KR19990074424A - Discharge valve assembly of compressor - Google Patents

Abstract

A discharge valve having a free end for opening and closing the discharge port, and a fixed end fixed to one side of an upper surface of the upper flange on which the discharge port is formed; A valve stopper for limiting the vertical movement range of the free end of the discharge valve; And a buffer stopper overlapping a lower surface of the valve stopper, the buffer stopper having a through hole in which gas is retained. As disclosed, when the compressed refrigerant is discharged and the discharge valve is opened by the pressure, the refrigerant gas filled in the buffer stopper serves as a cushion. Therefore, the impact and the resulting noise of the discharge valve hitting the buffer stopper are greatly reduced. In addition, when the pressure inside the cylinder is lower than the pressure in the discharge space after the compression operation is closed, the discharge valve is closed by the pressure of the refrigerant gas filled in the through hole of the buffer stopper. Therefore, the discharged refrigerant is prevented from flowing back to the inside of the cylinder through the discharge port.

Description

Discharge valve assembly of compressor

The present invention relates to a compact compressor for use in a refrigerator or an air conditioner. More specifically, the present invention relates to a discharge valve assembly for opening and closing a discharge port so that the compression efficiency can be improved by minimizing the gap volume of the cylinder during the compression of the gas.

Generally, a compressor used in a refrigerator, an air conditioner, or the like has a structure in which a motor 20 and a cylinder assembly 30 are installed inside a cylindrical hermetic container 10.

The motor 20 is composed of a stator 21 and a rotor 22. The stator 21 is press-fitted into the container 10, and the eccentric shaft 23 for transmitting the rotational force of the motor 20 to the cylinder assembly 30 is fixed to the rotor 22.

The cylinder assembly 30 is provided between the upper and lower flanges 31 and 32 supporting the eccentric shaft 23 and the cylinder 33 which is formed between the upper and lower flanges 31 and 32 to form a predetermined internal space. And a rotor 34 inserted around the eccentric shaft 23 and rotated by the eccentric shaft 23.

The upper flange 31 is formed with a discharge port 31a for discharging the refrigerant compressed in the inner space of the cylinder 33 to the discharge space 10a inside the container, and a discharge valve assembly for opening and closing the discharge port 31a. 40 is provided.

The discharge valve assembly 40 is composed of a discharge valve 41 for opening and closing the discharge port 31a and a valve stopper 42 for limiting the upward movement width of the discharge valve 41.

For reference, reference numeral 11 in the drawing is a discharge tube.

In this way, when the rotational force of the motor 20 is transmitted to the rotor 34 via the eccentric shaft 23, the rotor 34 rotates and revolves in the inner space of the cylinder 33. Accordingly, the refrigerant is sucked into the inner space of the cylinder 33 and compressed, and then discharged into the discharge space 10a through the discharge valve 41 and the muffler 36. The discharged refrigerant is transferred to an external device such as a condenser (not shown) of the air conditioner through the discharge pipe 11.

However, the discharge valve assembly 40 of such a conventional compressor had the following problems.

That is, when the discharge valve 41 is opened and the compressed refrigerant is discharged, the discharge valve 40 hits the valve stopper 42. This phenomenon occurs periodically during the operation of the compressor has a problem that is the main noise source of the compressor.

In addition, the discharge valve 41 comes into close contact with the lower surface of the valve stopper 42 when the valve stopper 42 hits the valve stopper 42. In this case, when the pressure inside the cylinder is lower than the pressure of the discharge space 10a after the compression operation is completed and the discharge valve 41 is closed, there is almost no pressure difference between the discharge valve 41 and the discharge valve 41 is closed. The time falling from the valve stopper 42 is delayed. Therefore, a phenomenon in which the discharged gas flows back into the cylinder 33 occurs, and there is a problem in that the performance of the compressor is deteriorated.

The object of the present invention is to reduce the noise generated when the discharge valve hits the valve stopper.

Another object of the present invention is to improve the performance of the compressor by preventing the back flow of refrigerant by causing the discharge valve to quickly drop from the valve stopper.

1 is a cross-sectional view showing a typical hermetic rotary compressor.

2 is an enlarged cross-sectional view illustrating main parts of the discharge valve assembly of FIG. 1;

3 is a sectional view showing a hermetic rotary compressor in which a discharge valve assembly according to the present invention is installed;

4 is a cross-sectional view showing a discharge valve assembly according to the present invention.

5 is an exploded perspective view of the discharge valve assembly according to the present invention.

