KR20060117712A - Vacuum detection device for air conditioner - Google Patents

Abstract

A vacuum inspection device of an air conditioner is provided to inspect vacuum of a pipe between an indoor unit and an outdoor unit by separating and connecting a low or high pressure connecting hose from a high or low pressure pipe service valve to a pipe of a low pressure sensor in wrong operation of a gauge. A vacuum inspection device of an air conditioner includes a pressure sensor installed in a high or low pressure pipe(30,31) connecting an indoor unit(20) and an outdoor unit, a valve(18) installed at an inlet of a pipe to the pressure sensor, a manifold gauge(40) connected to the high pressure pipe or the low pressure pipe and the valve, a vacuum pump(50) connected to the manifold gauge to suck air, an outdoor control unit(15a) forming vacuum by sucking air with the vacuum pump and detecting vacuum of the pipe according to pressure detected by the pressure sensor, and a display unit(15b) indicating the vacuum according to a control signal of the outdoor control unit. One side of the manifold gauge is connected to a high or low pressure pipe service valve through a first connecting hose, and the other side is connected to the valve through a second connecting hose.

Description

VACUUM DETECTION DEVICE FOR AIR CONDITIONER

1 is a block diagram of a vacuum inspection apparatus of an air conditioner according to the prior art.

2 is a cycle configuration diagram of an air conditioner to which the present invention is applied.

3 is a block diagram of a vacuum inspection apparatus of an air conditioner according to an embodiment of the present invention.

* Description of the symbols for the main functions of the drawings *

10: outdoor unit 15: PCB

15a: outdoor control unit 15b: display unit

16 low pressure sensor 17 branch service valve

18: valve 20: indoor unit

30: high pressure piping 31: low pressure piping

31a: first branch engine 31b: second branch engine

40: manifold gauge 50: vacuum pump

60, 70, 80: connecting hose

The present invention relates to a vacuum inspection apparatus for an air conditioner, and more particularly, to a vacuum inspection apparatus for an air conditioner capable of inspecting the degree of vacuum in a pipe between an outdoor unit and an indoor unit.

In general, an air conditioner, in particular a multi-chamber air conditioner, includes one outdoor unit and a plurality of outdoor units connected to the outdoor unit by a high pressure pipe and a low pressure pipe.

The vacuum inspection apparatus of the air conditioner according to the prior art, as shown in Figure 1, the high pressure side is connected to the high pressure pipe (4) connecting between the outdoor unit (1) and each indoor unit (2), low pressure pipe (5) ) And a manifold gauge 6 connected to the low pressure side, and a vacuum pump 7 connected to the vacuum side of the manifold gauge 6. The manifold gauge 6 includes gauges 6a and 6b in which the pressure value is in the form of a needle scale, a high pressure side valve 6c, and a low pressure side valve 6d.

By the above configuration, conventionally, both the high pressure side and the low pressure side valves 6c and 6d of the manifold gauge 6 are opened, and then the vacuum pump 7 is operated to form a vacuum, and then the gauges 6a, The vacuum value in the pipe was examined by reading the pressure value shown in 6b).

However, conventionally, when the gauges 6a and 6b of the manifold gauge 6 are broken, the degree of vacuum in the pipe cannot be confirmed. Therefore, there is a problem that not only has to be installed separately an additional measuring instrument, but also increases the inspection cost due to adding the measuring instrument.

The present invention is to solve the above-mentioned problems, an object of the present invention is to check the degree of vacuum in the pipe connected between the outdoor unit and the indoor unit even if the gauge of the manifold gauge failure, without installing additional instruments It is to provide a vacuum inspection apparatus of the conditioner.

