KR0176861B1 - Refrigerant gas suction device of a hermetic compressor - Google Patents

Abstract

The present invention relates to a refrigerant suction device of a hermetic compressor, and conventionally, in a refrigeration cycle having two evaporators having different evaporation temperatures, the pressures of refrigerant gases introduced into the compressor from the two evaporators are different from each other. In addition, there was a problem of lowering the efficiency of the refrigeration cycle, the present invention is to separate the refrigerant from the two evaporators in the refrigeration cycle having two different evaporation temperature, the suction from the compressor by suction and compressed and discharged at high temperature and high pressure It is to improve the performance of the compressor and the efficiency of the refrigeration cycle.

Description

Refrigerant suction device of hermetic compressor

1 is a schematic view showing a refrigeration cycle applied to a general refrigerator.

2 is a schematic view showing a refrigeration cycle having two evaporators applied to a general refrigerator.

3 is a schematic view showing a refrigerant suction device of a conventional hermetic compressor.

Figure 4 is a schematic diagram showing the hermetic compressor refrigerant suction device of the present invention.

5 is an exploded perspective view showing a compression mechanism and a refrigerant suction device of the hermetic compressor.

* Explanation of symbols for main parts of the drawings

1 ': high temperature side evaporator 1 ": low temperature side evaporator

3: compressor 8: sealed container

9: cylinder 13: high pressure suction pipe

14 low pressure suction pipe 15 induction pipe

16: one-way valve

The present invention relates to a refrigerant suction device of a hermetic compressor, and in particular, a refrigerant suction device of a hermetic compressor to separate and inhale refrigerant gas flowing out of two evaporators into a compressor in a refrigeration cycle having two different evaporation temperatures. It is about.

A general refrigeration cycle includes a compressor for converting a low temperature low pressure gaseous refrigerant into a high temperature high pressure gaseous refrigerant, and a high temperature high pressure gaseous refrigerant discharged from the compressor into a high temperature high pressure liquid refrigerant. And a capillary tube for converting the high temperature and high pressure liquid refrigerant discharged from the condenser into a low temperature and low pressure liquid refrigerant, and an evaporator for absorbing external heat while changing the low temperature low pressure liquid refrigerant passing through the capillary into a gaseous state. .

When applying the above-mentioned refrigerating cycle to the refrigerator, as shown in FIG. 1, the evaporator 1 is installed in the freezer compartment of the refrigerator, and the condenser 2 and the capillary tube 4 are installed at the rear of the refrigerator. Compressor 3 is installed at the bottom to absorb foods from the evaporator 1 to keep food cool while keeping the inside of the refrigerator cold.

In addition, when two evaporators having different evaporation temperatures are respectively installed in the freezer compartment and the refrigerating compartment of the refrigerator in the refrigerating cycle, as shown in FIG. 2, the compressor 3 is installed at the bottom of the refrigerator and the low temperature side evaporator is installed in the freezer compartment. (1 ") and a high temperature side evaporator (1 ') in a refrigerating chamber, a condenser (2) and a capillary tube (4, or an expansion valve) on the back, and the compressor (3), a capillary tube (4, or Expansion valve), the high temperature side evaporator 1 ', and the low temperature side evaporator 1 "are formed by connecting with a refrigerant pipe.

In the refrigeration cycle having two evaporators, the refrigerant is circulated in the compressor (3)-condenser (2)-first expansion valve (4 ')-high-temperature side evaporator (1 ")-separator (5)-second expansion The valve (4 ")-low temperature side evaporator (1")-accumulator (6)-compressor (3) is circulated in the order of the refrigerant in the liquid state in the condenser (2) gas in the high temperature side evaporator (1 ") The external gas is absorbed to the outside heat while the refrigerant gas passed through the high temperature side evaporator 1 "passes through the separator and is changed into gas in the separator 5 through the solenoid valve 7 through the compressor 3. ), And the refrigerant in the liquid state, which is not vaporized, flows into the low temperature side evaporator 1 ", vaporizes from the low temperature side evaporator 1", and flows into the compressor 3.

