KR100524720B1 - By-pass device of inside unit for multi air-conditioner system - Google Patents

Abstract

The present invention relates to an indoor unit bypass device for a multi-air conditioner system, comprising: a plurality of indoor units installed in each indoor space to be cooled and heated, an incoming pipe installed to supply a refrigerant compressed from the outdoor unit to the indoor unit, A recovery pipe which is installed along the inlet pipe and is installed to recover the refrigerant heat exchanged in the indoor unit to the outdoor unit, and one end of the inlet pipe to bypass the refrigerant introduced along the inlet pipe to the recovery pipe without hanging the indoor unit. By providing a bypass circuit in communication with the other end and in communication with the recovery pipe, the refrigerant is not introduced into the indoor unit, which is stopped during the heating operation of the multi-air conditioner system, thereby preventing the refrigerant from accumulating inside the indoor unit. Flow and flow of refrigerant generated through the expansion valve inside the room Has the effect of preventing noise.

Description

Indoor unit bypass unit for multi-air conditioning system {BY-PASS DEVICE OF INSIDE UNIT FOR MULTI AIR-CONDITIONER SYSTEM}

The present invention relates to a multi-air conditioner system, and more particularly, a refrigerant flowed into a part of an indoor unit that is not used during a heating operation of a multi-air conditioner system, and thus coolant flows through an indoor expansion valve in which the coolant is accumulated or partially opened. It relates to an indoor unit bypass device for a multi-air conditioning system to reduce the flow noise by.

In general, a multi-type air conditioner system is an air conditioner system for cooling and heating an indoor space in which a plurality of indoor units are installed by using one outdoor unit, and is provided in an individual air-conditioning and heating air conditioner system having each outdoor unit corresponding to a conventional indoor unit. Compared with the low cost of the equipment and high energy use efficiency.

Hereinafter, FIG. 1 is a view illustrating a heating operation state of a conventional multi-air conditioner system. In the conventional multi-air conditioner system, an outdoor unit 10 installed on an outdoor side to compress a refrigerant to circulate the system, a plurality of indoor units 31 respectively installed on an indoor side room space to be cooled and heated, and the outdoor unit 10 It is composed of a header (20) consisting of a refrigerant pipe for distributing and supplying the refrigerant supplied from the cooling to each indoor unit 31 in a state necessary for cooling and heating of each room space, or to recover the supplied refrigerant.

The outdoor unit 10 includes a compressor 11 for compressing a refrigerant, a four-way valve 13 disposed at the discharge side of the compressor 11 to switch the flow path to a heating operation and a cooling operation state, and disposed at one side of the compressor. The outdoor side heat exchanger 14, the outdoor side expansion valve 16 for depressurizing and expanding the refrigerant disposed on one side of the outdoor heat exchanger, and the compressor 11 are provided on one side to suck the refrigerant in the gas state into the compressor. It consists of an accumulator 12 for separating gas-liquid as much as possible.

The indoor unit 31 is provided at one side of the indoor heat exchanger 32 and the indoor heat exchanger 32 for heat-exchanging to heat and cool according to the state of the refrigerant supplied from the outdoor unit through the late drawing pipe 21. And an indoor expansion valve 33 for decompressively expanding the refrigerant introduced from the outdoor unit 10.

The header 20 is an inlet pipe 21 branched into the inlet branch pipe 21a to introduce the refrigerant compressed by each compressor 11 of the outdoor unit to each indoor unit through the four-way valve 13, and heat exchange from each indoor unit. A recovery branch pipe 22a for recovering the used refrigerant is piped together to constitute a recovery pipe 22 for recovering the outdoor unit 10.

The inlet pipe 21 is a high-pressure engine for supplying the high-temperature, high-pressure refrigerant gas compressed by the compressor 11 of the outdoor unit 10 to each indoor unit 31 during the heating operation of the multi-air conditioner system, and the recovery pipe 22. Is a high pressure liquid tube for recovering the high temperature and high pressure liquid refrigerant heat-exchanged in the indoor unit (31) to the outdoor unit (10).

In the figure, reference numeral 15 denotes an outdoor open / close valve, 17 an outdoor blower fan, and 34 a indoor blower fan.

