KR19990026177A - Refrigerant Check Valve for Air Conditioner - Google Patents

Abstract

The present invention relates to a refrigerant check valve of an air conditioner, and more particularly, an air conditioner which blocks a reverse flow of a refrigerant flowing along a pipe when the operation is stopped, thereby preventing a noise caused by the reverse flow of the refrigerant and allowing a rapid flow of the refrigerant during restart. It relates to a refrigerant check valve of.

Refrigerant check valve of the air conditioner of the present invention, a rolling pipe (41) is formed on the inner circumference body pipe 40 is connected between the refrigerant pipe;

A holder 45 having a fixing groove 42 formed at the front end, a pin hole 43 formed at the other end, and a step 44 formed therein to be fixed in the body pipe 40;

A flow path groove 47a is formed on the outer wall to form a rectangular cross section, and a stepped end portion 46 is formed at the lower end to span the step 44 formed in the holder 45, and is installed in the holder 45 to provide a refrigerant pressure. A valve 47 for opening and closing the through hole of the holder 45 by the valve; And

The stopper pin 48 is installed in the pin hole 43 of the holder 45 to limit the moving distance of the valve 47 and to prevent the valve from falling off in the holder 45.

Description

Refrigerant Check Valve for Air Conditioner

The present invention relates to a refrigerant check valve of an air conditioner, and more particularly, an air conditioner which blocks a reverse flow of a refrigerant flowing along a pipe when the operation is stopped, thereby preventing a noise caused by the reverse flow of the refrigerant and allowing a rapid flow of the refrigerant during restart. It relates to a refrigerant check valve of.

The air conditioner uses the principle of lowering the temperature by taking heat from the surroundings when vaporizing the refrigerant by moving it into a closed circuit composed of a compressor, a condenser, an evaporator, and the like by the thermodynamic properties.

The compressor is a compressor to compress the refrigerant into a gas to make a gas of high temperature, high pressure, the condenser releases heat to the outside of the high pressure and high pressure gas to liquefy the gas, the expansion valve (capillary tube) is a high temperature, high pressure It prevents the gas from flowing directly into the evaporator and serves to lower the pressure of the evaporator. The evaporator is at a low temperature and a low pressure, and the liquefied refrigerant absorbs heat from the surroundings and vaporizes.

At this time, the refrigerant is brought back to the liquefied state in order to make economic use.

Referring to the conventional separate air conditioner based on FIG. 1, the separate air conditioner is divided into an indoor unit 10 and an outdoor unit 20, and the outdoor unit 20 is a condenser 21, a compressor 22, and a fan 23. ) Is connected to the indoor unit 10 by a pipe 30.

The indoor unit 10 has a body seated on a pedestal formed in the lower portion, a sound absorbing material is attached to the wall surface of the body, a suction grid is formed on the lower front of the body, the air filter 11 inside the suction grid. And a capillary tube 13 which serves to reduce the pressure of the cooler 12 by preventing a cooler 12 and a high temperature high pressure gas from flowing directly into the evaporator, thereby receiving dew on the lower portion thereof. The dew tray is fixed.

In addition, a suction guide plate for guiding the air cooled through the cooler 12 is formed on the top of the cooler, a centrifugal fan for sucking the air guided by the suction guide plate is installed in the center of the body, the centrifugal fan is cooling air It is formed of a suction port and a motor mounted by the motor mounting, a fan blade connected to the motor shaft, and a fan duct through which air is discharged, and an exhaust duct and an exhaust grid are installed above the centrifugal fan.

And the front of the body consists of a control panel with a circuit board and air flow selection button.

Referring to the effect of the conventional indoor air conditioner indoor unit configured as described above, when the air flow selection button on the control panel is pressed, the motor operates to rotate the fan blade of the centrifugal fan.

Therefore, air cooled through the suction grid and cooled by the heat exchanger is introduced into the centrifugal fan through the suction port.

The air introduced into the centrifugal fan is introduced into the exhaust duct through the fan duct by the fan blade, and the air introduced into the exhaust duct is discharged through the exhaust grid.

