enrichment device, wherein the intake fan sucks air in the compressor chamber and the control device chamber and provides a ventilation path for feeding the air into the gas enrichment device. .

  In the present invention, the compressor room, the control unit room, and the gas enrichment unit room of the outdoor unit can be ventilated, and the air in the control unit room and the compressor room is sucked in by the intake fan in the gas enrichment unit room. By sending the air to the control device, local ventilation can be realized, and the heat generating electrical components in the control device chamber can be effectively cooled.

  In the air conditioner according to the present invention, the ventilation path is one or a plurality of suction ports provided between the control device chamber and the gas enrichment device chamber, and the position of the suction port is determined by the control device. It can be changed according to the heat generation distribution of the chamber.

  In the present invention, one or a plurality of suction ports are provided as a ventilation path between the control device chamber and the gas enrichment device chamber, and the attachment position of the suction ports can be changed according to the heat distribution in the control device chamber. . Thereby, according to the heat generation state of the electrical component in the control device room, the suction port can be arranged at a position where the ventilation part directly acts on the electrical component that is generating heat, and heat is generated in the control device room. It is possible to effectively cool the electrical components.

  The air conditioner according to the present invention is characterized in that the suction port and the intake fan are connected by a duct having flexibility.

  In the present invention, the suction port and the intake fan are connected by a duct having flexibility. As a result, the installation position of the duct can be changed flexibly, and the suction port is arranged at a position where the ventilation is directly applied to the electrical component that generates heat according to the heat generation state of the electrical component in the control device room. By doing so, it is possible to effectively cool the electrical components that are generating heat.

  The air conditioner according to the present invention is characterized in that the intake fan is provided in an upper part of the control device room.

  In the present invention, the intake fan is provided in the upper part of the control device chamber. As a result, by sucking the air in the control device room by the intake fan in the gas enrichment device room and sending it to the gas enrichment device, it is possible to realize local ventilation in the control device, and to generate heat in the control device room. It becomes possible to cool the electrical component which is present more effectively.

  According to the present invention, the compressor room, the control unit room, and the gas enrichment unit room of the outdoor unit can be ventilated, and the air in the control unit room and the compressor room is sucked by the intake fan in the gas enrichment unit room. By sending the gas to the gas enrichment device, local ventilation can be realized, and the heat generating electrical components in the control device chamber can be effectively cooled.

  Hereinafter, the present invention will be described in detail with reference to the drawings illustrating embodiments thereof. FIG. 2 is a block diagram schematically showing a main configuration of the air conditioner according to the embodiment of the present invention. In FIG. 2, the indoor unit 2 of the air conditioner according to the present embodiment includes an indoor heat exchanger 8, an indoor fan 9, an indoor fan motor 10 that is a drive source of the indoor fan 9, and a control device 11. . The indoor unit 2 is connected to the outdoor unit 1 through the connection pipe 12 so that the refrigerant can circulate, and is connected to the outdoor unit 1 by an electric wire 13.

  The outdoor unit 1 includes a compressor 3, an outdoor heat exchanger 4, an outdoor fan 5, an outdoor fan motor 6 that is a driving source of the outdoor fan 5, and a control device 7. In the upper part of the outdoor unit 1, an intake fan 21 that sucks air through a suction port 20, a gas-enriched film 22 that enriches the sucked air with gas, and a pump that sends the gas-enriched air to the indoor unit 2. A gas enrichment device provided with the device 23 is provided. The gas enrichment apparatus is an apparatus that uses a selective gas permeable membrane, an adsorbent such as a PSA method, and relatively improves the concentration of a specific gas such as oxygen or nitrogen.

  For example, an oxygen enrichment device that improves the oxygen concentration sends oxygen-enriched air to the indoor unit 2 via the delivery pipe 27 and releases it to the indoor side to improve the oxygen concentration in the indoor air-conditioned space. Maintain and improve comfort.

  When performing the cooling operation, a four-way valve (not shown) is switched to the cooling operation side, and the refrigerant circulates from the compressor 3 to the compressor 3 via the outdoor heat exchanger 4 and the outdoor heat exchanger 8. . When performing the heating operation, a four-way valve (not shown) is switched to the heating operation side, and the refrigerant circulates from the compressor 3 to the compressor 3 via the indoor heat exchanger 8 and the outdoor heat exchanger 8. .

