JP2020094739A - Air conditioner and control method therefor - Google Patents

Abstract

An object of the present invention is to provide an air conditioner and a method of controlling the same, in which a current limit value can be easily set and confirmed. An air conditioner (1) includes an outdoor unit (3) and a plurality of indoor units (11A, 11B) connected to the outdoor unit (3). a limit value processing unit that transmits the changed current limit value to the outdoor unit 3 and a notification unit 4 that notifies the current limit value when the outdoor unit 3 changes from the indoor units 11A and 11B. a limit value processing unit that, when receiving a later current limit value, transmits the changed current limit value to the indoor units 11A and 11B other than the indoor units 11A and 11B to which the change instruction is input; and a current limit after change. and a current limiter that limits the applied current based on the value. [Selection drawing] Fig. 1

Description

The present disclosure relates to an air conditioner and a control method thereof.

In a multi-type air conditioner, a plurality of indoor units are connected to one outdoor unit. When the air conditioner is installed in a home, a facility, or the like, a breaker may be set in common with other devices (such as home appliances). For this reason, the current is limited in the air conditioner so that the breaker does not fall.

For example, in an air conditioner, a plurality of current limit values can be set, and they have been set by changing the connection state of jumper wires on the board in the outdoor unit. However, the outdoor unit may be installed on the outdoor balcony or wall, and the workability of changing the current limit value is poor.

Patent Document 1 discloses that a remote controller sends a current limit command to an indoor unit, and the current limit command is sent to an outdoor unit.

JP, 2007-46870, A

When changing the connection status of the jumper wire and setting the current limit value, open the outdoor unit housing and directly check the connection status of the jumper wire to check the current limit value that is set. There is not. Therefore, the current limit value could not be easily confirmed.

Further, in the multi-type air conditioner, a plurality of indoor units are provided, but even if a current limit command is transmitted to one indoor unit as in Patent Document 1, the current limit value is confirmed in other indoor units. I couldn't.

The present disclosure has been made in view of such circumstances, and an object of the present disclosure is to provide an air conditioner and a control method therefor capable of easily setting and confirming a current limit value.

A first aspect of the present disclosure includes an outdoor unit and a plurality of indoor units connected to the outdoor unit, and the indoor unit, after the change, when the instruction to change the current limit value is input. A limit value processing unit that transmits a current limit value to the outdoor unit, and a notification unit that notifies the current limit value, and the outdoor unit has received the changed current limit value from the indoor unit. In this case, based on the changed current limit value, the limit current processing unit that transmits the changed current limit value to the indoor unit other than the indoor unit to which the change instruction is input, and limits the energizing current. An air conditioner having a current limiting unit that operates.

According to the above configuration, when the instruction to change the current limit value is input to the indoor unit, the changed current limit value is transmitted to the outdoor unit, so that the current limit value is changed on the indoor unit side. It becomes possible. That is, it becomes possible to easily change the current limit value. In the outdoor unit, the energizing current is limited based on the current limit value received from the indoor unit.

Further, when the change instruction is input, the changed current limit value is notified by the notification unit, so that the indoor unit side can easily confirm the current limit value. When the outdoor unit receives the current limit value from the indoor unit, the current limit value is sent to the indoor units other than the indoor unit in which the change instruction is input. Will be notified. Therefore, it becomes possible to easily confirm the current limit value even in other outdoor units.

In the air conditioner, the current limiting unit may control the rotation speed of the compressor so that the energized current does not exceed the current limiting value.

According to the above configuration, since the operating power of the compressor occupies most of the power consumption in the air conditioner, by controlling the rotational speed of the compressor to limit the current, the energizing current can be effectively reduced. It becomes possible to control.

In the air conditioner, the indoor unit may include a storage unit that stores the current limit value input by the change instruction or the current limit value received from the outdoor unit.

According to the above configuration, the change instruction is input by providing the storage unit in each indoor unit and storing the current limit value input by the change instruction or the current limit value received from the outdoor unit. Information related to the same current limit value can be held in both the indoor unit and other indoor units. That is, the current limit value held in each indoor unit can be unified.

In the air conditioner, the outdoor unit has a storage unit that stores the current limit value transmitted from the indoor unit, the limit value processing unit in the indoor unit, the confirmation of the current limit value When an instruction is input, the request signal of the current limit value is transmitted to the outdoor unit, the limit value processing unit in the outdoor unit, when receiving the request signal, the request signal is transmitted. The current limit value may be transmitted to the indoor unit.

