KR950007238Y1 - Rotary compressor - Google Patents

Abstract

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Description

Refrigerant Gas Discharge Device for Rotary Compressor

1 is a cross-sectional view showing the internal configuration of a typical rotary compressor.

Figure 2 is a longitudinal cross-sectional view showing a refrigerant gas discharge device of the conventional rotary compressor.

3 is a plan view showing the internal configuration of FIG.

4 is a plan view of FIG.

5 is a configuration diagram showing a state of compressing the refrigerant gas of the rotary compressor according to the present invention,

a is a longitudinal cross-sectional view,

b is a planar view showing the cut partly.

6 is a configuration diagram showing a state of discharging the refrigerant gas of the rotary compressor according to the present invention,

a is a partial cross-sectional configuration diagram,

b is a partial plan view of a part cut away.

Figure 7 is a perspective view showing only the main part of the present invention.

* Explanation of symbols for main parts of the drawings

8: cylinder 20: communication port

21: outlet 22: operating groove

23: rubber ring 30: on-off valve

31: step 40: spring

The present invention relates to a discharge device of the refrigerant gas compressed in the cylinder of the rotary compressor, in particular to minimize the vibration and vibration noise generated when the refrigerant gas compressed in the cylinder is discharged to the outside of the cylinder.

In general, the rotary compressor is installed in the refrigeration cycle of various air conditioners for cooling and freezing to compress the refrigerant gas at high temperature and high pressure. Looking at its configuration, it is a container (1) as shown in FIG. ) Is provided with a rotating shaft (4) rotated by the stator (2) and the rotor (3) while being supported by the upper and lower bearings (5) (6), the lower of the rotary shaft (4) in an eccentric roller (7) is provided and configured to compress the inside of the cylinder (8) fixed between the upper and lower bearings (5) and 6, so that the rotary shaft (4) rotates by the rotational movement of the rotor (3). When the roller 7 provided at the lower portion thereof rotates eccentrically in the cylinder 8, the refrigerant gas sucked through the suction pipe 9 is compressed to high temperature and high pressure and discharged to the outside of the cylinder 8. The refrigerant gas is formed at the top of the vessel (1). Through the discharge pipe (10) was to be repeated from being circulating the refrigerating cycle.

In this rotary compressor, in more detail the conventional discharge process in which the refrigerant gas is compressed to a high temperature and high pressure in the cylinder (8) to the outside of the cylinder (8), which is shown in Figures 2, 3 and 4 As can be seen, the roller 7 is provided in the cylinder 8 with the roller 7 eccentrically installed on the rotating shaft 4, and the vane 12 elastically installed by the spring 11 is provided on one side of the cylinder 8. And the inlet 13 through which the refrigerant gas is sucked into the cylinder 8 on one side of the vane 12 while being partitioned within the cylinder 8 so as to be able to move back and forth according to the rotational operation of the roller 7. ) And the discharge port 15 communicating with the discharge passages 14 of the upper and lower bearings 5 and 6 on the other side, respectively, and the rollers 7 are rotated by the rotary drive of the rotary shaft 4. When rotationally driven eccentrically in (8), the refrigerant gas passes through the inlet 13 While being sucked into the cylinder (8) is compressed to high pressure is discharged to the outside of the cylinder 8 through the discharge passage 14 and the discharge passage 14 of the upper and lower bearings 5, 6, the discharge passage 14 ) Is provided with a plate-shaped opening and closing member 16 having a constant elasticity, and when the refrigerant gas is discharged, the discharge passage 14 is opened by the pressure thereof. The discharge passage 14 was closed by this.

However, in such a conventional configuration, the refrigerant gas compressed in the cylinder 8 is opened and closed through the discharge port 15 of the cylinder 8 and the discharge passage 14 of the upper and lower bearings 5 and 6. Since the structure is discharged into the container 1 while pushing the 16, when the opening and closing member 16 opens and closes the discharge passage 14, the upper contact with the surface of the lower bearing (5) (6) generates a lot of noise There was a problem, and this noise was the main cause of the vibration noise generated by the compressor.

In addition, in recent years, depending on the capacity of the rotary compressor to reduce the vibration and vibration noise by installing the opening and closing member on the upper and lower bearings, or by separating the two compression cylinders, etc. Due to the nature of the plate spring type of using the opening and closing member has a problem such as exposing the structural limitation in reducing the noise.

Accordingly, the present invention has been made in consideration of the above circumstances, and an object thereof is to provide a refrigerant gas discharge device of a rotary compressor to minimize vibration and vibration noise.

This object is achieved by improving the discharge structure of the refrigerant discharged from the cylinder into the container, that is, the cylindrical shape is elastically installed by the spring in the discharge port through which the refrigerant gas from one side of the cylinder is discharged so as to allow the reciprocating motion forward and backward. When the refrigerant gas in the cylinder is introduced or compressed by the on / off valve, the on / off valve is advanced by the elastic force of the spring to close the discharge port, and when the refrigerant gas is discharged, the spring is compressed by the discharge pressure thereof. It is characterized in that the on-off valve to open the discharge port.

