KR101240765B1 - Multi type air conditioner - Google Patents

Abstract

The present invention relates to a multi-type air conditioner. Multi-type air conditioner according to an embodiment of the present invention, each of the outdoor heat exchanger, a compression unit and a four-way valve provided with a plurality of outdoor units; And a plurality of indoor units connected to the plurality of outdoor units, each of which includes an indoor heat exchanger, wherein the outdoor unit includes: a bypass pipe communicating the suction side pipe and the discharge side pipe of the compression unit; And an outdoor expansion valve disposed between the outdoor heat exchanger and the indoor heat exchanger, wherein when one or more indoor units are cooled and operated and a plurality of outdoor units are operated, switching conditions of the outdoor units are satisfied, The four-way valve switches the flow path, the outdoor expansion valve of the some outdoor units is turned off, and the refrigerant of the some outdoor units moves to the suction side of the compression unit of the other outdoor units via the bypass pipe.

Description

Multi type air conditioner

The present invention relates to a multi-type air conditioner.

Background Art [0002] Generally, an air conditioner is a device for cooling and heating indoor air or purifying air using a refrigerant cycle including a compressor, a condenser, an expansion device, and an evaporator to create a more comfortable indoor environment for a user.

The air conditioner includes an air conditioner in which one indoor unit is connected to one outdoor unit, and a multi-type air conditioner in which a plurality of indoor units are connected to one or more outdoor units to provide a plurality of air conditioners.

SUMMARY OF THE INVENTION An object of the present invention is to provide a multi-type air conditioner in which indoor cooling can be continuously performed even when the outdoor temperature is low.

According to an aspect, a multi-type air conditioner includes a plurality of outdoor units each having an outdoor heat exchanger, a compression unit, and a four-way valve; And a plurality of indoor units connected to the plurality of outdoor units, each of which includes an indoor heat exchanger, and when one or more indoor units are cooled and operated and a plurality of outdoor units operate, when switching conditions of the outdoor unit are satisfied, some of the outdoor units that are in operation The four-way valve of the outdoor unit switches the passage so that the refrigerant passage of the outdoor heat exchanger of the outdoor unit is switched from the condenser to the evaporator.

According to the proposed invention, when the cooling load of the indoor unit is below the reference load while the outdoor temperature is below the reference temperature, by switching the outdoor heat exchanger of some outdoor units to the evaporator, an imbalance between the condensation capacity and the evaporation capacity is eliminated. , Continuous cooling is possible, and cooling performance can be maintained.

1 is a block diagram showing a multi-type air conditioner according to the present invention.
2 is a control block diagram of a multi-type air conditioner according to the present invention.
3 is a flowchart illustrating a control method of a multi-type air conditioner according to the present invention.
4 is a view illustrating a refrigerant flow in a state in which switching conditions of a specific outdoor unit are satisfied.

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

1 is a block diagram showing a multi-type air conditioner according to the present invention.

Referring to FIG. 1, the multi-type air conditioner according to the present invention includes an outdoor unit 1 and an indoor unit 2 connected to the outdoor unit 1. The outdoor unit 1 includes a plurality of outdoor units 11, 15. The indoor unit 2 includes a plurality of indoor units 21 and 22. In the present specification, for convenience of description, it is shown that two indoor units are connected to two outdoor units, but in this specification, the number of indoor units and the number of outdoor units are not limited. That is, three or more indoor units may be connected to three or more outdoor units. In this case, generally, the number of indoor units is larger than the number of outdoor units.

The plurality of outdoor units 11 and 15 include a first outdoor unit 11 and a second outdoor unit 15. Since the configurations of the first outdoor unit 11 and the second outdoor unit 15 are the same, only the configuration of the first outdoor unit 11 will be described below, and the description of the first outdoor unit 11 will be described later. The same applies to the outdoor unit, and the reference numerals used in the description of the configuration of the first outdoor unit 11 will also apply to the configuration of the second outdoor unit.

Each of the outdoor units 11 and 15 includes a compression unit 110 for compressing a refrigerant. The compression unit 110 may include a plurality of compressors 111 and 112. Some of the plurality of compressors 111 and 112 may be inverter compressors 111 with variable capacities, and others may be constant speed compressors 112. The plurality of compressors 111 and 112 may be arranged in parallel.