According to the above configuration, when the instruction to confirm the current limit value is input to the indoor unit, the current limit value can be acquired from the outdoor unit in the indoor unit. For example, the user of the indoor unit or the like can always confirm the current limit value by inputting a confirmation instruction to the indoor unit.

In the air conditioner, the limit value processing unit in the indoor unit may accept the change instruction when the current limit value setting mode is selected.

According to the above configuration, since the change instruction is accepted when the current limit value setting mode is selected, it is possible to prevent the current limit value from being changed due to an erroneous input.

A second aspect of the present disclosure is a method for controlling an air conditioner including an outdoor unit and a plurality of indoor units connected to the outdoor unit, wherein the indoor unit side has a current limit value change instruction. When the changed current limit value is transmitted from the indoor unit on the first limit value processing step of transmitting the changed current limit value to the outdoor unit, when the changed current limit value is received from the indoor unit. A second limit value processing step of transmitting the changed current limit value to the indoor unit other than the indoor unit to which the change instruction is input; and a notification for notifying the current limit value on the indoor unit side. A method for controlling an air conditioner, comprising: a step; and a current limiting step of limiting an energizing current based on the changed current limiting value on the outdoor unit side.

According to the present disclosure, it is possible to easily set and confirm the current limit value.

It is a figure showing the schematic structure of the air harmony machine concerning one embodiment of this indication. It is a figure showing a refrigerant circuit of an air harmony machine concerning one embodiment of this indication. It is a functional block diagram showing a function with which an outdoor unit control part and an indoor unit control part in an air harmony machine concerning one embodiment of this indication. It is the figure which showed the flowchart of the current limit value setting process by the air conditioner which concerns on one Embodiment of this indication.

Hereinafter, an embodiment of an air conditioner and a control method thereof according to the present disclosure will be described with reference to the drawings.
FIG. 1 is a diagram showing a schematic configuration of an air conditioner 1 according to an embodiment of the present disclosure. As shown in FIG. 1, the air conditioner 1 according to the present embodiment includes an outdoor unit 3 and an indoor unit 11 as main components. In the present embodiment, as shown in FIG. 1, a case where two indoor units 11 are connected to one outdoor unit 3 will be described, but the number of indoor units 11 is not limited to the above configuration. In addition, in the following description, when distinguishing each indoor unit 11, it will be described as the indoor unit 11A and the indoor unit 11B, and when not distinguishing, will be simply described as the indoor unit 11.

The outdoor unit 3 is arranged, for example, outdoors such as a facility, and performs heat exchange between the refrigerant flowing through a refrigerant circuit described later and the outside air. The refrigerant having undergone heat exchange in the outdoor unit 3 is supplied to each indoor unit 11 through the refrigerant circuit.

The indoor unit 11 is arranged, for example, in a room such as a facility, and performs heat exchange between a refrigerant flowing through a refrigerant circuit described later and indoor air. The refrigerant having undergone heat exchange in the indoor unit 11 is supplied to the outdoor unit 3 through the refrigerant circuit. In this embodiment, a case where two indoor units 11 are provided will be described. And each indoor unit 11 shall be arrange|positioned at each different room.

The number of indoor units 11 connected to one outdoor unit 3 can be appropriately changed as long as it is two or more. Further, in the present embodiment, each indoor unit 11 is arranged in a different room, but a plurality of indoor units 11 may be arranged in the same room.

As shown in FIG. 1, a user of the indoor unit 11 (a person in a corresponding room) can send a driving command to the indoor unit 11 by using the remote controller 2. The remote controller 2 is arranged corresponding to each indoor unit 11. That is, the user can control the air conditioner 1 by transmitting a command to the indoor unit 11 using the remote controller 2.

In the present embodiment, it is possible to switch between the normal mode and the current limit value setting mode and set the current limit value (change instruction) using the remote controller 2. The normal mode is a mode for causing the air conditioner 1 to perform various air conditioning operations such as cooling and heating (a mode for performing normal air conditioning operation without setting a current limit value). The current limit value setting mode is a mode for setting the current limit value in the air conditioner 1. In the air conditioner 1, electric power is supplied from a power supply system common to other devices, and a breaker (wiring circuit breaker) is installed in such a power supply system. As for the breaker, various breakers such as a safety breaker and an ampere breaker can be used. That is, if too much power is used in the air conditioner 1, the current flowing through the power supply system becomes excessive and the breaker drops (the circuit breaker for wiring opens and the current flow is interrupted). Therefore, the air conditioner is set with a current limit value that limits the energizing current. For example, in the case of an ampere breaker, the current limit value of the air conditioner 1 is changed along with the change of the contract current. In the air conditioner 1 according to this embodiment, the current limit value can be changed from the indoor unit 11 by the remote controller 2, which is convenient.

