KR20160073619A - control method of an air conditioner - Google Patents

Abstract

The present invention relates to a control method for an air conditioner, which prevents a refrigerant from being piled up in an outdoor unit which is not operated during a cooling mode of a multi type air conditioner so that the multi type air conditioner, wherein the multiple outdoor units and indoor units are combined, can maintain stable cooling performance. According to the embodiment of the present invention, the air conditioner forms a cooling cycle capable of cooling and heating operations as the outdoor units and the indoor units are connected to each other by a refrigerant pipe. The control method for an air conditioner includes: a step of starting driving of the indoor units in a cooling operation mode; a step of confirming that the outdoor unit which is not in operation exists among the outdoor units when a set time has passed after the indoor unit starts the operation; a step of determining whether a refrigerant amount on the cooling cycle in operation is insufficient as an indoor expansion valve of an indoor unit in operation is opened more than a set opening; and a step of driving the outdoor unit which is not in operation.

Description

[0001] The present invention relates to a control method of an air conditioner,

The present invention relates to a control method of an air conditioner.

The air conditioner is an appliance for keeping the indoor air in the most suitable condition according to the purpose and purpose. For example, in the summer, the room is controlled by a cool air condition, while in winter the room is controlled by a warm heating condition, by the humidity of the room, and by the clean air of the room.

In detail, the air conditioner is driven by a refrigeration cycle for compressing, condensing, expanding and evaporating the refrigerant, thereby performing the cooling or heating operation of the indoor space.

The air conditioner may be divided into a separate type air conditioner in which the indoor unit and the outdoor unit are separated from each other and an integrated type air conditioner in which the indoor unit and the outdoor unit are combined into one unit depending on whether the indoor unit and the outdoor unit are separated. The outdoor unit includes an outdoor heat exchanger that exchanges heat with outdoor air. The indoor unit includes an indoor heat exchanger that performs heat exchange with indoor air.

When the refrigeration cycle is a cooling operation, the outdoor heat exchanger functions as a condenser, and the indoor heat exchanger functions as an evaporator. On the other hand, when the refrigeration cycle performs the heating operation, the indoor heat exchanger functions as a condenser, and the outdoor heat exchanger functions as an evaporator.

Recently, as disclosed in Korean Patent Laid-Open No. 10-2003-0031794, a multi-type air conditioner in which a plurality of outdoor units and a plurality of indoor units are combined is installed in a building such as a building, and a plurality of indoor units can cool / .

The multi-type air conditioner is capable of controlling the number of outdoor units operated according to the number of indoor units to be operated and the load amount, and can operate with optimum efficiency according to a required load, thereby saving energy.

However, in such a multi-type air conditioner, when some of the outdoor units are not operated, the valves in the outdoor units that are not operated are closed, so that the refrigerant in the heat exchanger of the outdoor units that are not operated is trapped, The amount of the refrigerant in the entire cycle is temporarily reduced, and the normal cooling capacity is lowered.

An embodiment of the present invention is a control method of an air conditioner in which a plurality of outdoor units and an indoor unit are combined to prevent a refrigerant from being accumulated in an outdoor unit that is not operated during a cooling operation in a multi- And to provide the above objects.

A control method of an air conditioner according to an embodiment of the present invention is a control method of an air conditioner in which a plurality of outdoor units and a plurality of indoor units are connected to each other by a refrigerant pipe to form a refrigeration cycle capable of cooling and heating operation, Starting a plurality of indoor units in a cooling operation state; Confirming that a set time has elapsed since the start of operation of the indoor unit at all times and that there is an outdoor unit in an unoperated state among the plurality of outdoor units; Determining that the opening degree of the indoor expansion valve of the indoor unit in operation is more open than the predetermined opening degree and the amount of refrigerant on the refrigerating cycle being operated is insufficient; And the outdoor unit in the non-operating state is driven.

And the indoor expansion valve is an electronic expansion valve.

And the set time is a time period during which the operation of the refrigeration cycle becomes a stabilized state in the starting state.

The controller determines that the amount of refrigerant is insufficient when the indoor expansion valve of all the indoor units in operation exceeds the set opening degree in the step of determining that the refrigerant amount is insufficient.

The controller determines that the amount of refrigerant is insufficient when the indoor expansion valve of any of the indoor units in operation exceeds the set opening degree in the step of determining that the amount of the refrigerant is insufficient.