By such a configuration, the high temperature and high pressure refrigerant gas compressed by the compressor 11 during the heating operation of the conventional multi-air conditioner system is along the inlet pipe 21 of the header 20 through the four-way valve 13 to the indoor unit 31. The high-temperature high-pressure refrigerant gas flowing out to the plurality of indoor units 31 along the inlet branch pipe 21a is condensed by heat-exchanging with the indoor unit in the indoor heat exchanger 32. The recovery branch pipe 22a and the recovery pipe 22 are recovered and expanded under reduced pressure in the outdoor expansion valve 16 and then introduced into the outdoor heat exchanger. After the low-temperature low-pressure refrigerant gas heat-exchanged with the outdoor unit in the outdoor heat exchanger 14 is gas-liquid separated from the accumulator 12 through the four-way valve 13, the refrigerant gas in the gas phase is sucked back into the compressor. A cycle is achieved.

However, when the user turns off the indoor unit 31 installed in a part of the occupancy space during heating operation of the conventional multi-air conditioning system, the refrigerant introduced along the inlet branch pipe 21a does not circulate into the indoor unit 31 in the off state. There arises a problem that the liquid refrigerant accumulates therein.

In addition, as the indoor expansion valve 33 of the turned off indoor unit 31 is kept open so as not to be blocked, the flow of the coolant is generated finely into the turned off indoor unit 31, and the flow noise is Will occur. Therefore, in the case of the indoor unit 31 that is turned off, the operation of the blower 34 is stopped, so that the user may feel the noise relatively louder, which causes the user to be mistaken for the serious abnormal operation and failure of the multi air conditioning system. Occurs.

According to the present invention devised to solve the above problems, the multi-air conditioner to prevent the accumulation of refrigerant inside the refrigerant flows due to the refrigerant flows in even when some indoor unit is turned off during the heating operation of the multi-air conditioning system It is an object of the present invention to provide a bypass device for an indoor unit of an air conditioning system.

In order to achieve the above object, the present invention provides a plurality of indoor units which are hypothesized in each indoor space to be cooled and heated, an inlet pipe which is hypothesized to supply the refrigerant compressed from the outdoor unit to the indoor unit, and the inlet pipe. A communication pipe arranged to recover the refrigerant introduced into the outdoor unit and heat-exchanged in the indoor unit, and communication between the intake pipe and the recovery pipe to bypass the refrigerant introduced along the inlet pipe to the recovery pipe without hanging the indoor unit. It is achieved by the indoor unit bypass device of the multi air conditioning system, characterized in that the bypass circuit is provided.

Here, the bypass circuit is preferably composed of a bypass pipe for communicating the inlet pipe and the recovery pipe and the on-off valve for opening and closing the bypass pipe.

In addition, the bypass pipe is made of a capillary tube (Capillary Tube) or the on-off valve is preferably made of an electromagnetic expansion valve.

In addition, the inlet pipe includes an inlet branch pipe branched into a plurality of indoor units, the recovery pipe includes a recovery branch pipe which is piped from a plurality of indoor units, the bypass circuit is the inlet branch pipe and the recovery branch pipe It is preferably provided to communicate with each other.

In addition, the bypass circuit is preferably embedded in the wall or ceiling.

In addition, the shielding means for shielding the refrigerant flow noise and vibration generated inside the bypass circuit is preferably provided, the shielding means and the casing for accommodating the bypass circuit, the inside of the casing is filled with sound and vibration It is preferable that a shielding member is provided to prevent the damage.

Hereinafter, the configuration and effect of the indoor unit bypass device for a multi-air conditioner system according to the present invention will be described in detail.

2 is a view showing a heating operation state of the multi-air conditioner system of the present invention, Figure 3 or 4 is a view showing an operating state of the indoor unit bypass device of the multi-air conditioner system of the present invention.

As shown in the drawing, the multi-air conditioner system of the present invention is installed on the outdoor side and compresses refrigerant to circulate the system, and a plurality of indoor units respectively installed on the indoor side room space to be cooled and heated. A header composed of a refrigerant pipe for distributing or supplying the refrigerant supplied from the outdoor unit 10 to each indoor unit 31 in a state necessary for cooling and heating of each compartment, or recovering the supplied refrigerant ( 20).

The outdoor unit 10 includes a compressor 11 for compressing a refrigerant, a four-way valve 13 disposed at the discharge side of the compressor 11 to switch the flow path to a heating operation and a cooling operation state, and one side of the compressor. An outdoor side heat exchanger 14, an outdoor side expansion valve for depressurizing and expanding a refrigerant disposed at one side of the outdoor side heat exchanger, and a gas-liquid separation provided at one side of the compressor 11 to inhale gaseous refrigerant into the compressor It consists of an accumulator 12 for this purpose.

