KR200311125Y1 - Radiate means of inverter aircon - Google Patents

Abstract

The present invention relates to a heat dissipation structure of the outdoor unit of the inverter air conditioner, so that the heat dissipation of the controller can be normally performed even if the heat generation amount of the switching element is maximized.

The present invention is an inverter air conditioner in which the heat exchanger 3 and the compressor 9 are installed to operate by forming a refrigeration cycle, and the controller 13 is electrically configured with the compressor 9 in the case 1. In the outdoor unit of the heat pipe heat dissipation means 50 is installed in the switching element 15 that is a heat generating portion of the controller 13, the heat pipe heat dissipation means 50 is the switching element 15 of the controller 13 E) an evaporation unit 52 installed at a corresponding point to absorb heat of the switching element 15, a heat pipe 54 fixed to one side of the evaporation unit 52, and filled with a working fluid therein; It is composed of a condensation unit 56 provided on the other side of the heat pipe 54 to dissipate heat to the outside.

Description

Outdoor unit heat dissipation structure of inverter air conditioner {RADIATE MEANS OF INVERTER AIRCON}

The present invention relates to an outdoor unit heat dissipation structure of the inverter air conditioner.

As is generally known, an inverter air conditioner is capable of performing both a cooling function and a heating function. The inverter air conditioner can be appropriately used in an area where a seasonal change is accurately performed, and the inverter air conditioner is equipped with an outdoor unit and installed outside. In addition, the air conditioner outdoor unit is provided with a compressor, a controller (PCB) and a heat exchanger.

As shown in FIG. 1, an outdoor unit of a conventional inverter air conditioner includes a heat exchanger 3, a fan 5, and a motor 7 inside a case 1, and a refrigeration cycle with the heat exchanger 3 is performed. The compressor 9 is installed on the side of the heat exchanger 3 so as to be maintained, and the controller 13 is installed by forming the control chamber 11 on the compressor 9.

The fan 5, the motor 7, and the compressor 9 are operated by the control of the controller 13, and the controller 13 is automatically operated by an operation switch (not shown) of an inverter air conditioner (not shown). The controller 13 is configured such that many switching elements 15 such as an IPM, an IGBT, a bridge diode, etc. are used, and an electric circuit is formed. The switching elements 15 are all converted to heat when a current flows (power is used (loss)), and heat is transferred to the junction of the switching elements 15 while the switching elements 15 are converted to heat. As the temperature increases, the temperature in that area increases significantly.

By attaching a heat sink 17 to the junction of the switching element 15 to lower the elevated temperature, the heat sink 17 cools the heat of the switching element 15 It is to prevent failure due to malfunction and breakdown of equipment. The heat sink 17 is formed of an aluminum material, and the heat sink 17 absorbs heat of the switching element 15 to generate heat to the outside, and the amount of heat generated by the switching element 15 is less than or equal to a predetermined value. At 500W), it functions properly, but when the amount of heat generated by the switching element 15 is maximized (about 1KW or more), the size of the heat sink 17 must be maximized.

However, since the heat dissipation structure of the outdoor air conditioner of the inverter air conditioner is configured to dissipate heat by installing a heat sink 17 on the switching element 15, when the amount of heat generated by the switching element 15 is maximized (about 1 KW or more), the space is increased. Since the size of the heat sink 17 cannot be expanded indefinitely due to the constraints of the phase and the coupling state with the controller 13, the heat dissipation of the switching element 15 is not normally performed, and the heat dissipation of the switching element (controller) is normally performed. There was a problem causing the breakdown of the air conditioner outdoor unit itself.

The object of the present invention is to provide a heat dissipation structure of an outdoor unit of an inverter air conditioner so that the heat dissipation of the controller can be normally performed even if the amount of heat generated by the switching element is maximized.

In order to achieve the above object, the present invention is a heat exchanger and the compressor is installed so that the refrigeration cycle is formed, the compressor and the electrical circuit in the outdoor unit of the inverter air conditioner, the controller is installed so that the electrical circuit is configured, heat dissipating heat pipe to the heat generating portion of the controller Means are to be installed.

