KR20190041092A - Air Conditioner - Google Patents

Abstract

The present invention relates to an air conditioner. According to the present invention, the air conditioner comprises: an outdoor unit in which a compressor, a four-way valve, an outdoor heat exchanger, and an outdoor inflation device are installed; a plurality of indoor units in which an indoor inflation device and an indoor heat exchanger are installed; a liquid line for connecting the indoor heat exchanger to the outdoor heat exchanger; a first engine connected to a first refrigerant pipe, connected to the four-way valve and having a first valve to adjust flow of refrigerant, and a second refrigerant pipe, connected to the four-way valve and having a second valve to adjust the flow of the refrigerant; and a second engine in which the refrigerant discharged from the compressor flows. The four-way valve is connected to the compressor, the outdoor heat exchanger, the first valve, and the second valve through the refrigerant pipe from at four directions. Moreover, the four-way valve transfers the refrigerants discharged from the compressor to the outdoor heat exchanger or a second ball valve pipe.

Description

Air conditioner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner including an outdoor unit and a plurality of indoor units. More particularly, the present invention relates to an air conditioner in which an outdoor unit and a plurality of indoor units can be installed simultaneously or in a switchable manner.

Generally, the air conditioner is a device for cooling or heating the room by using a refrigeration cycle including a compressor, an outdoor heat exchanger, an expansion valve, and an indoor heat exchanger. That is, the air conditioner may include a radiator for cooling the room, a radiator for heating the room, and a cooling and heating radiator for cooling or heating the room.

In recent years, there is a high demand for a multi-type air conditioner that performs a cooling or heating operation to a plurality of indoor units by connecting an outdoor unit and a plurality of indoor units. Such a multi-type air conditioner includes a switching type in which all of a plurality of indoor units are operated by cooling or heating, The plurality of indoor units can be installed in a simultaneous mode in which they are simultaneously operated in cooling or heating.

Such simultaneous or switchable installation can be made taking into consideration the characteristics of the place and the characteristics of energy demand. However, in the case of simultaneous or switchable type, different types of outdoor units can be used because the types of refrigerant distributors disposed between the indoor unit and the outdoor unit are different and the refrigerant flow paths of the outdoor unit are different.

In the case of using the same outdoor unit, two four-way valves can be used for the structure inside the outdoor unit, or a high-pressure gas pipe discharged from the compressor can be branched into a plurality of channels.

However, when two four-way valves are used, there is a problem that a normal operation can not be performed due to the failure to form a cycle when a control error occurs due to the use of an electric signal for mode selection according to simultaneous or switching type installation.

In addition, when the high-pressure gas pipe is branched into a plurality of channels, the efficiency of the product is reduced due to the pressure loss caused by the branching of the high-pressure gas pipe using a relatively small pipe diameter as compared with the low-pressure gas pipe.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an outdoor unit capable of installing a synchronous type air conditioner or a switching type air conditioner.

Another object of the present invention is to provide an air conditioner that can simplify the internal structure of an outdoor unit and minimize a valve failure or a control error.

A further object of the present invention is to provide an air conditioner including an outdoor unit that is easy to install and which is switchable or simultaneous.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided an air conditioner comprising: a compressor; a four-way valve; an outdoor heat exchanger; and an outdoor expansion device; A plurality of indoor units provided with an indoor expansion mechanism and an indoor heat exchanger; A liquid pipe connecting the indoor heat exchanger and the outdoor heat exchanger; A first refrigerant pipe connected to the four-way valve and having a first valve for controlling the flow of refrigerant, and a second refrigerant pipe connected to the four-way valve and having a second valve for controlling the flow of the refrigerant, A first organs; Wherein the four-way valve is connected to the compressor, the outdoor heat exchanger, the first valve and the second valve by refrigerant piping in four directions, and the refrigerant discharged from the compressor An outdoor heat exchanger or the second ball valve tube, a second pipe through which the compressor is discharged can be used as a high-pressure gas pipe, and the first pipe can be used as a low-pressure gas pipe.

The air conditioner according to the present invention further includes a compressor inlet pipe through which the refrigerant is introduced into the compressor, the compressor inlet pipe being branched from the first refrigerant pipe and connected to the compressor so as to connect the four- A compressor inlet pipe through which refrigerant flows from the first refrigerant pipe to the compressor is formed.

The air conditioner according to the present invention closes the second valve and the indoor unit when the outdoor unit and the indoor unit are installed as simultaneous type air conditioners in which the indoor units simultaneously perform cooling or heating, When the plurality of indoor units are installed as a switching type air conditioner that simultaneously performs cooling or heating, the first valve is closed to set the opening or closing of the first valve or the second valve when the indoor unit is installed in a simultaneous or switchable manner , The refrigerant can flow in a simple structure.

