KR100502311B1 - By-pass structure for outdoor device of air-conditioner - Google Patents

Abstract

The present invention relates to an outdoor unit bypass structure of an air conditioner, and more particularly, to an outdoor unit bypass structure of an air conditioner, including a main duct connected one end to an outlet of a compressor in an outdoor unit of a refrigeration system and connected to a duct connected to an inlet of an accumulator And a check valve installed on one side of the main pipe so that the refrigerant supplied to one end of the main pipe flows to the other end when the pressure difference between the pressure of the one end of the main pipe and the pressure difference of the other end is less than a set pressure.

According to the present invention, it is possible to prevent the compressor from being damaged by the refrigerant pressure difference between the outlet side and the inlet side of the compressor in the initial operation of the air conditioner, The present invention relates to a device for reducing cost by using only a memory card.

Description

Background Art [0002] By-pass structure for an outdoor unit of an air conditioner is an air-

The present invention relates to an outdoor unit bypass structure of an air conditioner, and more particularly, to a refrigerant compressor which uses a relatively high-temperature refrigerant pressure generated at an outlet of a compressor during an initial operation of the air conditioner, And the compressor is prevented from being damaged. Therefore, it is possible to reduce the cost by using only one valve without the need of separate equipment for this.

In general, the indoor unit and the outdoor unit are largely divided depending on the installation place in the refrigeration system for air conditioning.

The indoor unit is composed of a capillary tube and an evaporator which are expansion devices. The outdoor unit includes a compressor for compressing the refrigerant to a high pressure, a condenser for releasing heat from the high-temperature refrigerant to the outside, a receiver for storing the surplus refrigerant, And an accumulator for separating the liquid refrigerant.

Among the above-mentioned outdoor unit components, the compressor is the most frequently occurring factor in performance degradation and failure in operation of the air conditioner.

When a certain period of time has elapsed after the operation of the air conditioner has been stopped, the pressure of the refrigerant flowing through the air conditioner is maintained at a constant saturation pressure of the refrigerant based on the outside air temperature, So that the liquid refrigerant can be located at the suction portion of the compressor.

The liquid refrigerant may flow into the suction portion of the compressor when the compressor is started, and may damage the inside of the compressor.

Therefore, in order to solve the problem caused by the liquid refrigerant as described above, a method of separating the liquid refrigerant from the refrigerant flowing through the pipeline before the refrigerant is introduced into the compressor is provided.

Another factor damaging the compressor is that when the compressor is started, the suction pressure of the compressor is lowered sharply than the suction pressure of the compressor, and then gradually increased to recover the normal evaporation pressure level.

In the above operation, when the compressor is started, a sudden drop of the evaporation pressure causes an impact inside the compressor, which causes deterioration and damage of the compressor. If the internal pressure of the refrigerant circuit for operating the air conditioner is not uniform, Damage occurs more severely.

In order to solve the above-mentioned problems, conventionally, after the stop of the compressor, the operation is performed through the pneumatic process which equally adjusts the pressure of the refrigerant circuit by giving a margin of 3 minutes to the luck display.

By connecting the discharge pipe of the compressor to the suction pipe of the accumulator and connecting the high pressure and the low pressure, it is possible to prevent the sudden drop of the suction pressure and the rapid increase of the compressor discharge pressure at the start of the compressor, Safe operation can be realized.

However, since the solenoid valve and the control unit for controlling the solenoid valve are required for the outdoor unit bypass structure of the conventional air conditioner, the manufacturing cost is increased due to the relatively high cost of the equipment, So that the assembling process is increased.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to prevent the compressor from being damaged by the pressure difference between the outlet side and the inlet side of the compressor during the initial operation of the air conditioner, So as to reduce the parts cost and the assembly process, thereby reducing the production cost, and to provide an outdoor unit bypass structure of the air conditioner.

According to another aspect of the present invention, there is provided a refrigeration system, comprising: a main pipe having one end connected to an outlet of a compressor in an outdoor unit of a refrigeration system and the other end connected to a pipe connected to an inlet of an accumulator; And a check valve installed at one side of the main pipe so that the refrigerant supplied to one end of the main pipe flows to the other end when the pressure difference of the main pipe is below the set pressure.

Preferably, the check valve includes an orifice fixed inside the main conduit and having a hollow portion, a plunger moved along the main conduit to shield the hollow portion of the orifice, and a plunger spaced apart from the orifice, A stopper that restrains movement of the stopper to a predetermined value or more when the stopper is moved to the stopper, a support portion provided below the orifice to be symmetrical with the stopper, and an elastic pressing portion having both the support portion and the check valve.

According to the present invention, it is possible to prevent the compressor from being damaged by the refrigerant pressure difference between the outlet side and the inlet side of the compressor in the initial operation of the air conditioner, The present invention relates to a device for reducing cost by using only a memory card.

