JP3744330B2 - Air conditioner indoor unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an indoor unit of an air conditioner that uses a flammable refrigerant (herein, the flammable refrigerant refers to a flammable or slightly flammable refrigerant).
[0002]
[Prior art]
Recently, propane, butane, R32, and the like as so-called chlorofluorocarbons have begun to be used as refrigerants for air conditioners in response to environmental problems such as ozone depletion and global warming. However, since these alternative chlorofluorocarbon refrigerants are slightly flammable or flammable, there is a risk that an accident such as a fire may occur if the refrigerant is leaked from the indoor unit of the air conditioner. When the indoor unit of the air conditioner is a wall-hanging type, since many of the alternative chlorofluorocarbon refrigerants have a higher specific gravity than air, the refrigerant leaking from the indoor unit flows below the indoor unit and diffuses into the air. Because the flammable concentration is not reached, the risk of fire is small. However, when the indoor unit is a floor-standing type, the leaked refrigerant stays around the indoor unit without diffusing and forms a combustible gas phase, so there is a high risk of fire.
[0003]
Therefore, conventionally, air that has been provided with multiple sensors such as a heat exchange chamber and a machine room in an indoor unit and a shut-off valve that shuts off the flow of refrigerant between the outdoor unit and the indoor unit. There is a harmony machine. In the air conditioner, when leakage of the refrigerant in the indoor unit is detected by the sensor, the flow of the refrigerant is stopped by the shutoff valve to avoid a fire hazard.
[0004]
[Problems to be solved by the invention]
However, the indoor unit of the conventional air conditioner is provided with a plurality of sensors that detect refrigerant leakage at different positions in the indoor unit, and further includes a separate shut-off valve in addition to the indoor unit. There is a problem that the number of parts of the machine increases and the manufacturing cost of the air conditioner is high.
[0005]
Accordingly, an object of the present invention is to provide an indoor unit of an air conditioner that has a small number of parts, is inexpensive to manufacture, and can reliably avoid the danger of fire when a refrigerant leaks.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, an indoor unit of an air conditioner of the invention of claim 1 includes a heat exchange chamber in which a heat exchanger through which a flammable refrigerant flows is disposed,
A machine room in which refrigerant piping connected to the heat exchanger is disposed;
A drain pan extending from the lower part of the heat exchange chamber toward the lower part of the machine room;
A sensor provided at the lower part of the machine room for detecting a flammable refrigerant ,
The sensor is a single sensor arranged in the vicinity of the drain pan of the machine room .
[0007]
According to the indoor unit of the air conditioner according to claim 1, the specific gravity of the combustible refrigerant leaking from the heat exchanger is larger than that of the air, so that the lower part of the heat exchange chamber can be leaked from any position of the heat exchanger. To reach the drain pan. And the combustible refrigerant | coolant which reached this drain pan flows along a drain pan, and reaches the lower part of a machine room. Thus, the flammable refrigerant leaked in the heat exchange chamber is detected by one sensor provided in the lower part of the machine room.
[0008]
Moreover, since the specific gravity of the combustible refrigerant leaked from the refrigerant pipe arranged in the machine room is larger than that of air, it flows into the lower part of the machine room and is detected by a sensor provided in the lower part of the machine room.
[0009]
Furthermore, for example, the combustible refrigerant that leaks from the refrigerant pipe that is located outside the indoor unit and connects the indoor unit and the outdoor unit has a specific gravity greater than that of air, and therefore remains near the floor around the indoor unit. The combustible refrigerant that remains in the vicinity of the floor around the indoor unit is detected by a sensor provided in the lower part of the machine room, for example, through an outlet of the indoor unit.
[0010]
In this way, the flammable refrigerant always reaches the lower part of the machine room regardless of where it leaks in the heat exchange chamber and machine room of the indoor unit of the air conditioner, or leaks around the indoor unit. Detected by sensor. That is, since the leakage of the refrigerant can be reliably detected by a single sensor provided in the lower part of the machine room, it is not necessary to arrange a plurality of sensors at different positions of the indoor unit as in the prior art. Therefore, the manufacturing cost of the air conditioner is reduced.
[0011]
The indoor unit of an air conditioner according to claim 1, upper Symbol sensor is characterized in that it is arranged in the vicinity of the drain pan of the machine room.
[0012]
According to the indoor unit of the air conditioner of claim 1 , since the sensor is disposed in the vicinity of the drain pan located in the lower part of the machine room, the refrigerant leaked in the heat exchange chamber flows through the drain pan. Detected by the sensor. The refrigerant leaking in the machine room flows below the machine room and is detected by the sensor. That is, even if the combustible refrigerant leaks in either the heat exchange chamber or the machine room of the indoor unit, it is reliably detected by the sensor.