At this time, the refrigerant is in a gaseous state of high temperature and high pressure in the compressor 22, is in a liquefied state in the condenser 21 and the cooler 12, and vaporizes the refrigerant in a process of returning to the compressor 22 and being in a gaseous state. The refrigeration cycle is repeated to liquefy.

By the way, according to the conventional circulation cycle of the refrigerant, the reverse flow of the refrigerant is made when the operation of the air conditioner is stopped, there is a problem that the abnormal sound occurs.

That is, when the operation is stopped, the refrigerant located on the pipe 30 on the outdoor unit makes a reverse flow to the indoor unit. At this time, the coolant descends along the pipe 30 to generate an abnormal sound (crank noise). will be.

The noise caused by the reverse flow of the refrigerant not only causes discomfort to the user, but also doubts the reliability of the product. Furthermore, when the refrigerant is restarted, the refrigerant is not purely smoked and the rapid reactivation is delayed. It will be a problem that will reduce the performance and smooth life of the smooth function.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to block the reverse flow of the refrigerant flowing along the pipe when the operation is stopped by the reverse flow of the refrigerant to prevent noise and re-start of the fast refrigerant It is to provide a refrigerant check valve of the air conditioner for the flow.

Refrigerant check valve of the air conditioner of the present invention for achieving the above object, the body pipe with a rolling protrusion formed on the inner circumference; A holder in which an annular fixing groove is formed at the front end, a pin hole is formed at the other end, and a step is formed therein to be fixed in the body pipe; A valve formed in a rectangular cross section, and having a stepped portion extending over the stepped portion formed in the holder at a lower end thereof so as to be movable in the holder to open and close the through hole of the holder according to the flow pressure of the refrigerant; The stopper pin is installed in the pin hole of the holder to limit the moving distance of the valve and to prevent the valve departure from the holder.

In addition, the connection nipple is installed on both ends of the body pipe to be composed of a single body.

When the coolant flows due to the operation of the air conditioner according to the above configuration, the valve rises due to the pressure, the holder is opened, and the coolant can flow through the flow path formed on the outer periphery of the valve. As the pressure is eliminated in the flow, the valve descends due to its own weight and closes the holder, thereby preventing the reverse flow of the refrigerant. Accordingly, noise is not generated due to the reverse flow of the refrigerant. Done.

1 is a schematic configuration diagram of an air conditioner,

2 is an exploded cross-sectional view of a refrigerant check valve according to the present invention;

3 is a plan view of the valve in FIG.

4 is an assembled cross-sectional view of the present invention;

5 is an operational cross-sectional view of the present invention,

6 is a front view of a check valve showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: indoor unit 11: air filter

12: cooler 13: capillary tube

20: outdoor unit 21: condenser

22: compressor 23: fan

30: piping 40: body pipe

41: rolling protrusion 42: fixing groove

43: pinhole 44: step

45: holder 46: hook end

47: valve 47a: euro groove

48: Stopper pin 49: Flow direction indication

50: connection nipple 51: cap nut

52: cap nipple

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

Figure 2 is an exploded cross-sectional view of the present invention, Figure 3 is a valve plan view of the present invention, Figure 4 is an assembled cross-sectional view of the present invention, Figure 5 is an operational cross-sectional view of the present invention, Figure 6 is another embodiment of the present invention Front view of the check valve shown.

As shown, the refrigerant check valve of the air conditioner of the present invention includes a body pipe 40 having a rolling protrusion 41 formed therein; A holder 45 having a fixing groove 42 formed at the front end, a pin hole 43 formed at the other end, and a step 44 formed therein to be fixed in the body pipe 40; It is formed in a rectangular cross-section, the engaging end portion 46 is formed on the lower end across the step 44 formed in the holder 45 is installed in the holder 45 so as to be movable to the holder 45 in accordance with the flow pressure of the refrigerant Valve 47 for opening and closing the through hole of the; The stopper pin 48 is installed in the pin hole 43 of the holder 45 to limit the moving distance of the valve 47 and to prevent the valve from being removed from the holder 45.

The opening and closing pressure difference of the valve 47 is operated without abnormality even at a gauge pressure of 0.2Kg / cm 2.

