KR0129451Y1 - Cooling apparatus - Google Patents

Abstract

A cooling apparatus is disclosed that can efficiently reduce heat, vibration, and noise generated by a compressor by using condensate generated in an indoor unit.

The disclosed air conditioner forms a condensate receiver between the base plate of the outdoor unit and the compressor to surround the bottom of the compressor and allows the condensate neutralized by the heat of the compressor and the condensate inlet pipe to allow the condensate to enter the condensate receiver. Condensate outlet pipe was combined. In addition, the vibration can be reduced more effectively by employing a rubber washer between the compressor and the fastening means of the condensate receiver.

Therefore, through the structure as described above it is possible to increase the cooling effect by lowering the heat generated from the compressor, it is possible to provide a comfortable indoor environment by reducing the vibration noise.

Description

Air conditioner

1 is a cross-sectional view schematically showing a conventional cooling device.

2 is a cross-sectional view showing a cooling device according to an embodiment of the present invention.

3 is a cross-sectional view showing a cooling device according to another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: indoor unit 20: outdoor unit

21: base plate 24: compressor

30,40: condensate receiver 31,41: condensate inlet pipe

32,42: condensate outlet pipe

The present invention relates to a cooling device, and more particularly to a cooling device that can reduce the heat and noise generated by the vibration of the compressor using the condensate.

The refrigerant, which is a heat transfer medium used to take heat away from the heat exchanger, is compressed into a gaseous state of high temperature and high pressure through a compressor, and the compressed air is introduced into the condenser through an outlet pipe. Therefore, the refrigerant introduced into the condenser is liquefied while dissipating heat to the outside. The liquefied refrigerant expands under reduced pressure through a dryer and a capillary tube, enters the evaporator, absorbs the surrounding heat, and is sucked into the compressor through the suction pipe of the compressor. The cooling principle of the air conditioner is to lower the indoor temperature while repeating the cycle as described above.

The compressor compresses the refrigerant to high temperature and high pressure by a drive motor mounted therein. At this time, as the devices inside the compressor including the drive motor operate, heat and noise are generated outside the compressor.

Failure to effectively dissipate heat outside the compressor will result in a decrease in cooling capacity and impede the provision of a comfortable indoor environment by the noise generated by the compressor.

1 is a cross-sectional view showing a conventional cooling device.

Conventional cooling devices include an evaporator (not shown) and an air blower (not shown) including an indoor unit 10 for cooling the room by the refrigerant introduced into the evaporator, and a compressor 24 for compressing the refrigerant; An outdoor unit 20 including a condenser (not shown) and a blowing fan 22 for condensing the compressed refrigerant is provided. The radiator 27 was installed on one side thereof. In addition, a bolt 29a and a nut 20b were used as a connecting means between the compressor 20 and the bare plate 21 of the outdoor unit 2, and an elastic rubber washer 28 was inserted therebetween. By mitigating vibration, noise caused by vibration was reduced.

However, the structure as described above has some effect of reducing noise but could not fundamentally eliminate the noise. In addition, since the condensate generated by heat exchange in the evaporator of the indoor unit 10 has a low temperature and absorbs vibrations, the condensate is not discharged as it is, and an efficient activity was expected.

Therefore, an object of the present invention is to provide a cooling device that improves cooling capacity and reduces noise by using condensed water generated during a cooling process.

In order to achieve the above object, the present invention provides an indoor unit for supplying cold air to a room: a base plate, a compressor installed on the bare plate to compress a refrigerant at high temperature and high pressure, and fastening the compressor to the base plate. In the cooling device comprising an outdoor unit having a fastening means,

A condensate receiver installed between the compressor and the base plate to receive condensate; A condensate inlet pipe that delivers the condensate generated in the indoor unit to the condensate receiver; A condensate outlet pipe for automatically discharging when condensate accumulates above a predetermined height in the condensate receiver; Characterized in that it comprises a.

Hereinafter, a cooling apparatus according to a preferred embodiment of the present invention with reference to the drawings in detail.

2 is a cross-sectional view showing an embodiment of a cooling device according to the present invention.

The air conditioner according to the present embodiment is installed in a room like a conventional air conditioner and has an indoor unit 10 that functions to lower the room temperature by heat exchange, and an compressor installed outside to compress the refrigerant to high temperature and high pressure 24. And an outdoor unit (20) having a condenser (24) for condensing and liquefying the refrigerant, and a blowing fan (22).

