JPH01300170A - Air conditioner - Google Patents

Abstract

PURPOSE:To prevent oxygen deficiency in a room while recovering refrigerant gas safely and efficiently by recovering the refrigerant gas in an outdoor unit when a gas leakage sensor detects gas leakage. CONSTITUTION:An outdoor unit 3 has a compressor 31 and a heat exchanger 33 and an indoor unit 4 is provided with a heat exchange4 42. The outdoor unit 3 and each indoor unit 4 are connected by refrigerant pipes 11, 11a, 11b to form a refrigerant circuit 12. For example one indoor unit 4 is set in a small room 22b, further a gas leakage sensor 5 for detecting the leakage of refrigerant gas is provided and a controller 6 is connected to the gas leakage sensor 5. The controller 6 receives a gas leakage signal of the gas leakage sensor 5 and the refrigerant circuit 12 is pumped down while an alarm lamp or an alarm buzzer is actuated. When the refrigerant is recovered in the outdoor unit 3 and the low pressure side of the compressor 31 is fixed value or lower, a suction valve is closed to stop the compressor.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to an air conditioner, and particularly to gas leakage countermeasures.

(Prior Art) Generally, in a multi-type air conditioner, multiple indoor units each equipped with a heat exchanger are connected in parallel via refrigerant pipes to one outdoor unit equipped with a compressor and a heat exchanger. A refrigerant circuit is formed, and refrigerant circulates through the refrigerant circuit to cool and heat the room.

In the indoor unit of this air conditioner, there is a risk that refrigerant gas, such as fluorocarbon gas, may leak into the room from a refrigerant pipe or the like due to vibrations of the fan, vibrations during transportation, or defective brazing. In particular, in recent years, each room in which indoor units are installed, such as in business hotels, has become increasingly small, and in response to this, there has been a trend to connect many small-capacity indoor units to one outdoor unit. be. Therefore, since the refrigerant circuit is filled with a large amount of refrigerant, the concentration of refrigerant gas due to a gas leak in a large room will not be very high, but if a gas leak occurs in a small room, the concentration of refrigerant gas will increase, resulting in an oxygen-deficient state. There is a risk of personal injury.

Therefore, as disclosed in Japanese Utility Model Application Publication No. 61-74078, a gas leak sensor that detects the leakage of refrigerant gas is provided indoors, and when the gas leak sensor detects a gas leak, a refrigerant discharge device is activated. , the refrigerant is released into the atmosphere.

(Issue 8 to be solved by the invention) However, in the above-mentioned air conditioner, the refrigerant is released into the atmosphere, which wastes the refrigerant and, depending on the type of refrigerant, may cause problems such as being a cause of pollution. there were. Furthermore, since the refrigerant is discharged into the atmosphere, the refrigerant must be discharged in a high-pressure liquid state, which poses a risk.

The present invention has been made in view of the above, and when a gas leak sensor detects a gas leak, the refrigerant gas is recovered to the outdoor unit, thereby preventing oxygen deficiency indoors and safely discharging the refrigerant gas. The purpose is to collect waste without waste.

(Means for Solving the Problem) In order to achieve the above object, the means taken by the invention according to claims (1) to (3) are as shown in FIG. and an outdoor unit (3) equipped with a heat exchanger (33), and an indoor unit (42) equipped with a heat exchanger (42).
4) are connected by a refrigerant pipe (11) to form a refrigerant circuit (1
2) is formed.

Then, the indoor unit (2) where the indoor unit (4) is installed is installed.
2) is equipped with a gas leak sensor (5) that detects leakage of refrigerant gas.
) is provided. Furthermore, a controller (6) controls the refrigerant circuit (12) to recover the refrigerant in the refrigerant circuit (12) to the outdoor unit (3) in response to the gas leak signal output by the gas leak sensor (5). The configuration is such that

Further, the refrigerant circuit (12) is connected to one outdoor unit (
3) and multiple indoor units (4).

(4), . . . are connected to each other.

The controller (6) also includes a gas leak sensor (5).
), the refrigerant circuit (12) is pumped down in response to a gas leak signal from the refrigerant circuit (12), and the refrigerant in the refrigerant circuit (12) is pumped down to the outdoor unit (
3) is configured to control the collection.

(Function) With the above configuration, in the invention according to claim (1), for example, during cooling, the outdoor heat exchanger (33) becomes a condenser, and the indoor heat exchanger (42) becomes an evaporator, and during heating, the outdoor heat exchanger (33) becomes a condenser. The indoor heat exchanger (42) serves as a condenser, and the outdoor heat exchanger (33) serves as an evaporator, and the refrigerant is circulated within the refrigerant circuit (12) to cool and heat the room (22).

