KR20090069994A - Cassette type heat-pump air conditioner with stabilized refrigerant-cycle - Google Patents

Abstract

A cassette type heat pump air-conditioner having a stabilized refrigerant cycle is provided to maintain the refrigerant balance of the refrigerant cycle by inducing a part of refrigerant to a capillary assembly side in the high pressure of the refrigerant flowed in into an outdoor heat exchanger side from an indoor heat exchanger. A cassette type heat pump air-conditioner having a stabilized refrigerant cycle comprises: an outdoor heat exchanger(240) heat exchanging between the inducing refrigerant and indoor air; an indoor unit(100) buried on an indoor ceiling or wall; and an outdoor unit(200) with a capillary assembly preventing the refrigerant of the high temperature and high pressure flowing in into the outdoor heat exchanger. A muffler(120) is installed at a pipe connecting the indoor heat exchanger and the outdoor heat exchanger. The capillary assembly includes: a branch duct(261) branched from the pipe connecting the outdoor heat exchanger and the indoor heat exchanger; and a capillary tube installed at the branch duct.

Description

Cassette type heat pump air conditioner with stabilized coolant cycle {CASSETTE TYPE HEAT-PUMP AIR CONDITIONER WITH STABILIZED REFRIGERANT-CYCLE}

The present invention relates to a cassette type heat pump air conditioner, and more particularly, a portion of the refrigerant is introduced into the capillary assembly during the high pressure of the refrigerant flowing from the indoor heat exchanger to the outdoor heat exchanger side, so that A cassette type heat pump air conditioner having a stabilized refrigerant cycle capable of lowering pressure to maintain a refrigerant balance in a refrigerant cycle.

Generally, a cassette type heat pump air conditioner is an apparatus for cooling or heating an indoor space by installing an indoor unit so as to be embedded in a ceiling of a building.

FIG. 1 is a view schematically illustrating a configuration of an indoor unit of a conventional cassette type heat pump air conditioner. As illustrated, a blower fan 20 is installed in the center of a main body 10 having a rectangular box shape. The air is sucked in from the suction port 30 formed at the lower side of the 20, and the heat exchanger 40 is mounted to surround the blower fan 20, and the outside of the heat exchanger 40, that is, of the main body 10. A discharge port 50 through which the heat-exchanged air is discharged through the heat exchanger 40 is formed in the inner portion of the edge.

That is, the air in the room is sucked through the suction port 30 by the driving of the blower fan 20 in the center of the main body 10, and the sucked air is heat-exchanged through the heat exchanger 40, and then the discharge port 50. It is discharged to the room through.

Since the cassette type heat pump air conditioner of this structure has a smaller volume compared to a general heat pump air conditioner, it is difficult to construct a piping system. Therefore, it is not a refrigerant cycle structure in which a capillary is installed in an indoor unit and an outdoor unit. Refrigerant cycle configurations with capillaries have been generally applied.

Therefore, due to insufficient pressure drop of the refrigerant returning to the compressor during operation, an imbalance of the refrigerant balance occurs in the refrigerant cycle, which makes it difficult to stabilize the capacity of heating and cooling, and the sound is generated by the high-pressure refrigerant flow when the indoor unit is driven. There was.

The present invention has been invented to solve the above problems, by preventing the refrigerant heat exchanged in the indoor heat exchanger to flow into the outdoor heat exchanger in a state of high temperature and high pressure, thereby maintaining the refrigerant balance in the refrigerant cycle and at the same time flow of the refrigerant It is an object of the present invention to provide a cassette type heat pump air conditioner having a stabilized refrigerant cycle capable of reducing noise.

According to an aspect of the present invention for achieving the above object, an indoor unit having an outdoor heat exchanger for heat exchange between the incoming refrigerant and the indoor air, the indoor unit is embedded in the interior wall or ceiling; And an indoor heat exchanger, a compressor, a four-way valve, an expansion mechanism, an accumulator, and a pressure drop of the refrigerant flowing from the indoor heat exchanger during a heating operation to lower the pressure of the refrigerant. And an outdoor unit having a capillary assembly for preventing the introduction of high pressure refrigerant.