Explanation of symbols on the main parts of the drawings

110a; Discharge space 131; Upper flange

131a; Discharge port 133; cylinder

140; Discharge valve assembly 141; Discharge valve

142; Valve stopper 143; Cushioning stopper

143a; Through hole

Discharge valve assembly of the compressor according to the present invention for achieving these objects, the discharge valve having a free end for opening and closing the discharge port, and a fixed end fixed to one side of the upper surface of the upper flange is formed with the discharge port; A valve stopper for limiting the vertical movement range of the free end of the discharge valve; And a buffer stopper, which overlaps with a lower surface of the valve stopper and has a through hole in which gas is retained.

In the present invention as described above, when the compressed refrigerant is discharged and the discharge valve is opened by the pressure, the refrigerant gas filled in the buffer stopper serves as a cushion. Therefore, the impact and the resulting noise of the discharge valve hitting the buffer stopper are greatly reduced.

In addition, when the pressure inside the cylinder is lower than the pressure in the discharge space after the compression operation is closed, the discharge valve is closed by the pressure of the refrigerant gas filled in the through hole of the buffer stopper. Therefore, the discharged refrigerant is prevented from flowing back to the inside of the cylinder through the discharge port.

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

The discharge valve assembly according to the invention is shown in FIGS. 3 to 5.

For reference, FIG. 3 shows a hermetic rotary compressor in which the discharge valve assembly 140 according to the present invention is installed, except for the discharge valve assembly according to the present invention. It is indicated by a reference sign with 1 added to the beginning.

As shown, the discharge valve assembly 140 according to the present invention is composed of a discharge valve 141, the valve stopper 142 and the buffer stopper 143, and discharges the refrigerant compressed in the inner space of the cylinder inside the container The upper surface of the upper flange 131 is provided with a discharge port 131a for discharging into the space 110a.

These discharge valves 141, the valve stopper 142 and the buffer stopper 143 are respectively fixed to one side of the upper surface of the upper flange 131 on which the discharge port 131a is formed by fixing means such as the rivet 144. It is fixed.

The discharge valve 141 is placed so that its free end blocks the open upper surface of the discharge port 131a and opens the discharge port 131a by the pressure of the compressed refrigerant.

The valve stopper 142 and the buffer stopper 143 are substantially rectangular plates installed to overlap each other, and their free ends are positioned upward by a predetermined height from the discharge port 131a opened and closed by the free ends of the discharge valve 141. do.

And the buffer stopper 143 has the through-hole 143a formed along the longitudinal direction.

The operation of the discharge valve assembly 140 according to the present invention having such a configuration is as follows.

When the compressed refrigerant is discharged through the discharge port 131a, the discharge valve 141 is moved upward by the pressure of the compressed refrigerant, and hits the buffer stopper 143 on the upper side thereof. However, the through hole 143a is formed in the buffer stopper 143, and the gas is filled in the through hole 143a. The gas filled in the through hole 143a of the buffer stopper 143 acts as a kind of cushion when the discharge valve 141 strikes the buffer stopper 143, and the impact applied to the buffer stopper 143 from the discharge valve 141. (impact) is reduced. Therefore, the noise generated by the impact of the discharge valve 141 and the buffer stopper 143 is reduced.

When the refrigerant compressed through the discharge port 131a is discharged, the pressure inside the cylinder 133 communicating with the discharge port 131a is lower than the pressure in the discharge space 110a, so that the discharge valve 141 is closed. .

At this time, since the inside of the through hole 143a is filled with gas, a pressure difference occurs on both sides of the discharge valve 141 so that the discharge valve 141 is dropped from the buffer stopper 143 as quickly as possible. Therefore, the refrigerant discharged into the discharge space 110a is prevented from flowing back into the cylinder 133 through the discharge port 131a.

In the present invention as described above, a buffer stopper having a through hole is provided between the discharge valve and the valve stopper. Therefore, since the gas filled in the through hole of the buffer stopper serves as a cushion when the discharge valve is opened while the compressed gas is discharged, the impact that the discharge valve hits the buffer stopper is reduced, and noise is greatly reduced. In addition, when the pressure inside the cylinder is lower than the discharge space after the compression operation, the discharge valve is quickly closed by the pressure of the gas filled in the through hole. Accordingly, the discharged refrigerant is prevented from flowing back into the cylinder through the discharge port, thereby improving the performance of the compressor.

In the above, certain preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. .

Claims (2)

A discharge valve having a free end for opening and closing a discharge port, and a fixed end fixed to one side of an upper surface of the upper flange on which the discharge port is formed; A valve stopper for limiting a vertical movement range of the free end of the discharge valve; And And a buffer stopper overlapping a lower surface of the valve stopper and having a through hole in which gas is retained. The discharge valve assembly of claim 1, wherein one end of the valve stopper and the buffer stopper is integrally fixed to a fixed end of the discharge valve.