  The outdoor unit 1 includes a compressor 3, a compressor chamber 30 in which a four-way valve (not shown) and the like are disposed, a gas enrichment chamber 31 in which a gas enrichment film 22, a pump device 23, and the like are disposed, and an air It is divided into a control device chamber 32 in which the control device 7 and the like for controlling the operation of the conditioner are arranged, and a heat exchanger chamber 33 in which the outdoor fan 5, the outdoor heat exchanger 4 and the like are arranged. The air conditioner according to the embodiment of the present invention is provided between the gas enrichment device chamber 31 and the control device chamber 32, between the control device chamber 32 and the compressor chamber 30, and preferably between the compressor chamber 30 and the heat. Ventilation with the exchanger chamber 33 is possible, and the air in the control device chamber 32 sucked in by the intake fan 21 is supplied to the gas enriched film 22, and the pressure is reduced by the pump device 23, and the delivery pipe 27 is connected. It has a feature in that it is sent to the indoor unit 2 through.

  FIG. 3 is a diagram showing a positional relationship between the intake fan 21 and the suction port 20. In the air conditioner according to the embodiment of the present invention, a plurality of suction ports 20a, 20b, 20c,... Are provided between the gas enrichment device chamber 31 and the control device chamber 32. A duct 25 having flexibility is connected to any one of the suction ports 20.

  That is, the electrical component 24 such as a chip board of a microcomputer arranged in the control device chamber 32 has a portion where heat generation is large and a portion where heat generation is small depending on the specification. Therefore, depending on the position where the air is sucked by the intake fan 21, the ventilation does not pass through a portion where heat generation is large, and the cooling effect may not be expected. Therefore, a plurality of suction ports 20a, 20b, between the gas enrichment device chamber 31 and the control device chamber 32 so that the position of the suction port 20 can be changed in accordance with the large heat generation portion of the electrical component 24. 20c,... Are provided, and the suction port 20 and the intake fan 21 that are close to the portion where heat is generated are connected by a duct 25.

  For example, when the heat generation is large in the A region of the electrical component 24, the suction port 20a at the left end in FIG. Thus, the ventilation path in the control device chamber 32 is changed to the A region side, and the cooling effect can be enhanced by directly applying the wind to the portion A region where the heat generation is large. Further, when heat generation is large in the area B of the electrical component 24, the suction port 20b in the center of FIG. 3 is connected to the intake fan 21. By connecting the air to the intake fan 21, it is possible to enhance the cooling effect by directing the wind directly to the portion B area or C area where the heat generation is large.

  The suction port 20 is not limited to being provided in plural as described above, and may be one in which the mounting position of the duct 25 can be changed by a slide mechanism or the like, for example. If the design specifications of the electrical component 24 such as the chip board of the microcomputer arranged in the chamber 32 are constant, and the portion with large heat generation and the small portion are constant, one suction port 20 is provided. May be.

  Further, as shown in FIG. 2, by providing an outside air intake port that takes in outside air into the compressor chamber 30, not only air suction by the intake fan 21 in the gas enrichment device chamber 31 but also outside air having a relatively low temperature is used. The cooling effect by the air passing through the control device chamber 32 can be expected.

  As described above, according to the present embodiment, it is possible to achieve local ventilation by sucking the air in the control device chamber and the compressor chamber into the gas enrichment device by the intake fan in the gas enrichment device chamber. Thus, it is possible to effectively cool the heat generating electrical components in the control device chamber.

It is a block diagram which shows typically the structure of the conventional separate type | mold air conditioner. It is a block diagram which shows typically the principal part structure of the air conditioner which concerns on embodiment of this invention. It is a figure which shows the positional relationship of an intake fan and a suction inlet.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Outdoor unit 2 Indoor unit 3 Compressor 4 Outdoor heat exchanger 7, 11 Control apparatus 8 Indoor heat exchanger 20, 20a, 20b, 20c Suction inlet 21 Intake fan 22 Gas enriched film 24 Electrical component 25 Duct 27 Delivery piping 30 Compressor room 31 Gas enrichment room 32 Control room 33 Heat exchanger room

Claims (4)

In an air conditioner that selectively supplies a refrigerant compressed by a compressor provided in an outdoor unit to an indoor heat exchanger or an outdoor heat exchanger to switch between a cooling operation or a heating operation,
The outdoor unit is
A heat exchanger chamber, a compressor chamber, a control device chamber containing a control device, and a gas enrichment device chamber containing a suction fan and a gas enrichment device that enriches the air sucked by the suction fan. Prepared,
An air conditioner characterized in that a ventilation path is provided for sucking air in the compressor chamber and the control device chamber by the intake fan and sending it to the gas enrichment device. The ventilation path is one or a plurality of suction ports provided between the control device room and the gas enrichment device room,
2. The air conditioner according to claim 1, wherein the position of the suction port can be changed according to the heat generation distribution in the control device room.   The air conditioner according to claim 2, wherein the suction port and the intake fan are connected by a duct having flexibility.   The air conditioner according to any one of claims 1 to 3, wherein the intake fan is provided in an upper part of the control device room.

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