KR101000053B1 - An apparatus of a vapor and oil division for different capacity compressor in an air conditioner - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerant and oil distribution device for a compressor using an air conditioner. The distribution device 1 includes a plurality of compressors 2 having different capacities, and a centrifugal unit configured on the inflow side of the compressor 2. A plurality of connecting pipes 4 are branched in communication with the centrifuge 3 so that the separator 3 and the refrigerant separated and installed outside the centrifuge 3 can be supplied to each compressor 2. The outer separator 5 and the plurality of connecting pipes 4 are branched in communication with the centrifuge 3 so that the separated oil is installed inside the centrifuge 3 and can be supplied to each compressor 2. As the structure consisting of the inner separator (6), it is possible to supply the refrigerant and oil suitable for the capacity of each compressor, the state in which the refrigerant and oil is easily separated by the centrifugal separator to a uniform capacity ratio to each compressor Improves air conditioning system performance And it will eventually be improve the quality of the product because it enables stable operation to operate the air conditioner system.

Air Conditioners, Compressors, Distribution Units, Refrigerants, Oils

Description

An apparatus of a vapor and oil division for different capacity compressor in an air conditioner

1 is a schematic view showing a cooling system for explaining a general cold air production system,

2 is a block diagram showing a system of an air conditioner for a utilization compressor according to the prior art;

3 is a state diagram showing a distribution state of a normal oil to be put into the utilization compressor according to the prior art,

4 is a block diagram showing a system of an air conditioner for a utilization compressor according to the present invention;

5 is a perspective view showing a refrigerant and an oil distribution device for a compressor of an air conditioner according to the present invention;

6 is an enlarged perspective view of an outer separator of a refrigerant and an oil distribution device for a utilization compressor according to the present invention;

7 is an enlarged perspective view illustrating an inner separator of a refrigerant and an oil distribution device for a utilization compressor according to the present invention.                 

Explanation of symbols on the main parts of the drawings

1: Distributor 2: Compressor

3: centrifuge 4: connector

5: Outer separator 6: Inner separator

7: evaporator 8: condenser

9: expansion device

The present invention relates to a distribution device configured to uniformly distribute the oil of refrigerant supplied to compressors of different capacities, and in particular, by uniformly distributing an amount of oil suitable for each compressor having different capacities by using a centrifugal structure. Iii) The present invention relates to a refrigerant and oil distribution device for a compressor using an air conditioner, which improves the performance of an air conditioner system using a capacity compressor and enables stable maintenance of the system.

In general, the air conditioner is to supply cool air to an enclosed indoor space such as an office, a room or a building inside the hot weather in the summer to maintain a temperature suitable for the activity, and is based on air conditioning.

That is, the air conditioner is divided into an indoor unit and an outdoor unit, and the indoor unit serves to suck and discharge indoor air by interaction of a heat exchanger (evaporator) and a blower fan, and the outdoor unit is a compressor and Condenser and cooling fan are installed to inhale and discharge outdoor air.

The indoor unit changes the phase of the high temperature and high pressure refrigerant introduced through the outdoor unit compressor and the condenser into a gas state while evaporating through the heat exchanger, and at this time, a blower fan driven by the driving motor as a cold heat exchanger by taking away ambient heat. By using the air to blow the hot air in the room to create a cold air, it is supplied back to the room to perform the air conditioning.

Here, in a product that generates cold air, such as an air conditioner, a series of refrigerant cycles such as compressing and evaporating a refrigerant to generate cold air are performed. The cooling system for explaining the refrigerant cycle is illustrated in FIG. 1. As described above, the compressor 101, the condenser 102, the capillary tube 103 and the evaporator 104, the compressor 101 compresses the refrigerant in the gaseous state to a high temperature and high pressure gas, the condenser 102 ) Releases heat from the gas refrigerant of high temperature and high pressure into a liquid state, and the liquefied high pressure refrigerant is decompressed through the capillary tube 103, and the refrigerant from the capillary tube 103 flows into the evaporator 104 to vaporize. In this case, as the vaporization occurs, the air around the evaporator 104 is cooled by absorbing the surrounding heat, whereby cold air is generated and supplied to the room, and the vaporized refrigerant flows back into the compressor 101. It will be compressed into a gas of high temperature and high pressure air.