An air conditioner according to the present invention includes: a liquid pipe connector disposed inside the outdoor unit and connecting the liquid pipe and the outdoor heat exchanger; A first engine connection pipe disposed inside the outdoor unit, connected to the first orifice and branched to the first refrigerant pipe and the second refrigerant pipe; A second engine connection pipe disposed inside the outdoor unit for sending refrigerant discharged from the compressor to the second engine; A liquid pipe valve for regulating the refrigerant flowing between the liquid pipe and the liquid pipe connector; A first engine valve for regulating the refrigerant flowing between the first orifice and the first orifice connecting pipe; And a second engine valve for regulating the refrigerant flowing between the second orifice and the second orifice connecting pipe, wherein a refrigerant pipe connecting the liquid pipe, the first orifice and the second orifice is formed in the outdoor unit.

When the outdoor unit and the indoor unit are installed as switching-type air conditioners in which the plurality of indoor units simultaneously perform cooling or heating, the second organs and the second engine connection pipe are not connected, When installing the machine, do not use the second engine, which is a high-pressure gas pipe.

Further comprising a refrigerant distributor disposed between the outdoor unit and the plurality of indoor units for regulating the refrigerant flowing through the liquid pipe, the first orifice and the second orifice, so that the flow of the refrigerant can be controlled .

The details of other embodiments are included in the detailed description and drawings.

The air conditioner of the present invention has one or more of the following effects.

First, there is an advantage that an air conditioner can be installed in a switching type using a single outdoor unit or can be installed in a simultaneous mode.

Second, there is an advantage that an outdoor unit including a single four-way valve, two valves, and a refrigerant pipe connecting the four-way valve and the refrigerant pipe to the outdoor unit can be provided.

Third, when installed in a synchronous type, when the first engine and the first engine connector used as a low-pressure gas pipe are installed in a switching type, there is an advantage that the possibility of erroneous installation can be reduced.

Fourth, when installing the first engine and the first engine-linking pipe, which are used as a low-pressure gas pipe, in a simultaneous installation, the first engine using a relatively large pipe diameter is used to connect the first engine and the first engine- There is also an advantage that the efficiency of the product can be prevented from being reduced.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a view showing a piping diagram of an air conditioner according to an embodiment of the present invention.
FIG. 2 is a view showing a flow of a refrigerant according to an overall cooling operation or a cooling operation of an air conditioner installed in a concurrent manner according to an embodiment of the present invention.
FIG. 3 is a view illustrating a flow of a refrigerant according to an entire heating operation or a heating operation of an air conditioner installed in a concurrent manner according to an embodiment of the present invention.
FIG. 4 is a view showing a flow of a refrigerant according to an overall cooling operation of an air conditioner installed in a switching mode according to an embodiment of the present invention.
FIG. 5 is a view illustrating a flow of a refrigerant according to an entire heating operation of an air conditioner installed in a cut-away type according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

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

1 is a view showing a piping diagram of an air conditioner according to an embodiment of the present invention. FIG. 2 is a view showing a flow of a refrigerant according to an overall cooling operation or a cooling operation of an air conditioner installed in a concurrent manner according to an embodiment of the present invention. FIG. 3 is a view illustrating a flow of a refrigerant according to an entire heating operation or a heating operation of an air conditioner installed in a concurrent manner according to an embodiment of the present invention. FIG. 4 is a view showing a flow of a refrigerant according to an overall cooling operation of an air conditioner installed in a switching mode according to an embodiment of the present invention. FIG. 5 is a view illustrating a flow of a refrigerant according to an entire heating operation of an air conditioner installed in a cut-away type according to an embodiment of the present invention.

<Overall outline>

The air conditioner according to the present invention includes an outdoor unit (O) and indoor units (I1, I2). In the air conditioner according to the present invention, a plurality of indoor units are connected to an outdoor unit.

In the case of the indoor units I1 and I2 of the air conditioner according to the present invention, the indoor units I1 and I2 can be operated by cooling or heating. A plurality of the indoor units I1 and I2 may be disposed. Each of the indoor units I1 and I2 includes indoor heat exchangers 80 and 85, indoor expansion valves 81 and 86, and indoor fan (not shown).

The outdoor unit (O) of the air conditioner according to the present invention includes a compressor, an outdoor heat exchanger, a four-way valve, an expansion valve, and a first valve and a second valve.