The indoor unit 31 is provided on one side of the indoor heat exchanger 32 to heat and cool to heat and cool according to the state of the refrigerant supplied from the outdoor unit, and the outdoor heat exchanger during cooling operation. An indoor expansion valve (33) for expanding under reduced pressure the refrigerant in the high pressure liquid state introduced from (14).

The header 20 has an incoming pipe 21 for branching the incoming branch pipe 21a for introducing refrigerant compressed by each compressor 11 of the outdoor unit into the plurality of indoor units through four-way valves, and heat exchanged from each indoor unit. A recovery branch pipe 22a for recovering the used refrigerant is piped together to constitute a recovery pipe 22 for recovering the outdoor unit 10.

The inlet pipe is a high-pressure engine for supplying the high-temperature, high-pressure refrigerant gas compressed by the compressor of the outdoor unit 10 to the indoor unit 31 during the heating operation of the multi-air conditioner system, and the recovery pipe is a high-temperature heat exchanger in the indoor unit 31. It consists of a high pressure liquid pipe for recovering the high pressure liquid refrigerant to the outdoor unit (10).

The outdoor unit along the recovery branch pipe (22a) to the refrigerant branch introduced into the indoor unit (31) along the inlet branch pipe (21a) by coupling the inlet branch pipe (21a) and the recovery branch pipe (22a) of the indoor unit (10) Bypass circuit 40 for recovery to 10 is provided.

The bypass circuit 40 connects the incoming branch pipe 21a and the recovery branch pipe 22a so as to bypass the refrigerant introduced along the inlet branch pipe 21a of the indoor unit to the recovery branch pipe 22a. The bypass pipe 41 is provided, and the on-off valve 42 is provided on the bypass pipe 41 to open and close the bypass pipe 41.

In addition, the bypass circuit 40 uses a bypass pipe 41 for the expansion of the refrigerant bypassed during the cooling operation of the multi-air conditioner system using a capillary tube or an on / off valve for opening and closing the bypass pipe. It is preferable to use 42 for the electromagnetic expansion valve.

In addition, it is hypothesized to be spaced apart from the indoor unit to a certain distance so that the noise generated in the bypass circuit 40 is shielded, and if the indoor unit 31 is a ceiling type is preferably installed to be embedded in the ceiling.

In addition, the bypass circuit 40 is provided with shielding means 50 to insulate the flow noise and thus vibration and bypass pipe 41, the shielding means 50 is the bypass pipe 41 And a casing 51 accommodating the on / off valve 42 and a shielding member 52 for insulating the casing 51 and insulating the interior of the casing 51.

In the figure, reference numeral 15 denotes an outdoor open / close valve, 17 an outdoor blower fan, and 34 a indoor blower fan.

By such a configuration. Operation of the indoor unit bypass device of the multi-air conditioner system of the present invention and the effects of the operation will be described in detail as follows.

In the indoor unit bypass device of the multi-air conditioner system of the present invention, when the multi-air conditioner system is heated and heated, the refrigerant compressed in a gas state of high temperature and high pressure compressed by the compressor 11 of the outdoor unit 10 is headed through the four-way valve 13. The refrigerant gas flowing out of the inlet pipe 21 of 20 and introduced into each indoor unit 31 along the inlet branch pipe 21a branched from the inlet pipe is an indoor heat exchanger 32 of each indoor unit 31. ) To heat the room.

The refrigerant condensed in a liquid state of high temperature and high pressure in the indoor heat exchanger 32 of each indoor unit 31 is along the recovery pipe 22 through which the recovery branch pipe 22a is piped along the recovery branch pipe 22a. Recovered to the outdoor unit 10 and expanded under reduced pressure through the outdoor expansion valve, and then absorbed by the outdoor heat exchanger and introduced into the accumulator through a four-way valve in a low pressure gas state. Configure the cycle to inhale.

At this time, the user is provided on the bypass pipe 41 of the bypass circuit 40 in order to prevent the refrigerant from being introduced into the indoor unit 31 along the branch branch pipe 21a to stop the use. When the bypass valve 42 is opened, the refrigerant flowing into the branching branch pipe 21a is bypassed directly to the recovery branch pipe 22a along the bypass pipe 41 without passing through the indoor unit 31, and the outdoor unit 10 To the side).