That is, in the cooling system as described above, the compressor 101 compresses the refrigerant by mechanical operation, so that an oil for lubrication for driving is required. The lubricating oil is inevitably mixed in the circulation of the refrigerant. Therefore, the refrigerant circulates in the cooling system containing oil, and the oil flows together with the refrigerant in the cooling system, and when the refrigerant flows from the capillary tube 103 into the evaporator 104 and vaporizes, As the oil is absorbed to a low temperature, the oil is separated from the refrigerant without being converted into a gaseous state.

Meanwhile, when only one compressor 101 is installed, the refrigerant and oil are supplied to the compressor 101 without having to be distributed. However, when compressors 101 having different capacities are installed as shown in FIG. According to the capacity of 101, the refrigerant and oil must be uniformly distributed so that two compressors 101 can be efficiently operated.

However, since the refrigerant is introduced into each compressor 101 in a gaseous state, it can be dispensed according to the capacity ratio of the compressor 101. However, in the case of the oil, the capacity ratio of each compressor 101 is maintained. There was a problem that is difficult to distribute.

That is, as shown in FIG. 3, when one of the compressors 101 has a capacity of 40% and the other is 60%, 100% of oil may be divided into 40% of each compressor 101 to be divided into each compressor 101. The oil amount and the oil amount of 60% should be distributed, but the specific gravity of the oil is not distributed according to the capacity ratio of the compressor 101, resulting in an uneven distribution phenomenon when two compressors 101 are operated. It is impossible to maintain a stable cycle of the air conditioner system using), which is the cause of deteriorating the performance of the air conditioner system.

 Accordingly, the present invention has been made in view of the above circumstances, and the air conditioner system using a two-capacity compressor by uniformly distributing an amount of oil suitable for each compressor having a different capacity by using a centrifugal structure. It is an object of the present invention to provide a refrigerant and an oil distribution device for a compressor using an air conditioner to improve the performance of the air conditioner and to maintain a stable system.

In order to achieve the above object, the present invention provides a plurality of compressors having different capacities, a centrifuge configured on the inlet side of the compressor, and a refrigerant installed and separated outside the centrifuge to each compressor. A plurality of connecting tubes branched in communication with the centrifuge, and a plurality of connecting tubes branched in communication with the centrifuge so that the separated oil can be supplied to each compressor. It is a structure consisting of an inner separator.

In addition, the outer separator is installed outside the centrifuge having a high speed gradient by centrifugal separation so that a refrigerant having a low specific gravity can be separated through the outer separator.

In addition, the inner separator is installed inside the centrifuge having a low speed gradient by centrifugal separation so that oil having a high specific gravity can be separated through the inner separator.

On the other hand, the oil separated through the inner separator of the centrifugal separator can be dispensed and added to each of the compressors having different capacities to be uniform in the capacity ratio.

Therefore, in the air conditioner system using two compressors having different capacities, refrigerant and oil suitable for the capacity of each compressor can be supplied, and the refrigerant and oil are conveniently separated from each other by the centrifuge. By distributing in a uniform state in the capacity ratio, the performance of the air conditioner system is improved, and stable operation is possible in operating the air conditioner system, which in turn can improve product quality.

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

4 is a block diagram showing a system of an air conditioner for an air conditioner compressor according to the present invention, and FIG. 5 is a perspective view showing a refrigerant and oil distribution device for an air conditioner compressor for an air conditioner according to the present invention. 6 is an enlarged perspective view of an outer separator of a refrigerant and an oil distribution device for a utilization compressor according to the present invention, and FIG. 7 is an enlarged inner separator of the refrigerant and an oil distribution device for a utilization compressor according to the present invention. Perspective view.

Referring to the structure of the present invention by the above drawings, in the case of the distribution device 1 for separating the refrigerant from the evaporator 7 and the oil contained therein and distributing it in an appropriate capacity, a plurality of compressors having different capacities ( 2), a plurality of connections such that the centrifuge 3 configured on the inlet side of the compressor 2 and the refrigerant separated and installed outside the centrifuge 3 can be supplied to each compressor 2; The outer separator 5 in which the tube 4 is branched in communication with the centrifuge 3, and a plurality of oils installed inside the centrifuge 3 so that the separated oil can be supplied to each compressor 2, The connecting pipe (4) consists of an inner separator (6) branched in communication with the centrifuge (3), and oil separated through the inner separator (6) is applied to each compressor (2) having different capacities. It is a structure that can be dispensed and added to be uniform in the capacity ratio.