In this embodiment, the remote controller 2 is used to send the command to the indoor unit 11, but the operation button or the like provided in the indoor unit 11 switches between the normal mode and the current limit value setting mode. The current limit value may be set. Further, when there is a command to switch to the current limit value setting mode in one indoor unit 11, the other indoor units 11 may also switch to the current limit value setting mode.

Further, the indoor unit 11 is provided with a notification unit 4 that notifies the current limit value. The notification unit 4 is a lamp (for example, an LED) provided at a position visible to the user in the indoor unit 11. When the current limit value setting mode is selected, the notification unit 4 blinks the number of times corresponding to the current limit value currently set. For example, when the current limit value is A ampere, the notification unit 4 blinks only a times set in advance corresponding to A ampere. In this way, the current limit value can be confirmed on the indoor unit 11 side.

The lamp can be used together with a lamp such as a power lamp of the indoor unit 11 (a lamp that does not blink in the normal mode and is on or off). The notification unit 4 is not limited to a lamp as long as the user can recognize the current limit value, such as a display and a speaker.

Next, the refrigerant circuit in the air conditioner 1 will be described with reference to the drawings.
FIG. 2 shows a refrigerant circuit diagram of the air conditioner (multi-type air conditioner) 1 according to the present embodiment. The air conditioner 1 includes one outdoor unit 3 and a plurality of indoor units 11A and 11B that are connected in parallel between the gas side pipe 5 and the liquid side pipe 7 via a branching device 9. ing. The refrigerant circuit shown in FIG. 2 is an example, and the refrigerant circuit that constitutes the multi-type air conditioner 1 is not limited to the structure shown in FIG.

The outdoor unit 3 includes an inverter-driven compressor 13 that compresses a refrigerant, a muffler (silencer) 15 that suppresses vibration noise generated in the compressor 13, a four-way switching valve 17 that switches the circulation direction of the refrigerant, and a refrigerant. The outdoor heat exchanger 19 for exchanging heat with the outside air, the receiver 25 for storing the liquid refrigerant, the expansion valve (EEV) 49, the strainer 21 for removing dust (solid matter) contained in the liquid refrigerant, and the compressor 13 An accumulator 31 that separates a liquid component from the sucked refrigerant gas and causes only the gas component to be sucked into the compressor 13, a gas side operation valve 33, and a liquid side operation valve 35 are provided.

The above-mentioned respective devices on the outdoor unit 3 side are connected in a known manner via refrigerant pipes such as a discharge pipe 37A, a gas pipe 37B, a liquid pipe 37C, and a suction pipe 37E to form an outdoor refrigerant circuit 39.
Further, the outdoor unit 3 is provided with an outdoor fan 41 that blows outside air to the outdoor heat exchanger 19.

The gas side pipe 5 and the liquid side pipe 7 are refrigerant pipes connected to the gas side operation valve 33 and the liquid side operation valve 35 of the outdoor unit 3 via the branching device 9. An appropriate number of branch units 9 are provided in the middle of the gas side pipe 5 and the liquid side pipe 7, and an appropriate number of indoor units 11A and 11B are connected via the branch units 9. As a result, a closed refrigeration cycle 45 of one system is configured.

The indoor units 11A and 11B each include an indoor heat exchanger 47 that heats a refrigerant and indoor air to provide air conditioning in the room, and an indoor fan 51 that circulates the indoor air through the indoor heat exchanger 47. It is connected to the branching device 9 via the branch gas side pipes 5A and 5B and the branch liquid side pipes 7A and 7B on the indoor side. A gas side operation valve 33 is connected to the branch gas side pipes 5A and 5B on the outdoor unit 3 side. A liquid side operation valve 35 is connected to the branch liquid side pipes 7A and 7B on the outdoor unit 3 side.

