KR100287447B1 - Rotary compressor with accumulator - Google Patents

Abstract

The present invention relates to a rotary compressor with a built-in accumulator, and more particularly, to form a accumulator built-in compressor that performs the function of the accumulator installed outside the compressor in the compressor main body, thereby reducing cost and sharing. The present invention relates to a rotary compressor with an accumulator for achieving volume saving. That is, a diaphragm is installed between the lower body and lower cover of the compressor; A lower portion of the diaphragm is provided with a refrigerant storage formed of an upper case and a lower case; A suction tube insertion hole is formed at one side of the upper case of the refrigerant storage unit so that one end of the suction tube into which the circulated refrigerant gas is sucked can be inserted; On the bottom of the lower case of the coolant storage unit, a coolant discharge hole for discharging the coolant and a discharge tube insertion hole are formed at one side thereof so that one end of the discharge tube can be inserted into the coolant storage unit to perform an accumulator function. Therefore, the separate accumulator can be deleted, thereby achieving the effect of miniaturizing the air conditioner according to the cost reduction and the common volume reduction according to the accumulator production.

Description

An accumulator built-in rotary compressor

The present invention relates to a rotary compressor with a built-in accumulator, and more particularly, to form a accumulator built-in compressor that performs the function of the accumulator installed outside the compressor in the compressor main body, thereby reducing cost and sharing. The present invention relates to a rotary compressor with an accumulator for achieving volume saving.

In general, a compressor converts mechanical energy into compressive energy of a compressive fluid. The compressor sucks refrigerant gas from a low pressure evaporator and increases the pressure to condensation pressure.

3 is a view for explaining a conventional rotary compressor to perform the above role, the outside of the body 10, the suction pipe 41 for sucking the low-temperature, low-pressure refrigerant gas evaporated from the evaporator, the screen inside the A discharge tube 43 for discharging the refrigerant gas to the body 10 is formed in the upper portion of the accumulator 40 provided with 42.

On the other hand, the inside of the body 10 is installed on the upper side of the rotary shaft 32 having the eccentric portion 31 on the inner circumference and the rotor 33 is built-in electric motor 30, the lower upper motor bearing 34, the lower portion of the pump bearing 35 is installed, the inner periphery of the cylinder 20 is formed integrally with the eccentric portion 31 and the roller 21 of the rotary shaft 32 is formed.

In addition, the body 10 has a lower cover 16 and a body (3) on which an outer cover 11 and an upper cover 13 having a discharge tube 12 and a base plate 15 having a fastening hole 14 are installed. 17).

In addition, the cylinder 20 has a suction port 18 through which the refrigerant gas passed through the accumulator 40 is sucked to one side, and the refrigerant gas compressed at a high temperature and high pressure is discharged to the discharge valve (not shown). A discharge port (not shown) is formed to be opened and closed by a discharge, and a vane (not shown) is installed to divide the high pressure side and the low pressure side during the operation of the roller 21.

The operation of the compressor 1 configured as described above is performed by the low temperature and low pressure evaporation gas evaporated from the evaporator through the suction pipe 41 of the accumulator 40 and passing through the screen 42 of the liquid phase contained in the refrigerant gas. The refrigerant is sucked into the cylinder 20 through the suction port 18 connected to the discharge pipe 43 of the accumulator 40 in a state in which the coolant and the foreign matter are removed.

The refrigerant gas sucked in this way is transmitted by the motor rotational force of the electric motor 30 directly to the rotating shaft 32 to rotate the refrigerant gas introduced through the suction port 18 by the oil film contact between the eccentric portion 31 and the ruler 21. It is compressed in the compression chamber by the rotation, and the compressed refrigerant gas is discharged to the discharge port by the action of the discharge valve.

As described above, the high temperature and high pressure refrigerant gas discharged through the discharge port is discharged to the condenser through the discharge tube 12 formed in the upper cover 13 through the body 17.

In the conventional rotary compressor configured and operated as described above, the low-temperature and low-pressure evaporation gas evaporated from the evaporator passes through the accumulator 40 installed and assembled outside, and is sucked through the suction port 18 of the body 10. It is configured to be.

Therefore, it is pointed out that the problem of increasing the manufacturing cost of the compressor, such as additional parts for assembling the accumulator, and the common volume due to the installation of the accumulator is not sufficient, thereby miniaturizing the air conditioner.

The present invention is to solve the above problems, by forming an accumulator built-in compressor to perform the function of the accumulator installed in the outside of the compressor in the compressor body, thereby reducing the cost of manufacturing the accumulator And it is an object of the present invention to provide a rotary compressor with a built-in accumulator to achieve a miniaturization of the air conditioner according to the reduction of the volume.