According to the control method of the air conditioner according to the embodiment of the present invention, when a multi-type air conditioner in which a plurality of outdoor units and a plurality of indoor units are combined is used, The outdoor expansion valve is judged through the opening of the indoor expansion valve, and it is possible to solve the shortage of the refrigerant by controlling the outdoor unit in the non-operating state.

Accordingly, it is possible to prevent the refrigerant from being trapped in the outdoor unit that is not operated, thereby preventing a decrease in the cooling capacity due to the variation of the load during the cooling operation and providing a constant cooling capacity.

1 is a perspective view showing a configuration of an air conditioner according to an embodiment of the present invention.
2 is a schematic view showing a refrigerant circuit configuration of the air conditioner.
3 is a block diagram showing a signal flow for controlling the operation of the air conditioner.
4 is a flowchart sequentially showing the control method of the air conditioner.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. It is to be understood, however, that the spirit of the invention is not limited to the embodiments shown and that those skilled in the art, upon reading and understanding the spirit of the invention, may easily suggest other embodiments within the scope of the same concept.

1 is a perspective view showing a configuration of an air conditioner according to an embodiment of the present invention. 2 is a schematic view showing a refrigerant circuit configuration of the air conditioner. 3 is a block diagram showing a signal flow for controlling the operation of the air conditioner.

As shown in the drawing, an air conditioner 1 according to an embodiment of the present invention includes an indoor unit 10 installed in an indoor space for air conditioning as a whole, and an outdoor unit 20 installed in an outdoor space, The refrigerant can flow between the indoor unit 10 and the outdoor unit 20 according to the operation mode by the pair of refrigerant pipes 30 connecting the indoor unit 10 and the outdoor unit 20. [

The indoor unit 10 is connected to a plurality of outdoor units 20 connected in parallel, and a plurality of indoor units 10 are connected in parallel. A plurality of the indoor units 10 can be independently arranged in each space, and the space provided with the indoor unit 10 can be independently cooled and heated.

The outdoor unit 20 can be controlled by the load. That is, according to the operation load of the indoor units 10, the control unit 40 can designate the outdoor unit 20 to operate among the plurality of the outdoor units 20 and control the operation to be performed with optimum efficiency.

Although two outdoor units 20 and six indoor units 10 are provided for the sake of explanation and understanding, the outdoor units 20 and the indoor units 10 are composed of a plurality of units, Are not limited.

The indoor unit 10 is provided with an indoor heat exchanger 10 for exchanging heat between the refrigerant and the indoor air and an indoor fan 12 for accelerating heat exchange by forcing indoor air to pass through the indoor heat exchanger 10 .

A temperature sensor 44 may be provided at the inlet and the outlet of the indoor heat exchanger 10 among the refrigerant pipe 30 connected to the indoor heat exchanger 10. The refrigerant pipe (30) for supplying the refrigerant to the indoor heat exchanger (10) is provided with an indoor expansion valve (13) for controlling the flow rate of the refrigerant to be supplied. At this time, an electronic expansion valve (EEV) is used as the indoor expansion valve (13), which can adjust the amount of refrigerant to be supplied to the indoor expansion valve (13) according to the operating state of the refrigeration cycle.

The plurality of indoor units 10 may be connected to the refrigerant pipe 30 in parallel so as to independently constitute a refrigerant circuit with the outdoor unit 20 through a refrigerant pipe 30, Operation becomes possible.

The outdoor unit 20 may include at least one compressor 21 for compressing gaseous refrigerant at high temperature and high pressure. At least one of the plurality of compressors (21) may include an inverter compressor capable of varying the capacity depending on a load.

The refrigerant pipe connected to the outlet of the compressor (21) is provided with an oil separator (22) for separating the oil contained in the refrigerant discharged from the compressor (21). A four-way valve 23 is provided to selectively supply the refrigerant passing through the oil separator 22 to the indoor heat exchanger 10 or the outdoor heat exchanger 24.

The four-way valve 23 is respectively connected to the indoor heat exchanger 10, the outdoor heat exchanger 24, the compressor 21 and the accumulator 27. The refrigerant discharged from the compressor 21 is cooled And can be selectively supplied to the indoor heat exchanger (10) and the outdoor heat exchanger (24) according to the heating operation.

The outdoor heat exchanger 24 exchanges heat between the outdoor air and the refrigerant so that outdoor air is forcedly passed through the outdoor heat exchanger 24 by the outdoor fan 25 to one side of the outdoor heat exchanger 24, So that heat exchange can be performed. The temperature sensors 44 may be provided at the inlet and the outlet of the outdoor heat exchanger, respectively.