In the air conditioner 1, the cooling operation is performed as follows.
The high-temperature high-pressure refrigerant gas compressed by the compressor 13 is discharged to the discharge pipe 37A and supplied to the four-way switching valve 17 via the muffler 15.
After that, the refrigerant gas is circulated to the gas pipe 37B side by the four-way switching valve 17, and is heat-exchanged with the outside air blown by the outdoor fan 41 by the outdoor heat exchanger 19 to be condensed and liquefied.
This liquid refrigerant is temporarily stored in the receiver 25 via the liquid pipe 37C.

The liquid refrigerant whose circulation amount is adjusted by the receiver 25 is branched by the branching device 9 via the liquid side pipe 7 and adiabatically expanded by the expansion valve 49.
This liquid refrigerant is led out from the outdoor unit 3 via the strainer 21 and the liquid side operation valve 35, and is supplied to the indoor units 11A and 11B.

The liquid refrigerant divided into the branch liquid side pipes 7A and 7B flows into the indoor units 11A and 11B, and becomes a gas-liquid two-phase flow and flows into the indoor heat exchanger 47.
In the indoor heat exchanger 47, the indoor air circulated by the indoor fan 51 and the refrigerant are heat-exchanged, and the indoor air is cooled and provided for indoor cooling. On the other hand, the refrigerant is gasified, reaches the branching device 9 through the branch gas side pipes 5A, 5B and the gas side operating valve 33, and joins with the refrigerant gas from the other indoor unit 11.

The refrigerant gas merged in the gas side pipe 5 reaches the suction pipe 37E via the four-way switching valve 17, and is introduced into the accumulator 31.
In the accumulator 31, the liquid component contained in the refrigerant gas is separated, and only the gas component is sucked into the compressor 13.
This refrigerant is compressed again in the compressor 13, and the cooling operation is performed by repeating the above cycle.

On the other hand, the heating operation is performed as follows.
The high-temperature and high-pressure refrigerant gas compressed by the compressor 13 is discharged to the discharge pipe 37A, supplied to the four-way switching valve 17 via the muffler 15, and then circulated to the gas side pipe 5 side by the four-way switching valve 17. ..
This refrigerant is led out of the outdoor unit 3 via the branch unit 9 and the gas side operation valve 33, and introduced into the indoor units 11A and 11B via the branch gas side pipes 5A and 5B on the indoor side.

The high-temperature and high-pressure refrigerant gas introduced into the indoor units 11A and 11B is heat-exchanged with the indoor air circulated through the indoor fan 51 in the indoor heat exchanger 47, and the indoor air is heated to be used for heating the room. It
The liquid refrigerant condensed in the indoor heat exchanger 47 is returned to the outdoor unit 3 via the branch liquid side pipes 7A and 7B.

The refrigerant returned to the outdoor unit 3 flows into the receiver 25 via the liquid-side operation valve 35, the strainer 21, and the expansion valve 49, and once stored, the circulation amount is adjusted.
This liquid refrigerant flows into the outdoor heat exchanger 19 via the liquid pipe 37C.

In the outdoor heat exchanger 19, the outside air blown from the outdoor fan 41 and the refrigerant exchange heat with each other, and the refrigerant absorbs heat from the outside air to be evaporated and gasified.
This refrigerant is introduced from the outdoor heat exchanger 19 into the accumulator 31 via the gas pipe 37B, the four-way switching valve 17, and the suction pipe 37E. In the accumulator 31, the liquid component contained in the refrigerant gas is separated, and only the gas component is sucked into the compressor 13 and compressed again in the compressor 13. Heating operation is performed by repeating the above cycle.

Next, the control of the air conditioner 1 will be described with reference to the drawings.
FIG. 3 is a functional block diagram showing the functions of the indoor unit controller 54 and the outdoor unit controller 53 in the air conditioner 1. As shown in FIG. 3, in the air conditioner 1, the outdoor unit 3 is provided with the outdoor unit controller 53, and the indoor units 11A and 11B are each provided with the indoor unit controller 54.

The outdoor unit controller 53 and the indoor unit controller 54 are composed of, for example, a CPU (central processing unit), a memory such as a RAM (Random Access Memory), and a computer-readable recording medium, which are not shown. A series of processes for realizing various functions described below are recorded in a recording medium or the like in the form of a program, and the CPU reads the program into a RAM or the like to execute information processing/arithmetic processing. Thus, various functions described below are realized. The program is installed in a ROM or other storage medium in advance, provided in a state of being stored in a computer-readable storage medium, or delivered via wired or wireless communication means. Etc. may be applied. The computer-readable storage medium is a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like.