The air conditioner according to the present invention can be used in a manner that a plurality of indoor units are used in a simultaneous mode in which the entire cooling operation, the entire heating operation, the cooling main operation or the heating main operation is performed or the plurality of indoor units are subjected to the entire cooling operation or the entire heating operation Can be used as a type.

Here, the total cooling operation refers to an operation in which an outdoor heat exchanger of an outdoor unit is used as a condenser and an indoor heat exchanger of a plurality of indoor units is used as an evaporator. In the entire heating operation, an outdoor heat exchanger of an outdoor unit is used as an evaporator, And the operation using the indoor heat exchanger as a condenser. Here, the plurality of indoor units includes a case in which a part thereof is not operated. The cooling main body operation is an operation in which an outdoor heat exchanger of an outdoor unit is used as a condenser and each of indoor heat exchangers of a plurality of indoor units is used as a condenser and an evaporator. In heating main operation, an outdoor heat exchanger of an outdoor unit is used as an evaporator , And the indoor heat exchangers of the plurality of indoor units are used as a condenser and an evaporator, respectively.

<Configuration of outdoor unit>

The outdoor unit O includes an outdoor unit case (not shown), a compressor 10 disposed therein, an outdoor heat exchanger 12, a four-way valve 20, and an outdoor expansion valve 14.

A first engine valve 56 to which the first engine 54 is connected, a second engine valve 52 to which the second engine 50 is connected, and a liquid pipe valve 60 to which the liquid pipe 58 is connected .

The first engine valve 56, the second engine valve 52 and the liquid pipe valve 60 are connected to the indoor units I1 and I2 through a refrigerant pipe and circulate the refrigerant in the outdoor unit O.

<Compressor>

The compressor compresses the flowing refrigerant gas. The compressor (10) can use an inverter compressor capable of controlling the refrigerant amount and the discharge pressure of the refrigerant by adjusting the operation frequency.

The air conditioner according to the present embodiment includes a compressor discharge pipe 30 for flowing the refrigerant discharged from the compressor 10 to the four-way valve 20, a refrigerant discharge pipe 30 branched from the compressor discharge pipe 30, To the indoor units (I1, I2). At the end of the second engine connecting pipe (34), a second engine valve (52) for regulating the refrigerant flowing through the second engine connecting pipe (34) is disposed.

<Outdoor Heat Exchanger>

The outdoor heat exchanger 12 according to the present embodiment is a device for exchanging heat between outdoor air and refrigerant. An outdoor ventilation fan (not shown) is disposed to improve the heat exchange of the outdoor heat exchanger 12. The outdoor heat exchanger 12 is connected to the four-way valve 20 through the four-way valve-heat exchanger connection pipe 48 on one side. The outdoor heat exchanger 12 is connected to a liquid pipe connector 36 connected to the liquid pipe 58 at the other side. Therefore, the outdoor heat exchanger 12 can be connected to the indoor heat exchangers 80 and 84 through the liquid pipe connecting pipe 36 and the liquid pipe 58.

The outdoor heat exchanger 12 may be used as a condenser for condensing the refrigerant or as an evaporator for evaporating the refrigerant. The outdoor heat exchanger 12 may be an air-cooling type for exchanging heat between air and refrigerant, or a water-cooling type for exchanging heat between water and refrigerant. In this embodiment, the outdoor heat exchanger 12 may be an air cooling type for exchanging heat between the outside air and the refrigerant using an outdoor blowing fan.

<Outdoor Expansion Mechanism>

The outdoor expansion valve (14) expands the refrigerant flowing to the outdoor heat exchanger (12) during the heating operation. During the cooling operation, the outdoor expansion valve (14) passes the refrigerant without expanding it. The outdoor expansion valve 14 may be an electronic expansion valve capable of adjusting an opening value according to an input signal.

The outdoor expansion valve 14 is disposed on the liquid pipe connector 36. The outdoor expansion valve 14 is connected to the liquid pipe 58 through the liquid pipe connector 36. The outdoor expansion valve (14) is disposed between the outdoor heat exchanger (12) and the indoor heat exchanger (80, 84). During the heating operation, the refrigerant condensed in the indoor units (I1, I2) is supplied to the outdoor expansion valve (14). During the cooling operation, the refrigerant condensed in the outdoor heat exchanger (12) is supplied to the outdoor expansion valve (14).

<Four-way valve>

The four-way valve 20 according to the present embodiment controls the refrigerant pipe to send the refrigerant discharged from the compressor 10 to the outdoor heat exchanger 12 or to send it to the indoor heat exchangers 80 and 84. The four-way valve 20 according to the present embodiment adjusts the refrigerant pipe so that the refrigerant discharged from the outdoor heat exchanger 12 or the indoor heat exchangers 80, 84 flows into the compressor.

