KR0156719B1 - Heat exchanger of the refrigerator - Google Patents

Abstract

The present invention relates to a heat exchange device of a compressor for a refrigerator, and the present invention relates to a compressor installed inside a machine room of a refrigerator main body for compressing a refrigerant at high temperature and high pressure, and a condenser for condensing a gas refrigerant compressed to high temperature and high pressure in the compressor. And a capillary tube for adiabatic expansion of the refrigerant condensed in the condenser, and an evaporator for evaporating the refrigerant adiabatic expansion from the capillary, the refrigerator for refrigerating or freezing the inside of the refrigerator, the inner passage disposed on one side of the compressor, Cooling wound around the outer circumferential surface of the inner cylinder to cool the outer cylinder disposed between the outer circumferential surface of the inner cylinder and a predetermined interval, the filler charged between the outer cylinder and the inner cylinder, and the refrigerant flowing in the evaporator by the filler. The outer cylinder to heat dissipate the pipe and the high temperature and high pressure refrigerant discharged from the compressor; It characterized in that it includes a radiation pipe wound around the outer peripheral surface. According to the present invention configured as described above, by arranging the annular cooling pipe filled with the low-temperature low-pressure refrigerant introduced from the evaporator to be immersed in the coolant between the inner cylinder and the outer cylinder, sufficient cooling can be performed to improve the cooling performance. By compressing the refrigerant cooled in the coolant at a high temperature and high pressure in the compressor to flow in a heat radiation pipe wound on the outer peripheral surface of the outer cylinder, it is possible to heat the refrigerant compressed at high temperature and high pressure from the compressor to improve the efficiency of the compressor It is an excellent invention.

Description

Heat exchanger of the refrigerator

1 is a full cross-sectional perspective view of a refrigerator.

2 is a perspective view showing a conventional compressor, a main condenser and cooling means.

3 is a perspective view showing a heat exchange means, a compressor, a main condenser and a cooling means according to the present invention.

4 is a cross-sectional view taken along line A-A of FIG.

5 is a flow chart of a refrigeration cycle according to the present invention.

* Explanation of symbols for main parts of the drawings

1: refrigerator body 23: freezer

24: refrigerator compartment 11: condensation prevention pipe

60: main condenser 70: cooling means

18 capillary 19 evaporator

100: compressor 200: heat exchange means

210: bottom plate 220: inner cylinder

230: outer cylinder 240: cooling pipe

250: heat dissipation pipe 211: defrost water

212: coolant

The present invention relates to a heat exchange device of a refrigerator capable of smoothing the heat dissipation action of a refrigerant in a cooling cycle by adiabatic compression and adiabatic expansion, thereby reducing power consumption according to driving of a compressor and improving a refrigerating effect.

A general refrigerator is as shown in FIG. 1, and (1) is a main body for forming an appearance, and a freezer compartment 23 and a refrigerating compartment 24 for storing various foods are stored in the upper and lower parts of the main body 1. Each of these is disposed, and the lower part of the rear side of the refrigerating chamber 24 is provided with a mechanical chamber 30 composed of the compressor 50, the main condenser 60 and the cooling means 70, the freezing chamber 23 and An intermediate part of the refrigerating chamber 24 includes an evaporator 19 for evaporating the refrigerant condensed under constant pressure cooling and condensed from the main condenser 60 under a constant pressure isothermal temperature, and the cold air that has been coldly changed by evaporating from the evaporator 19 has the freezing chamber 23. ) And a fan 21 and a fan motor 20 are arranged to circulate to the refrigerator compartment 24.

The auxiliary condenser 12 disposed on the lower surface of the main body 1 has one end connected to the compressor 50 and the other end connected to the main condenser 60 to be compressed at a high temperature and high pressure in the compressor 50. It is installed at the lower end of the evaporation plate 16 to dissipate the heat of the gas and to evaporate the defrost water collected in one place, the condensation prevention pipe 11 in the flange portion of the main body 1 to prevent dew formation. 1) It is buried all over.

On the bottom of the machine room 30, a compressor 50 for compressing the refrigerant into a gas of high temperature and high pressure, an annular main condenser 60 for condensing the gas refrigerant introduced from the compressor 50, and power are applied. While receiving and driven, the cooling means 70 for cooling the main condenser 60 and the compressor 50 is fixedly coupled through the fastening bolt 90 of the fixing member 40 at regular intervals, and, The cover member 80 is installed in the opening of the machine room 30 so that external air is introduced and discharged.

The main condenser 60 is wound and installed in an annular shape by the support member 61 fixedly coupled to the upper surface of the fixing member 40 via a plurality of fastening bolts 90.

The cooling means 70 is a support member 71 fixedly coupled to stand on the upper surface of the fixing member 40 via a plurality of fastening bolts 90, and the support member 71 to be driven by applying power. Blown motor 72 is fixedly coupled to the upper side of the motor, the motor shaft to the blower motor 72 to cool the main condenser 60 and the compressor 50 while being rotated by receiving the driving force of the blower motor 72 It consists of a songpon fan 74 coupled via (73).

