KR20000044722A - Cylinder rotational compressor - Google Patents

Abstract

PURPOSE: A cylinder rotational compressor is provided to close the cylinder rotational compressor by integrally making up a cylinder and a rotator, to save a producing cost and to decrease volume. CONSTITUTION: Cooling gas is flowed in through an absorption tube by driving an air conditioner and flowed in a compressor unit through the absorption hole installed in a roller(12) or a lower bearing. Herein, a rotary shaft(21) of the compressor become eccentric and rotates so that the roller is rotated. Further, a high voltage part and a low voltage part repeatedly perform compression by a vane fixed in a cylinder(11) in a compression chamber(15) inside the cylinder. The cooling gas is absorbed through the absorption hole based on the difference between outer pressure and inner pressure of the compression chamber in the low voltage part while the cooling gas is vented through a vent hole the high voltage part. Since the cylinder is integrally formed with a rotator, the cylinder is rotated by receiving a magnetic force generated from the rotator.

Description

A cylinder rotating type compressor

The present invention relates to a compressor. Specifically, a part of a cylinder that is a rotating body is configured as a rotor to receive a magnetic force from a stator to enable a closed type in which the cylinder rotates, thereby reducing volume and manufacturing cost. It relates to a cylindrical rotary compressor that can be brought.

In general, the air conditioner cools indoor air by interlocking with a refrigeration cycle while circulating air, and the air conditioner is divided into an indoor unit and an outdoor unit, and the indoor unit and the outdoor unit are installed in one body. Separately installed is called a separate type air conditioner.

As described above, the indoor unit of the air conditioner composed of the indoor unit and the outdoor unit serves to suck and discharge the indoor air by the interaction between the evaporator and the sirocon fan, and the outdoor unit is configured to suck the outdoor air by forming a compressor, a condenser, and a cooling fan. And discharge.

In the air conditioner as described above, the refrigerant gas vaporized by the endothermic action in the evaporator becomes a gas of high temperature and high pressure by mechanical operation in the compressor, and this gas becomes a liquid as it condenses through the condenser. When the expansion valve is sent to the evaporator, the endothermic action of evaporation is repeated, and the indoor air is lowered to a low temperature.

The compressor compresses the refrigerant gas by reciprocating the piston, and then condenses and expands the refrigerant gas to lower the temperature of the air sucked from the outside by using the principle of taking away the heat of the surroundings by vaporizing the refrigerant.

The configuration of a rotary compressor installed in a conventional air conditioner for compressing the refrigerant gas at high temperature and high pressure as described above sucks the refrigerant gas of low temperature and low pressure evaporated from the evaporator to the outside of the compressor shell 10 as shown in FIG. The suction pipe 61 is installed as the accumulator 60, and the inside of the shell 10 is provided with a rotating shaft 21 having an eccentric portion at the inner circumference and an electric motor 20 in which the rotor 22 is built. The lower side of the motor bearing 24 is installed in the upper side, the pump bearing 25 is installed in the lower side is formed in the inner periphery of the cylinder 11 in which the eccentric portion and the roller 12 of the rotary shaft 21 is integrally installed. .

The compressor shell 10 is divided into an upper cover 30 having an external terminal 31, a discharge tube 32, and a lower cover 50 and a body 40 on which a base plate having a fastening hole is formed.

The cylinder 11 has a suction port 16 formed to suck the refrigerant gas through the accumulator 60 to one side, and the discharge port (not shown) to open and discharge the compressed refrigerant gas by a discharge valve (not shown) on the other side. None) is formed and a vane (not shown) is installed to divide the high pressure side and the low pressure side during operation of the roller 12.

The operation of the compressor configured as described above is carried out through the intake port 60 of the refrigerant gas evaporated from the evaporator through the accumulator 60 installed to remove the liquid refrigerant and foreign matter contained in the refrigerant gas through the suction pipe 61. It is sucked into the cylinder 11 through 16.

The refrigerant gas sucked in this way is the motor rotational force of the electric motor 20 is transmitted directly to the rotating shaft 21 to rotate the refrigerant gas introduced through the suction port 16 and the oil film contact of the roller 12 with the eccentric portion of the rotating shaft 21. Due to the rotation by the compression chamber 15 is compressed, the compressed refrigerant gas is discharged to the discharge port by the action of the discharge valve.

The high temperature and high pressure refrigerant gas discharged through the discharge port is discharged to the condenser through the discharge tube 32 formed in the upper cover 30 through the body 40.

4 is a cross-sectional view of a compressor unit of a conventional rotary compressor, in which a refrigerant in the compression chamber 15 is sucked and discharged by an eccentric rotation of the roller 12 in a cylinder 11 installed into the compressor shell 10. In order to allow the cylinder 11 to rotate, a connector 26 for connecting with an external electric motor 20 was used as shown.

Therefore, in the conventional cylindrical rotary compressor, there is a problem that the structure is complicated, bulky and the manufacturing price is expensive.

In particular, there are great limitations to the connection with external motors and connectors for the rotation of the cylinder in the manufacture of hermetic.