The discharge side piping of each of the compressors 111 and 112 includes an individual piping 115 and a lamination piping 116. That is, the individual pipes 115 of the compressors 111 and 112 are laminated in the lamination pipes 116. Each of the individual pipes 115 includes oil separators 113 and 114 for separating oil from the refrigerant, a temperature sensor 131 for detecting a temperature of the compressed refrigerant, and a pressure for detecting the compressed refrigerant. The pressure sensor 132 may be provided.

The lamination pipe 116 is connected to a four-way valve 117 for switching the flow path of the refrigerant. An accumulator 135 is connected to the four-way valve 117, and the accumulator 135 is connected to suction pipes of the compressors 111 and 112. The bypass pipe 133 is connected to the lamination pipe 116 and the pipe 136 between the four-way valve 117 and the accumulator 135. The bypass pipe 133 is provided with an expansion valve 132a and a valve 134. When the bypass pipe 113 is opened by the valve 134, some of the high temperature and high pressure refrigerant discharged from the compression unit 110 flows to the bypass pipe 133. That is, the bypass pipe 133 serves to communicate the suction side pipe and the discharge side pipe of the compression unit 110. Here, the discharge side pipe of the compression unit 110 includes a pipe 136 between the four-way valve 117 and the accumulator 135.

The four-way valve 117 is connected to the outdoor heat exchanger 120 by a connection pipe 118. The air blown from the outdoor fan 121 exchanges heat with the refrigerant flowing through the outdoor heat exchanger 120. One or more outdoor fans 121 may be provided. It acts as a condenser during the cooling operation of the indoor unit 2 and acts as an evaporator during the heating operation of the indoor unit 2. At this time, the heat exchange capacity of the outdoor heat exchanger is greater than the heat exchange capacity of the indoor heat exchanger of one indoor unit 21. Therefore, according to the capacity of the indoor unit in the case of operating a plurality of indoor units, one outdoor unit may operate or multiple outdoor units may operate.

Each of the outdoor units 11 and 15 further includes an outdoor expansion mechanism 122. The outdoor expansion mechanism 122 does not expand the refrigerant when the refrigerant passing through the outdoor heat exchanger 120 passes, and expands the refrigerant when the refrigerant not passing through the outdoor heat exchanger 120 passes. The outdoor expansion mechanism 122 may include an outdoor expansion valve 123 and a check valve 124 disposed in parallel. For example, the outdoor expansion valve 123 may be an electronic expansion valve (EEV). The outdoor heat exchanger 120 is connected to the indoor unit 2 by a liquid pipe 141.
On the other hand, the outdoor expansion mechanism 122 and the indoor expansion mechanism (213, 223) is provided between the outdoor heat exchanger 120 and the indoor heat exchanger (211, 221), of course, in principle of the cooling and heating cycle.

On the other hand, each outdoor unit (11, 15) is connected by a common pipe (145). The common pipe 145 is connected to a connection pipe 118 connecting the four-way valve 117 and the outdoor heat exchanger 120. In addition, one or more valves 146 may be provided in the common pipe 145. The one or more valves 146 may be, for example, a solenoid valve.

On the other hand, each indoor unit (21, 22) includes an indoor heat exchanger (211, 221), indoor fans (212, 222), indoor expansion mechanism (213, 223). The indoor expansion mechanisms 213 and 223 may be, for example, electromagnetic expansion valves (EEVs).

The indoor units 21 and 22 may be connected to the four-way valves 117 of the outdoor units 11 and 15 by the engine 142.

Hereinafter, the refrigerant flow in the multi-type air conditioner of the present invention will be described. 1 shows, for example, a refrigerant flow during a cooling operation. 1 shows a refrigerant flow when a plurality of indoor units are operated to be cooled, and a plurality of outdoor units operate together.

First, when a plurality of indoor units are cooled and operated, the refrigerant compressed in the compression unit 110 flows to the outdoor heat exchanger 120 by switching the flow path of the four-way valve 117. The refrigerant flowing through the outdoor heat exchanger 120 is condensed. While a plurality of indoor units are cooled, the outdoor expansion valve is full open. Therefore, the refrigerant condensed in the outdoor heat exchanger 120 flows to each of the indoor units 21 and 22 through the liquid pipe 141 in an unexpanded state. The refrigerant flowing into the indoor units 21 and 22 is expanded through the indoor expansion mechanisms 213 and 223 and then evaporated while flowing through the respective indoor heat exchangers 211 and 221. The evaporated refrigerant is introduced into the accumulator 135 after passing through the engine 142 and the four-way valve 117. Of the refrigerant flowing into the accumulator 135, only the gaseous refrigerant is sucked into the compression unit 110.

