JPH1026429A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To previously prevent a system from being damaged owing to freezing of an evaporator when an electronic expansion valve suffers from refrigerant leakage upon operation interruption of an indoor machine by performing a recovery operation to eliminate the difficulty. SOLUTION: The present air conditioner includes an outdoor machine A including a compressor 1 and a condenser 3, and a plurality of indoor machines B... each including an electronic expansion valve 8 and an evaporator 9. In this case, there are further provided refrigerant leakage detection means 10 for detecting refrigerant leakage from, each electronic expansion valve 8, and recovery control means for outputting an instruction to execute recovery operation to the electronic expansion valve 8 when there is detected refrigerant leakage by the refrigerant leakage detection means 10 in the indoor machine B upon operation interruption of any outdoor machine B.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an indoor multi-type air conditioner, and more particularly to an air conditioner in which measures are taken against refrigerant leakage from an electronic expansion valve.

[0002]

2. Description of the Related Art In general, in an indoor multi-type air conditioner having a plurality of indoor units, the flow rate of refrigerant in each indoor unit is controlled by adjusting the opening degree of an electronic expansion valve provided in each indoor unit. It is to be performed by.

[0003]

By the way, when the operation of the indoor unit is stopped (including the stop by the thermo-OFF), the opening degree of the electronic expansion valve is set to 0 (that is, fully closed). However, the electronic expansion valve may not be completely closed due to the tightness of the valve or the entry of foreign matter, and refrigerant leakage may occur. Then, through the electronic expansion valve, the evaporator (that is, the indoor heat exchanger)
There is a possibility that the refrigerant may flow to the side, and the temperature of the evaporator may be lowered to cause freezing, or the antifreeze control may not be performed to return to the normal state.

[0004] The present invention has been made in view of the above points, and when there is a refrigerant leak at the electronic expansion valve when the operation of the indoor unit is stopped, by performing a recovery operation to eliminate the leakage, An object of the present invention is to prevent system destruction caused by freezing of an evaporator or the like.

[0005]

In the basic structure of the present invention, as means for solving the above problems, an outdoor unit A having a compressor 1 and a condenser 3, an electronic expansion valve 8 and an evaporator 9 are respectively provided. In the air conditioner provided with a plurality of indoor units B, a refrigerant leak detecting means 10 for detecting a refrigerant leak from each of the electronic expansion valves 8 is provided when one of the indoor units B stops operating. Recovery control means 111 for outputting a command to execute a recovery operation to the electronic expansion valve 8 when a refrigerant leak is detected by the refrigerant leak detection means 10 in the indoor unit B; Refrigerant leakage of the valve 8 can be eliminated.

In the basic configuration of the present invention, if a refrigerant leak is detected by the refrigerant leak detection means 10 in the indoor unit B after the recovery operation by the recovery control means 111, an abnormality for outputting a command to display an abnormality is output. When the display control means 112 is additionally provided, it is preferable in that the user can confirm the refrigerant leakage of the electronic expansion valve 8 at an early stage.

When the refrigerant leakage detecting means 10 of the indoor unit B detects a refrigerant leak after the recovery operation by the recovery control means 111, the operation of all the indoor units of the same system including the indoor unit B is performed. When the operation stop control means 113 for stopping the operation is provided, if the refrigerant leakage of the electronic expansion valve 8 cannot be eliminated by the recovery operation, the operation of all the indoor units of the same system can be stopped, thereby preventing the system from being destroyed. It is preferable because it can be performed.

The refrigerant leak detecting means 10 includes
A heat exchange temperature sensor for detecting the temperature of the evaporator 9 in each indoor unit B is employed, and the recovery control means 111 is connected to the heat exchange temperature sensor 10 at a point in time when a predetermined time has elapsed after the operation of the indoor unit B has stopped. Temperature detected by
When the control signal is output when the value becomes lower than the set value, the recovery operation control can be performed based on the temperature detection of the evaporator 9, which is preferable in that the control becomes simpler and more reliable.

[0009] The abnormality display control means 112 may determine whether the temperature detected by the heat exchange temperature sensor 10 at the time when a predetermined time has elapsed after the operation by the recovery control means 111 has become lower than the first set value. If the control signal is output to the controller, the abnormality display control can be performed based on the temperature detection of the evaporator 8, which is preferable in that the control becomes simpler and more reliable.

[0010] The operation stop control means 113 is configured to determine that the temperature detected by the heat exchange temperature sensor 10 at a point in time when a predetermined time has elapsed after the recovery operation by the recovery control means 111 is lower than the second set value. When the control signal is output when the value becomes lower than the set value, the operation stop control can be performed based on the temperature detection of the evaporator 9, which is preferable in that the control becomes simpler and more reliable.