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

1, the air conditioner is divided into an outdoor unit 30 and an indoor unit 50. The indoor unit 50 includes an expansion valve 52 and an evaporator 54. The outdoor unit 30 ) Includes a compressor 34 for compressing the refrigerant to a high pressure, a condenser 36 for discharging heat from the high temperature refrigerant to the outside, a receiver 38 for storing the surplus refrigerant, And an attractor 32.

The check valve 2 according to the embodiment of the present invention is connected to the discharge port of the compressor 34 at its upper end and connected to the inlet of the accumulator 32 at its lower end.

As shown in Fig. 2, the embodiment of the check valve 2 has a ring-shaped orifice 3 fixed to the inside of the pipe-shaped main pipe 1.

The plunger 7 inserted into the hollow portion 5 of the orifice 3 to block the flow of the fluid has a stopper portion 9 to be brought into contact with the orifice 3, And a wing portion 13 extending from the body portion 11 to the inner diameter of the main pipe 1. The wing portion 13 is formed of a body portion 11,

A stopper 15 formed in a cross shape along the end surface of the main pipe 1 is provided on the upper side of the plunger 7 having the above-described construction.

A supporting portion 20 provided with a supporter 22 formed in a cruciform shape is also provided on the lower side of the main pipe 1 and one end and the other end are provided on the lower side of the center of the supporter 22 and the stopper 9 A spring is attached to the connected elastic pressing portion (28).

The elastic pressing portion 28 is in a state where the initial mounting state is compressed to a predetermined length by the self weight of the plunger 7.

An outdoor unit bypass structure of an air conditioner according to an embodiment of the present invention having the above-described structure will be described with reference to the drawings.

3, when the compressor 34 is initially operated, the difference between the refrigerant pressure on the upper side and the refrigerant pressure on the lower side is relatively small with the check valve 2 as a center, A part of the refrigerant discharged from the outlet side flows into the accumulator 32 through the check valve 2. [

2, when the pressure difference between the refrigerant flowing above the check valve 2 and the refrigerant flowing below the check valve 2 is smaller than the set elastic force of the elastic pressing portion 28 made of a coil spring, the hollow portion 5 The refrigerant on the upper side of the check valve 2 flows downward.

When the pressure difference between the refrigerant flowing above the check valve 2 and the refrigerant flowing through the check valve 2 is larger than the elastic force of the elastic pressing portion 28, the plunger 7 moves downward to close the orifice 3, The refrigerant on the upper side of the check valve 2 is prevented from flowing to the lower side of the check valve 2.

4, the entire amount of the refrigerant discharged from the compressor 34 is directed to the condenser 36, and through the check valve 2, The flow of the refrigerant flowing into the lighter 32 is eliminated.

As described above, the check valve 2 according to the embodiment of the present invention is configured such that when the pressure difference between the outlet side of the compressor 34 and the inlet side of the accumulator 32 is equal to or lower than a predetermined pressure, Lt; RTI ID = 0.0 > flow). ≪ / RTI >

As described above, according to the outdoor unit bypass structure of the air conditioner according to the present invention, the refrigerant pressure at a low temperature entering the inlet of the compressor using the relatively high temperature refrigerant pressure coming out from the outlet side of the compressor during the initial operation of the air conditioner It is possible to prevent the compressor from being damaged. Therefore, there is no need for separate equipment for this purpose, and only one check valve is used, thereby providing a cost saving effect.

1 is a circuit diagram showing an outdoor unit bypass structure of an air conditioner according to an embodiment of the present invention;

FIG. 2 is a perspective view showing a check valve structure according to an embodiment of the present invention in FIG. 1. FIG.

FIG. 3 is a view showing the flow of refrigerant passing through a check valve in the initial operation of the compressor in FIG. 1; FIG.

FIG. 4 is a view showing a flow of a refrigerant that can not pass through a check valve in a normal operation of the compressor in FIG. 1;

Description of the Related Art

1: Main pipeline 2: Check valve

3: Orifice 5: Hollow portion

7: Plunger 9:

11: body portion 13: wing portion

15: stopper 20: support

22: Support bar 28: Elastic pressing part

30: outdoor unit 32: accumulator

34: compressor 36: condenser

38: Receiver 50: Indoor machine

52: expansion valve 54: evaporator

Claims (2)

A main pipe connected to one end of the outdoor unit of the refrigeration system and connected to the outlet side of the compressor, and the other end connected to a pipe line connected to the inlet side of the accumulator, And a check valve installed on one side of the main pipe so that the refrigerant supplied to one end of the main pipe flows to the other end when the pressure difference between the pressure of the one end of the main pipe and the pressure difference of the other end is less than a set pressure. The outdoor unit bypass structure. The method according to claim 1, Wherein the check valve comprises an orifice fixed inside the main conduit and having a hollow portion, A plunger moved along the main conduit to shield the hollow portion of the orifice, A stopper restricting movement of the plunger beyond a predetermined value when the plunger moves away from the orifice and upward, A support portion provided below the orifice to be symmetrical with the stopper, And an elastic pressing portion having both the supporting portion and the check valve both fixed to the lower portion of the check valve.