In the above process, the pressure of the refrigerant gas flowing into the compressor 3 through the high temperature side evaporator 1 'and the pressure of the refrigerant gas flowing into the compressor 3 through the low temperature side evaporator 1 "are different from each other. The pressure of the refrigerant gas flowing into the compressor 3 through the evaporator 1 'is higher.

The compressor 3 (typically a hermetic compressor is used) which sucks the low temperature low pressure refrigerant through the evaporator 1 and compresses the high temperature and high pressure refrigerant into the condenser 2 during the refrigerating cycle process is used for the suction pipe 8a. An airtight mechanism 8 for generating a discharge vessel 8b and an electric mechanism unit for generating a rotational force by an electric power installed and applied to the inside of the airtight vessel, and a compression mechanism unit for compressing the refrigerant introduced by the rotational force of the electric mechanism unit. It is composed.

As shown in FIG. 3, the compressor mechanism includes a cylinder 9 and a piston 10 for sucking and compressing refrigerant gas into the cylinder 9 while reciprocating in the cylinder 9; A suction valve 11 and a discharge valve 12 are coupled to one side of the cylinder 9 to suck and discharge the refrigerant into the cylinder 9 as the piston 10 moves.

The compressor unit is sucked into the cylinder (9) through the suction valve 11 while the refrigerant gas flowing out of the evaporator (1) by the reciprocating motion of the piston (10) flows into the sealed container (8) through the suction pipe (8a). And compressed, the compressed refrigerant gas is discharged through the discharge pipe (8b).

An end portion of the suction pipe 8a coupled to the sealed container 8 is not connected to a portion for allowing refrigerant to flow into the cylinder 9 so as to be prevented from being destroyed by vibration generated inside the compressor 3. Are combined.

However, the compressor 3 as described above is a compressor (2) because the pressure of the refrigerant gas flowing into the compressor (3) from the two evaporator (1) in the refrigeration cycle having two evaporators (1) having different evaporation temperature is different from each other. In addition to lowering the performance of 3) there was a problem of lowering the efficiency of the refrigeration cycle.

Accordingly, an object of the present invention is to provide a refrigerant suction device of a hermetic compressor to separate and suck refrigerant gas flowing out from two evaporators in a compressor in two refrigeration cycles having two different evaporation temperatures.

In order to achieve the object of the present invention as described above, the high-pressure suction pipe for guiding the refrigerant flowing out of the high-temperature side evaporator of the refrigeration cycle having two evaporation temperatures to be introduced directly into the cylinder of the compressor, and the refrigerant discharged from the low temperature side evaporator It is provided with a refrigerant suction device of the hermetic compressor characterized in that it comprises a low pressure suction pipe for guiding the inside of the sealed container of the compressor to enter, and an induction pipe for guiding the refrigerant introduced into the sealed container into the cylinder.

In addition, the induction pipe is connected to the high pressure suction pipe connected to the cylinder is provided with a refrigerant suction device of the hermetic compressor characterized in that the one-way valve is installed therein.

In addition, the high pressure suction pipe is provided with a refrigerant suction device of the hermetic compressor, characterized in that formed of a flexible material.

Hereinafter, the refrigerant suction device of the hermetic compressor according to the embodiment shown in the accompanying drawings will be described.

In the refrigerant suction device of the hermetic compressor of the present invention, as shown in FIG. 4, the refrigerant 9 flowed out from the high-temperature side evaporator 1 'of the refrigerating cycle having two evaporation temperatures, the cylinder 9 of the compressor 3; Install a high pressure suction pipe 13 to guide the inflow directly into the inside, and the low pressure suction pipe 14 for guiding the refrigerant flowing out of the low temperature side evaporator 1 "into the sealed container 8 of the compressor 3. And, it is made by installing the induction pipe 15 for guiding the inflow of the refrigerant introduced into the sealed container (8) into the cylinder (9).

The induction pipe 15 is connected to the high pressure suction pipe 13 connected to the cylinder 9, and installed a one-way valve 16 therein to prevent the high-pressure refrigerant gas flowing through the high pressure suction pipe 13 to flow back. do.