[0011]

Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

This air conditioner is, as shown in FIG.
Multiple units for one outdoor unit A (in the case of this embodiment,
(2 units) indoor units B and B are connected to each other to be an indoor multi-type.

The outdoor unit A includes a compressor 1, a four-way switching valve 2, an outdoor heat exchanger 3 which acts as a condenser during cooling operation and acts as an evaporator during heating operation, and a check valve 4 for heating. While each of the indoor units B includes an electronic expansion valve 5 and an accumulator 6, the indoor unit B includes a cooling electronic expansion valve 8 provided with a check valve 7 and an indoor side that functions as an evaporator during cooling operation and as a condenser during heating operation. Heat exchanger 9
It has. In other words, this air conditioner is constituted by a heat pump capable of cooling and heating in which the refrigerant circulates reversibly through the refrigerant circuit. Each of the indoor-side heat exchangers 9 and 9 is provided with a heat exchange temperature sensor 10 which functions as a refrigerant leak detecting means for detecting a refrigerant leak from the electronic expansion valve 9.

The air conditioner is provided with a controller 11 (for example, a microcomputer) for operation control. As shown in FIG. 2, the controller 11 stops the operation of any of the indoor units B. After a predetermined time t
₁ (for example, 10 minutes), the temperature T detected by the heat exchange temperature sensor 10 in the indoor unit B is changed to the first set value a.
A recovery control means 111 for outputting a recovery control signal when the voltage becomes lower,
1 for a predetermined time t ₂ (for example, 5
Minute) the heat exchange temperature sensor 1 in the indoor unit B
An abnormality display control means 112 for outputting an abnormality display control signal to the abnormality indicator lamp 12 when the detected temperature T due to 0 becomes lower than the first set value a, and a predetermined value after the recovery operation by the recovery control means 111 When a time t ₂ (for example, 5 minutes) elapses, a second set value b at which the temperature T detected by the heat exchange temperature sensor 10 is lower than the first set value a
And an operation stop control means 113 for outputting an operation stop control signal when the voltage becomes lower. Preferably, the first set value a is a temperature slightly higher than the temperature at which the antifreeze control is started, and the second set value b is a temperature immediately before the start of the antifreeze control.

Next, control of the electronic expansion valve in the air conditioner according to the embodiment at the time of refrigerant leakage will be described in detail with reference to a flowchart shown in FIG.

[0016] First, one of the indoor unit B a determination is made whether a thermo OFF state in step S _1. Note that the same applies to the case of stopping the indoor unit operation other than the thermo-OFF.

[0017] In step S ₁ when it is determined that the thermo OFF is detected temperature T from the heat exchanger temperature sensor 10 is input in step S _2, t ₁ timer in step S ₃ (ie, 10 minute timer) is It is set (in other words, 10 minutes elapsed) the predetermined time t ₁ has elapsed in step S ₄ when it is determined that, compared with the detected temperature T and the first set value a is made in step S _5. Here, if it is determined that T <a, it is determined that the refrigerant leakage from the electronic expansion valve 8 occurs, the recovery operation is performed in step S _6. In the recovery operation, the electronic expansion valve 8 is repeatedly opened and closed several times by a control signal output from the recovery control unit 111, for example. As another recovery operation, the compressor 1 is operated with the electronic expansion valve 8 fully opened,
In some cases, foreign matter is removed from the electronic expansion valve 8 depending on the flow rate of the refrigerant. Incidentally, T ≧ a in step S ₅
And when it is determined judges that no leakage of refrigerant electronic expansion valve 8, the process returns to step S _1.

[0018] The recovery operation is completed, t ₂ timer (i.e., 5 minute timer) in step S ₇ is a set, is determined in step S ₈ (in other words, 5 minutes elapsed) the predetermined time t ₂ has elapsed and When comparison between the detected temperature T and the first set value a in step S ₉ is performed.
Here, if it is determined that T <a, it is determined that the refrigerant leakage from the electronic expansion valve 8 is still occurring, the remote control abnormality displayed in step S ₁₀ (i.e., abnormal display lamp 1
2 is lit) to warn the user that the electronic expansion valve 8 is not operating normally. This abnormal display is executed by a control signal output from the abnormal display control means 112. Incidentally, when it is determined that T ≧ a in step S _9, it is determined that no leakage of refrigerant electronic expansion valve 8, the process returns to step S _1.

Furthermore, the detected temperature T in step S ₁₁
When compared with the second set value b is made, wherein, when it is determined that T <b, it is determined that there can lead to system crash by the refrigerant leakage from the electronic expansion valve 8, Step S ₁₂ , The operation of all the indoor units of the same system is stopped.
Incidentally, when it is determined that T ≧ b in step S _11, and returns to step S _7, control is repeated for subsequent.