Preferably, a silencer is installed in a pipe connecting the indoor heat exchanger and the outdoor heat exchanger.

More preferably, the capillary assembly branches from a pipe connecting the outdoor heat exchanger and the indoor heat exchanger such that some of the refrigerant flowing from the indoor heat exchanger to the outdoor heat exchanger flows into the accumulator side during the heating operation. And a capillary tube installed in the branch pipe and the branch pipe.

According to the present invention, a portion of the refrigerant flows into the capillary assembly during the high pressure of the refrigerant flowing from the indoor heat exchanger to the outdoor heat exchanger side, thereby reducing the pressure of the refrigerant flowing into the outdoor heat exchanger to maintain the refrigerant balance of the refrigerant cycle. As a result, the flow noise of the refrigerant is lowered, thereby improving the consumer's product satisfaction.

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

FIG. 2 is a view showing a refrigerant cycle of a cassette type heat pump air conditioner having a stabilized refrigerant cycle according to the present invention, and FIG. 3 is an enlarged view of A of FIG. 2 and shows a capillary tube. to be.

As shown in the figure, the cassette type heat pump air conditioner according to the present invention is largely composed of an indoor unit 100 and an outdoor unit 200.

The indoor unit 100 is installed embedded in a wall or a ceiling of a building, and the indoor heat exchanger 110 is provided to heat or cool the room by heat-exchanging the refrigerant with the introduced air.

The outdoor unit 200 includes a compressor 210 that compresses the refrigerant at a high temperature and a high pressure, an accumulator 220 that separates the liquid refrigerant from the refrigerant sucked into the compressor 210, and a flow of the refrigerant according to a heating or cooling operation. Four-way valve 230 to be switched to change, the outdoor heat exchanger 240 to allow the incoming refrigerant and outdoor air heat exchange, the check valve 251 and the capillary tube 252, etc. expansion mechanism 250 for expanding the refrigerant under reduced pressure And the capillary assembly 260 installed in the branch pipe 261 extending from the pipe 201 connecting the indoor heat exchanger 110 and the outdoor heat exchanger 240 to the suction side of the accumulator 220. Is provided.

The capillary assembly 260 provided in the outdoor unit 200 prevents the refrigerant flowing into the outdoor heat exchanger 240 from flowing into the high temperature and high pressure state after heat exchange from the indoor heat exchanger 110 during the heating operation. It is to.

Specifically, the capillary assembly 260 is branched from the pipe 201 through which the refrigerant flowing into the outdoor heat exchanger 240 after the heat exchange in the indoor heat exchanger 110 during the heating operation flows to accumulator 220. And a branch pipe 261 extending to the suction end side of the capillary tube 261 and a capillary tube 262 provided in the branch pipe 261 to lower the pressure of the refrigerant flowing therein.

As shown in FIG. 3, the capillary tube 262 has a form of a general capillary tube formed smaller than a branch pipe 261 at both ends, and heat exchanged in the indoor heat exchanger 110, followed by an outdoor heat exchanger. When the pressure of the refrigerant flowing into 240 is equal to or less than a predetermined pressure (usually 23 kg / cm ² ), the refrigerant does not flow into the branch pipe 261 due to the pressure difference in the pipe.

However, when the pressure of the refrigerant introduced into the outdoor heat exchanger 240 after heat exchange in the indoor heat exchanger 110 is greater than or equal to a predetermined pressure (usually 23 kg / cm ² ), some of the refrigerant flows into the branch pipe 261. The refrigerant flowing into the branch pipe 261 passes through the capillary tube 262 and the pressure drops to flow into the accumulator 220.

At the same time, the refrigerant flowing into the outdoor heat exchanger 240 also decreases due to some refrigerant introduced into the branch pipe 261 and drops below a predetermined pressure.