The indoor unit control unit 54 receives an instruction to change the current limit value and transmits the current limit value to the outdoor unit 3. Further, the indoor unit control unit 54 notifies the current limit value. Therefore, the indoor control unit includes a limit value processing unit (indoor unit limit value processing unit) 63 and a storage unit (indoor unit storage unit) 64.

When the instruction to change the current limit value is input, limit value processing unit 63 transmits the changed current limit value to outdoor unit 3. The limit value processing unit 63 receives the change instruction when the current limit value setting mode is selected.

When the user selects the current limit value setting mode with the remote controller 2, the limit value processing unit 63 receives an instruction to change the current limit value. The instruction to change the current limit value means that a new current limit value (changed current limit value) is input via the remote controller 2 or the like while the current limit value setting mode is selected. When a new current limit value is input, limit value processing unit 63 transmits the new current limit value to outdoor unit 3. As will be described later, the current limit value is used in the outdoor unit 3 for current limit control. When the limit value processing unit 63 receives an instruction to change the current limit value, the limit value processing unit 63 may notify the notification unit 4 of the changed current limit value.

The storage unit 64 stores the current limit value input by the change instruction or the current limit value received from the outdoor unit 3. A new current limit value is input to the indoor unit 11 according to a current limit value change instruction. Further, as will be described later, when there is an instruction to change the current limit value in another indoor unit 11, the changed current limit value is input via the outdoor unit 3. Therefore, in the storage unit 64, when a new current limit value is input by a current limit value change instruction, and when there is a current limit value change instruction in another indoor unit 11, the change after the change is made via the outdoor unit 3. In any case where the current limit value is input, the changed current limit value is stored in the storage unit 64. That is, no matter which indoor unit 11 out of the plurality of indoor units 11 receives the instruction to change the current limit value, the indoor unit 11 for which the change instruction has not been input may retain the changed current limit value. it can. In this way, the current limit value is shared (unified) in each indoor unit 11.

The current limit value stored in the storage unit 64 is read when the current limit value setting mode is selected and is notified by the notification unit 4.

Although the indoor unit 11 has the storage unit 64 in the present embodiment, it may have a configuration without the storage unit 64. In this case, it is preferable that the current limit value can be read from the outdoor unit 3 so that the current limit value set on the indoor unit 11 side can be confirmed. That is, the limit value processing unit 63 in the indoor unit 11 transmits a current limit value request signal to the outdoor unit 3 when the confirmation instruction of the current limit value is input, and the limit value processing unit 60 in the outdoor unit 3 When the request signal is received, it is preferable to send the current limit value to the indoor unit 11 that sent the request signal. The instruction to confirm the current limit value may be an instruction to select the current limit value setting mode input to the indoor unit 11 by the remote controller 2 or the like, or an input unit for confirming the current limit value may be the remote controller 2. Alternatively, it may be an instruction (confirmation instruction) provided by operating the input means provided in the indoor unit 11.

As described above, the indoor unit 11 side can be configured to be able to acquire the current limit value from the outdoor unit 3 by adding the current limit value acquisition request function to the outdoor unit 3. In this case, the indoor unit 11 may not have the storage unit 64, or may have the storage unit 64 and store the acquired current limit value.

The outdoor unit controller 53 receives the changed current limit value from the indoor unit 11, performs the current limit control, and transmits the changed current limit value to each indoor unit 11. Therefore, the outdoor unit control unit 53 includes a limit value processing unit (outdoor unit limit value processing unit) 60, a current limiting unit 61, and a storage unit (outdoor unit storage unit) 62.

When receiving the changed current limit value from the indoor unit 11, the limit value processing unit 60 transmits the changed current limit value to the indoor units 11 other than the indoor unit 11 to which the change instruction is input. In the outdoor unit 3, the received current limit value is used for the current limit process, but an instruction to change the changed current limit value is input so that each indoor unit 11 can notify the changed current limit value. It transmits to the indoor units 11 other than the indoor unit 11. For example, when an instruction to change the current limit value is input to the indoor unit 11A, the changed current limit value is transmitted from the indoor unit 11A to the outdoor unit 3, and the outdoor unit 3 does not receive the change instruction. The received current limit value is transmitted to the indoor unit 11B.