[0013]
Indoor unit of an air conditioner according to claim 2 is the indoor unit of an air conditioner according to claim 1,
The indoor unit of the air conditioner is a floor type.
[0014]
According to the indoor unit of the air conditioner of claim 2 , when the flammable refrigerant leaks in either the heat exchange chamber or the machine room in the indoor unit, or in the surroundings outside the indoor unit, for the floor-mounted indoor unit. In the case of leakage, it is reliably detected by the sensor. Therefore, it is possible to reliably prevent the risk of fire due to refrigerant leakage in the floor-standing indoor unit.
[0015]
An air conditioner indoor unit according to claim 3 is the air conditioner indoor unit according to claim 2,
A blower outlet is provided below the drain pan,
The sensor is provided at a position close to the air outlet.
[0016]
According to the indoor unit of the air conditioner of claim 3, the combustible refrigerant leaking outside the indoor unit can be detected through the outlet.
[0017]
An indoor unit of an air conditioner according to claim 4 is the indoor unit of an air conditioner according to any one of claims 1 to 3,
When the sensor detects a leak of flammable refrigerant from the indoor unit of the air conditioner, it includes a control device that activates the blower of the indoor unit.
[0018]
According to the indoor unit of an air conditioner according to a fourth aspect of the present invention, the control device activates the blower when receiving a signal from a sensor that detects the leakage of the combustible refrigerant. Then, the refrigerant that leaks from the indoor unit and stays inside and around the indoor unit is diffused to the outside of the indoor unit by the blower. Therefore, the danger of a fire can be prevented by using an existing blower in the indoor unit without separately providing a refrigerant shut-off valve or the like in the indoor unit. As a result, an indoor unit of an air conditioner that can be manufactured at low cost and can reliably avoid the risk of fire can be obtained.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments.
[0020]
Drawing 1 is a mimetic diagram showing the indoor unit of the air harmony machine of one embodiment. This air conditioner indoor unit is a floor-mounted indoor unit having a heat exchange chamber 1 and a machine room 2. A heat exchanger 4 through which a flammable refrigerant flows is disposed in the heat exchange chamber 1. In the machine room 2, a refrigerant pipe 5 connected to the heat exchanger 4 and an electrical component box 7 in which electrical parts and the like for controlling the indoor unit are stored are arranged. A drain pan 8 for receiving and draining condensed water from the air generated in the heat exchanger 4 is disposed at the lower portion of the heat exchange chamber 1. The drain pan is disposed from the lower portion of the heat exchange chamber 1. It extends toward the lower part of the machine room 2. A sensor 10 that detects a flammable refrigerant is disposed below the machine room 2 and in the vicinity of the drain pan 8. The indoor unit includes a blower (not shown) that blows air to the heat exchanger 4, and the air that has been sent to the heat exchanger 4 and subjected to heat exchange is blown out from the air outlet 12. The sensor 10 and the blower are connected to a control device (not shown). Moreover, the refrigerant | coolant piping 5 connected to the said heat exchanger 4 goes out of an indoor unit through the machine room 2, and is connected to the outdoor unit arrange | positioned outdoors.
[0021]
In the indoor unit of the air conditioner having the above configuration, the combustible refrigerant may leak from the heat exchanger 4. Since the flammable refrigerant has a specific gravity greater than that of air, it flows downward even if it leaks from any position of the heat exchanger 4 and reaches the drain pan 8 disposed at the lower part of the heat exchange chamber 4. The refrigerant reaching the drain pan 8 is guided to the lower part of the machine chamber 2 through the drain pan 8. Then, the sensor 10 arranged in the vicinity of the drain pan 8 at the lower part of the machine room 2 detects the combustible refrigerant guided to the lower part of the machine room 2. The control device that has received the signal from the sensor 10 that has detected the flammable refrigerant activates the blower. This blower sends air to the heat exchanger 4 and blows out the refrigerant leaking from the heat exchanger 4 to the outside of the indoor unit from the blowout port 12. Thus, the combustible refrigerant leaking from the heat exchanger 4 is diffused to the outside of the indoor unit. As a result, it is possible to prevent the combustible refrigerant from staying inside the indoor unit and forming a combustible gas phase, thereby avoiding the risk of fire.