A high pressure sensor for measuring the pressure of the refrigerant discharged from the compressor 21 is provided on the refrigerant pipe 30 to which the outlet of the compressor 21 and the outdoor heat exchanger 24 are connected. A low pressure sensor for measuring the pressure of the refrigerant sucked into the compressor (21) is provided on the refrigerant pipe (30) to which the outlet of the accumulator (27) and the inlet of the compressor are connected.

The operation of the compressor 21 is controlled by comparing the pressure value measured by the pressure sensor 44 including the low pressure sensor and the high pressure sensor with the temperature value sensed by the temperature sensors 44, .

In the case where a plurality of the outdoor units 20 are connected to each other, a plurality of the outdoor heat exchangers 24 and the outdoor fans 25 may be provided, and the refrigerant pipes 30 of the outdoor units may be connected in parallel The refrigerant circuit independent of the indoor unit 10 can be configured.

The refrigerant pipe 30 connected to the outdoor heat exchanger 24 may be provided with an outdoor expansion valve 26 for controlling the flow rate of the refrigerant supplied during the heating operation. As in the case of the indoor expansion valve 13, an electronic expansion valve capable of adjusting the amount of refrigerant is used according to the operating state of the refrigeration cycle.

Although not shown in the drawings, a refrigerant pipe 30 for connecting the outlet side of the outdoor heat exchanger 24 and the inlet of the indoor heat exchanger 10 is provided with a supercooling device 30 for supercooling refrigerant directed to the indoor heat exchanger 10, May be provided.

The refrigerant pipe 30 passing through the outdoor heat exchanger 24 in sequence with the outdoor expansion valve 26 and the supercooler can be extended to the outside of the outdoor unit 20 and connected to the indoor heat exchanger 10.

In addition, the outdoor unit 20 is connected to the indoor heat exchanger 10 to separate the refrigerant in the liquid state from the refrigerant in the gaseous state. The refrigerant in the liquid state is stored, 21 to be supplied to the accumulator 27.

All of these configurations can be connected by the refrigerant pipe 30, so that the high-temperature, high-pressure refrigerant discharged from the compressor 21 circulates through the refrigerant circuit along the refrigerant pipe 30. The air conditioner 1 can be operated in the cooling or heating mode according to the user's operation, and the flow direction of the refrigerant can be switched by the four-way valve 23 at this time.

The high-temperature, high-pressure liquid refrigerant compressed by the compressor 21 flows through the oil separator 22 and the four-way valve 23 to the outdoor unit 20 when the air conditioner 1 is in the heating operation. To the indoor unit (10) side. The refrigerant flowing into the indoor heat exchanger 10 of the indoor unit 10 is heat-exchanged with the room air by the operation of the indoor fan 12, and becomes refrigerant in a liquid state of low temperature and high pressure, .

The refrigerant having passed through the outdoor heat exchanger (24) flows into the outdoor unit (20) again. The refrigerant flowing into the outdoor unit 20 side is decompressed through the outdoor expansion valve 26 to become a low-temperature and low-pressure liquid refrigerant and flows into the outdoor heat exchanger 24.

The low-temperature, low-pressure liquid-state refrigerant introduced into the outdoor heat exchanger 24 is heat-exchanged with the outdoor air by driving the outdoor fan 25, and the refrigerant in the liquid state is phase-changed.

The refrigerant having passed through the outdoor heat exchanger (24) flows into the accumulator (27) through the four-way valve (23). The accumulator 27 separates the refrigerant introduced into the liquid and the gas, and allows the refrigerant in the gaseous state to be supplied to the compressor 21, and repeats the cycle.

When the air conditioner 1 is in the cooling mode, the high-temperature, high-pressure liquid refrigerant compressed by the compressor 21 flows through the oil separator 22 and the four-way valve 23 to the outdoor heat exchanger 24, where the outdoor fan 25 exchanges heat with the outdoor air to cool the indoor space, and the refrigerant in the outdoor heat exchanger 24 is in a low-temperature, high-pressure liquid state.

The refrigerant that has passed through the outdoor heat exchanger (24) flows into the indoor unit (10) side from the outdoor unit (20) side. The low-temperature, high-pressure liquid-state refrigerant introduced into the indoor unit 10 is reduced in pressure through the indoor expansion valve 13 and flows into the indoor heat exchanger 10.

The refrigerant passing through the indoor heat exchanger 10 is heat-exchanged with the room air by driving the indoor fan 12. The refrigerant in the liquid state in the indoor heat exchanger 10 is phase-changed by heat exchange, Of the gaseous refrigerant.