Reference numeral 47a denotes a flow path groove, and 49 denotes a flow direction of the refrigerant.

The check valve of this configuration can be configured on the pipe through which the refrigerant of the air conditioner flows, and can be configured as a single body for easy installation as shown in FIG.

That is, connecting nipples 50 are installed at both ends of the body pipe 40, and both connecting nipples 50 are provided with cap nuts 51 and cap nipples 52 to prevent foreign substances from entering.

In addition, the check valve of this configuration is preferably installed or configured on the capillary tube 13 or a dryer (not shown) pipe of the refrigerant flow.

The operation and effects of the present invention having such a configuration will be described.

First, when the air conditioner is in an operating state, the flow of the refrigerant is started by the pressure of the compressor 22.

The refrigerant then flows through the refrigerant flow pipe 30 and passes through the check valve of the present invention connected to the pipe 30.

When the refrigerant enters the body pipe 40 of the check valve, its end portion 46 is in contact with the step 44 of the holder 45 to close the through hole of the holder 45. It is lifted by pressure.

In this state, the flow path groove 47a is formed at the outer circumference of the quadrangular valve 47 so that the through hole of the holder 45 is opened.

Therefore, the refrigerant flowing along the pipe 30 flows along the next pipe 30 connected to the check valve through the check valve, thereby forming a circulation cycle of the refrigerant.

At this time, the movement distance of the valve 47 is limited to the stopper pin 48 provided on the holder 45 above it to maintain a state not to be separated from the holder (45).

On the other hand, when the operation of the air conditioner is stopped, the refrigerant does not flow due to the operation of the compressor 22, and the reverse flow of the refrigerant proceeds.

However, since the rising pressure is released, the valve 47 descends due to its own weight, and the hook end 46 contacts the step 44 of the holder 45 again, thereby closing the through hole of the holder 45. The refrigerant located on the pipe 30 above the valve 47 is prevented from reverse flow.

That is, when the stepped end 46 of the valve 47 is in contact with the step 44 of the holder 45, the flow path groove 47a formed in the outer wall of the valve 47 is the step 44 of the holder 45. It becomes completely blocked by the) to close the through-holes of the holder 45, and thus the reverse flow of the refrigerant is not made, and thus noise due to the reverse flow of the refrigerant is not generated.

In addition, when the air conditioner is restarted, the refrigerant is stopped on each pipe 30, so that a rapid cycle of refrigerant recycling is achieved.

As described above, the refrigerant check valve of the air conditioner of the present invention includes a check valve including a body pipe, a holder fixed to the body pipe, a valve installed in the holder and floating by the pressure of the refrigerant, and a stopper pin of the valve. When the refrigerant flows due to the operation of the air conditioner, the valve rises due to the pressure, the holder is opened, and the refrigerant can flow through the flow path formed on the outer circumference of the valve. When the air conditioner is stopped, the pressure in the refrigerant flow disappears and the valve descends due to its own weight to close the holder, preventing the reverse flow of the refrigerant so that no noise is generated due to the reverse flow of the refrigerant. When restarting, it is possible to restart quickly according to the refrigerant's net smoke. It is the effect of the like.

Although the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the spirit and scope of the invention, and such variations or modifications will belong to the appended claims. .

Claims (2)

A rolling pipe (41) formed at an inner circumference thereof, the body pipe (40) connected between both refrigerant pipes; A holder 45 having a fixing groove 42 formed at the front end, a pin hole 43 formed at the other end, and a step 44 formed therein to be fixed in the body pipe 40; A flow path groove 47a is formed on the outer wall to form a rectangular cross section, and a stepped end portion 46 is formed at the lower end to span the step 44 formed in the holder 45, and is installed in the holder 45 to provide a refrigerant pressure. A valve 47 for opening and closing the through hole of the holder 45 by the valve; And The stopper pin 48 is installed in the pin hole 43 of the holder 45 to limit the moving distance of the valve 47 and to prevent the valve from falling off in the holder 45; Refrigerant check valve. The refrigerant check valve of the air conditioner according to claim 1, wherein the connecting nipples (50) are installed at both ends of the body pipe (40).