The four-way valve 20 according to the present embodiment has the compressor discharge pipe 30, the first refrigerant pipes 40 and 42, the second refrigerant pipes 44 and 46, the outdoor heat exchanger connecting pipe 48, . The four-way valve 20 connects the compressor discharge pipe 30 and the outdoor heat exchanger connecting pipe 48 or the second refrigerant pipes 44 and 46. The four-way valve 20 connects the outdoor heat exchanger connecting pipe 48 to the compressor discharge pipe 30 or the first refrigerant pipe 40, 42.

Each refrigerant pipe will be described in detail below.

<Ball valve and valve around each valve>

The air conditioner according to the present embodiment includes a first refrigerant pipe 40 and a second refrigerant pipe 42 connected to a liquid pipe 58 and a four-way valve 20 through which a high-pressure liquid refrigerant flows and a first valve for controlling the flow of the refrigerant, , A first orifice (54) connected to the four-way valve and connected to a second refrigerant pipe (44, 46) in which a second valve for controlling the flow of the refrigerant is disposed, (50).

The liquid pipe 58 connects the indoor units I1 and I2 to the outdoor unit O. [ The liquid pipe (58) connects the outdoor heat exchanger (12) and the indoor heat exchanger (80, 84). The liquid pipe (58) is connected to a liquid pipe valve (60) disposed inside the outdoor unit (O). A liquid pipe valve 60 for controlling the flow of the refrigerant flowing through the liquid pipe 58 may be disposed at one side of the case of the outdoor unit O. [

When the air conditioner 1 according to the present embodiment is used in a simultaneous mode as shown in Figs. 2 to 3, the first engine 54 sends low-pressure refrigerant gas discharged from the indoor unit to the compressor 10 . That is, when the air conditioner is used in a synchronous type, the first engine 54 according to the present embodiment can be used as a low-pressure gas pipe. When the air conditioner 1 according to the present embodiment is used in a switching mode as shown in FIGS. 4 to 5, the first engine 54 sends low-pressure refrigerant gas discharged from the indoor unit to the compressor 10 , And the high-pressure refrigerant gas discharged from the compressor (10) can be sent to the indoor unit.

The first engine 54 according to the present embodiment is connected to the first engine connecting pipe 38 inside the outdoor unit O. [ A first engine valve 56 for regulating the amount of refrigerant flowing through the first orifice 54 is disposed between the first orifice 54 and the first orifice connecting pipe 38. The first orifice 54 is connected through a first orifice connecting pipe 38 to a first refrigerant pipe 40 and a second refrigerant pipe 42 through which the first valve 16, 2 refrigerant pipes (44, 46).

The first engine connecting pipe 38 is branched into the first refrigerant pipe 40, 42 and the second refrigerant pipe 44, 46. The first refrigerant pipe (40, 42) and the second refrigerant pipe (44, 46) are connected in parallel. Each of the first refrigerant pipes (40, 42) and the second refrigerant pipes (44, 46) is connected by a four-way valve.

The first refrigerant pipes 40 and 42 are divided into a first refrigerant upstream pipe 42 connected to the first engine connecting pipe 38 and a first refrigerant downstream pipe 40 connected to the four- . The second refrigerant pipe may be divided into a second refrigerant upstream pipe 46 connected to the first engine connecting pipe 38 and a second refrigerant downstream pipe 44 connected to the four-way valve 20.

The refrigerant upstream pipe and the refrigerant downstream pipe are classified for convenience of explanation, and it is also possible that the refrigerant flows from the refrigerant downstream pipe to the refrigerant upstream pipe according to the operation mode.

The refrigerant flowing through the first orifice 54 flows into the first refrigerant tube 40 or 42 or the second refrigerant tube 44 or 46 depending on whether the first valve 16 or the second valve 18 is opened or closed. can do.

The air conditioner 1 according to the present embodiment includes a compressor inlet pipe 32 connecting the first refrigerant pipes 40 and 42 and the compressor 10. The compressor inlet pipe 32 connects the compressor 10 and the first refrigerant pipes 40 and 42 disposed between the first valve 16 and the four-way valve 20. The compressor inlet pipe (32) connects the first refrigerant downstream pipe (40) and the compressor (10). Therefore, the refrigerant flowing through the first refrigerant downstream pipe 40 flows into the compressor 10 through the compressor inlet pipe 32. The refrigerant flowing from the four-way valve 20 to the first refrigerant downstream pipe 40 or the refrigerant flowing from the first valve 16 to the first refrigerant downstream pipe 40 flows through the compressor inlet pipe 32 to the compressor 10 ).