The vacuum inspection apparatus of the air conditioner of the present invention for achieving the above object is a pressure sensor installed in a high pressure pipe or a low pressure pipe connecting the outdoor unit and the indoor unit, a valve installed at the pipe inlet to the pressure sensor, the high pressure pipe Or one side is connected to the low pressure pipe, the other side is connected to the valve manifold gauge, the vacuum pump is connected to the manifold gauge to suck air, and by operating the vacuum pump to form a vacuum through the air suction after the And an outdoor control unit for recognizing the degree of vacuum in the pipe from the pressure value detected by the pressure sensor, and a display unit for displaying the degree of vacuum recognized according to the control signal of the outdoor control unit.

One side of the manifold gauge is connected to the high pressure pipe service valve or the low pressure pipe service valve by a first connection hose, and the other side is connected to the valve by a second connection hose.

And the valve is installed in a second branch pipe branched from a first branch pipe branched from a pipe in which the pressure sensor is installed.

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

2 is a cycle configuration diagram of an air conditioner to which the present invention is applied, and is an example applied to a multi-air conditioner in which a plurality of indoor units are connected to one outdoor unit.

The air conditioner to which the present invention is applied includes one outdoor unit 10 and a plurality of indoor units 20, and includes a compressor 11, an outdoor heat exchanger 12, an electric expansion valve 13, and an indoor heat exchanger 22. ) Are sequentially connected by the refrigerant pipe to form a closed circuit.

The outdoor unit 10 includes a compressor 11, an outdoor heat exchanger 12, and an electric expansion valve 13.

In addition, several indoor units 20 are arranged in parallel, and each indoor unit 20 includes an electric expansion valve 21 and an indoor heat exchanger 22. Therefore, a plurality of indoor units 20 are connected to one outdoor unit 10.

In addition, the outdoor unit 10 and the indoor unit 20 are connected by pipes 30 and 31, which connect the discharge side of the compressor 11 and the inlet side of the indoor heat exchanger 22. The high pressure pipe 30 and the low pressure pipe 31 connecting the suction side of the compressor 11 and the outlet side of the indoor heat exchanger 22 are divided. The service valves 14a and 14b are installed in the outdoor unit side high pressure pipe 30 and the low pressure pipe 31, respectively.

On the other hand, a low pressure sensor (LPS) 16 for detecting the suction pressure of the refrigerant is installed on the suction side of the compressor 12.

The vacuum inspection apparatus of the air conditioner according to the present invention is to inspect the degree of vacuum in the pipe connected between the outdoor unit and each indoor unit, and if the gauge of the manifold gauge is broken, it is a low pressure pipe or a high pressure pipe installed in the outdoor unit. By using a low pressure sensor or a high pressure sensor for detecting the refrigerant pressure in the pipe to detect the degree of vacuum, it is to replace the role. The vacuum inspection apparatus of the air conditioner according to the present invention uses the same type of manifold gauge and vacuum pump.

Hereinafter, the inspection of the degree of vacuum in the pipe using the low pressure sensor will be described.

As shown in FIG. 3, a vacuum inspection apparatus for an air conditioner according to an embodiment of the present invention includes a low pressure sensor 16, a valve 18, a manifold gauge 40, a vacuum pump 50, And a PCB 15.

The low pressure sensor 16 is installed in the low pressure pipe 31 connecting the outdoor unit and the indoor unit to detect the pressure of the refrigerant. To this end, the low pressure sensor 16 is installed at an end via a branch service valve 17 which can be opened and closed in the first branch pipe 31a branched from the low pressure pipe 31.

The valve 18 is installed at the end of the second branch pipe 31b branched again from the first branch pipe 31a between the low pressure sensor 16 and the branch service valve 17. The valve 18 is normally closed and opened by the physical connection of the connection hoses 60, 70, and 80 connected to the manifold gauge 40, which will be described later.

Manifold gauge 40 has two gauges (41a, 41b) is formed on the upper side of the body for the display of pressure, the lower side is provided with a triangular connection to connect the manifold gauge (40) to the outside. . The connection part is connected to the external device through the connection hoses 60, 70, and 80. Moreover, the high pressure side valve 42a and the low pressure side valve 42b are provided.

