JPH09152238A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner, capable of inspecting the leakage of refrigerant previously. SOLUTION: An air conditioner is provided with an outdoor unit, having a compressor 2 and an outdoor heat exchanger 3, a plurality of sets of indoor units 5a, 5b, 5c, having indoor heat exchangers 6a, 6b, 6c, and pipelines 30, connecting between the units. A control means 100, provided with pressure sensors 45, arranged in the refrigerant pipes of respective indoor units 5a, 5b, 5c, and valves 41, 42, for enclosing refrigerant into the refrigerant pipes of indoor units 5a, 5b, 5c by closing the valves 41, 42 upon heating operation, while detecting the leakage of refrigerant out of the indoor units 5a, 5b, 5c by detecting the change of pressure of the enclosed refrigerant through a pressure sensor 45, is provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-room type air conditioner in which a plurality of indoor units are branched and connected to an outdoor unit.

[0002]

2. Description of the Related Art In a multi-room type air conditioner in which an outdoor unit having a compressor and an outdoor heat exchanger and a plurality of indoor units having an indoor heat exchanger are connected by unit pipes Even if only one of the indoor units of the unit leaks refrigerant, all the refrigerant of the other indoor units flows to the side of the indoor unit where the refrigerant has leaked. The safety allowance of the refrigerant will be exceeded.

That is, if refrigerant gas leaks from the refrigerant pipe of the indoor unit of the air conditioner, it may endanger human life. Therefore, when a conventional worker installs the indoor unit, nitrogen gas is introduced into the refrigerant pipe of the indoor unit. By inspecting whether or not the pressure has changed by enclosing it, or by applying soap water or the like to the refrigerant pipe of the indoor unit, it is inspected whether the refrigerant leaks.

Further, as disclosed in Japanese Patent Application Laid-Open No. 2-192522, the indoor unit is structurally devised so that even if the refrigerant leaks from the refrigerant pipe, it does not come out of the indoor unit as much as possible. I have to.

[0005]

However, in the former refrigerant leakage inspection method, the operator only manually inspects the refrigerant leakage at the time of installation, so that the subsequent refrigerant leakage inspection should be performed regularly. I can't.

In the latter method of structurally preventing refrigerant leakage, the refrigerant that has leaked into the indoor unit is simply prevented from leaking to the outside of the indoor unit.

Further, in the case of using a refrigerant leak detector,
The leak cannot be detected unless the concentration of the leaked refrigerant reaches a certain concentration, so that the leak is detected afterwards.

An object of the present invention is to solve the above problems and to provide an air conditioner capable of arbitrarily inspecting refrigerant leakage in advance.

[0009]

According to a first aspect of the present invention, there is provided an air system in which an outdoor unit having a compressor and an outdoor heat exchanger and a plurality of indoor units having an indoor heat exchanger are connected by inter-unit piping. In the harmony device, a pressure sensor arranged in the refrigerant pipe of each indoor unit, a valve for confining the refrigerant in the refrigerant pipe of the indoor unit, and the refrigerant is confined in the refrigerant pipe of the indoor unit by closing this valve during the heating operation. And a control means for detecting the leakage of the refrigerant from the indoor unit by detecting the change over time of the pressure of the confined refrigerant with a pressure sensor.

According to the first aspect of the present invention, the refrigerant is sealed in the refrigerant pipe of the indoor unit in a high pressure state, and the pressure sensor detects a change with time in the pressure of the sealed refrigerant, and the control means detects the change with time in the refrigerant pressure. The presence / absence of refrigerant leakage from the indoor unit is detected based on the detection.

With this, it is possible to detect in advance whether or not the refrigerant leaks from the indoor unit, and prevent an accident in which the refrigerant leaks indoors.

The invention according to claim 2 is an air conditioner in which an outdoor unit having a compressor and an outdoor heat exchanger and a plurality of indoor units having an indoor heat exchanger are connected by inter-unit piping, Pressure sensor placed in the refrigerant pipe of the, the valve for confining the refrigerant in the refrigerant pipe of the outdoor unit, by closing this valve during the cooling operation to confine the refrigerant in the refrigerant pipe of the outdoor unit, the pressure of the confined refrigerant Control means for detecting the leakage of the refrigerant from the outdoor unit by detecting the change with time of the pressure sensor.