Therefore, by preventing the refrigerant from being introduced into some of the indoor units 31 where the user has stopped using it, it is possible to prevent the refrigerant from accumulating inside the indoor heat exchanger 32 of the indoor unit 31, and partially open the room. Flow noise caused by the refrigerant flowing through the side expansion valve 33 can be prevented.

In addition, the bypass circuit 40 is hypothesized to be spaced apart from the indoor unit 31, and when the wall or indoor unit 31 is in the ceiling type, the refrigerant flows along the bypass pipe 41 by being embedded in the ceiling. To prevent noise and vibrations from being transmitted to the indoor unit 31, and to generate vibration and noise by the casing 51 accommodating the bypass circuit 40 and the shield member 52 filling the interior thereof. do.

In addition, when the compression capacity of the outdoor unit 10 is more than 10 horsepower, the operating frequency of the inverter compressor should be operated above a certain value because of the compressor reliability problem, even if the small capacity indoor units 31 operate at the lowest operating frequency when the heating is operated alone. The refrigerant flow rate is excessively driven and flows inside each indoor unit 31 so that the noise flows rapidly. In this case, the indoor unit 31 passing through the indoor unit 31 is turned on by opening the bypass valve 42 of the indoor unit which is stopped. As the flow rate is reduced and the supercooling degree can be secured, the indoor unit refrigerant flow noise can be reduced.

As described above, according to the present invention, the refrigerant flowing into the indoor unit in which the operation is stopped is bypassed and the refrigerant flows inside the indoor unit or the flow of the refrigerant generated through the partially opened expansion valve, and thus the flow noise. Can be prevented.

 In addition, when the heating load of the indoor unit in operation is reduced, the flow rate of the refrigerant may be reduced by reducing the excessive refrigerant flow by having a refrigerant flow rate corresponding thereto.

In addition, by embedding the bypass circuit in the wall or ceiling to shield the flow noise of the refrigerant generated in the bypass circuit.

In addition, by filling the shielding member in the casing containing the bypass circuit to block the flow noise caused by the flow of the refrigerant bypassed along the bypass pipe, and has an effect of insulating the dust and pipe.

1 is a view showing a heating operation state of a conventional multi-air conditioning system

2 is a view showing a heating operation state of the multi-air conditioner system of the present invention,

3 or 4 is a view showing an operating state of the indoor unit bypass device during the heating operation of the multi-air conditioner system of the present invention.

* Description of the main parts of the drawings *

10: outdoor unit 20: header

30: indoor unit 21: incoming piping

22: recovery piping 21a: incoming branch piping

22a: recovery branch pipe 31: indoor unit

32: indoor side heat exchanger 33: expansion valve]

34: Indoor blower fan 40: Bypass circuit

41: bypass piping 42: on-off valve

50: shielding means 51: casing

51: shield member

Claims (8)

A plurality of indoor units installed in each indoor space to be cooled and heated; An inlet pipe installed to supply a refrigerant compressed from an outdoor unit to the indoor unit; A recovery pipe drawn along the inlet pipe and installed to recover the refrigerant heat-exchanged in the indoor unit to the outdoor unit; An indoor unit bypass device of a multi-air conditioner system is provided with a bypass circuit communicating between the inlet pipe and the recovery pipe to bypass the refrigerant introduced along the inlet pipe to the recovery pipe without hanging the indoor unit. . The method of claim 1, The bypass circuit is an indoor unit bypass device of a multi-air conditioner system, characterized in that it comprises a bypass pipe for communicating the inlet pipe and the recovery pipe and the on-off valve for opening and closing the bypass pipe. The method of claim 2, The bypass pipe is a indoor unit bypass device of the multi-air conditioning system, characterized in that made of a capillary tube. The method of claim 2, The indoor valve bypass device of the multi-air conditioner system, characterized in that the on-off valve is an electronic expansion valve. The method according to claim 1 or 2, The inlet pipe includes an inlet branch pipe branched into a plurality of indoor units, and the recovery pipe includes a recovery branch pipe which is piped from a plurality of indoor units, and the bypass circuit is between the inlet branch pipe and the recovery branch pipe. Indoor unit bypass device of the multi-air conditioning system, characterized in that provided to communicate with each other. The method according to claim 1 or 2, The bypass circuit is a indoor unit bypass device of a multi-air conditioning system, characterized in that the buried in the wall or ceiling. delete The method of claim 2, Multi-air conditioner system is provided with a casing for receiving the on-off valve to shield the refrigerant flow noise and vibration generated in the bypass circuit, and a shielding member for preventing sound and vibration is filled in the casing Indoor unit bypass unit.