Here, the oil dispensing device 1 for the utilization compressor 2 having the above structure includes a centrifuge 3 formed of a spiral inlet pipe, and a plurality of connecting pipes 4 on the outside of the centrifuge 3. The outer separator 5 for separating the refrigerant having a low specific gravity and installed in communication with each other) and the plurality of connecting pipes 4 inside the centrifuge 3 to communicate with each other. It is characterized by consisting of the inner separator 6 for separating.

That is, as shown in FIG. 4, the refrigerant and the oil contained therein, the refrigerant discharged from the condenser 8 are vaporized while passing through the expansion device 9, are introduced into the evaporator 7, and the surrounding heat is removed. Before the refrigerant is introduced into the compressor 2 having different capacities together with the oil, the refrigerant and oil are introduced into the centrifuge 3 so as to be suitable for the capacity of each compressor 2 in a state where they are separated from each other. The oil is dispensed and added.

Therefore, the dispensing apparatus 1, which separates the refrigerant and oil and inputs it to the utilization compressor 2 at a suitable ratio, is spiraled in front of each compressor 2 having different capacities, as shown in FIG. A centrifuge (3) consisting of an inlet pipe is installed, and the vaporized refrigerant and the oil mixed therein are passed through the centrifuge (3) and separated into gaseous refrigerant and oil so as to be suitable for each compressor (2) capacity. The refrigerant and oil can be supplied at a ratio.                     

On the other hand, the outer separator 5 installed on the outside of the centrifugal separator 3, as shown in Figure 6, so that the refrigerant is separated from the outside of the centrifugal separator 3 can be supplied to each compressor (2) An outer separator 5 is installed through a plurality of connecting pipes 4 communicating with the centrifuge 3, and the outer separator 5 is outside the centrifuge 3 having a high speed gradient by centrifugation. By being installed is a low specific gravity refrigerant layer is to be separated through the outer separator (5).

In addition, the inner separator 6 installed inside the centrifuge 3, as shown in Figure 7, so that the oil is separated inside the centrifuge 3 can be supplied to each compressor (2). An inner separator 6 is installed through a plurality of connecting pipes 4 communicating with the centrifuge 3, and the inner separator 6 is inside the centrifuge 3 having a low speed gradient by centrifugation. By installing the oil layer having a high specific gravity is to be separated through the inner separator (6).

Therefore, the capacity of the compressor 2 is reduced because the oil separated through the inner separator 6 of the centrifuge 3 can be dispensed and added to each compressor 2 having different capacities so as to have a uniform capacity ratio. It is possible to prevent the oil uniformity phenomenon according to, thereby maintaining the cycle stability of the air conditioner system using the utilization amount compressor (2).

As described above, according to the refrigerant and oil distribution device for the compressor of the air conditioner according to the present invention, in the air conditioner system using two compressors having different capacities, the refrigerant and oil appropriate for the capacity of each compressor are provided. The air conditioner system can be supplied by distributing the refrigerant and oil in a state where the refrigerant and the oil are easily separated by the centrifugal separator in a uniform state at the capacity ratio, and operating the air conditioner system. It is possible to improve the quality of the product because it can be operated in a stable manner.

Claims (5)

delete A plurality of compressors of different capacities; A centrifuge configured on the inlet side of the plurality of compressors; And And an inner separator connecting the inside of the centrifuge and each compressor so that the centrifuged oil can be supplied to each compressor while passing through the centrifuge. The centrifuge is formed spirally, The inner separator is a refrigerant and an oil distribution device for a utilization compressor connected a plurality of connecting pipes are respectively communicated inside the spiral centrifuge. delete A plurality of compressors of different capacities; A centrifuge configured on the inlet side of the plurality of compressors; And And an outer separator connecting the outer side of the centrifuge and each compressor so that the centrifuged refrigerant can be supplied to each compressor while passing through the centrifuge. Refrigerant and oil distribution device for a utilization compressor further comprising an inner separator connecting the inside of the centrifuge and each compressor so that the centrifuged oil can be supplied to each compressor while passing through the centrifuge. The method according to claim 4 The centrifuge is formed spirally, The inner separator is a plurality of connecting pipes are respectively connected in communication with the inside of the spiral centrifuge, The outer separator is a refrigerant and an oil distribution device for a utilization amount compressor is connected to each of the plurality of connecting pipes in communication with the outside of the spiral centrifuge.

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