The refrigerant having passed through the indoor heat exchanger 10 flows into the outdoor unit 20 from the indoor unit 10 side and flows into the accumulator 27 through the four- The gaseous refrigerant separated from the accumulator 27 is supplied again to the compressor 21, and the cycle is repeatedly performed.

Meanwhile, a control unit (40) for controlling the operation of the air conditioner (1) is further provided at one side of the outdoor unit (20). The control unit 40 is configured to be able to control the operation of each of the components constituting the refrigeration cycle of the air conditioner 1, and is configured to receive the operation information of the components. In addition, the controller 40 may be configured to receive operation signals from a controller and a remote controller provided in an indoor space away from the outdoor unit.

The control unit 40 may be connected to the timer 41 to receive time information generated during the operation of the outdoor unit 20 and the indoor unit 10 and may be connected to the storage unit 42, And may store information on operation states of the respective components constituting the system.

In particular, the configuration data for each configuration of the refrigeration cycle may be stored in a database in the storage unit 42. The controller 40 compares the input operation information with the stored data, The operating state can be grasped.

The control unit 40 can control the opening degree of the indoor expansion valve 13 so that the refrigeration cycle can be operated in a stable state by grasping the operation state of the refrigeration cycle.

Hereinafter, the operation of the air conditioner will be described.

The air conditioner according to the embodiment of the present invention can control the temperature of the indoor space to a desired temperature through the air discharged from the indoor unit 10 according to the user's operation. In the air conditioner 1, a load can be determined according to the number of the indoor units 10 to be operated, and the outdoor unit 20 can be operated according to a required capacity.

When the air conditioner 1 is operated in the heating mode, the refrigerant discharged from the compressor 21 is supplied to the indoor heat exchanger 10 through the four-way valve 23 and exchanges heat with the indoor air. At this time, the indoor heat exchanger 10 serves as a condenser, and the indoor space is heated by heat exchange with indoor air. The refrigerant heat-exchanged with the indoor air in the indoor heat exchanger 10 passes through the outdoor expansion valve 26 and the outdoor heat exchanger 24 in order and flows through the four-way valve 23 to the accumulator 27 And returns to the compressor (21).

When the air conditioner 1 is operated in the cooling mode, the refrigerant discharged from the compressor 21 is guided to the outdoor heat exchanger through the four-way valve 23, and the refrigerant discharged from the outdoor heat exchanger 24, Valve 13 in this order, and is supplied to the indoor heat exchanger 10. At this time, the indoor heat exchanger 10 serves as an evaporator and exchanges heat with indoor air to cool the indoor space. The refrigerant heat-exchanged with the room air in the indoor heat exchanger 10 is returned to the compressor 21 through the accumulator 27 through the four-way valve 23.

When some of the indoor units 10 of the indoor units 10 are operating while the air conditioner 1 is operating in the cooling mode, a part of the outdoor units 20 corresponding to the cooling load Only the outdoor unit 20 can be operated.

The outdoor heat exchanger 20 is operated as a condenser of the non-operating outdoor unit 20, which is not operated among the plurality of outdoor units 20, when the cooling load is increased by a certain level or more in a state where only some of the outdoor units 20 are operating. The refrigerant is trapped in the refrigerant circuit 24 and the amount of the refrigerant is insufficient.

In this state, the controller 40 determines that the refrigerant is trapped in the outdoor unit 20 in the non-operating state, that is, in the non-operating state, and operates the outdoor unit 20 in the non- .

Hereinafter, this control method will be described in more detail with reference to the drawings.

4 is a flowchart sequentially showing the control method of the air conditioner.

As shown in the figure, when the cooling operation is started, the timer 41 accumulates the cooling operation elapsed time. Then, it is confirmed whether or not the set time after the cooling operation of the refrigeration cycle has elapsed. At this time, the set time may be set to a time that the refrigeration cycle can be stabilized after the initial operation, and may be set to, for example, 10 minutes. [S101]

On the other hand, when the set time has elapsed after the start of the cooling operation, the controller 40 determines whether there is an outdoor unit 20 that is not operated among a plurality of the outdoor units 20.

That is, when the cooling operation is performed by only a part of the indoor units 10 of the plurality of indoor units 10, the entire outdoor unit 20 will not need to be operated according to the required cooling load, The outdoor unit 20 of the outdoor unit 20 of the outdoor unit 20 performs the cooling operation only.