On the other hand, when a plurality of indoor units are heated, the refrigerant compressed by the compression unit 110 flows to the indoor heat exchangers 211 and 221 by switching the flow path of the four-way valve 117. The refrigerant flowing through the indoor heat exchangers 211 and 212 is condensed. While a plurality of indoor units are heated and operated, the indoor expansion valves 213 and 223 are full open. Therefore, the refrigerant condensed in the indoor heat exchangers 211 and 212 flows to the outdoor units 11 and 15 through the liquid pipe 141 in an unexpanded state. The condensed refrigerant is expanded by the outdoor expansion mechanism 123 and then evaporated while flowing through each of the outdoor heat exchangers 120. The evaporated refrigerant is introduced into the accumulator 135 via the four-way valve 117. Of the refrigerant flowing into the accumulator 135, only the gaseous refrigerant is sucked into the compression unit 110.

2 is a control block diagram of a multi-type air conditioner according to the present invention.

Referring to FIG. 2, the multi-type air conditioner includes an outdoor temperature sensor 17 for detecting an outdoor temperature, a first pressure sensor 18 and a second pressure sensor 19 for detecting a pressure, and the angles. And a controller 16 capable of controlling at least the outdoor unit 1 based on information detected by the sensors 17, 18, 19.

Each sensor 17, 18, 19 may be provided in each outdoor unit 11, 15. The first pressure sensor 18 may sense the outlet side pressure of the compression unit 110 of each outdoor unit. The second pressure sensor 19 may detect the inlet side pressure of the compression unit 110 of each outdoor unit.

The controller 16 may be configured of an indoor unit controller installed in each of the indoor units 21 and 22 and an outdoor unit controller installed in each outdoor unit 11 and 15, or may be a control unit installed in the outdoor units 11 and 15. .

3 is a flowchart illustrating a control method of a multi-type air conditioner according to the present invention, and FIG. 4 is a view illustrating a refrigerant flow in a state in which switching conditions of a specific outdoor unit are satisfied.

2 to 4, one or more indoor units 11 and 15 may be cooled and operated, and a plurality of outdoor units may be operated (S1). The present invention is of major interest in changing the state of an outdoor unit when one or more indoor units are cooled and satisfies switching conditions (described later) while a plurality of outdoor units are operated (the outdoor heat exchanger of each outdoor unit operates as a condenser). Therefore, hereinafter, it will be described on the assumption that the load of one or more indoor units is more than the reference load that must be operated a plurality of outdoor units.

At least one indoor unit is cooled and driven, and while a plurality of outdoor units are operated, it is determined whether the outdoor temperature is lower than or equal to the reference temperature (S2). At this time, the reference temperature may be, for example, 15 ℃. It is noted herein that the reference temperature is not limited and can be varied.

As a result of the determination in step S2, when it is determined that the outdoor temperature is equal to or less than the reference temperature, it is next determined whether the switching condition of the outdoor unit is satisfied (S3). In detail, when the switching condition of the outdoor unit is satisfied, the high pressure (discharge side pressure) of the compression unit of the one or more outdoor units is equal to or less than the reference pressure, or the compression ratio of the compression unit of the one or more outdoor units becomes equal to or less than the reference compression ratio. The high pressure of the at least one compression unit may be detected by the first pressure sensor, and the compression ratio may be determined by the pressure values detected by the first pressure sensor and the second pressure sensor. For example, when the switching condition of the outdoor unit is satisfied, for example, when only one indoor unit operates (when the load of the operating indoor unit is smaller than the reference load) or when two or more indoor units operate, the cooling load of the indoor unit is determined. May be less than the load. In this case, since the condensation capacity of the working outdoor unit (the outdoor heat exchanger of the outdoor unit acts as a condenser) is larger than the evaporation capacity of the indoor heat exchanger (which serves as the evaporator) of the indoor unit, the condensation capacity and the evaporation capacity are significantly unbalanced. It is difficult to achieve continuous cooling operation and there is a problem that the cooling performance is lowered. This is particularly problematic when the outdoor temperature is below the reference temperature. Therefore, in the present invention, it is first determined whether the outdoor temperature is equal to or less than the reference temperature, and then it is determined whether the switching condition of the outdoor unit is satisfied. For example, the room in which the indoor unit is cooled in operation when the outdoor temperature is less than or equal to the reference temperature may be a specific room (for example, a computer room or the like) in which the temperature is to be kept below the set temperature.

