KR20050075833A - Device of refrigeration cycle - Google Patents

Abstract

The present invention relates to a refrigeration cycle apparatus, and more particularly, to improve the structure of the accumulator provided to connect the evaporator and the plurality of compressors to supply the refrigerant in the liquid state to each compressor even when a separate member such as baffle is removed The present invention relates to a refrigeration cycle apparatus that effectively prevents the flow of water and facilitates the smooth flow of the refrigerant through the accumulator.

To this end, the refrigeration cycle apparatus according to the present invention includes an evaporator, a plurality of compressors connected to the evaporator, and an accumulator provided to deliver the evaporator-side refrigerant to the plurality of compressors, wherein the accumulator includes a body, the evaporator and the And an inflow pipe connecting the inside of the body, and a plurality of outflow pipes connecting the compressors and the inside of the body, and an end of the outflow pipe inside the body is provided higher than an end of the inflow pipe inside the body.

Description

Refrigeration Cycle Unit {DEVICE OF REFRIGERATION CYCLE}

The present invention relates to a refrigeration cycle apparatus, and more particularly to an accumulator provided to be connected to a plurality of compressors.

Generally, a refrigeration cycle device is provided in an air conditioner or a freezer to perform a cooling operation, and includes a compressor, a condenser, an evaporator, and an expansion device, and each component of the refrigeration cycle device forms a closed circuit through a refrigerant pipe. It is composed.

Here, the compressor compresses the refrigerant into a gaseous state of high temperature and high pressure, and the condenser condenses the high temperature and high pressure gaseous refrigerant delivered from the compressor into a high temperature and high pressure liquid state refrigerant. In addition, the high-temperature, high-pressure liquid-state refrigerant condensed in the condenser expands in the course of the expansion device and becomes a low-temperature, low-pressure liquid state refrigerant, and the evaporator evaporates the low-temperature, low-pressure liquid state refrigerant through the expansion device, thereby reducing the low-temperature, low-pressure gas state refrigerant. To be

Therefore, the refrigerant circulating along the refrigerant pipe condenses in the condenser and releases heat to the surroundings, and evaporates in the evaporator to absorb the surrounding heat, thereby cooling is performed by the evaporator.

Meanwhile, in the refrigerant delivered from the evaporator to the compressor, a liquid refrigerant and a gaseous refrigerant are present together. When the liquid refrigerant is transferred to the compressor as it is, the performance of the compressor may be impaired. An accumulator is provided between the refrigerant delivered from the evaporator and the gaseous refrigerant and the liquid refrigerant to supply only the gaseous refrigerant to the compressor.

The accumulator includes a body, an inlet pipe connecting the evaporator side and the upper part of the body so that the refrigerant on the evaporator side flows into the body, and a lower part of the body and the compressor to discharge the gaseous refrigerant into the body. It is provided with an outlet pipe connecting the side, and a strainer for filtering foreign matter contained in the refrigerant is installed in the body between the inlet pipe and the outlet pipe. Through such a structure, the refrigerant introduced into the body through the inlet pipe is filtered through the strainer, and the dual gas refrigerant is delivered to the compressor along the outlet pipe.

In addition, a lower baffle is provided below the strainer between the inlet and outlet pipes to prevent the liquid refrigerant from passing through the strainer to the outlet tube. On one side of the baffle, the liquid refrigerant is discharged below the baffle. A refrigerant blocking unit is provided to block supply to the observation, and a refrigerant passing portion is provided at the other side so that the refrigerant in the liquid state passes through the baffle and collects at the lower portion of the body.

In addition, the refrigerant delivered into the body includes a predetermined amount of lubricating oil for smooth operation of the compressor, and the lubricating oil is separated from the gaseous refrigerant together with the liquid refrigerant and accumulated at the bottom of the body. The liquid refrigerant and the lubricating oil to be layered with each other due to the specific gravity difference, and the oil return hole is provided in the outlet pipe of the portion corresponding to the position of the lubricating oil to be delivered to the compressor side through the outlet pipe.

The gaseous refrigerant and lubricating oil of the refrigerant delivered from the evaporator to the accumulator through this configuration are supplied to the compressor along the outlet pipe, and the liquid refrigerant accumulates in the accumulator so that the performance of the compressor is deteriorated by the liquid refrigerant. To prevent it.

In addition, conventional refrigeration cycle devices provided in a large-capacity air conditioner and the like are also provided to employ a plurality of compressors at the same time to increase the capacity of the compressor, such refrigeration cycle device is usually provided so that two compressors are connected to one accumulator, The lower side of the body is provided with a plurality of outlet pipes provided to be delivered to each compressor side.

However, in the refrigeration cycle apparatus provided to employ a plurality of compressors in this way, in order to prevent the liquid refrigerant from being delivered to the accumulator to be delivered to each compressor side, the area of the refrigerant blocking portion of the baffle must be increased, and the area of the refrigerant blocking portion The increase causes the refrigerant to not flow smoothly through the accumulator and causes the performance of the refrigeration cycle apparatus to deteriorate.