According to the second aspect of the invention, the refrigerant is sealed in the refrigerant pipe of the outdoor unit in a high pressure state, and the pressure sensor detects a change over time in the pressure of the sealed refrigerant. The presence or absence of refrigerant leakage from the outdoor unit is detected based on the detected change.

With this, it is possible to detect in advance whether or not the refrigerant leaks from the outdoor unit, and prevent the refrigerant from leaking even outdoors.

[0015]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the accompanying drawings. First Embodiment FIG. 1 shows a multi-room air conditioner, which includes an outdoor unit 1, a plurality of indoor units 5a, 5b, 5c, an inter-unit pipe 30 connecting both units, and a refrigerant gas detection unit 40.
a, 40b, 40c, and the control means 100.

The outdoor unit 1 has a compressor 2, an outdoor heat exchanger 3, a four-way valve 4, a fan 3a, a fan motor 3b and the like.

The indoor units 5a, 5b, 5c include indoor heat exchangers 6a, 6b, 6c, fans 7a, 7b, 7c, electric expansion valves 8a, 8b, 8c, fan motors 9a, 9b,
9c respectively.

The inter-unit piping 30 is composed of an inter-unit gas pipe 11 and an inter-unit liquid pipe 12.

During the heating operation, the four-way valve 4 is switched as shown by the broken line arrow in FIG. 1, and the refrigerant discharged from the compressor 2 has the inter-unit gas pipe 11 and the indoor units 5a, 5
b, 5c open / close valve 42, each indoor heat exchanger 6a, 6b, 6
c, the electric expansion valve 8a, and the opening / closing valve 41, and is circulated in the order of the inter-unit liquid pipe 12, the outdoor heat exchanger 3, and the four-way valve 4, and each indoor heat exchanger 6a, 6b, 6c serves as a condenser.
The outdoor heat exchanger 3 functions as an evaporator to heat each room.

During the cooling operation, the four-way valve 4 is switched as shown by the solid line arrow in FIG. 1, and the refrigerant discharged from the compressor 2 receives the outdoor heat exchanger 3, the inter-unit liquid pipe 12, the on-off valve 41, Electric expansion valve 8a, indoor heat exchangers 6a, 6
b, 6c, the on-off valve 42, the inter-unit gas pipe 11, and the four-way valve 4 are circulated in the order of the indoor heat exchangers 6a,
6b and 6c function as evaporators, and the outdoor heat exchanger 3 functions as a condenser to remove heat from the air in each room and cool it.

Refrigerant gas detection units 40a, 40b, 4
0c is provided in each of the indoor units 5a, 5b, 5c, and has on-off valves 41, 42 and motors 43, 44, respectively. The on-off valves 41, 42 are the indoor heat exchangers 6a, 6b, 6c of the indoor units 5a, 5b, 5c.
When the refrigerant leak is detected, the motors 43 and 44 are actuated to close the on-off valves 41 and 42, thereby closing the on-off valve 41 and the indoor heat exchangers 6a and 6a.
Refrigerant can be sealed between b and 6c and the on-off valve 42. The on-off valves 42 are open during normal operation.

The pressure sensor 45 is arranged between each on-off valve 42 and the indoor units 5a, 5b, 5c, and when the leakage of the refrigerant is detected, the on-off valve 41 and the indoor heat exchangers 6a, 6b, 6 are arranged.
It is a sensor that detects a pressure change of the refrigerant enclosed between c and the on-off valve 42.

The control means 100 includes motors 43, 4
4 and the operation of the fan motors 9a, 9b and 9c are controlled, and a pressure detection signal from the pressure sensor 45 is obtained. Then, the display unit 110 of the control unit 100 displays the distinction between the safe range A of leakage of the refrigerant gas, the recheck range B of leakage, and the leakage range C as illustrated in FIG. 2.

Next, the operation of the first embodiment will be described.