As described above, in the present embodiment, based on the detected temperature T of the heat exchange temperature sensor 10, the detected temperature T at the time when the predetermined time t1 has elapsed after the operation of the indoor unit B has been stopped is equal to the _first temperature. Is smaller than the set value a, it is determined that there is a refrigerant leak from the electronic expansion valve 8, and the recovery operation for the electronic expansion valve 8 is executed. Can be solved by operation.

A predetermined time t ₂ after the recovery operation is performed.
When the detected temperature T at the time when the elapsed time has become lower than the first set value a, it is determined that the refrigerant leakage of the electronic expansion valve 8 has not been eliminated in spite of the recovery operation, and the user is notified by the abnormal display. If a warning is issued and the detected temperature T is lower than the second set value b (a temperature lower than the first set value a), it is determined that there is a risk of system destruction,
Since the operation of all the indoor units of the same system is stopped, system destruction can be prevented.

In the above embodiment, the heat exchange sensor 10 for detecting the temperature of the indoor heat exchanger 9 is used as the refrigerant leak detecting means, but other means (for example, Detecting actual opening of electronic expansion valve 8)
Can also be adopted.

In the present embodiment, the heat pump type is described, but the present invention is of course applicable to a cooling only type.

[0024]

According to the present invention, the outdoor unit A having the compressor 1 and the condenser 3, the electronic expansion valve 8 and the evaporator 9
In the air conditioner including a plurality of indoor units B, B,... Each having: a refrigerant leakage detecting unit 10 for detecting refrigerant leakage from each of the electronic expansion valves 8, and operation of any of the indoor units B Recovery control means 111 for outputting a command to execute a recovery operation to the electronic expansion valve 8 when a refrigerant leak is detected by the refrigerant leak detection means 10 in the indoor unit B when the indoor unit B is stopped, Since the refrigerant leakage of the electronic expansion valve 8 can be eliminated, there is an excellent effect that the reliability of the electronic expansion valve 8 (in other words, the air conditioner) is greatly improved.

[Brief description of the drawings]

FIG. 1 is a refrigerant circuit diagram of an air conditioner according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a control system of the air conditioner according to the embodiment of the present invention.

FIG. 3 is a flowchart illustrating an operation of a control system in the air-conditioning apparatus according to the embodiment of the present invention.

[Explanation of symbols]

1 is a compressor, 3 is a condenser (outdoor heat exchanger), 8 is an electronic expansion valve, 9 is an evaporator (indoor heat exchanger), 10 is refrigerant leak detection means (heat exchange temperature sensor), 11 is controller,
12 is an abnormality indicator light, 111 is recovery control means, 11
2 is an abnormality display control means, and 113 is an operation stop control means.

Claims (6)

[Claims] 1. An outdoor unit (A) having a compressor (1) and a condenser (3), and a plurality of indoor units (B) and (B) each having an electronic expansion valve (8) and an evaporator (9). B)
An air conditioner comprising: a refrigerant leak detecting means (10) for detecting a refrigerant leak from each of the electronic expansion valves (9); The refrigerant leak detection means (10) in the indoor unit (B)
And a recovery control means (111) for outputting a command to execute a recovery operation to the electronic expansion valve (8) when a refrigerant leak is detected by the air conditioner. 2. When a refrigerant leak is detected by the refrigerant leak detection means (10) in the indoor unit (B) after the recovery operation by the recovery control means (111), a command to perform an abnormality display is output. The air conditioner according to claim 1, further comprising abnormality display control means (112). 3. When a refrigerant leak is detected by the refrigerant leak detection means (10) in the indoor unit (B) after the recovery operation by the recovery control means (111), the same operation including the indoor unit (B) is performed. The air conditioner according to any one of claims 1 and 2, further comprising operation stop control means (113) for stopping operation of all indoor units of the system. 4. As the refrigerant leak detecting means (10),
A heat exchange temperature sensor for detecting the temperature of the evaporator (9) in each indoor unit (B) is employed, and the recovery control means (111) is operated at a time when a predetermined time has elapsed after the indoor unit (B) has stopped operating. The heat exchange temperature sensor in the field (10)
The air conditioner according to any one of claims 1 to 3, wherein a control signal is output when a temperature detected by the control unit becomes lower than a first set value. 5. The method according to claim 5, wherein the abnormality display control means (112) is configured to set the temperature detected by the heat exchange temperature sensor (10) at a time when a predetermined time has elapsed after the operation by the recovery control means (111) to the first setting. The air conditioner according to claim 4, wherein a control signal is output when the value becomes lower than the value. 6. The system according to claim 1, wherein the operation control unit determines that the temperature detected by the heat exchange temperature sensor at the time when a predetermined time has elapsed after the recovery operation by the recovery control unit. The air conditioner according to any one of claims 4 and 5, wherein a control signal is output when the value becomes lower than a second set value lower than the set value.