The changed current limit value may be transmitted to all the indoor units 11 including the indoor unit 11 to which the change instruction is input, or the indoor unit 11 to which the change instruction to the changed current limit value is input. The changed current limit value may be transmitted to a specific indoor unit 11 other than the above.

When the changed current limit value is transmitted by the limit value processing unit 60, the indoor unit 11 stores the received current limit value in the storage unit 62. When the changed current limit value is received, the notification unit 4 may notify the current limit value.

The current limiter 61 limits the energizing current based on the changed current limit value. Therefore, the current limiter 61 controls the rotation speed of the compressor 13 so that the energized current does not exceed the current limit value. Most of the power consumption of the air conditioner 1 is the power consumption of the compressor 13. Therefore, by controlling the power consumption of the compressor 13, the power consumption of the air conditioner 1 can be efficiently adjusted.

Specifically, the current limiter 61 sets the maximum rotation speed of the compressor 13 based on the set current limit value, and controls so that the rotation speed of the compressor 13 does not exceed the maximum rotation speed. The maximum rotation speed of the compressor 13 is the maximum rotation speed of the compressor 13 in which it is estimated that the current flowing through the air conditioner does not exceed the current limit value, and is set in advance for each power limit value by experiments or the like. That is, if the rotation speed of the compressor 13 does not reach the maximum rotation speed, the energizing current of the air conditioner 1 does not reach the current limit value.

The current limiting control in the current limiting unit 61 is applicable without being limited to the above. For example, the current flowing through the air conditioner 1 (which may be the current flowing through the compressor 13) may be detected, and the rotation speed of the compressor 13 may be controlled based on the detected current (feedback control).

The storage unit 62 stores the current limit value transmitted from the indoor unit 11. That is, the storage unit 62 stores the current limit value received from the indoor unit 11 to which the instruction to change the current limit value is input. When the current limiting unit 61 performs the current limiting control, the current limiting value is read from the storage unit 62 and used.

When the outdoor unit 3 receives the changed current limit value from the indoor unit 11, the outdoor unit 3 transmits the changed current limit value to the indoor units 11 other than the indoor unit 11 to which the change instruction is input. The current limiting value can be unified in the machine 3 and each indoor unit 11. Further, the outdoor unit 3 may also be provided with a notification means so that the set current limit value can be notified.

Next, the current limit value setting process by the air conditioner 1 will be described with reference to FIG. The flow shown in FIG. 4 is repeatedly executed in a predetermined control cycle while the indoor unit 11 is powered on.

First, it is determined whether or not the current limit value setting mode is selected (S101). When the current limit value setting mode is not selected (NO determination in S101), S101 is executed again.

When the current limit value setting mode is selected (YES determination in S101), it is determined whether the current limit value is input from the remote controller 2 or the like (S102). When the current limit value is not input from the remote controller 2 or the like (NO determination in S102), S102 is executed again.

When the current limit value is input from the remote controller 2 or the like (YES determination in S102), the input current limit value is transmitted to the outdoor unit 3 (S103).

Next, when the outdoor unit 3 receives the current limit value, the received current limit value is transmitted to the indoor units 11 other than the indoor unit 11 to which the change instruction is input (S104). Each indoor unit 11 that has received the current limit value may notify the current limit value by the notification unit 4.

In the process after the current limit value setting mode is selected (process after YES determination in S101), if the remote control 2 or the like instructs switching from the current limit value setting mode to the normal mode, the process is performed. Stop and end.

As described above, in the outdoor unit 3, since the changed current limit value is transmitted to the indoor units 11 other than the indoor unit 11 to which the change instruction is input, each indoor unit 11 has the same current limit value. can do. Even with the indoor units 11 other than the indoor unit 11 to which the change instruction is input, the current limit value currently set can be easily confirmed.

Although the indoor unit 11 and the outdoor unit 3 are configured to include the storage units 62 and 64 in the present embodiment, the indoor unit 11 and the outdoor unit such as a control device that integrally controls the indoor unit 11 and the outdoor unit 3. The storage units 62 and 64 may be provided in a device independent of the unit 3.

As described above, according to the air conditioner and the control method thereof according to the present embodiment, when the instruction to change the current limit value is input to the indoor unit 11, the changed current limit value is sent to the outdoor unit 3. Since the data is transmitted, the current limit value can be changed on the indoor unit 11 side. That is, it becomes possible to easily change the current limit value.