2 to 3, the second engine 50 is connected to the indoor units I1 and I2 through the refrigerant discharged from the compressor 10 when the air conditioner 1 according to the present embodiment is used in a synchronous mode. . That is, it is used as a high-pressure gas pipe in which the high-pressure refrigerant gas discharged from the compressor 10 flows.

4 to 5, the second engine 50 is not connected to the indoor unit when the air conditioner 1 according to the present embodiment is used as a switching type. That is, when the air conditioner is used as a switching type, the second engine 50 is not connected to the indoor unit separately.

<Ball valve and refrigerant pipe valve>

The air conditioner 1 according to the present embodiment includes a first valve 16 for opening and closing the first refrigerant tubes 40 and 42 and a second valve 18 for closing the second refrigerant tubes 44 and 46 ). The first valve 16 and the second valve 18 can be opened and closed mutually exclusively. That is, when the first valve 16 is opened, the second valve 18 is closed, and when the first valve 16 is closed, the second valve 18 can be opened and closed.

The first valve 16 and the second valve 18 used for opening and closing the first refrigerant pipes 40 and 42 and the second refrigerant pipes 44 and 46 in the present embodiment are arranged in such a manner that the inner pipe through which the refrigerant flows, A ball valve that opens and closes the valve can be used.

When the air conditioner is used in a simultaneous mode, the first valve 16 is opened and the second valve 18 is closed. When the air conditioner is used in a switching mode, the second valve 18 is opened and the first valve 16 is closed.

<Refrigerant distributor>

The air conditioner according to the present embodiment may include a refrigerant distributor 70 disposed between the outdoor unit O and the indoor units I1 and I2 to regulate the flow of the refrigerant.

When the air conditioner 1 according to the present embodiment is used in a simultaneous mode, the refrigerant distributor 70 includes a liquid pipe (not shown), a high-pressure gas pipe (not shown) and a low- , And a heat recovery unit (HRU) for regulating the flow of the refrigerant. When the air conditioner according to the present embodiment is used in a switching mode, the refrigerant distributor 70 can use a header for branching the liquid pipe 58 into a plurality of liquid pipes and branching the first orifice 54 into a plurality of organs have.

The air conditioner 1 according to the present embodiment can perform the entire cooling operation or the cooling operation by using the outdoor heat exchanger 12 as a condenser in the simultaneous use. When the indoor heat exchanger 1 is used in a simultaneous mode, it is possible to perform the entire heating operation or the heating operation using the outdoor heat exchanger 12 as an evaporator.

The air conditioner according to the present embodiment includes a heat recovery unit when it is used in a synchronous type. The heat recovery unit can operate a plurality of indoor units simultaneously with heating and cooling. The heat recovery unit is disposed between the outdoor unit O and the plurality of indoor units I1 and I2. The heat recovery unit may be connected to each of the plurality of indoor units I1 and I2 by indoor engines 84 and 88 and indoor liquid tubes 83 and 87. [ The heat recovery unit may be connected to the outdoor unit O by the liquid pipe 58, the second orifice 50, or the first orifice 54.

The heat recovery unit according to the present embodiment may include a liquid pipe connected to the outdoor unit O and the liquid pipe 58 and connected to each of the plurality of indoor units I1 and I2 and the indoor liquid pipes 83 and 87. The heat recovery unit according to the present embodiment may include a low pressure gas pipe connected to the first orifice 54 and connected to each of the indoor units I1 and I2 and the indoor orifices 84 and 88. The heat recovery unit according to the present embodiment may include a high-pressure gas pipe connected to the second orifice 50 and connected to the indoor orifices 84, 88 by a branch pipe.

The heat cover unit may include a low pressure valve (not shown) installed in the indoor engines 84, 88 to control the flow of the refrigerant between the plurality of indoor units I1, I2 and the low-pressure gas pipe pipe. The heat recovery unit may include a high-pressure valve (not shown) installed in a branch pipe (not shown) to control the flow of the refrigerant between the plurality of indoor units I1 and I2 and the high-pressure gas pipe,

The heat recovery unit according to the present embodiment causes the refrigerant flowing through the outdoor heat exchanger 12 to flow into the indoor unit using the indoor heat exchanger as an evaporator when the cooling main body operates. The heat recovery unit according to the present embodiment causes the refrigerant flowing through the indoor unit using the indoor heat exchanger as the condenser to flow into the indoor unit using the indoor heat exchanger as the evaporator during the cooling main body operation. The heat recovery unit according to the present embodiment causes the refrigerant flowing through the indoor unit using the indoor heat exchanger as the evaporator to flow into the first orifice 54 during the cooling main body operation.