The cover member 80 has a plurality of air inlet hole 81 is formed so that the outside air flows into the machine room 30, the air inside the machine room 30 on the other side A plurality of air discharge holes 82 are formed to be discharged to the outside.

In the conventional refrigerator configured as described above, when power is applied to the freezer compartment 23 and the refrigerating compartment 24 to reach a predetermined set temperature, the cooling means 70 operates simultaneously with the compressor 50.

That is, when the compressor 50 is operated, as shown in FIG. 4, the gas refrigerant gas of high temperature and high pressure is discharged by the compression action of the compressor 50, and passes through the auxiliary condenser 12 to form an annular main condenser ( The gas coolant gas is largely cooled while flowing along the inside of the 60, and the gas refrigerant gas passing through the main condenser 60 passes through the condensation preventing pipe 11 and is somewhat higher than the ambient temperature of the refrigerator, about 6 ° C to 13 ° C. Phase change with the high-pressure liquid refrigerant and the pressure is reduced by passing through the capillary tube (18).

At this time, the liquid refrigerant is introduced into the evaporator 19 and expanded to vaporize at a low temperature and low pressure, and at the same time, the refrigeration cycle that evaporates and performs a cooling function is repeated to cool the inside of the freezing and refrigerating chambers 23 and 24 to a predetermined temperature. .

On the other hand, when the blower motor 72 of the cooling means 70 is driven by the power supply to rotate the blower fan 74 via the motor side 73, the blower fan 74 of the cooling means 70 by the blowing force of the blower fan 74 Air is introduced into the machine room 30 through a plurality of air inlet holes 81 formed at one side of the cover member 80 and forcedly supplied to the main condenser 60 and the compressor 50 sequentially. The condensation and compression heat of the high temperature generated during the operation of the 60 and the compressor 50 is cooled, and the waste heat and air heat-exchanged while passing through the main condenser 60 and the compressor 50 are carba members 80. It is discharged to the outside of the refrigerator through the air discharge hole 82 formed on the other side of the).

At this time, in the operation, when the temperature in the refrigerator reaches a predetermined temperature, the operation of the compressor 50 and the cooling means 70 is stopped.

However, the conventional refrigerator configured as described above has a structure in which the compressor 5, the main condenser 60, and the cooling means 70 are sequentially installed in the machine room 30, and thus, the heat of condensation of the main condenser 60 is higher. There is a problem that the efficiency of the compressor is lowered because the compression heat of the higher compressor 50 cannot be effectively dissipated, and the power consumption increases as the operating time of the compressor 50 becomes longer.

The present invention has been made to solve the above problems, an object of the present invention is to arrange a heat exchange means in the machine room of the refrigerator to cool the low-temperature low-pressure refrigerant flowing from the evaporator with a coolant to enter the compressor, into the compressor The heat exchanger of the refrigerator to compress the refrigerant into a high temperature and high pressure refrigerant and then radiate it again through the heat exchange means, thereby improving the efficiency and cooling performance of the compressor and reducing the power consumption by reducing the operating time of the compressor. To provide.

In order to achieve the above object, a heat exchange apparatus of a refrigerator according to the present invention includes a compressor installed inside a machine room of a refrigerator main body to compress a refrigerant at high temperature and high pressure, and a condenser for condensing the gas refrigerant compressed at high temperature and high pressure in the compressor. And a capillary tube for adiabatic expansion of the refrigerant condensed in the condenser, and an evaporator for evaporating the refrigerant adiabatic expansion in the capillary tube, the refrigerator for refrigerating or freezing the inside of the refrigerator, the inner passage disposed on one side of the compressor, An outer cylinder disposed between the outer circumferential surface of the inner cylinder and a predetermined gap, a filler charged between the outer cylinder and the inner cylinder, and a refrigerant flowing in the evaporator and wound on the outer circumferential surface of the inner cylinder to cool the refrigerant; To heat the cooling pipe and the high temperature and high pressure refrigerant discharged from the compressor; It characterized in that it includes a radiation pipe wound around the outer peripheral surface of the outer tube.

Defrost water generated in the evaporator is introduced into the inner cylinder.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described in detail, referring an accompanying drawing. The same parts as those in FIGS. 1 to 2 are denoted by the same reference numerals, and redundant descriptions are omitted.

3 is a perspective view showing a heat exchange means, a compressor, a main condenser and a cooling means according to the present invention, FIG. 4 is a cross-sectional detail view of A-A of FIG. 3, and FIG. 5 is a flowchart of a refrigeration cycle according to the present invention.