Subsequently, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

5 is a cross-sectional view showing only the refrigerant gas compression part of the rotary compressor according to the present invention, which is provided with the rotary shaft 4 of the rotary compressor being supported by the upper and lower bearings 5 and 6 at the same time. The lower part of the rotating shaft 4 is provided with a roller 7 which is installed eccentrically, and the roller 7 is provided in a cylinder 8 fixed between the upper and lower bearings 5, 6, and On one side of the cylinder 8, a vane 12 elastically installed by the spring 11 is projected into the cylinder 8.

This is the same as the conventional configuration, but in the present invention relates to a discharge device in which the refrigerant gas compressed in the cylinder (8) is discharged into the container (1) outside the cylinder (8), which is one side of the cylinder (8) The communication port 20 provided in the horizontal direction in the horizontal direction, the communication port 20 is installed in the vertical direction while communicating with the communication port 20 and the discharge port 21 for discharging the compressed gas into the container, and is provided horizontally in the discharge port 21 It consists of an on-off valve 30 for opening and closing the communication port 20, and a spring 40 for elastically supporting the on-off valve 30.

That is, the discharge port 21 is provided vertically in communication with the discharge passage 14 of the upper and lower bearings 5 and 6 on one side of the cylinder 8 while the cylinder as the communication port 20 in the middle portion ( 8) is configured to communicate with the inside, and also in the body of the cylinder (8) opposed to the communication port 20 is provided with a cylindrical on-off valve 30 is elastically installed by the spring 40 communication port 20 It is configured to open and close the.

In addition, the on-off valve 30 is provided in a cylindrical shape and the elastic end 31 is provided at the rear end thereof so that the rubber ring 23 for absorbing vibration generated when the on-off valve 30 moves forward and backward in the operation groove 22 is provided. ) Is provided.

Therefore, the present invention constituted as described above is that the suction gas sucked along the suction port 13 by the roller 7 rotated eccentrically in the cylinder 8 is compressed at a high temperature and high pressure. The gas is discharged to the inside of the container 1 outside the cylinder 8 through the discharge port 21 provided on the opposite side of the suction port 13 around the vane 12.

This will be described in more detail with reference to the drawings. That is, when the pressure of the compressed gas is increased in the state as shown in FIG. 5, the pressure is also acted on the communication port 20 axis to act on the cross-sectional area of the valve 30 As a result, the on-off valve 30 is reversed as shown in FIG. 6 to open the communication port 20 which is being blocked, so that the compressed gas is discharged into the container 1 through the discharge port 21.

On the other hand, the pressure of the compressed gas is to affect the diameter of the cylinder discharge port 21 and the cross-sectional area of the on-off valve 30, and to maintain the compressed gas at a constant pressure step 31 of the on-off valve 30 It is maintained by the force of the spring 40 applied to the), in this way the relationship between the force acting on the valve 30, PH≥Fs + Fμ + W + Po

PH: Cylinder discharge pressure, W: Valve weight, Fs: Spring force, Po: Internal pressure in the container, Fμ: Friction force of the valve.

That is, when the discharge pressure PH of the compressed gas is lowered, the on-off valve 30 closes the discharge port 21 by the spring force Fs as shown in FIG. Is expressed as Po + Fs> PH + W + Fμ.

Therefore, the present invention as described above has the effect that the vibration is not generated by opening and closing the discharge port while the opening and closing valve is operated in accordance with the pressure of the compressed gas compressed in the cylinder, thereby reducing the vibration noise.

In addition to this effect, the opening and closing force of the on-off valve is increased to have the effect of improving the performance of the compressor.

Claims (1)

Eccentric rotation of the roller is provided with a cylinder (8) provided between the upper bearing (5) and the lower bearing (6) supporting the rotating shaft (4), and a roller (7) installed eccentrically on the rotating shaft and located inside the cylinder. A rotary compressor for sucking and compressing a refrigerant into the cylinder by a motion and then discharging the refrigerant to an outside of the cylinder, wherein the suction port 13 is provided in the cylinder to guide the suction of the refrigerant gas into the cylinder and the compressed refrigerant. The discharge port 21 is formed in the longitudinal direction to guide the discharge of the gas to the outside of the cylinder, the communication port 20 is in communication with the inside of the cylinder, the operation formed in the cylinder to face the communication port with the discharge port therebetween The communication hole and the discharge port are opened and closed according to the pressure of the refrigerant gas in the groove 22 and the working groove, and a stepped portion 31 is formed at the rear end thereof so as to move horizontally. Refrigerant gas discharge device of a rotary compressor, characterized in that it comprises an opening and closing valve 30, which is provided to double movement, a spring (40) provided on the rear of the stepped to support the opening and closing valve.