The blowing fan 22 is coupled to the base plate 21 on the bottom surface of the outdoor unit 20 through a fan support 23. The compressor 24 is provided with an outlet pipe 25 and a suction pipe 26 coupled to one side. The outlet pipe 25 sends the refrigerant compressed to high temperature and high pressure in the compressor 24 to the condenser (not shown). The suction pipe 26 sucks the refrigerant having a cooling function through the compressor → outlet pipe → condenser → dryer → capillary tube → evaporator to the compressor 24.

In addition, between the compressor 24 and the base plate The condensate receiver 30 which is a container of the shape is provided. The outer surface of the bottom of the condensate receiver 30 is integrally coupled with the base plate 21, and a fastening means for coupling the compressor 24 is provided inside the bottom. The fastening means comprises a nut 33, a rubber washer 34 and a bolt 36 for vibration absorption and secure fixing, and fixedly couple the compressor 24. In addition, a condensate inlet pipe 31 is coupled to an upper portion of the condensate receiver 30 to guide the condensate generated in the indoor unit 10 to flow into the condensate receiver 30. Condensate outlet pipe 32 is coupled so as to be discharged when the magnetic flux is introduced into the condensate receiver 30 by a predetermined height. Thus, the condensate receiver 30 surrounds the lower end of the compressor 24 so that the condensed water which has been drained through the condensate inlet pipe 31 accumulates in the condensate receiver 30 and the lower part of the compressor 24. Will be locked. Since the condensed water is low temperature, the external temperature of the compressor 24 is lowered to increase the cooling capacity, and the condensed water absorbs vibration and noise generated by the compressor 24, thereby providing a comfortable indoor environment.

3 is a cross-sectional view showing a cooling device according to another embodiment of the present invention.

The basic structure thereof is the same as that of FIG. 2, and the compressor 24 and the condensate receiver 40 have different fastening means. The condensate receiver 40 is positioned between the compressor 24 and the base plate 21 so that a part of the lower end of the compressor 24 is locked. The outer bottom surface of the condensate receiver 40 is the base plate. 21 is integrally coupled with the condensate inlet pipe 42 to guide the condensate generated in the indoor unit 10 to the upper portion of the condensate receiver 40, and the condensate receiver 40 is coupled thereto. The condensed water outlet pipe 42 is coupled to discharge automatically when the condensate introduced into the predetermined height. As a means for fastening the compressor 24 to the condensate receiver 40, an upper portion of the condensate receiver 40 is bent to face the compressor fixing lug 44, and the nut 45 is formed on the curved surface. It fastened using the bolt 46. The rubber washer 43 is sandwiched between the nut 45 and the bolt 46 to block noise and vibration from being directly transmitted by the fastening means so as to cushion the noise and vibration.

Therefore, the present invention is an effective design that can reduce the noise due to the progress of the drive motor and the compressor as well as increase the cooling efficiency by cooling the compressor using the condensate generated in the indoor unit. In addition, by eliminating the use of a conventional radiator there is also a cost savings effect.

Claims (3)

An indoor unit 10 for supplying cold air to the room; An outdoor unit having a base plate 21 and a compressor 24 installed on the base plate 21 to compress the refrigerant at high temperature and high pressure and a fastening means for fastening the compressor 24 to the base plate 21. A cooling apparatus comprising: 20, a condensate receiving device (30, 40) provided between the compressor (24) and the base plate (21) to receive condensate; A condensate inlet pipe (31,41) for transferring the condensate generated in the indoor unit (10) to the condensate receiver (30,40); And a condensate outlet pipe (32,42) for automatically discharging when the condensate accumulates above a predetermined height in the condensate receiver (30,40). The condensate receiver 30 of claim 1, wherein an outer bottom thereof is integrally coupled to the base plate 21, and the fastening means is disposed between the inner bottom surface of the condensate receiver 10 and the compressor 24. Cooling device, characterized in that fastened to be fixed to the compressor. According to claim 1, wherein the condensate receiver 40 is bent so as to face the fixing lug 45 for fixing the compressor 24 at the upper end when the outer front surface is integrally coupled to the base plate 21 A bent portion is formed, the fastening means is a cooling device characterized in that to fasten the fixing lug 45 and the bent portion to secure the compressor