Indoor units 6a, 6 to be described below
The refrigerant gas leak detection of b and 6c is performed in the heating operation state in which the pressure of the refrigerant gas is higher than that during the cooling operation. The leak detection of the refrigerant gas is performed before the normal cooling operation or the heating operation, during the trial operation, or in the information concentration monitoring step using, for example, a telephone line.

The on-off valve 41 of FIG. 1 is closed and the on-off valve 42 is opened, the four-way valve 4 is switched to the heating operation state as shown by the broken line, and the refrigerant from the compressor 2 is connected to the unit piping 11, the on-off valve 42, After passing through the indoor heat exchangers 6a, 6b, 6c and the electric expansion valve 8a and the refrigerant is filled in the refrigerant pipe of the indoor unit between the opening / closing valve 41 and the opening / closing valve 42 in a high pressure state, the opening / closing valve 42 is closed. At this time, the control means 100 stops the rotation of the fans 9a, 9b, 9c in order to maintain the high pressure of the refrigerant.

The pressure sensor 45 detects a pressure change of the refrigerant filled in the refrigerant pipe in a high pressure state, and outputs a pressure detection signal according to the pressure change characteristic as shown in FIG. Send to. Control means 100
Determines, based on the pressure detection signal, whether the change in pressure of the filled refrigerant corresponds to the safe range A for leaking the refrigerant gas, the rechecking range B for leaking, or the leaking range C in FIG.

As a result of this judgment, if the change in pressure of the filled refrigerant is within the safe range A of the refrigerant gas leakage in FIG. 2, the control means 100 judges that there is no refrigerant gas leakage, and the leak recheck range B. In that case, the refrigerant gas leak inspection by the pressure sensor 45 described above is performed again. In addition, the indoor unit 5a,
If the refrigerant gas in either 5b or 5c falls within the leakage range C, the control means 100 determines that the refrigerant gas is leaking, immediately stops the operation of the compressor 2, and closes the on-off valves 41 and 42. With the refrigerant kept sealed, an alarm is issued by an alarm means (not shown).

As an example of the pressure of the refrigerant, 20K
g /, which is 20 ° C. as an example of the room temperature.

In this way, the indoor units 5a, 5b,
The leakage of the refrigerant gas in 5c can be detected regularly or irregularly and in advance during the test operation, heating, and cooling, and the refrigerant leakage accident in the multi-room air conditioner with a large amount of enclosed refrigerant can be detected. It can be prevented. Second Embodiment In addition to the first embodiment of FIG. 1, the second embodiment of FIG. 3 includes a refrigerant gas detection unit 7 on the outdoor unit 2 side as well.
The feature is that 0 is provided.

The refrigerant gas detection unit 70 includes two opening / closing valves 71 and 72, motors 73 and 74, and a pressure sensor 75. The other elements of the second embodiment are the same as the elements of the first embodiment of FIG. 1, and therefore their explanations are omitted.

The on-off valves 71 and 72 are used for the inter-unit gas pipe 1
1 and the inter-unit liquid pipe 12 respectively, and can be opened and closed by the operation of the motors 73 and 74.

The pressure sensor 75 is similar to the pressure sensor 45 of FIG.

Next, the operation of the second embodiment will be described.

In the second embodiment, the refrigerant gas leak detection in the indoor units 5a, 5b, 5c can be performed in the same manner as in the first embodiment, and therefore the description thereof will be omitted.

Leakage detection of the refrigerant gas in the outdoor unit 1 described below is performed in the cooling operation state. The leak detection of the refrigerant gas is performed before the normal cooling operation or the heating operation, during the trial operation, or in the information concentration monitoring step using, for example, a telephone line.

The on-off valves 71 and 72 of FIG. 1 are closed, and the four-way valve 4
Is switched to the cooling operation state as indicated by a solid line, and the refrigerant is charged from the compressor 2 into the refrigerant pipe including the four-way valve 4 and the outdoor heat exchanger 3 in a high pressure state. At this time, the control means 100 stops the rotation of the fan 3a in order to maintain the high pressure state.