In addition, the conventional refrigeration cycle apparatus is provided with the baffle to prevent the supply of liquid refrigerant to the outlet pipe due to the structure of the accumulator, such a baffle not only complicates the configuration of the accumulator but also increases the manufacturing cost of the accumulator do.

The present invention is to solve such a problem, an object of the present invention is to improve the structure of the accumulator provided to be connected to a plurality of compressors to prevent the liquid refrigerant from flowing into the compressor side in the state where the baffle is deleted, It is to provide a refrigeration cycle apparatus that allows the flow of the refrigerant more smoothly through the accumulator.

A refrigeration cycle apparatus according to the present invention for achieving the above object comprises an evaporator, a plurality of compressors connected to the evaporator, and an accumulator provided to transfer the refrigerant on the evaporator side to the plurality of compressors, the accumulator includes a body and And an inflow pipe connecting the evaporator and the inside of the body, and a plurality of outflow pipes connecting the compressors and the inside of the body, and an end of the outlet pipe inside the body is greater than an end of the inflow pipe inside the body. Characterized in that it is provided high.

And the inside of the body is provided with a filtering net to filter the foreign matter contained in the refrigerant, the filtering net is divided into the upper space and the lower space inside the body, the end of the outlet and inlet pipe inside the body is the upper space Characterized in that located.

In addition, each of the inlet pipes of the lower space side is characterized in that the oil recovery hole is provided to supply the lubricant oil contained in the refrigerant to the respective compressor side.

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

The refrigeration cycle apparatus according to the present invention is provided to perform a cooling operation in a large-capacity air conditioner and the like, and includes two compressors 1 connected in parallel to each other as shown in FIG. The condenser (2) expansion device (3) is provided to form a closed circuit through the evaporator (4) and the refrigerant pipe (5).

The plurality of compressors 1 compress the refrigerant into a gaseous state of high temperature and high pressure, and the condenser 2 condenses the gaseous state refrigerant of high temperature and high pressure delivered from each compressor 1 into a liquid state refrigerant of high temperature and high pressure. In addition, the high temperature and high pressure liquid refrigerant condensed in the condenser (2) is expanded in the course of passing through the expansion device (3) and becomes a low temperature low pressure liquid refrigerant, the evaporator (4) is a low temperature low pressure through the expansion device (3) Evaporate the liquid refrigerant at low temperature to form a gaseous refrigerant at low pressure.

Therefore, the refrigerant circulating along the refrigerant pipe 5 condenses in the condenser 2, releases heat to the surroundings, and absorbs the surrounding heat as it evaporates in the evaporator 4, and the cooling action by the evaporator 4 This is done.

Meanwhile, between the plurality of compressors 1 and the evaporator 4, a gaseous refrigerant and a liquid refrigerant are separated from the refrigerant transferred from the evaporator 4 to supply only the gaseous refrigerant to each compressor 1. The accumulator 6 is provided.

As shown in FIG. 2, the accumulator 6 includes an inlet pipe connecting the body 10 and the evaporator 4 side to the inside of the body 10 such that refrigerant from the evaporator 4 flows into the body 10. 20) and two outlet pipes 30 connecting the inside of the body 10 and each compressor 1 side to supply gaseous refrigerants to each compressor 1 side among the refrigerants introduced into the body 10. Equipped.

The inlet pipe 20 is connected to the inside of the body 10 through the upper center of the body 10 and extends downward to a predetermined portion inside the body 10, each outlet pipe 30 is a lower portion of the body 10 It is connected to the inside of the body 10 through the center outward and extends to an internal predetermined portion of the body 10 in the upward direction.

Here, the end of the body 10, the inner outlet pipe 30 is provided higher than the end of the body 10, the inner inlet pipe 20, this configuration is the refrigerant introduced into the body 10 through the inlet pipe 20 It is to prevent the refrigerant in the liquid state from flowing into each outlet pipe 30 without going through a separate member, and to allow the refrigerant to flow smoothly through the accumulator 6.

That is, the refrigerant in the liquid state of the refrigerant introduced into the body 10 through the inlet pipe 20 is dropped to the bottom side of the body 10 by its own weight, the end of the outlet pipe 30 inside the body 10 As the liquid refrigerant is provided higher than the end of the inner inlet pipe 20, the liquid refrigerant falls directly to the bottom side of the body 10 without being introduced into each outlet pipe 30, and is collected at the bottom of the body 10. And separated from the gaseous refrigerant.

Therefore, the accumulator 6 having the arrangement structure of the inflow pipe 20 and the outflow pipe 30 is the same as a conventional baffle having a refrigerant blocking part or the like to prevent the liquid refrigerant from flowing into each outflow pipe 30. Even when the member is deleted, the liquid refrigerant is effectively prevented from flowing into the outlet pipe 30, and the refrigerant flow through the accumulator 6 is eliminated since the refrigerant blocking part, which acted as a resistance to the refrigerant flow, is deleted. This will be more smooth.

In addition, the inside of the body 10 is divided into the upper space 11 and the lower space 12 inside the body 10 is provided with a strainer 40 for filtering foreign substances contained in the refrigerant, wherein each outflow pipe 30 extends toward the upper space 11 through the strainer 40 via the lower space 12 and the inlet pipe 20 is located inside the upper space 11.