[0022]
Further, the combustible refrigerant may leak from the refrigerant pipe 5 of the machine room 2. Since the flammable refrigerant has a specific gravity greater than that of air, it flows into the lower part of the machine room 2 and is detected by the sensor 10 disposed in the vicinity of the drain pan 8 at the lower part of the machine room 2. If it does so, based on the signal from the sensor 10 which detected the refrigerant | coolant, the control apparatus which is not shown will start the said air blower. By this blower, the combustible refrigerant that has reached the vicinity of the drain pan 8 is blown out of the indoor unit through the outlet 12 and diffused to the outside of the indoor unit. Thus, even when a flammable refrigerant leaks from the refrigerant pipe 5, the indoor unit can avoid the risk of fire.
[0023]
Furthermore, a combustible refrigerant may leak from the refrigerant pipe 5 outside the indoor unit. Since the flammable refrigerant leaked outside the indoor unit has a specific gravity greater than that of air, it remains near the surface of the floor where the indoor unit is arranged. The refrigerant in the vicinity of the surface of the floor flows from the air outlet 12 of the indoor unit to the inside of the indoor unit, and is detected by the sensor 10 in the lower part of the machine room 2, that is, at a position close to the air outlet 12. If it does so, the control apparatus which is not illustrated will start the said air blower based on the signal from the said sensor 10, and will spread the combustible refrigerant | coolant which stayed around the indoor unit. In this way, even when flammable refrigerant leaks from the pipe refrigerant 5 outside the indoor unit, the indoor unit can avoid the risk of fire.
[0024]
As described above, the refrigerant 10 leaked in the heat exchange chamber 4 and the machine room 2 and the refrigerant leaked outside the indoor unit are reliably detected by the sensor 10 disposed near the drain pan 8. As a result, it is not necessary to arrange a plurality of sensors at different positions of the indoor unit as in the conventional case. Therefore, this air conditioner can be made inexpensive.
[0025]
Further, when the sensor 10 detects the leakage of the refrigerant, the control device activates the blower and diffuses the combustible refrigerant, so that it is possible to reliably avoid the occurrence of a fire due to the refrigerant leakage.
[0026]
The blower for diffusing the leaked refrigerant is an existing blower in the indoor unit, and there is no need to separately provide a shut-off valve or the like as in the prior art. As a result, it is possible to obtain an indoor unit of an air conditioner that is inexpensive to manufacture and can reliably avoid the danger of fire.
[0027]
FIG. 2A is a diagram showing the voltage from the sensor at the time of conducting an experiment for detecting leakage of refrigerant with a sensor for the indoor unit of the air conditioner of the embodiment and the indoor unit of the comparative example. It is. The indoor unit of the comparative example is different from the indoor unit of the above-described embodiment only in that the refrigerant sensor is disposed in the upper part of the machine room. The refrigerant leakage was set at two different positions, and the refrigerant leakage from each position was detected by the sensor in the embodiment and the sensor in the comparative example.
[0028]
FIG. 2B is a schematic diagram showing the position of the refrigerant sensor and the refrigerant leakage position in the indoor units of the embodiment and the comparative example. As for the position of the sensor, the upper part U of the machine room is the sensor position of the comparative example, and the drain pan vicinity D in the lower part of the machine room is the sensor position of the embodiment. The refrigerant leakage positions are the upper part A of the heat exchange chamber of the indoor unit and the vicinity B of the floor outside the indoor unit.
[0029]
The horizontal axis of Fig.2 (a) is the relative elapsed time after a refrigerant | coolant begins to leak, and a vertical axis | shaft is a relative voltage from a sensor. In FIG. 2A, the case where the refrigerant leaks in the upper part A of the heat exchange chamber of the indoor unit is indicated by a solid line, and the case where the refrigerant leaks near the floor B outside the indoor unit is indicated by a broken line.
[0030]
As can be seen from FIG. 2 (a), the present invention has a sensor in the vicinity of the drain pan D in the lower part of the machine room, as compared with a comparative example having a sensor in the upper part U of the machine room, for refrigerant leakage in the upper part A of the heat exchanger. In the embodiment, the leakage of the refrigerant is detected immediately after the refrigerant starts to leak. Further, regarding the leakage of the refrigerant in the vicinity of the floor B outside the indoor unit, the sensor of the comparative example detects the refrigerant leakage from a time earlier than the sensor of the embodiment of the present invention. Thereafter, the voltage of the sensor of the embodiment of the present invention is larger than that of the sensor of the comparative example. That is, the sensor of the embodiment of the present invention can detect the leakage of the refrigerant with higher accuracy. From this experimental result, as in the embodiment of the present invention, when the refrigerant sensor is arranged in the vicinity of the drain pan at the lower part of the machine room, the refrigerant leaks from the heat exchanger of the indoor unit, and around the outside of the indoor unit. It can be seen that any refrigerant leakage can be reliably detected.