The heat recovery unit according to the present embodiment causes the refrigerant flowing through the second engine 50 to flow into the indoor unit using the indoor heat exchanger as a condenser during the heating main body operation. The heat recovery unit according to the present embodiment causes the refrigerant discharged from the indoor unit, which uses the indoor heat exchanger as a condenser, to flow into the indoor unit using the indoor heat exchanger as an evaporator during the heating main body operation. The heat recovery unit according to the present embodiment causes the refrigerant discharged from the indoor unit, which uses the indoor heat exchanger as a condenser, to flow to the outdoor heat exchanger 12 through the liquid pipe 58 during the heating main body operation. The heat recovery unit according to the present embodiment causes refrigerant flowing through the indoor units I1 and I2 using the indoor heat exchanger as an evaporator to flow into the first orifice 54 at the time of heating main body operation.

When the air conditioner according to the present embodiment is used as a switching type, the refrigerant distributor 70 is used as a header. The refrigerant distributor 70 connects the liquid pipe 58 and the plurality of indoor liquid pipes 83 and 87. The refrigerant distributor connects the first engine (54) and the plurality of indoor engines (84, 88).

When the air conditioner according to the present embodiment is used as a switching type, the second engine 50 is not connected to the refrigerant distributor 70. When the air conditioner according to the present embodiment is used as a switching type, the first orifice 54 is used as the orifice through which the gaseous refrigerant flows.

<When installed in a synchronous type>

Hereinafter, the flow of the refrigerant according to the operation of the air conditioner in the case of using the air conditioner according to the present embodiment concurrently will be described with reference to FIG. 2 to FIG. When the air conditioner is used in a simultaneous mode, the first valve 16 is opened and the second valve 18 is closed. When the air conditioner is used in a simultaneous mode, the indoor units I1 and I2 and the outdoor unit are connected to the refrigerant distributor 70 used as a heat recovery unit. When the air conditioner is used in a simultaneous mode, the liquid pipe 58, the first orifice 54 and the second orifice 50 are connected to the refrigerant distributor 70.

&Lt; All cooling operation and cooling main operation >

First, referring to Fig. 2, the flow of the refrigerant in the air conditioner during the entire cooling operation or the cooling main operation will be described.

The first valve 16 is opened and the second valve 18 is closed in the entire cooling operation or the cooling operation of the air conditioner installed in the concurrent manner. The four-way valve 20 connects the compressor discharge pipe 30 and the outdoor heat exchanger connecting pipe 48 and connects the first refrigerant pipe and the second refrigerant pipe 44, 46 to each other.

In the case of the entire cooling operation, the second engine valve 52 is closed so that the refrigerant does not flow into the second engine 50. However, in the case of the cooling main operation, the second engine valve 52 is opened, and the refrigerant also flows into the second engine 50.

First, the refrigerant discharged from the compressor 10 flows into the outdoor heat exchanger 12 along the compressor discharge pipe 30 and the outdoor heat exchanger connecting pipe 48. The refrigerant that has passed through the outdoor heat exchanger 12 flows to the indoor units I1 and I2 using the indoor heat exchangers 80 and 84 as evaporators via the liquid pipe 58 and the liquid pipe. The refrigerant passing through the indoor units I1 and I2 flows to the first engine 54 along the low-pressure gas pipe. Thereafter, the refrigerant flows to the compressor 10 via the first engine connecting pipe 38 and the first refrigerant pipe.

Hereinafter, the flow of the refrigerant in the cooling main operation will be described.

2, the indoor heat exchanger 80 is used as a condenser in the first indoor unit I1 and the indoor heat exchanger 84 is used as an evaporator in the case of the second indoor unit I2 . This is an embodiment to explain the flow of refrigerant and does not limit the scope of the invention. Further, the outdoor heat exchanger 12 is used as a condenser.

The refrigerant discharged from the compressor (10) flows to the outdoor heat exchanger (12) along the compressor discharge pipe (30) and the outdoor heat exchanger connecting pipe (48). The refrigerant that has passed through the outdoor heat exchanger 12 flows to the second indoor unit I2 through the liquid pipe 58 and the liquid pipe and uses the indoor heat exchanger 84 as the evaporator. The refrigerant having passed through the second indoor unit I2 flows to the first orifice 54 along the low-pressure gas pipe. Thereafter, the refrigerant flows to the compressor 10 via the first engine connecting pipe 38 and the first refrigerant pipe.