The vacuum pump 50 is connected to the manifold gauge 40 through a connection hose 80 to suck air from the manifold gauge 40 and discharge it to the outside.

The PCB 15 of the outdoor unit is connected to the low pressure sensor 16 through a communication line, and an outdoor control unit 15a that recognizes the degree of vacuum in the pipe from the pressure value detected by the low pressure sensor 16, and the outdoor control unit 15a. And a display portion 15b for displaying the recognized degree of vacuum in accordance with the control signal.

In the vacuum inspection apparatus of the air conditioner having the above-described configuration, first, the high pressure side, the low pressure side, and the vacuum side of the manifold gauge 40 are connected to each other by using the hoses 60, 70, and 80 for the vacuum degree inspection in the pipe. To the service valve 14b provided on the high pressure pipe 30 side, the service valve 14a provided on the low pressure pipe 31 side, and the vacuum pump 50, respectively.

Thereafter, the high pressure and low pressure valves 42a and 42b of the manifold gauge 40 are opened, and the vacuum pump 50 is operated for a predetermined time to form a vacuum to discharge the air in the pipe to the outside. After a certain period of time after the formation, the pressure value displayed on the gauge of the manifold gauge 40 is read to examine the degree of vacuum in the pipe.

However, as described above, when the gauges 41a and 41b of the manifold gauge 40 are broken, the connection hoses 60 and 70 connected to the high pressure side or the low pressure side are connected to the service valves of the high pressure pipe 30. 14b) or the connecting hose (for example, 70) separated from the service valve 14a of the low pressure pipe 31 and then connected to the valve 18. At this time, the branch service valve 17 is closed in advance. This is to prevent the refrigerant from being discharged to the outside through the connection hose 70 because the outdoor unit 10 is filled with the refrigerant when the air conditioner is installed.

On the other hand, when the connection hose 70 is separated, air is introduced into the connection hose 70, and a small amount of refrigerant is present between the branch service valve 17 and the valve 18, so that the vacuum pump ( 50) to extract all of this air and refrigerant to a vacuum.

Then, by applying power to the outdoor unit 10 and reading the pressure value through the low pressure sensor 16, the outdoor control unit 15a recognizes the degree of vacuum in the pipe. In addition, the outdoor controller 15a displays the recognized degree of vacuum in the pipe through the display unit 15b. This allows the user to check the degree of vacuum in the pipe even if the gauge fails.

As described in detail above, in the present invention, when the gauge of the manifold gauge is faulty, air conditioning is performed after separating either the low pressure side connection hose or the high pressure side connection hose from the existing high pressure pipe service valve or the low pressure pipe service valve. By connecting to the existing low pressure sensor side pipe, the vacuum level of the pipe can be detected and displayed, so that even if the gauge of the manifold gauge is broken, the pipe vacuum between the outdoor unit and the indoor unit can be inspected without installing an additional instrument. .

Claims (3)

A pressure sensor installed in a high pressure pipe or a low pressure pipe connecting the outdoor unit to the indoor unit, A valve installed at a pipe inlet to the pressure sensor, A manifold gauge having one side connected to the high pressure pipe or the low pressure pipe and the other side connected to the valve; A vacuum pump connected to the manifold gauge and sucking air; An outdoor control unit which operates the vacuum pump and recognizes the degree of vacuum in the pipe from the pressure value detected by the pressure sensor after forming a vacuum through air suction; And a display unit for displaying the degree of vacuum recognized according to the control signal of the outdoor control unit. The method of claim 1, wherein one side of the manifold gauge is connected to the high pressure pipe service valve or the low pressure pipe service valve by a first connection hose, and the other side is connected to the valve by a second connection hose. Vacuum tester of air conditioner. The vacuum inspection apparatus of an air conditioner according to claim 1, wherein the valve is installed in a second branch pipe branched from a first branch pipe branched from a pipe in which the pressure sensor is installed.

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