[0031]
【The invention's effect】
As is clear from the above, according to the indoor unit of the air conditioner of the invention of claim 1, the heat exchange chamber in which the heat exchanger through which the flammable refrigerant flows is arranged, and the refrigerant pipe connected to the heat exchanger , A drain pan extending from the lower part of the heat exchange chamber toward the lower part of the machine room, and a sensor provided at the lower part of the machine room for detecting a flammable refrigerant, Since the specific gravity of the refrigerant is greater than that of air, the flammable refrigerant leaked from the heat exchanger is guided to the lower part of the machine room through the drain pan, and the flammable refrigerant leaked from the refrigerant pipe is introduced to the lower part of the machine room. The refrigerant that has been guided and leaked in either the heat exchanger or the refrigerant pipe can be detected by the one sensor. Further, the refrigerant that leaks outside the indoor unit and stays in the vicinity of the floor can also be detected by one sensor at the lower part of the machine room, for example, through the outlet of the indoor unit. As a result, since it is not necessary to arrange a plurality of sensors in the indoor unit as in the prior art, the manufacturing cost of the air conditioner can be reduced.
[0032]
According to the air conditioner indoor unit of claim 2, in the air conditioner indoor unit according to claim 1, the sensor is disposed in the vicinity of the drain pan of the machine room and leaks in the heat exchange chamber. Since both the refrigerant and the refrigerant leaked in the machine room reach the vicinity of the drain pan, the sensor can reliably detect the leakage of the refrigerant in the indoor unit.
[0033]
According to the indoor unit of the air conditioner according to claim 3, in the indoor unit of the air conditioner according to claim 1 or 2, the indoor unit of the air conditioner is a floor type, and the heat exchange chamber and the machine room, Since the sensor for detecting the leakage of the refrigerant around the indoor unit is provided, it is possible to reliably avoid the risk of fire in the floor-mounted indoor unit in which a fire due to the refrigerant leakage is likely to occur.
[0034]
According to the air conditioner indoor unit of claim 4, in the air conditioner indoor unit according to any one of claims 1 to 3, the sensor detects leakage of a flammable refrigerant in the air conditioner indoor unit. And a control device that activates the blower of the indoor unit. The control device activates the existing blower of the indoor unit to remove the flammable refrigerant that has leaked in and around the indoor unit. Therefore, it is possible to obtain an indoor unit of an air conditioner that is inexpensive and can reliably avoid a fire hazard.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an indoor unit of an air conditioner according to an embodiment of the present invention.
FIG. 2 (a) observes refrigerant leakage at the upper part A of the heat exchanger and the outer side B of the indoor unit by means of refrigerant sensors arranged in the upper part U of the machine room and the vicinity of the lower drain pan D. It is an experimental result, and is a diagram showing a change in voltage from each sensor after the refrigerant starts to leak, and FIG. 2B is a schematic diagram of the indoor unit showing the position of the sensor and the position where the refrigerant leaks FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Heat exchange chamber 2 Machine room 4 Heat exchanger 5 Refrigerant piping 7 Electrical component box 8 Drain pan 10 Sensor 12 Air outlet

Claims (4)

A heat exchange chamber (1) in which a heat exchanger (4) through which a combustible refrigerant flows is disposed;
A machine room (2) in which a refrigerant pipe (5) connected to the heat exchanger (4) is disposed;
A drain pan (8) extending from the lower part of the heat exchange chamber (1) toward the lower part of the machine room (2);
A sensor (10) provided at the lower part of the machine room (2) for detecting a flammable refrigerant ,
The indoor unit of an air conditioner , wherein the sensor (10) is a single sensor (10) disposed in the vicinity of the drain pan (8) of the machine room (2) . In the indoor unit of an air conditioner according to claim 1,
The indoor unit of an air conditioner is a floor-standing type indoor unit. In the indoor unit of the air conditioner according to claim 2,
A blower outlet (12) is provided below the drain pan (8),
The indoor unit of an air conditioner, wherein the sensor (10) is provided at a position close to the air outlet (12). In the indoor unit of the air conditioner according to any one of claims 1 to 3,
An air conditioner indoor unit comprising: a controller that activates a blower of the indoor unit when leakage of a flammable refrigerant from the indoor unit of the air conditioner is detected by the sensor (10).

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