As a result of the determination in step S3, when the switching condition of the outdoor unit is satisfied, the refrigerant passage of the outdoor heat exchanger of the at least one outdoor unit is switched from the condenser state to the evaporator state (S4). In the present specification, it is assumed that the outdoor unit to be switched is the second outdoor unit, and that the outdoor unit in the normal state (the outdoor unit in which the outdoor heat exchanger operates as a condenser) is the first outdoor unit. In detail, when the switching conditions of the outdoor unit are satisfied, the discharge side pipe of the compression unit of the second outdoor unit is connected to the suction side pipe of the compression unit of the first outdoor unit by the flow path switching of the four-way valve of the second outdoor unit. Communicating. In addition, when the switching condition of the outdoor unit is satisfied, the valve 146 provided in the common pipe 145 is turned off. When the valve 146 is turned off, the refrigerant of the first outdoor unit 11 may be prevented from flowing into the second outdoor unit 15, and thus, the amount of the refrigerant in the first outdoor unit 11 may be prevented from running out. .

When the switching condition of the outdoor unit is satisfied, the valve 134 of the bypass pipe 133 of the second outdoor unit 15 is opened, and the outdoor expansion valve 123 of the second outdoor unit 15 is opened. Is off. Then, the refrigerant of the accumulator 135 of the second outdoor unit 15 moves to the suction side of the compression unit of the first outdoor unit via the bypass pipe 133 and the four-way valve. In addition, the refrigerant present in the outdoor heat exchanger 120 of the second outdoor unit 15 moves to the suction side of the compression unit of the first outdoor unit via the bypass pipe 133 and the four-way valve. Therefore, since the refrigerant of the second outdoor unit flows to the first outdoor unit, the amount of refrigerant in the first outdoor unit may be prevented from running short. In the present embodiment, the compression unit of the second outdoor unit may stop immediately after the switching condition is satisfied or stop after a predetermined time. In addition, the outdoor fan of the second outdoor unit can also be stopped.

After the second outdoor unit is switched, the process returns to step S2. If the outdoor temperature exceeds the reference temperature or the cooling load of the indoor unit exceeds the reference load, the switched outdoor unit returns to its original state. That is, the outdoor heat exchanger of the switched outdoor unit is switched to the condenser. On the other hand, if the switching condition is satisfied again after the second outdoor unit is switched, one or more outdoor units may be additionally switched in addition to the second outdoor unit.

According to the present invention, when the cooling load of the indoor unit becomes below the reference load while the outdoor temperature is below the reference temperature, by switching the outdoor heat exchanger of some outdoor units to the evaporator, an imbalance between the condensation capacity and the evaporation capacity is eliminated, Continuous cooling is possible, and cooling performance can be maintained.

1: outdoor unit 2: indoor unit

Claims (7)

A plurality of outdoor units each having an outdoor heat exchanger, a compression unit, and a four-way valve; And
A plurality of indoor units connected to the plurality of outdoor units, each of which includes an indoor heat exchanger;
The outdoor unit,
A bypass pipe communicating the suction side pipe and the discharge side pipe of the compression unit; And
It includes an outdoor expansion valve provided between the outdoor heat exchanger and the indoor heat exchanger,
If one or more indoor units are cooled down and a plurality of outdoor units are operating, and the switching conditions of the outdoor units are satisfied,
The four-way valve of some outdoor units in operation is switching the flow path,
The outdoor expansion valve of the some outdoor unit is turned off,
And a refrigerant of the at least one outdoor unit moves to the suction side of the compression unit of the remaining outdoor unit via the bypass pipe. The method of claim 1,
When the switching condition of the outdoor unit is satisfied, when the compression ratio of the compression unit of the at least one outdoor unit of the plurality of outdoor units is equal to or less than the reference compressor, or when the discharge pressure of the compression unit of the at least one outdoor unit of the plurality of outdoor units is equal to or less than the reference pressure Multi type air conditioner. The method of claim 2,
The multi-type air conditioner of the outdoor unit is determined when the switching condition is satisfied, when the outdoor temperature is less than the reference temperature. The method of claim 1,
Further comprising a common pipe for connecting the plurality of outdoor units, and the valve provided in the common pipe,
And the valve of the outdoor unit is closed when the switching condition is satisfied. delete delete The method of claim 1,
Each outdoor unit further includes an outdoor fan,
And the outdoor fan of the outdoor unit is stopped when the switching condition is satisfied.

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