Therefore, the high temperature and high pressure refrigerant may be prevented from flowing into the outdoor heat exchanger 240, and the refrigerant sucked into the compressor 210 may also be sucked in the low temperature and low pressure state as much as possible, thereby maintaining the refrigerant balance of the entire refrigerant cycle.

Due to the stabilized refrigerant cycle, the pressure of the refrigerant flowing from the indoor heat exchanger 110 to the outdoor heat exchanger 240 side is stabilized, thereby reducing the noise caused by the rapid refrigerant flow generated in the piping of the indoor unit 100. Can be.

On the other hand, the pipe 201 connecting the indoor heat exchanger 110 and the outdoor heat exchanger 240 in order to reduce the flow noise of the refrigerant flowing into the outdoor heat exchanger 240 after the heat exchange in the indoor heat exchanger 110. In the silencer 120 can be installed.

Here, the silencer 120 has a shape of a metal cylinder or a rectangular box shape, and a wide resonance chamber in many holes of an inflatable, thin tube that diffuses from a thin tube into a large space to make a small sound. Silencers such as resonant equations that diffuse sound into each other, and absorption into steel wool (threaded metal), and bulkheads that combine the three previous methods. It can be adopted.

Thus, by installing the silencer 120 in the pipe 201 connecting the indoor heat exchanger 110 and the outdoor heat exchanger 240, the refrigerant heat exchanged in the indoor heat exchanger 110 during the heating operation is primarily a silencer. The flow noise is reduced through the 120, and since the pressure is dropped by the capillary assembly 260 and the flow noise is also reduced, the flow noise of the refrigerant can be reduced.

As described above, in the present invention, a portion of the refrigerant flows into the capillary assembly during the high pressure of the refrigerant flowing from the indoor heat exchanger to the outdoor heat exchanger side, thereby lowering the pressure of the refrigerant flowing into the outdoor heat exchanger to balance the refrigerant cycle of the refrigerant cycle. It is possible to maintain, thereby reducing the flow noise of the refrigerant has the effect of improving the consumer's product satisfaction.

1 is a view schematically showing an indoor unit configuration of a conventional cassette type heat pump air conditioner,

2 is a view showing a refrigerant cycle of a cassette type heat pump air conditioner having a stabilized refrigerant cycle according to the present invention;

3 is an enlarged view of a portion A of FIG. 2;

-Explanation of symbols for the main parts of the drawings-

100: indoor unit 110: indoor heat exchanger

120: silencer 200: outdoor unit

210: compressor 220: accumulator

230: four-way valve 240: outdoor heat exchanger

250: expansion mechanism 251: check valve

252 capillary 260 capillary assembly

261: branch pipe 262: capillary tube

Claims (3)

An indoor unit having an outdoor heat exchanger configured to exchange heat with the refrigerant flowing therein, and being installed embedded in a wall or a ceiling of the indoor unit; And An indoor heat exchanger, a compressor, a four-way valve, an expansion mechanism, an accumulator, which causes heat exchange between the refrigerant flowing in and the outdoor air, and a pressure drop of the refrigerant flowing from the indoor heat exchanger during a heating operation to reduce the high temperature and high pressure. A cassette type heat pump air conditioner having a stabilized refrigerant cycle, characterized in that it comprises an outdoor unit having a capillary assembly to prevent refrigerant from entering. The method of claim 1, A cassette type heat pump air conditioner having a stabilized refrigerant cycle, characterized in that a silencer is installed in a pipe connecting the indoor heat exchanger and the outdoor heat exchanger. The method according to claim 1 or 2, The capillary assembly may include a branch pipe branched from a pipe connecting the outdoor heat exchanger and the indoor heat exchanger such that a part of the refrigerant flowing from the indoor heat exchanger to the outdoor heat exchanger flows into the accumulator side during the heating operation. A cassette type heat pump air conditioner having a stabilized refrigerant cycle comprising a capillary tube installed in a branch pipe.

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