Further, when the change instruction is input, the changed current limit value is notified by the notification unit 4, so that the current limit value can be easily confirmed on the indoor unit 11 side. In addition, when the outdoor unit 3 receives the current limit value from the indoor unit 11, the outdoor unit 3 transmits the current limit value to the indoor units 11 other than the indoor unit 11 in which the change instruction is input. The unit 4 notifies the current limit value. Therefore, it becomes possible to easily confirm the current limit value even in the other indoor unit 11.

Moreover, since the operating power of the compressor 13 occupies most of the power consumption in the air conditioner, it is possible to effectively control the energizing current by controlling the rotation speed of the compressor 13 to limit the current. Becomes

In addition, the storage unit 64 is provided in each indoor unit 11 to store the current limit value input by the change instruction or the current limit value received from the outdoor unit 3, so that the indoor unit 11 in which the change instruction is input. Whether the indoor unit 11 or the other indoor unit 11 can hold the information on the same current limit value. That is, the current limit value held in each indoor unit 11 can be unified.

Further, when the instruction to confirm the current limit value is input to the indoor unit 11, the current limit value can be acquired from the outdoor unit 3 in the indoor unit 11. For example, the user of the indoor unit 11 or the like can always confirm the current limit value by inputting a confirmation instruction to the indoor unit 11.

The present disclosure is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the invention.

1 :Air conditioner 2 :Remote controller 3 :Outdoor unit 4 :Notification part 5 :Gas side piping 5A, 5B: Branch gas side piping 7 :Liquid side piping 7A, 7B: Branch liquid side piping 9 :Branching device 11, 11A, 11B: Indoor unit 13: Compressor 15: Muffler 17: Four-way switching valve 19: Outdoor heat exchanger 21: Strainer 25: Receiver 31: Accumulator 33: Gas side operation valve 35: Liquid side operation valve 37A: Discharge pipe 37B: Gas Pipe 37C: Liquid pipe 37E: Suction pipe 39: Outdoor refrigerant circuit 41: Outdoor fan 45: Refrigeration cycle 47: Indoor heat exchanger 49: Expansion valve 51: Indoor fan 53: Outdoor unit control unit 54: Indoor unit control unit 60 : Limit value processing unit 61: Current limiting unit 62: Storage unit 63: Limit value processing unit 64: Storage unit

Claims (6)

An outdoor unit,
A plurality of indoor units connected to the outdoor unit,
Equipped with
The indoor unit is
When an instruction to change the current limit value is input, a limit value processing unit that transmits the changed current limit value to the outdoor unit,
A notification unit for notifying the current limit value,
Have
The outdoor unit is
A limit value processing unit that, when receiving the changed current limit value from the indoor unit, transmits the changed current limit value to the indoor unit other than the indoor unit in which the change instruction is input,
Based on the current limit value after the change, a current limiting unit that limits the energizing current,
An air conditioner having. The air conditioner according to claim 1, wherein the current limiter controls the rotation speed of the compressor so that the energized current does not exceed the current limit value. The air conditioner according to claim 1, wherein the indoor unit includes a storage unit that stores the current limit value input by the change instruction or the current limit value received from the outdoor unit. The outdoor unit has a storage unit that stores the current limit value transmitted from the indoor unit,
The limit value processing unit in the indoor unit, when a confirmation instruction of the current limit value is input, transmits a request signal of the current limit value to the outdoor unit,
The limit value processing unit in the outdoor unit, when receiving the request signal, transmits the current limit value to the indoor unit that has transmitted the request signal. Air conditioner. The air conditioner according to claim 1, wherein the limit value processing unit in the indoor unit receives the change instruction when the current limit value setting mode is selected. An outdoor unit, a method of controlling an air conditioner comprising a plurality of indoor units connected to the outdoor unit,
A first limit value processing step of transmitting the changed current limit value to the outdoor unit when an instruction to change the current limit value is input on the indoor unit side;
On the outdoor unit side, when the changed current limit value is received from the indoor unit, the changed current limit value is transmitted to the indoor unit other than the indoor unit in which the change instruction is input. 2 limit value processing step,
On the indoor unit side, a notification step of notifying the current limit value,
On the outdoor unit side, based on the changed current limit value, a current limiting step of limiting the energizing current,
A method for controlling an air conditioner including the.

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