A part of the refrigerant flowing through the compressor discharge pipe 30 flows along the second orifice 50 to the first indoor unit I1 using the indoor heat exchanger 80 as a condenser. The refrigerant flowing along the second engine (50) flows to the first indoor unit (I1) along the high-pressure gas pipe. The refrigerant that has passed through the first indoor unit I1 flows along the liquid pipe and flows into the second indoor unit I2. The refrigerant that has passed through the second indoor unit I2 flows to the first orifice 54 along the low pressure gas pipe and flows to the compressor 10 via the first refrigerant pipe 40,

&Lt; Overall Heating Operation and Heating Main Body Operation >

The flow of the refrigerant in the air conditioner at the time of the entire heating operation or the heating main body operation will be described with reference to Fig.

In the entire heating operation or the heating main operation, the first valve 16 is opened and the second valve 18 is closed. The four-way valve 20 connects the compressor discharge pipe 30 and the second refrigerant pipes 44 and 46 and connects the first refrigerant pipe and the outdoor heat exchanger connecting pipe 48.

In the case of full heating operation, the first engine valve 56 is closed and the refrigerant may not flow into the first engine 54. However, in the case of the heating main body operation, the first engine valve 56 is opened, and the refrigerant also flows into the first engine 54.

First, the entire heating operation will be described. The refrigerant discharged from the compressor 10 flows along the compressor discharge pipe 30 and the second engine connecting pipe 34. The refrigerant flowing through the second engine connecting pipe 34 flows to the indoor units I1 and I2 through the second orifice 50 and the indoor heat exchangers 80 and 84 as the condenser. The refrigerant flowing along the second engine (50) flows to the indoor units (I1, I2) along the high-pressure gas pipe. The refrigerant that has passed through the indoor units I1 and I2 flows along the liquid pipe to the liquid pipe 58 and flows to the outdoor heat exchanger 12. [ The refrigerant flowing into the outdoor heat exchanger 12 flows into the compressor 10 through the outdoor heat exchanger connecting pipe 48, the first refrigerant upstream pipe 42 and the compressor inlet pipe 32.

Hereinafter, the flow of the refrigerant in the heating main operation will be further described.

3, the first indoor heat exchanger 80 is used as a condenser and the second indoor heat exchanger 84 is used as an evaporator in the case of the first indoor unit I1 . The outdoor heat exchanger 12 is used as an evaporator.

The refrigerant discharged from the compressor (10) flows along the compressor discharge pipe (30) and the second engine connecting pipe (34). The refrigerant flowing through the second engine connecting pipe 34 flows to the first indoor unit I1 through the second orifice 50 and the first indoor heat exchanger 80 as a condenser. The refrigerant flowing along the second engine (50) flows to the first indoor unit (I1) along the high-pressure gas pipe. The refrigerant that has passed through the first indoor unit I1 flows along the liquid pipe to the liquid pipe 58 and flows to the outdoor heat exchanger 12. [ The refrigerant flowing into the outdoor heat exchanger 12 flows into the compressor 10 through the outdoor heat exchanger connecting pipe 48, the first refrigerant upstream pipe 42 and the compressor inlet pipe 32.

Also, a part of the refrigerant passing through the first indoor unit I1 flows along the liquid pipe and flows into the second indoor units I1 and I2. The refrigerant that has passed through the second indoor units I1 and I2 flows to the first engine 54 along the low pressure gas pipe and flows to the compressor 10 via the first refrigerant pipe 40 and 42. [

<When installed as a switching type>

Hereinafter, the flow of the refrigerant according to the operation of the air conditioner in the case where the air conditioner according to the present embodiment is used as a switching type will be described with reference to FIGS. 4 to 5. FIG.

When the air conditioner (1) is used as a switching type, the first valve (16) is closed and the second valve (18) is opened. When the air conditioner is used as a switching type, the indoor units (I1, I2) and the outdoor unit (O) are connected to a refrigerant distributor. When the air conditioner is used as a switching type, the liquid pipe 58 and the first orifice 54 are connected to the refrigerant distributor 70, but the second orifice 50 is not connected to the refrigerant distributor 70.

<Cooling operation>

First, the flow of refrigerant in the air conditioner 1 at the time of cooling operation will be described with reference to Fig. The first valve 16 is closed and the second valve 18 is opened. The first indoor units I1 and I2 and the second indoor units I1 and I2 use the indoor heat exchangers 80 and 84 as an evaporator and the outdoor heat exchanger 12 as a condenser. The four-way valve 20 connects the compressor discharge pipe 30 and the outdoor heat exchanger connecting pipe 48 and connects the first refrigerant pipes 40 and 42 to the second refrigerant pipes 44 and 46.