As shown in FIGS. 3 to 5, the bottom of the refrigerator 30 according to the present invention includes a coolant of the refrigerant flowing from the evaporator 19 and a refrigerant compressed at a high temperature and high pressure from a compressor to be described later. A heat exchange means 200 for radiating heat, a compressor 100 for compressing a refrigerant at a high temperature and high pressure, an annular main condenser 60 for condensing a gas refrigerant introduced from the compressor 100, and driven with power While the main condenser 60 and the cooling means 70 for cooling the compressor 100 are fixedly coupled via the fastening boat 90 of the fixing member 40 at regular intervals, and the machine room The opening of the 30 is provided with a cover member 80 formed with a plurality of air inlet 81 and the air discharge hole 82 so that the outside air flows in and out.

The heat exchange means 200 is a bottom plate 210 which is fixedly coupled to the upper surface of the fixing member 40, the inner cylinder 220 for collecting the defrost water 211, and the outer peripheral surface of the inner cylinder 220 and The outer cylinder 230, which is regularly spaced apart, and the refrigerant flowing from the evaporator and flowing along the inside thereof, are cooled by the coolant 212 filled between the inner cylinder 220 and the outer cylinder 230. The annular heat dissipation pipe 250 wound around the outer circumferential surface of the outer cylinder 230 to dissipate the cooling pipe 240 wound around the outer circumferential surface of the inner cylinder 220 and the high temperature and high pressure refrigerant discharged from the compressor 100. It consists of).

The operation and effect of the heat exchanger of the refrigerator according to the embodiment of the present invention configured as described above will be described next.

When power is applied to reach a predetermined set temperature of the freezer compartment 23 and the refrigerating compartment 24 of the refrigerator body 1, the compressor 100 and the cooling means 70 operate. That is, when the compressor 100 operates, as shown in FIG. 8, the gas refrigerant gas of high temperature and high pressure is discharged by the adiabatic compression action of the compressor 100, and passes through the auxiliary condenser 12 to form an annular shape. Constant pressure cooling and condensation flows along the inside of the main condenser 60, and the gas refrigerant gas passing through the main condenser 60 is phase-changed into liquid refrigerant through the condensation preventing pipe 11 and passes through the capillary tube 18. The liquid refrigerant expands and some evaporates, causing a significant drop in pressure as the temperature drops. At this time, the liquid refrigerant flows into the evaporator 19 and vaporizes under constant pressure isothermal at the same time to evaporate, and the annular cooling pipe 240 connected to one side of the evaporator 19 from the evaporator 19. The vaporized refrigerant is cooled by a coolant 212 filled between the inner cylinder 220 and the outer cylinder 230 of the heat exchange means 200, and the refrigerant passing through the cooling pipe 240 is connected to a predetermined position of the compressor. It is introduced into the compressor 100 through a refrigerant inlet pipe (not shown). The introduced refrigerant is converted into a refrigerant compressed at a high temperature and high pressure from the compressor, and the heat dissipation disposed on the outer circumferential surface of the outer cylinder 230 of the heat exchange means 200 through a coolant outlet pipe not shown connected to a predetermined position of the compressor 100. It is introduced into the pipe 250 to dissipate the refrigerant.

Defrost water generated in the evaporator 19 is introduced into the inner cylinder 220 to help the cooling action of the refrigerant, so that the cooling effect and heat dissipation effect of the refrigerant is further increased, and the defrost water can be easily vaporized and removed.

As described above, according to the heat exchanger of the refrigerator according to the present invention, by providing a cooling pipe filled with the refrigerant introduced from the evaporator to be immersed in the coolant between the inner cylinder and the outer cylinder, sufficient cooling can be achieved to improve the cooling performance. In addition, by compressing the refrigerant cooled in the coolant at a high temperature and high pressure in the compressor to flow in a heat dissipation pipe wound around the outer peripheral surface of the outer cylinder, thereby radiating the refrigerant compressed to high temperature and high pressure from the compressor to improve the efficiency of the compressor It has a great effect.

Claims (2)

A compressor installed inside the machine room of the refrigerator main body to compress the refrigerant to high temperature and high pressure, a condenser for condensing the gas refrigerant compressed to high temperature and high pressure in the compressor, a capillary tube for adiabatic expansion of the refrigerant condensed in the condenser, and the capillary tube A refrigerator having an evaporator for evaporating an adiabatic expanded refrigerant, wherein the refrigerator cools or freezes the inside of the refrigerator, wherein the inner passage disposed on one side of the compressor, the outer passage disposed between the outer peripheral surface of the inner cylinder and a predetermined interval, and the outer passage To dissipate the filler charged between the inner cylinder, the cooling pipe flowing in the evaporator by the coolant, and the cooling pipe wound around the outer circumferential surface of the inner cylinder, and the high temperature and high pressure refrigerant discharged from the compressor. Refrigerating, characterized in that provided with a heat dissipation pipe wound around the outer peripheral surface of the outer cylinder Intentional heat exchanger. The heat exchanger of claim 1, wherein defrost water generated in the evaporator is introduced into the inner cylinder.