Therefore, the end of each of the outlet pipe 30 and the inlet pipe 20 inside the body 10 is located in the upper upper space 11 of the strainer 40, respectively, through the inlet pipe 20 inside the body 10 The refrigerant in the gaseous state is first moved from the upper space 11 to the lower space 12 and passes through the strainer 40 first, and then from the lower space 12 to the upper space 11 again. It moves and passes through the filter net 40 secondly, the refrigerant in the gas state that passes through the filter net 40 two times in this state in which foreign matter contained in the more effectively removed each outlet pipe 30 Can be introduced into.

In addition, the refrigerant delivered into the body 10 also includes a predetermined amount of lubricant oil for smooth operation of the compressor 1, and the lubricant oil is separated from the gaseous refrigerant together with the liquid refrigerant in the body 10 of the body 10. In the bottom of the body 10, the liquid refrigerant and the lubricating oil accumulated on the bottom of the body 10 are layered with each other by the specific gravity difference, and each outlet pipe 30 side of the lower space 12 corresponding to the position of the lubricating oil The oil recovery hole 31 is provided to allow such lubricating oil to be delivered to each compressor 1 side through each outflow pipe 30.

Next will be described in detail the operation and effect of the refrigeration cycle apparatus according to the present invention configured as described above.

As the plurality of compressors 1 are driven, the condenser 2 expands through the evaporator 5, and then flows back into each compressor 1, and the refrigerant circulating each component is carried out in the condenser 2. The condensation by dissipating heat to the surroundings is carried out while the evaporator 4 absorbs heat from the surroundings and evaporates to perform cooling.

At this time, the refrigerant transferred from the evaporator 4 to each compressor 1 side passes through the body 10 of the accumulator 6 and is separated into a liquid refrigerant and a gaseous refrigerant, and only the refrigerant in the double gas state is used for each compressor. It is delivered to (1), the separation of the refrigerant in the gaseous state and the liquid state is made through the arrangement of the inlet pipe 20 and the outlet pipe 30 provided in the accumulator 6 without a separate member. .

That is, as the end of each outlet pipe 30 inside the body 10 of the accumulator 6 is provided higher than the end of the inlet pipe 20 inside the body 10, the inside of the body 10 through the inlet pipe 20. Among the refrigerant introduced into the liquid state of the refrigerant flows to the bottom side of the body 10 directly by its own weight without being introduced into each outlet pipe (30), and is accumulated on the bottom of the body (10), such an inlet pipe (20) and The arrangement structure of each outlet pipe 30 effectively prevents the liquid refrigerant from being supplied to each compressor 1 side even when a separate member such as a baffle, which has been conventionally used, is removed, and at the same time the accumulator 6 By reducing the resistance of the refrigerant flowing through it has the effect of making the flow of the refrigerant through the accumulator (6) more smooth.

In addition, the inlet pipe 20 provided inside the body and the end of each outlet pipe 30 are both introduced into the body 10 from the inlet pipe 20 as the upper space 11 of the body 10 is located The refrigerant in the gaseous state passes through the filter network 40 that divides the upper space 11 and the lower space 12 twice. As a result, the refrigerant in the gaseous state is more effectively removed from each outlet pipe in a state in which foreign substances are removed. It is supplied to the side of each compressor 1 through the 30.

As described in detail above, in the refrigeration cycle apparatus according to the present invention, the end of each outlet pipe inside the body of the accumulator is provided higher than the end of the body inlet pipe, such that the liquid refrigerant introduced into the body of the accumulator, such as baffle Even when the separate member is deleted, the supply to each outlet pipe side is effectively prevented, and the flow of the refrigerant through the accumulator is more smooth.

1 is a block diagram showing a refrigeration cycle apparatus according to the present invention.

Figure 2 is a cross-sectional view showing the structure of the accumulator in the refrigeration cycle apparatus according to the present invention.

Explanation of symbols on main parts of drawing

1: compressor 2: condenser

3: inflator 4: evaporator

5: refrigerant piping 6: accumulator

10: body 11: upper space

12: lower space 20: inlet pipe

30: outlet pipe 31: oil return hole

40: strainer

Claims (3)

An evaporator, a plurality of compressors connected to the evaporator, and an accumulator provided to deliver the evaporator-side refrigerant to the plurality of compressors, The accumulator includes a body, an inlet pipe connecting the evaporator and the inside of the body, and a plurality of outlet pipes connecting the compressors and the inside of the body. Refrigerating cycle apparatus, characterized in that the end of each of the outlet pipe inside the body is provided higher than the end of the inlet pipe inside the body. The method of claim 1, A filtering net is provided inside the body to filter foreign substances contained in the refrigerant, and the filtering net divides the inside of the body into an upper space and a lower space, and ends of the outlet pipe and the inflow pipe inside the body are located in the upper space. Refrigeration cycle apparatus, characterized in that located. The method of claim 2, And each oil inlet of the lower space side is provided with an oil return hole to supply lubricant oil contained in the refrigerant to the compressors.