1 is a schematic front sectional view of a conventional one;

2 is a schematic front sectional view of an embodiment of the present invention;

3 is a plan sectional view of an embodiment of the present invention.

<Description of the code used in the main part of the drawing>

1: case 3: heat exchanger

9: Compressor 13: Controller

15: switching element 50: heat pipe radiating means

52: evaporation unit 54: heat pipe

56: condensation unit

2 and 3, the heat exchanger 3 and the compressor 9 are installed in the case 1 so that a refrigeration cycle is formed and operated, and the circuit is electrically connected to the compressor 9. In the outdoor unit of the inverter air conditioner in which the controller 13 is configured such that the heat pipe heat dissipation means 50 is installed in the switching element 15 which is a heat generating portion of the controller 13, the heat pipe heat dissipation means 50. ) Is installed at the corresponding point of the switching element 15 of the controller 13, the evaporation unit 52 for absorbing heat of the switching element 15, and one side is fixed to the evaporation unit 52, the working fluid inside The heat pipe 54 is filled with, and the condensation unit 56 is installed on the other side of the heat pipe 54 to dissipate heat to the outside.

The evaporator 52 absorbs heat quickly even when the amount of heat generated by the switching element 15 is maximized (about 1 KW or more), and absorbs the heat (by changing the working fluid) to condense the condenser 56. Heat exchange takes place.

In addition, the condenser 56 is disposed close to the fan 5 installed on the heat exchanger 3 side, and the condenser 56 is quickly changed according to the gas flow (flow air) of the operated fan 5. In order to dissipate heat, the heat dissipation of the condensation unit 56 is made by itself even though the fan 5 is not operated, and the heat absorbed by the evaporation unit 52 is quickly released to the outside.

Reference numeral 11 is a control room.

The present invention as described above allows the heat dissipation of the controller to be normally performed even when the amount of heat generated by the switching element is maximized. The heat pipe heat dissipation means 50 is installed in the controller 13 installed in the control room 11 inside the case 1. It is. The heat pipe heat dissipation means 50 is composed of the evaporator 52, the heat pipe 54 and the condensation unit 56, the evaporator 52 is installed in the switching element 15 of the controller 13 The heat pipe 54 is to transfer the working gas evaporated from the evaporator 52 toward the condensation unit 56, and the condensing unit 56 transfers the working gas transferred from the evaporator 52. It is condensing and working fluidized. The condensation part 56 is installed adjacent to the fan 5 of the heat exchanger 3 to quickly dissipate heat by the gas flow of the fan 5, and as the heat dissipation is rapidly performed, the evaporation part The heat absorption at 52 is achieved quickly.

As described above, the present invention provides a heat pipe heat dissipation means to the controller inside the case, so that the heat dissipation of the controller is normally performed even when the amount of heat generated by the switching element is maximized. It can be prevented.

In addition, by providing an evaporation unit, a heat pipe, and a condensation unit, which are heat pipe radiating means, heat absorption and heat dissipation from the switching element are performed sequentially and instantaneously. It is done.

Claims (3)

In the outdoor unit of the inverter air conditioner in which the heat exchanger 3 and the compressor 9 are installed so that a refrigeration cycle is formed, and the compressor 9 and the electric circuit are configured, the heat generation of the controller 13 is performed. Heat dissipation structure of the outdoor unit of the inverter air conditioner, characterized in that the heat pipe heat dissipation means 50 is installed in the portion. The method of claim 1, The heat pipe heat dissipation means 50 is an evaporation unit 52 which is installed in the heat generating portion of the controller 13, and a heat pipe 54 in which one side is fixed to the evaporation unit 52 and a working fluid is filled therein. And a condensation unit (56) installed at the other side of the heat pipe (54) to dissipate heat. The method of claim 2, The condenser 56 is an outdoor unit heat dissipation structure of the inverter air conditioner, characterized in that disposed in close proximity to the fan (5) installed on the heat exchanger (3) side.