At this time, the controller 40 monitors the driving state of the compressor 21 provided in each of the outdoor units 20, and selects one of the plurality of outdoor units 20, 20) in the non-operating state. [S102]

If it is determined that the outdoor unit 20 in the non-operating state exists in the control unit 40, the controller 40 determines whether the refrigerant in the refrigerating cycle currently in operation is insufficient.

In detail, in a state where a plurality of indoor units are operated and the outdoor unit 20 in a non-operating state exists corresponding thereto, the number of indoor units 10 is increased or a required cooling load is increased by a certain level or more .

In this state, the amount of the refrigerant required in the refrigeration cycle increases. However, the amount of the refrigerant in the refrigeration cycle constituted by the outdoor unit 20 and the indoor unit 10 in operation is limited, and the amount of refrigerant in the non- The refrigerant is kept trapped in the outdoor unit 20 in the non-operating state, so that the refrigerant amount for operating the refrigeration cycle that can satisfy the required cooling load is insufficient.

Accordingly, when the refrigerant in the refrigeration cycle becomes insufficient, the temperature and pressure sensed by the temperature sensor 44, the pressure sensor 43 such as the low-pressure sensor and the high-pressure sensor are out of the normal state, The expansion valve 13 must be opened further.

The controller 40 can compare the opening of the indoor expansion valve 13 with the opening of the predetermined indoor expansion valve 13 and determine whether the indoor expansion valve 13 is out of the set opening degree .

At this time, the controller 40 compares the opening degrees of the indoor expansion valves 13 provided in the entire indoor unit 10, which are currently in operation, If it is ascertained that the opening degree of the indoor expansion valve 13 is larger than the set opening degree, the amount of refrigerant in the refrigeration cycle is insufficient and it is judged that the refrigerant is trapped in the outdoor unit 20 in the non-operating state.

Of course, if necessary, the control unit 40 may be configured such that the amount of refrigerant in the refrigeration cycle is insufficient due to the opening of the indoor expansion valves 13 provided in any of the indoor units 10 in operation, not the opening of the entire indoor expansion valve 13 [S103]

If it is determined that the refrigerant in the refrigeration cycle is insufficient, the control unit 40 drives the outdoor unit 20 in an unoperated state in order to supply the refrigerant trapped in the outdoor unit 20 in an unoperated state to an operating refrigeration cycle do.

The refrigerant trapped in the outdoor unit in the non-operating state is supplied to the refrigerating cycle under operation by the driving of the outdoor unit 20 in the non-operating state, and natural refrigerant shortage in the refrigerating cycle can be solved.

Accordingly, the opening degree of the indoor expansion valve (13) can be regulated below the preset opening degree. Therefore, the refrigerating cycle in operation can be operated in a steady state and can fully provide the required cooling capacity. [S104]

When the outdoor unit 20 in the unoperated state starts to supply the refrigerant trapped in the unoccupied outdoor unit 20 and the refrigeration cycle operates in the normal state, So that the stabilized refrigeration cycle operation can be maintained.

Thereafter, the controller 40 continuously monitors changes in the opening degree of the indoor expansion valve 13 according to the cooling load. When the outdoor unit 20 in the non-operating state is further present, The refrigerant trapped in the outdoor unit 20 in the non-operating state is supplied to the refrigerating cycle in operation so that the stable cooling performance can be continuously exhibited.

Claims (5)

A control method for an air conditioner in which a plurality of outdoor units and a plurality of indoor units are connected to each other by a refrigerant pipe to form a refrigeration cycle capable of cooling and heating operation,
Starting a plurality of indoor units in a cooling operation state;
Confirming that a set time has elapsed since the start of operation of the indoor unit at all times and that there is an outdoor unit in an unoperated state among the plurality of outdoor units;
Determining that the opening degree of the indoor expansion valve of the indoor unit in operation is more open than the predetermined opening degree and the amount of refrigerant on the refrigerating cycle being operated is insufficient;
And the outdoor unit in the non-operating state is driven.
The method according to claim 1,
Wherein the indoor expansion valve is an electronic expansion valve.
The method according to claim 1,
Wherein the set time is a period of time during which the operation of the refrigeration cycle becomes the stabilized state from the starting state.
The method according to claim 1,
In the step of determining that the amount of the refrigerant is insufficient,
And determines that the amount of refrigerant is insufficient when the indoor expansion valves of all the indoor units in operation exceed the set opening degree.
The method according to claim 1,
In the step of determining that the amount of the refrigerant is insufficient,
And determines that the amount of refrigerant is insufficient when the indoor expansion valve of any indoor unit in operation exceeds the set opening degree.

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