The refrigerant suction device of the hermetic compressor 3 of the present invention as described above will be described in more detail. As shown in FIG. 5, the cylinder head portion 9a provided above the cylinder 9 of the compression mechanism portion is shown in FIG. A suction flow path 9b and a discharge flow path 9c connected to the suction valve 11 and the discharge valve 12 are formed, respectively, and the high temperature side evaporator 1 is formed in the suction flow path 9b of the cylinder head portion 9a. A high pressure suction pipe 13 for guiding the refrigerant gas flowing out from ') to the suction flow path 9b is installed.

The high pressure suction pipe 13 is preferably formed of a flexible pipe, the connection of the suction flow path 9b and the high pressure suction pipe 13 is flexibly connected to the tube connector 17, the high-temperature side evaporator (1) A portion of the refrigerant flowing out from ') into the compressor 3 and the high pressure suction pipe 13 are flexibly connected to the tube connector 17.

In addition, the low pressure suction pipe 14 for guiding the refrigerant gas flowing out of the low temperature side evaporator 1 ″ to the compressor 3 is connected to the low temperature side evaporator 1 and installed to penetrate the sealed container 8 of the compressor 3. By installing the refrigerant gas flows into the sealed container (8).

And it is connected to one side of the cylinder head (9a) suction flow path (9b) is installed an induction pipe (15) for guiding the inflow of refrigerant gas introduced into the closed container (8) into the cylinder (9), induction pipe (15) The one-way valve 16 for controlling the flow of fluid in one direction is provided inside.

The one-way valve 16 is preferably a check valve.

Referring to the effect of the hermetic compressor refrigerant suction device of the present invention as described above are as follows.

In the hermetic compressor refrigerant suction device of the present invention, the refrigerant gas passing through the high temperature side evaporator 1 'and the low temperature side evaporator 1 "is operated by the compressor 3 while the refrigeration cycle having two evaporation temperatures is operated. 3) flows into the refrigerant gas passing through the high temperature side evaporator 1 'is relatively higher in pressure than the refrigerant gas passed through the low temperature side evaporator 1 ".

The refrigerant gas flowing out of the high temperature side evaporator 1 flows into the cylinder 9 through the cylinder head portion 9a through the high pressure suction tube 13, and the refrigerant gas flowing out of the low temperature side evaporator 1 ″ is the low pressure suction tube. Through 14, the inside of the hermetic container 8 of the compressor 3 is filled to fill the hermetic container 8, and the refrigerant introduced into the hermetic container 8 passes through the cylinder head 9a through the induction pipe 15. The refrigerant gas introduced into the cylinder 9 through the cylinder 9 and introduced into the cylinder 9 is discharged outside the compressor 3 as a refrigerant gas having a high temperature and high pressure by compression of the piston 10.

Selection of the refrigerant gas sucked into the cylinder 9 of the compressor 3 is made by the solenoid valve 7 installed in the refrigeration cycle.

The one-way valve 16 installed in the induction pipe 15 suppresses the flow of the high-pressure refrigerant gas through the high-pressure suction pipe 13 back into the sealed container 8.

The tube connector 17 is installed to prevent damage due to vibration during operation of the compressor 3, and the high pressure suction tube 13 is also formed of a flexible material.

As described above, the present invention separates and sucks the refrigerant flowing out of the two evaporators 1 in the refrigerating cycle having two different evaporation temperatures from the compressor 3, and compresses and discharges the refrigerant at high temperature and high pressure. It has the effect of improving the performance and efficiency of the refrigeration cycle.

Claims (2)

A high pressure suction pipe for guiding the refrigerant flowing out of the high temperature side evaporator of the refrigeration cycle having two evaporation temperatures directly into the cylinder of the compressor, and a low pressure for guiding the refrigerant discharged from the low temperature side evaporator into the sealed container of the compressor. And a suction pipe and an induction pipe connected to the cylinder and the high pressure suction pipe and having a one-way valve installed therein to guide the refrigerant introduced into the sealed container into the cylinder. The refrigerant suction device of the hermetic compressor of claim 1, wherein the high pressure suction pipe is formed of a flexible material.