The present invention is a conventional rotary compressor that sucks the low-temperature, low-pressure refrigerant gas evaporated in the evaporator and compresses the refrigerant gas of the high-temperature, high pressure, the plate is provided between the lower body and the lower cover of the compressor; A lower portion of the diaphragm is provided with a refrigerant storage formed of an upper case and a lower case; A suction tube insertion hole is formed at one side of the upper case of the refrigerant storage unit so that one end of the suction tube into which the circulated refrigerant gas is sucked can be inserted; A lower surface of the lower case of the refrigerant storage unit is characterized in that the liquid refrigerant discharge hole for discharging the liquid refrigerant and one side of the discharge tube insertion hole is formed to be inserted into one end of the discharge tube.

1 is a view for explaining a refrigerant storage unit according to the present invention,

2 is a view for explaining a rotary compressor with an accumulator according to the present invention;

3 is a view for explaining a conventional rotary compressor.

Explanation of symbols for main parts of the drawings

100 compressor 140 suction tube

150: discharge tube 160: diaphragm

200: refrigerant storage unit 210: upper case

211: suction tube insertion hole 220: lower case

221: liquid refrigerant discharge hole 222: discharge tube insertion hole

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view for explaining a refrigerant storage unit according to the present invention, the refrigerant storage unit 200 is formed of the upper case 210 and the lower case 220, the upper case 210 is circulated to one side A suction pipe insertion hole 211 is formed to allow one end of the suction pipe 140 into which the refrigerant gas is to be inserted and connected.

In addition, the bottom of the lower case 220 of the refrigerant storage unit 200, the liquid refrigerant discharge hole 221 for discharging the liquid refrigerant and one side of the discharge tube 150 is inserted into one side, the discharge tube is inserted into the connection possible Ball 222 is formed, the upper cover 210 and the lower cover 220 is configured to be coupled to each other through an adhesive member.

2 is a view illustrating a rotary compressor incorporating an accumulator according to the present invention, and a rotation shaft 132 having an eccentric portion 131 at an upper inner circumference inside the body 110 of the compressor 100. The electric motor 130 having the rotor 133 is installed, and the upper and lower motor bearings 134 are installed at the lower side, and the pump bearing 135 is installed at the lower side thereof. ) Between the lower cover 116 and the body 117 on which the lower part of the body 117 surrounding the cylinder 120 in which the roller 121 is integrally installed and the base plate 115 on which the fastening hole 114 is formed are installed. The diaphragm 160 is installed in the.

On the other hand, the lower portion of the diaphragm 160 is provided with a refrigerant storage unit 200, the suction tube insertion hole 211 formed at one side of the upper case 210 of the refrigerant storage unit 200 as a low temperature, low pressure state One end of the suction pipe 140 into which the refrigerant gas is sucked is inserted and connected.

In addition, one end of the discharge tube 150 is inserted and connected to the discharge tube insertion hole 222 formed at one side of the liquid refrigerant discharge hole 221 on the bottom surface of the lower case 220 of the refrigerant storage unit 200. The other end of the lower cover 116 is inserted into and connected to a suction port 118 that sucks low-temperature, low-pressure refrigerant gas into the cylinder 120.

In the compressor configured as described above, the low-temperature, low-pressure refrigerant gas evaporated from the evaporator is sucked into the refrigerant storage unit 200 through the suction pipe 140, and the liquid refrigerant that is not completely vaporized in this process is the refrigerant storage unit 200. It is discharged to the lower through the liquid refrigerant discharge hole 221 formed on the bottom of the lower case 220.

In addition, the refrigerant gas is completely vaporized through the discharge pipe 150 connected to the discharge tube insertion hole 222 formed in the lower case 220 through the inlet 118 connected to the other end of the discharge tube 150 cylinder 120 Inhaled into the body.

As described above, according to the present invention, by installing a refrigerant storage unit capable of performing an accumulator function in the compressor, a separate accumulator can be eliminated, thereby miniaturizing the air conditioner according to the cost reduction and the common volume reduction according to the accumulator production. At the same time, the effect can be achieved.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. .

Therefore, the technical protection scope of the present invention should be defined only by the appended claims.

Claims (1)

In a conventional rotary compressor that sucks low-temperature, low-pressure refrigerant gas evaporated by an evaporator and compresses the refrigerant gas into a high-temperature, high-pressure refrigerant gas, the diaphragm between the lower body 117 and the lower cover 116 of the compressor 100. 160) is installed; A lower portion of the diaphragm 160 is provided with a coolant storage unit 200 formed of an upper case 210 and a lower case 220; A suction tube insertion hole 211 is formed at one side of the upper case 210 of the refrigerant storage unit 200 so that one end of the suction tube 140 into which the circulated refrigerant gas is sucked can be inserted and connected; The lower case 220 of the coolant storage unit 200 has a liquid refrigerant discharge hole 221 for discharging the liquid refrigerant and a discharge tube insertion hole 222 to allow one end of the discharge tube 150 to be connected to one side thereof. Rotary compressor with an accumulator, characterized in that formed).