On the other hand, the gas leak sensor (5) detects the concentration of refrigerant gas in the room (22), for example, fluorocarbon gas, and when the fluorocarbon gas concentration reaches a predetermined value, it detects a gas leak and sends a gas leak signal to the controller (6). Output to. The controller (6) then controls the refrigerant circuit (12) to recover the refrigerant to the outdoor unit (3).

Further, in the invention according to claim (2), the indoor unit (4
), (4), . . . are provided, and refrigerant is simultaneously supplied and circulated to each indoor unit (4), (4), .

Furthermore, in the invention according to claim (3), when a gas leak occurs, the controller (6) pumps down the refrigerant circuit (12) to recover refrigerant.

(Effect of the invention) Therefore, according to the air conditioner of the invention according to claim (1), when the gas leak sensor (5) detects a gas leak, the refrigerant is recovered to the outdoor unit (3). ,
Oxygen deficiency accidents indoors (22) can be prevented,
It is possible to reliably prevent personal accidents. Furthermore, since the refrigerant is not released outdoors, the refrigerant can be reused without wastage, and one of the causes of pollution can be eliminated, as well as the dangers caused by the release.

Furthermore, since the invention according to claim (2) has a plurality of indoor units (4), (4), etc., the amount of refrigerant is large, and gas leakage can be quickly detected to cause serious damage. It is possible to reliably prevent accidents.

Furthermore, in the invention according to claim (3), the refrigerant circuit (1
2) is pumped down, the refrigerant can be recovered using conventional refrigerant control, and gas leakage can be dealt with without complicating control.

(Example) Hereinafter, an example of the present invention will be described in detail based on the drawings.

As shown in FIGS. 1 and 2, (1) is a multi-type air conditioner, which is installed in a mid- to high-rise building (2).

The air conditioner (1) includes one outdoor unit (3) and a plurality of indoor units (4).

... are connected in parallel. The outdoor unit (3) is installed on the roof (21) of the building (2), and includes a compressor (31), a four-way switching valve (32), a heat exchanger (33), and a one-way valve (34). and a solenoid valve (35) are sequentially connected by a refrigerant pipe (11), and a capillary (which is an expansion mechanism) bypasses the one-way valve (34).
36) is connected to the four-way switching valve (32) on the suction side of the compressor (31), and a liquid separator (37) is connected to the four-way switching valve (32) by a refrigerant pipe (11). .

The indoor unit (4) is connected to the main refrigerant pipe (11a) connected to the outdoor unit (3) by a branch refrigerant pipe (llb), and includes a one-way valve (41) and a heat exchanger (4).
2) are connected by a branch refrigerant pipe (11b), and are connected to a capillary (43), which is an expansion mechanism, bypassing the one-way valve (41). and,
The above outdoor unit (3) and each indoor unit (4), (
4), . . . are refrigerant pipes (11), (lla).

The refrigerant circuit (11b) in which the refrigerant circulates and is connected by
12) is configured.

On the other hand, inside the building (2), there are multiple rooms (22
), (22), ... are divided into sections, and the large room (22a) has multiple indoor units (
4), (4),... For example, in Figure 2, three indoor units (4), (4), (4) are installed, and one unit is installed in the small room (22b). An indoor unit (4) is installed, and each indoor unit (22), (2
2) I am trying to heat and cool...

Furthermore, a gas leak sensor (5) for detecting leakage of refrigerant gas is provided in the small chamber (22b). For example, when fluorocarbon gas is used as the refrigerant gas, It consists of a fluorocarbon gas sensor that detects fluorocarbon gas.

The gas leak sensor (5) has a controller (6).
) is connected, and the controller (6) is connected to the compressor (31) and the solenoid valve (35). The controller (6) pumps down the refrigerant circuit (12) upon receiving the gas leak signal from the gas leak sensor (5), and also operates an alarm lamp or an alarm buzzer (not shown). In other words, when refrigerant gas leaks, the solenoid valve (35) is closed, the compressor (31) continues to operate, and the refrigerant is recovered to the outdoor unit (3). When the temperature drops below a predetermined value, the suction valve is closed and stopped.

Next, the air conditioning operation of this air conditioner (1) will be explained.