The present invention is to improve the problems of the conventional rotary rotary compressor as described above, by integrating the cylinder and the rotor of the rotating body to be integrated into the cylinder is possible to seal the rotary compressor as well as to reduce the manufacturing cost and volume It is an object of the present invention to provide a cylindrical rotary compressor capable of miniaturization of the.

In order to achieve the above object, the present invention is a low-temperature, low-pressure refrigerant gas from the evaporator is sucked through the suction pipe to the suction port installed in the roller or the lower bearing is compressed and discharged through the discharge valve installed in the rotating cylinder to the condenser In the compressor being sent, the eccentric rotating shaft is composed of a roller fixed to the lower structure and rotating around the rotating shaft, and the cylinder has a relatively orbital motion around the roller, and the high and low pressure section is divided by vanes fixed to the cylinder. The cylinder of the rotary rotary compressor is configured integrally with the rotor of the electric motor and is configured to be configured inside the compressor shell to be rotated by receiving magnetic force from the stator by external power supply.

The present invention is characterized in that the cylinder-rotating compressor is configured to be hermetically sealed.

1 is a cross-sectional view of the compressor unit of the rotary compressor of the present invention

2 is a cross-sectional view taken along the line A-A in FIG.

3 is a cross-sectional view of a conventional rotary compressor

4 is a cross-sectional view of the compressor unit in FIG.

Explanation of symbols for the main parts of the drawings

10 compressor shell 11: cylinder

12: roller 14: vane

15: compression chamber 21: rotating shaft

22: rotor 23: stator

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

1 is a cross-sectional view of the compressor unit of the cylinder-type compressor of the present invention, as shown in the present invention is mounted on the rotary shaft 21 eccentric to the compression chamber 15 inside the cylinder 11 of the compressor to rotate The vane 14 is fixed to the roller 12 and the cylinder 11 and partitions the high pressure part and the low pressure part in the compression chamber 15 in a reciprocating motion by the spring 141, and the cylinder 11 moves downward. It is formed integrally with the rotor 22, the outer periphery of the rotor 22 is composed of a stator 23 to generate a magnetic force by the supply of an external power source to rotate the rotor 22, the compressor The part is closed by the compressor shell 10, and is comprised.

FIG. 2 is a cross-sectional view taken along line AA in FIG. 1, and as shown in the drawing, a cylinder 11 which is integrally formed with a rotor that is rotated by a magnetic force of a stator into the compressor shell 10 is configured to rotate simultaneously with the rotor. In the cylinder 11, a roller 12 mounted on a rotating shaft which is eccentrically rotated is formed, and the high and low pressure part is partitioned by vanes 14 fixed to the cylinder 11.

In the cylindrical rotary compressor of the present invention configured as described above, the refrigerant gas introduced through the suction pipe by driving the air conditioner is introduced into the compressor unit through the suction port installed in the roller 12 or the lower bearing, and the rotary shaft 21 of the compressor. When the eccentric rotation is rotated, the roller 12 fixed to the rotating shaft 21 is rotated, and in the compression chamber 15 inside the cylinder 11, the high pressure portion and the low pressure portion are repeated by the vanes 14 fixed to the cylinder 11. Compression is done. As a result, the refrigerant gas is sucked through the suction port in the low pressure part and the refrigerant gas is discharged through the discharge port in the high pressure part according to the pressure difference in the compression chamber 15 and the external pressure difference.

Meanwhile, in the present invention, the cylinder 11 and the rotor 22 are integrally formed, and the cylinder 11 is formed integrally with the rotor 22 by receiving a magnetic force generated by the stator 23 by the power supplied from the outside. Will be rotated.

In addition, in the present invention, it is possible to seal the cylinder-type compressor by allowing a part of the cylinder 11 to be magnetized or die-cast to receive rotational force so as to function as a rotor.

As described above, the present invention can be configured in a sealed type by integrally configuring the cylinder and the rotor, as well as the need for a connector through a motor can be reduced, thereby reducing the manufacturing cost and miniaturizing the volume.

Claims (4)

In the compressor in which the low-temperature and low-pressure refrigerant gas from the evaporator is sucked through a suction pipe to a suction port installed in a roller or a lower bearing, compressed, and then discharged through a discharge valve installed in a rotating cylinder, it is sent to a condenser. ) Is fixed to the lower structure and consists of a roller (12) rotating around the axis of rotation (21) and the cylinder (11) relative to the roller (12) relative to the orbital movement, fixed to the cylinder (11) The cylinder 11 of the cylinder type rotary compressor in which the high and low pressure portion is partitioned through the vanes 14 is integrally formed with the rotor 22 of the electric motor and is rotated by receiving magnetic force from the stator 23 by external power supply. A cylinder type rotary compressor, which is constituted inside (10). 2. The cylinder rotary compressor according to claim 1, wherein the cylinder rotary compressor is configured to be hermetically sealed. 2. A cylinder type rotary compressor according to claim 1, wherein a part of the cylinder (11) is magnetized so that it can be rotated by the stator (23). 2. A cylinder type rotary compressor according to claim 1, wherein the cylinder (11) is die cast of aluminum so as to be rotated by the stator (23).