KR100408788B1 - Fixing mechanism of accumulator and in air conditioner - Google Patents

Abstract

The present invention provides two compressors for converting a low-temperature low-pressure gaseous refrigerant into a high-temperature high-pressure gaseous refrigerant in an air conditioning system employing an accumulator so as not to damage the connection portion of the pipe by vibration of the pipe and the compressor; An indoor heat exchanger for dissipating heat while the high temperature and high pressure gaseous refrigerant changed in the compressor is converted into a high temperature and high pressure liquid state refrigerant; An expansion mechanism for converting the high temperature and high pressure liquid refrigerant changed in the condenser into a low temperature low pressure refrigerant; An outdoor heat exchanger configured to absorb external heat while changing the low temperature low pressure refrigerant changed in the expansion mechanism into a gas state; Vibration of the air conditioner comprising an accumulator fixed to one of the two compressors and the pipe fixing means for reducing the pipe vibration connecting the accumulator, a plurality of compressors Provide an abatement device.

Description

Fixing mechanism of accumulator and in air conditioner

The present invention relates to a pipe vibration reduction device for an air conditioner in which an air conditioner system employing two compressors and an accumulator does not break a connection part of a pipe by vibration of the pipe and the compressor.

As shown in FIG. 1, in the air conditioning cycle structure using two conventional compressors, the first compressor 1 and the second compressor 2 may be operated independently or two at the same time according to the indoor load conditions. Can be.

When the indoor load condition requires the operation of two compressors, the refrigerant of the high temperature and high pressure compressed by the first compressor 1 and the second compressor 2 passes through the first oil separator 3 and the second oil separator 4, respectively. The oil is separated and the high temperature and high pressure refrigerant gas is combined to be sent to the outdoor heat exchanger (5), condensed into a high pressure liquid refrigerant, and passed through an expansion device (6) to form a low temperature low pressure refrigerant, and then to the indoor heat exchanger (7). After passing through the evaporation to the gaseous refrigerant is sucked into the compressor through the first accumulator 8 and the second accumulator 9 through the two branch pipes, respectively.

On the other hand, in the case of using as a heat pump for heating operation, by installing a four-sided valve past the oil separator, the discharged refrigerant is sent to the indoor heat exchanger (7) and passes through the expansion device (6) to become a low-temperature low-pressure refrigerant and then outdoor heat exchange After evaporating while passing through the vessel 5, the compressors are sucked into the compressors 1 and 2 through the accumulators 8 and 9, respectively.

The following describes the operation of the oil separators 3 and 4 installed in the discharge parts of the compressors 1 and 2. The refrigerant compressed in the two compressors passes through the first oil separator 3 and the second oil separator 4. While the oil is separated and the refrigerant in the gaseous state is discharged, and the separated oil passes through the first capillary tube 10 and the second capillary tube 11, respectively, after the pressure drops and flows into each compressor suction tube, thereby compressing the discharged oil. It recovers with (1,2).

As described above, the accumulators 8 and 9 are fixed to the respective compressors by the accumulator fixing bands 12 and 13 to the two compressors 1 and 2, respectively. It is possible to prevent the pipe from being damaged by suppressing the vibration of the pipe.

As described above, in the conventional air conditioning cycle using two compressors, an oil separator is installed at the compressor discharge part to recover oil, and a separate oil is sent to the suction pipe. Of refrigerant flows through the oil separator, causing a drop in cycles, and many experiments and calculations are required to select the capillary length so that the oil in the oil separator flows into the suction pipe. In addition, the compressed high-temperature high-pressure refrigerant is gradually lost to the suction pipe. In addition, as the oil passes through the capillaries installed in the discharge part and the suction part to recover the oil, reliability problems such as clogging of the capillaries due to impurities in the oil may occur. There is a problem that the installation space and weight of the system increases.

The present invention is to solve the problems described above, by using one accumulator in the air conditioning cycle using two compressors to reduce the number of parts to reduce the price, the pipe breakage is likely to occur due to the vibration of the pipe and compressor Piping vibration reducing device of an air conditioner, in which a pipe connected between two compressors and one accumulator is connected by using a compressor and an accumulator to reduce the vibration transmitted to the pipe so as to suppress the vibration of the part. The purpose is to provide.

1 is a configuration diagram of an air conditioning system using two conventional compressors.

2 is a block diagram of a pipe vibration reducing device in an air conditioning system using two compressors according to the present invention.

3 is a view showing in detail the damaged portion of the first compressor according to the present invention.

4 is a view showing in detail the damaged portion of the second compressor according to the present invention.

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

21: first compressor 22: second compressor

23: outdoor heat exchanger 24: expansion device

25: indoor heat exchanger 26: accumulator

27: first suction pipe 28: second suction pipe

29: Accumulator fixing band 30: Pipe fixing band 1

31: Piping fixing band 2 32, 33, 34: Vulnerable to pipe damage

In accordance with another aspect of the present invention, there is provided a pipe vibration reduction device for an air conditioner, including: first and second compressors for converting a low temperature low pressure gaseous refrigerant into a high temperature high pressure gaseous refrigerant; An outdoor heat exchanger configured to discharge heat while the high-pressure gaseous refrigerant is changed into a high-temperature high-pressure liquid state refrigerant; an expansion mechanism for changing the high-temperature, high-pressure liquid refrigerant changed in the condenser into a low-temperature low-pressure refrigerant; An indoor heat exchanger that absorbs external heat while changing a low temperature low pressure refrigerant into a gaseous state; A single accumulator having a pipe connected to suck the gaseous refrigerant into the first and second compressors from the outdoor heat exchanger; And the accumulator, the first compressor, and the second compression to reduce vibrations in the pipe connected between the compressors. And a pipe fixing means for tying at least two elements of the suction pipe to each other to reduce pipe vibration. Preferably, the pipe fixing means bundles and fixes the accumulator and the first compressor. Accumulator fixing band, a first pipe fixing band for tying and fixing the accumulator and the suction pipe on the accumulator side, and a second pipe fixing band for tying and fixing the second compressor and the suction pipe on the second compressor side. Characterized in that it comprises a.