Then, the pressure sensor 75 detects the pressure change of the refrigerant filled in the refrigerant pipe in a high pressure state, and controls the pressure detection signal according to the pressure change characteristic similar to that shown in FIG. 2 depending on the room temperature and the heat radiation time. Send to means 100. Control means 1
00 determines, based on the pressure detection signal, whether the pressure change of the filled refrigerant corresponds to the safety range A of the leakage of the refrigerant gas, the leak recheck range B, or the leakage range C of FIG. 2.

As a result of this judgment, if the change in pressure of the filled refrigerant is within the safe range A of refrigerant gas leakage in FIG. 2, the control means 100 judges that there is no refrigerant gas leakage, and the leak recheck range B. In that case, the refrigerant gas leak inspection by the pressure sensor 75 described above is performed again. In addition, the indoor unit 5a,
If the refrigerant gas in either 5b or 5c falls within the leakage range C, the control means 100 determines that the refrigerant gas is leaking, immediately stops the operation of the compressor 2, and closes the on-off valves 71 and 72. If left as it is, an alarm is issued by an alarm means (not shown).

In this way, the detection of the refrigerant gas leakage in the outdoor unit 1 can also be performed during the trial operation, heating, and cooling.
This can be performed regularly or irregularly in advance, and in particular, it is possible to prevent a refrigerant leakage accident in a multi-room air conditioner having a large amount of enclosed refrigerant.

The present invention can be variously modified without departing from the scope of the claims.

For example, in the illustrated embodiment, three indoor units are shown, but the present invention is not limited to this, one indoor unit,
It goes without saying that the present invention can also be applied to an air conditioner including two indoor units or four or more indoor units.

[0043]

According to the first aspect of the present invention, the refrigerant is sealed in the refrigerant pipe of the indoor unit in a high pressure state, and the pressure sensor detects a change with time in the pressure of the sealed refrigerant. Therefore,
The control means detects whether or not the refrigerant leaks from the indoor unit based on the detection of the pressure change of the refrigerant. As a result, it is possible to regularly and automatically detect the presence or absence of refrigerant leakage from the indoor unit, and prevent an accident in which the refrigerant leaks indoors.

According to the second aspect of the present invention, the refrigerant is sealed in the refrigerant pipe of the outdoor unit in a high pressure state, and the pressure sensor detects a change in pressure of the sealed refrigerant. Therefore, the control means detects whether or not the refrigerant leaks from the outdoor unit based on the detection of the pressure change of the refrigerant. As a result, it is possible to regularly and automatically detect the presence or absence of the refrigerant leakage from the outdoor unit, and prevent the refrigerant leakage accident even outdoors.

[Brief description of the drawings]

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

FIG. 2 is a diagram showing an example of a pressure change of a refrigerant gas.

FIG. 3 is a diagram showing a refrigerant circuit of an air conditioner according to a second embodiment of the present invention.

[Explanation of symbols]

 1 Outdoor unit 5a, 5b, 5c Indoor unit 6a, 6b, 6c Indoor heat exchanger 30 Inter-unit piping 41, 42 Valve 71, 72 Valve 45, 75 Pressure sensor 100 Control means

Claims (2)

[Claims] 1. An air conditioner in which an outdoor unit having a compressor and an outdoor heat exchanger and a plurality of indoor units having an indoor heat exchanger are connected by unit pipes,
A pressure sensor arranged in the refrigerant pipe of each indoor unit, a valve for confining the refrigerant in the refrigerant pipe of the indoor unit, and confining and confining the refrigerant in the refrigerant pipe of the indoor unit by closing this valve during heating operation. An air conditioner comprising: a control unit that detects a leakage of the refrigerant from the indoor unit by detecting a change over time of the pressure of the refrigerant with a pressure sensor. 2. An air conditioner in which an outdoor unit having a compressor and an outdoor heat exchanger and a plurality of indoor units having an indoor heat exchanger are connected by unit pipes,
A pressure sensor arranged in the refrigerant pipe of the outdoor unit, a valve for confining the refrigerant in the refrigerant pipe of the outdoor unit, and confining the refrigerant in the refrigerant pipe of the outdoor unit by closing this valve during cooling operation, and confined refrigerant And a control means for detecting the leakage of the refrigerant from the outdoor unit by detecting the change over time in the pressure of the unit with a pressure sensor.