KR20020060488A - Discharging apparatus for compressor - Google Patents

Abstract

PURPOSE: A device for discharging refrigerant of compressor is provided to improve performance of the compressor and to reduce noise by reducing pulsating flow generated in a loop pipe. CONSTITUTION: A loop pipe(50) comprises fixing pipe parts(51A,51B) made of copper pipe formed on both ends thereof for connection with other components; and a flexible pipe part(53) made of flexible material capable of transforming according to pulsating flow and connecting the fixing pipe parts to deliver refrigerant so that the flexible pipe part expands on a part where pressure is higher and contracts where pressure is lower to reduce pulsating flow.

Description

Refrigerant discharge device of compressor {DISCHARGING APPARATUS FOR COMPRESSOR}

The present invention relates to a refrigerant discharge device of the compressor, and more particularly to a refrigerant discharge device of the compressor for reducing the pulsating flow generated in the loop pipe connecting the discharge system of the compressor and the condenser of the refrigeration cycle.

The general reciprocating compressor converts the rotational motion by the motor 5 consisting of the rotor 5A and the stator 5B into linear motion through the connecting rod 1 and the piston 3 as shown in FIG. It is a device for discharging high-pressure refrigerant by inhaling and compressing the refrigerant through the interaction between the piston (3) and the cylinder block (7).

In the suction and discharge systems of the compressor as shown in FIG. 2, the pressure inside the cylinder 9 is lower than the pressure of the suction muffler 11 when the piston 3 moves from the top dead center to the bottom dead center. The suction valve 13 is opened and the refrigerant is introduced into the cylinder 9 until the pressure is equal to the suction muffler 11.

In addition, when the piston 3 is moved from the bottom dead center to the top dead center, the pressure inside the cylinder 9 is continuously increased so that the pressure is greater than the spring force of the discharge spring supporting the discharge valve 15. When the discharge valve 15 is opened, the high pressure refrigerant is discharged from the cylinder 9 to the discharge plenum 17.

The above operation is repeated 60 times per second in a 60 Hz compressor and 50 times per second in a 50 Hz compressor. Due to the repetitive suction and discharge processes, repetitive pulsations having a basic period of 1/60 are continuously generated in the suction muffler 11 and the discharge plenum 17.

This pulsating flow is generated in the loop pipe 20 after passing through the discharge silencer 19. Here, the loop pipe 20 is composed of a copper pipe 21 bent several times to move the refrigerant as shown in Figure 3, and a vibration reducing spring 23 provided in the copper pipe 21.

The pulsating flow as shown in FIG. 4 is generated in the loop pipe 20 configured as described above. The pulsating flow prevents the smooth flow of the refrigerant, thereby reducing the amount of refrigerant and increasing the input, thereby reducing the efficiency of the compressor. Becomes

In addition, the pulsating flow of the roof pipe 20 itself causes noise, and interacts with other components constituting the refrigeration cycle to generate additional noise unexpected in the compressor unit in actual operation.

In addition, since the loop pipe 20 is a copper pipe 21, noise caused by vibration of the tube itself is generated by the pulsating flow.

Accordingly, there is a need to develop a refrigerant discharge device of a compressor having a structure capable of reducing pulsation flow generated in the loop pipe 20 to improve performance and noise of the compressor.

The present invention has been made to solve the above problems, by making the loop pipe made of a flexible material so that the loop pipe is deformed according to the pulsating flow, the pulsating flow generated in the loop pipe is reduced to improve the performance of the compressor It is an object of the present invention to provide a refrigerant discharge device of a compressor to reduce noise.

1 is a configuration diagram showing a typical reciprocating compressor,

2 is a configuration diagram showing the structure of the suction system and the discharge system of the compressor;

3 is a block diagram showing a loop pipe according to the prior art,

4 is a configuration diagram showing a pulsating flow phenomenon in a loop pipe according to the prior art,

5 is a block diagram showing a loop pipe according to the present invention,

Figure 6 is a block diagram showing a pulsating flow phenomenon in the loop pipe according to the present invention.

<Explanation of symbols for the main parts of the drawings>

50: loop pipe 51A, 51B: fixed pipe part

53: flexible pipe part

(a): Flexible pipe part condition before compressor operation

(b): Flexible pipe part state after compressor operation

The refrigerant discharge device of the compressor according to the present invention for achieving the above object is characterized in that the loop pipe for connecting the discharge system of the compressor and the condenser of the refrigeration cycle is made of a flexible material that can be deformed according to the pulsating flow.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

5 is a block diagram showing a loop pipe according to the present invention, Figure 6 is a block diagram showing a pulsating flow phenomenon in the loop pipe according to the present invention.

Referring to FIG. 5, the refrigerant discharge device of the compressor according to the present invention is a flexible material in which the loop pipe 50 for connecting the discharge system of the compressor, that is, the discharge silencer and the condenser of the refrigeration cycle, can be deformed according to the pulsating flow. Is made with.

In addition, both ends of the loop pipe 50 are made of copper pipes to facilitate connection with other components.

That is, the loop pipe 50, as shown in Figure 5, the fixed pipe portion (51A) 51B of both ends made of copper pipe for connection with other components and the respective fixing portion (51A) It is composed of a flexible pipe portion 53 made of a flexible material that connects the 51B to move the refrigerant and deforms according to the pulsating flow.

At this time, since the fixed pipe portions 51A and 51B made of copper pipes of the loop pipe 50 are not essential parts, the fixed pipe portions 51A and 51B are deleted and the flexible pipe portion 53 is removed. It can also be fastened directly to other components.

In the refrigerant discharge device of the compressor according to the present invention including the loop pipe 50 configured as described above, if the pressure pulsation occurs by operating the compressor, the flexible pipe part 53 of the loop pipe 50 is shown in FIG. 6. It expands at high pressures and contracts at low pressures.

Here, the dotted line part of (a) shown in FIG. 6 indicates the state of the flexible pipe part 53 before the compressor operation, and the solid line part of (b) indicates the state of the flexible pipe part 53 after the compressor operation. It is shown.

Therefore, by the loop pipe 50, the pressure is reduced in the portion having a large pressure, and conversely, the effect of increasing the pressure is generated in the portion having a low pressure, thereby directly reducing the pulsating flow.

At this time, the loop pipe 50 is configured such that the vibrating displacement of the flexible pipe portion 53 is proportionally deformed corresponding to the magnitude of the pressure pulsation.

In addition, the loop pipe 50 is configured such that the frequency of the vibration displacement of the flexible pipe portion 53 is twice the pressure pulsation, and the vibration displacement can be maintained by externally applied power.

In particular, the loop pipe 50 can be designed to be deformed while the flexible pipe portion 53 has a displacement phase opposite to that of the pressure pulsation when the material and size of the flexible pipe portion 53 are properly selected. It is also possible to fundamentally cancel the pressure pulsation itself.

The refrigerant discharge device of the compressor according to the present invention configured and operated as described above is made of a flexible material, and thus the pulsating flow generated in the loop pipe is reduced as the loop pipe is deformed according to the pulsating flow. Due to the performance degradation and noise of the compressor is prevented and the noise caused by the vibration of the loop pipe itself is also eliminated there is an advantage that the performance of the compressor is improved and the noise is reduced.

Claims (2)

A loop pipe for connecting the discharge system of the compressor and the condenser of the refrigeration cycle, the refrigerant discharge device of the compressor, characterized in that made of a flexible material that can be deformed according to the pulsating flow. The method of claim 1, The loop pipe is a refrigerant discharge device of the compressor, characterized in that both ends are made of copper pipe to facilitate connection with other components.