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

In the air conditioning system using one accumulator and two compressors, the two compressors are operated when the indoor load is large and the large and the small ones of the two compressors are independently operated as the indoor load is changed. Done.

The following is a configuration and detailed operation of two compressors when the indoor load is large. The same parts as in the prior art are omitted and only parts related to the present invention are described below.

As shown in FIGS. 2 to 4, the high temperature and high pressure refrigerant compressed by the first compressor 21 and the second compressor 22 is introduced into the outdoor heat exchanger 23 to be liquefied into a liquid refrigerant, and then the expansion device. After expansion at 24, the low temperature low pressure refrigerant is introduced into the indoor heat exchanger 25 and evaporated into the gaseous refrigerant and then introduced into the accumulator 26.

At this time, the refrigerant separated in the gas state from the accumulator 26 is sucked into the first compressor 21 and the second compressor 22 through the first suction pipe 27 and the second suction pipe 28, respectively. Here, it is the structure which connected to the air conditioning cycle using the two compressors 21 and 22 using one accumulator 28. As shown in FIG.

When the compressors 21 and 22 are operated one by one according to the variation of the indoor load, the refrigerant introduced into the accumulator 26 is separated into a gaseous state through the first suction pipe 27 during operation of the first compressor 21. The suction is sucked through the second suction pipe 28 during operation of the second compressor 22.

2 and 3, the pipe vibrates due to the vibration of the two compressors 21 and 22 and the pressure inside the pipe, but the accumulator 26 is fixed to the accumulator. By fixing to the one compressor 21 by the band 29, the vibration with respect to the piping breakage weak part 33 in the 1st suction piping 27 can be suppressed. In addition, by fixing the second suction pipe 28 connected to the second compressor 22 in the accumulator 26 to the accumulator 26 with a pipe fixing band 1 (30), the weak part of the pipe in the second suction pipe (28). The vibration of 34 can be suppressed.

2 and 4, the other side of the second suction pipe 28 is fixed to the pipe fixing band 2 so as to reduce vibration of the fragile site 34 of the pipe connected to the second compressor 22. Vibration can be suppressed by fixing to the second compressor 22 by using the 31. Thus, in the air conditioning system using the plurality of compressors 21 and 22 and one accumulator 26, The accumulator 26 is fixed to the first compressor 21 with a band 29 to protect the vibration or damage vulnerable areas caused by the pipes 27 and 28, so that the accumulator 26 and the first compressor ( The vibration of the first suction pipe 27 connected to 22 is reduced, and the second suction pipe 28 is fixed to the accumulator 26 with a band 30 to vibrate in the second suction pipe 28. The second end of the second suction pipe 28 connected from the second compressor 22 and the accumulator 26 is fixed with a band 31 to reduce the second compression. (22) Vibration at the connecting portion 34 can be reduced, so that vibrations at the connecting portions of the pipes 27 and 28 between the accumulator 26 and the first compressor 21 and the second compressor 22 can be reduced. Can be reduced by fixing and interlocking with each other. That is, as shown in FIG. 2, the first compressor 21, the accumulator 26, the accumulator 26, and the second suction Since the pipe 28, the second suction pipe 28 and the second compressor 22 are tied to different positions and heights, the vibrations of the pipes in a specific tied element are transmitted to the other tied elements, so that they move together. The characteristics can also reduce piping vibration.

As described above, by using one accumulator in an air conditioning cycle using two compressors, the present invention can reduce the number of parts and reduce the price, as well as the piping and the compressor in the air conditioner efficiently configured to save space in the system. In order to prevent the fragile portion of the connecting portion from being damaged by the vibration of the pipe, the vibration and the accumulator are bundled to suppress the vibration transmitted to the pipe, thereby reducing the occurrence probability of the pipe breakage.

Claims (4)

First and second compressors for converting a low temperature low pressure gaseous refrigerant into a high temperature high pressure gaseous refrigerant ; An outdoor heat exchanger for dissipating heat while the high temperature and high pressure gaseous refrigerant changed in the compressor is converted into a high temperature and high pressure liquid state refrigerant ; An expansion mechanism for converting the high temperature and high pressure liquid refrigerant changed in the condenser into a low temperature low pressure refrigerant; An indoor heat exchanger configured to absorb external heat while changing the low temperature low pressure refrigerant changed in the expansion mechanism into a gas state; A single accumulator connected to a pipe so that gaseous refrigerant from the outdoor heat exchanger is sucked into the first and second compressors; In order to reduce vibration in the pipe connected between the accumulator and the compressor, at least two elements of the accumulator, the first compressor, the second compressor, and the suction pipe are bundled together to reduce the pipe vibration. Pipe vibration reducing device of the air conditioner, characterized in that it comprises a pipe fixing means . The method of claim 1, The pipe fixing means includes: an accumulator fixing band for fixing and accumulating the accumulator and the first compressor; a first pipe fixing band for fixing the accumulator and the accumulator suction pipe; And a second pipe fixing band for tying and fixing the compressor and the suction pipe on the second compressor side to an air conditioner. delete delete