First, during cooling, the refrigerant compressed by the compressor (31) undergoes heat exchange and condensation in the outdoor heat exchanger (33), and then
It passes through a one-way valve (34) and a solenoid valve (35) and is supplied to each indoor unit (4), (4), . Then, the refrigerant expands in the capillary (43), exchanges heat with the indoor heat exchanger (42) and evaporates, and
While supplying cold air to (22), . . . , the refrigerant returns to the compressor (31) via the liquid separator (37), and this operation is repeated. Also, during heating, the above operation is performed in reverse, and the refrigerant is condensed in the indoor units (4), (4), etc.
2), (22), . . . while being evaporated in the outdoor heat exchanger (33) and returned to the compressor (31).

A case where refrigerant gas leaks in the small room (22b) during this heating and cooling will be explained based on the control flow shown in FIG. 3.

First, in the small chamber (22b), the gas leak sensor (5) constantly detects the refrigerant gas concentration, and step S
At T1, it is determined whether or not the gas leak sensor (5) is turned on, that is, whether or not a gas leak is detected.The determination is NO until the gas leak is detected, and the process continues in step ST.
I'm waiting at I. And the gas leak sensor (5)
detects a gas leak, the step STI judgment is YE.
S, the process moves to step ST2, and the controller (6)
activates the alarm lamp or alarm buzzer to alert you to a gas leak.

Thereafter, the process moves from step ST2 to step ST3, and the controller (6) pumps down the refrigerant circuit (12). That is, the controller (6) closes the solenoid valve (35) while the refrigerant circuit (12) is in the cooling cycle state, and continues to drive the compressor (31). By driving the compressor (31), each indoor unit (4),
(4).

... is collected in the outdoor unit (3), and when the low pressure side of the compressor (31) drops to a predetermined value, the compressor (31) closes the suction valve and stops, and the refrigerant It will be collected and stored in the outdoor unit (3).

Therefore, when the gas leak sensor (5) detects a gas leak, the refrigerant is recovered to the outdoor unit (3), making it possible to prevent an oxygen deficiency accident inside the room (22) and ensure the risk of personal injury. can be prevented. Furthermore, since the refrigerant is not released outdoors, the refrigerant can be reused without wastage, and one of the causes of pollution can be eliminated, as well as the dangers caused by the release.

In addition, multiple indoor units (4), (4),...
In the case of the multi-type type, the amount of refrigerant is large, and this large amount of refrigerant flows into the small chamber (22b), but by quickly detecting gas leaks, serious accidents can be reliably prevented. .

Furthermore, since the refrigerant circuit (12) is pumped down,
Refrigerant can be recovered using conventional refrigerant control, and gas leaks can be dealt with without complicating control.

Although this embodiment has described a multi-type air conditioner (1), the present invention may also include a single indoor unit (4), or may be a device exclusively for cooling. good.

Further, the controller (6) is not limited to pumping down the refrigerant circuit (12), but also pumping down the refrigerant to the outdoor unit (3).
It is sufficient if the control is performed so that the waste is collected.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention, and FIG. 1 is a refrigerant circuit diagram of an air conditioner. Figure 2 is a layout diagram of the air conditioner.
FIG. 3 is a control flow diagram at the time of gas leakage. (1)...Air conditioner, (3)...Outdoor unit, (4)...Indoor unit, (5)...Gas leak sensor, (6)...Controller, (11), (
11a). (1l b)...refrigerant pipe, (12)...refrigerant circuit,
(22), (22a), (22b)-indoor, (
31)... Compressor, (33)... Heat exchanger, (35
)... Solenoid valve, (42)... Heat exchanger. -17'-1-,

Claims (1)

[Claims] (1) An outdoor unit (3) equipped with a compressor (31) and a heat exchanger (33), and an indoor unit (4) equipped with a heat exchanger (42) are connected to refrigerant pipes ( 11) to form a refrigerant circuit (12), and a gas leak sensor (5) for detecting leakage of refrigerant gas is provided in the room (22) in which the indoor unit (4) is installed. The refrigerant circuit (12) is configured to recover the refrigerant in the refrigerant circuit (12) to the outdoor unit (3) in response to a gas leak signal output by the gas leak sensor (5).
An air conditioner characterized by being provided with a controller (6) for controlling the. (2) The refrigerant circuit (12) is connected to one outdoor unit (3)
The air conditioner according to claim 1, wherein a plurality of indoor units (4), (4), . . . are connected to each other. (3) The controller (6) pumps down the refrigerant circuit (12) based on the gas leak signal from the gas leak sensor (5), and transfers the refrigerant from the refrigerant circuit (12) to the outdoor unit (3).
Claim (1) characterized in that the control is performed to collect the
) or the air conditioner described in (2).