The refrigerant discharged from the compressor 10 flows to the outdoor heat exchanger 12 via the compressor discharge pipe 30 and the outdoor heat exchanger connecting pipe 48. The refrigerant condensed in the outdoor heat exchanger (12) flows into the indoor unit through the outdoor expansion valve (14) and the liquid pipe (58). The refrigerant evaporated in the indoor units I1 and I2 flows along the first orifice 54, the second refrigerant pipes 44 and 46 and the compressor inlet pipe 32 and flows to the compressor 10.

<Heating operation>

The flow of the refrigerant in the air conditioner at the time of heating operation will be described with reference to Fig. The first valve 16 is closed and the second valve 18 is opened. The first indoor units I1 and I2 and the second indoor units I1 and I2 use the indoor heat exchangers 80 and 84 as a condenser and the outdoor heat exchanger 12 as an evaporator. The four-way valve 20 connects the compressor discharge pipe 30 and the second refrigerant pipes 44 and 46 and connects the first refrigerant pipes 40 and 42 to the outdoor heat exchanger connecting pipe 48.

The refrigerant discharged from the compressor 10 flows along the compressor discharge pipe 30 and the second refrigerant pipes 44 and 46 and flows to the first orifice 54. The refrigerant flowing into the first orifice 54 passes through the indoor unit, is condensed, and flows to the outdoor expansion valve 14 and the outdoor heat exchanger 12 through the liquid pipe. The refrigerant evaporated in the outdoor heat exchanger (12) flows to the compressor (10) via the outdoor heat exchanger connecting pipe (48) and the compressor inlet pipe (32).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

10: compressor 12: outdoor heat exchanger
14: outdoor expansion valve 16: first valve
18: second valve 20: four way valve
30: compressor discharge pipe 32: compressor inlet pipe
34: Second organization connection pipe 36: Liquid pipe connection pipe
38: first engine connecting pipe 40, 42: first refrigerant pipe
44, 46: second refrigerant pipe 48: outdoor heat exchanger connection pipe
50: second engine 52: second engine valve
54: first engine 56: first engine valve
58: liquid pipe 60: liquid pipe valve
70: Refrigerant distributor I1: First indoor unit
I2: second indoor unit O: outdoor unit

Claims (7)

An outdoor unit provided with a compressor, a four-way valve, an outdoor heat exchanger, and an outdoor expansion mechanism;
A plurality of indoor units provided with an indoor expansion mechanism and an indoor heat exchanger;
A liquid pipe connecting the indoor heat exchanger and the outdoor heat exchanger;
A first refrigerant pipe connected to the four-way valve and having a first valve for controlling the flow of refrigerant, and a second refrigerant pipe connected to the four-way valve and having a second valve for controlling the flow of the refrigerant, A first organs;
And a second orifice through which the refrigerant discharged from the compressor flows,
The four-way valve is connected to the compressor, the outdoor heat exchanger, the first valve, and the second valve through refrigerant pipes in four directions, and is connected to the outdoor heat exchanger or the second refrigerant pipe . The method according to claim 1,
Further comprising a compressor inlet pipe through which the refrigerant flows into the compressor,
Wherein the compressor inlet pipe is branched from the first refrigerant pipe and connected to the compressor. The method according to claim 1,
When the outdoor unit and the indoor unit are installed as a simultaneous-type air conditioner in which the plurality of indoor units simultaneously perform cooling or heating,
And closes the second valve. The method according to claim 1,
When the outdoor unit and the indoor unit are installed as a switching type air conditioner in which the plurality of indoor units simultaneously perform cooling or heating,
And closes the first valve. The method according to claim 1,
A liquid pipe connecting pipe disposed inside the outdoor unit and connecting the liquid pipe and the outdoor heat exchanger;
A first engine connection pipe disposed inside the outdoor unit, connected to the first orifice and branched to the first refrigerant pipe and the second refrigerant pipe;
A second engine connection pipe disposed inside the outdoor unit for sending refrigerant discharged from the compressor to the second engine;
A liquid pipe valve for regulating the refrigerant flowing between the liquid pipe and the liquid pipe connector;
A first engine valve for regulating the refrigerant flowing between the first orifice and the first orifice connecting pipe; And
And a second engine valve for regulating the refrigerant flowing between the second orifice and the second orifice connecting pipe. 6. The method of claim 5,
When the outdoor unit and the indoor unit are installed as a switching type air conditioner in which the plurality of indoor units simultaneously perform cooling or heating,
And does not connect the second orifice with the second orifice connecting pipe. The method according to claim 1,
Further comprising a refrigerant distributor disposed between the outdoor unit and the plurality of indoor units to regulate the refrigerant flowing through the liquid pipe, the first orifice, and the second orifice.

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