JP4599699B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner, and more particularly to an air conditioner using a flammable refrigerant (including a slightly flammable refrigerant; the same applies throughout this specification).
[0002]
[Background Art and Problems to be Solved by the Invention]
In recent years, an air conditioner using a combustible refrigerant such as R32 has been proposed as an alternative refrigerant to replace R22. In an air conditioner that uses this type of flammable refrigerant, the flammable refrigerant leaks to the outside from the refrigerant piping (connecting piping) connected to the indoor unit or to the indoor unit, causing a fire, oxygen deficiency, or thermal decomposition. There is concern about accidents that generate toxic gases (hereinafter referred to as “fire accidents”).
[0003]
However, in the conventional air conditioner, it cannot be said that sufficient measures are taken when the combustible refrigerant leaks.
[0004]
Accordingly, an object of the present invention is to provide an air conditioner that can prevent an accident such as a fire even when a flammable refrigerant leaks.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, an air conditioner according to claim 1 includes an indoor unit in which a heat exchanger and a fan are housed in a casing having a suction port and an air outlet, and the heat exchanger is flammable during operation. The fan is rotated while flowing the refrigerant, the heat exchange between the air taken into the casing through the suction port and the combustible refrigerant is performed by the heat exchanger, and the air after the heat exchange is transferred to the outlet In the air conditioner that blows into the room through, a control unit that includes a sensor for detecting the flammable refrigerant gas on the outer surface of the casing and that controls the rotation of the fan when the sensor detects the flammable refrigerant gas equipped with a,
The indoor unit is a floor type,
The sensor is provided in a lower part of the indoor unit .
[0006]
In the air conditioner according to the first aspect, since the sensor for detecting the combustible refrigerant gas is provided on the outer surface of the casing of the indoor unit, the combustible refrigerant is introduced into the room from the refrigerant pipe (connecting pipe) connected to the indoor unit. When the refrigerant leaks, or when the combustible refrigerant leaked inside the indoor unit flows out of the indoor unit through the gap in the casing, the leaked and gasified refrigerant can be detected by the sensor. And when the said sensor detects combustible refrigerant | coolant gas, a control part performs control which rotates the said fan. Thus, the combustible refrigerant gas is diffused to below the lower combustion limit concentration by the flow of air generated by the rotation of the fan, that is, the flow of air taken into the casing through the suction port and blown into the room through the blowout port. can do. As a result, accidents such as fire can be prevented.
[0007]
A combustible refrigerant such as R32 has a property of being heavier than air. Therefore, when the indoor unit is placed on the floor, the combustible refrigerant leaked into the room from the refrigerant pipe (communication pipe) connected to the indoor unit or leaked inside the indoor unit to the outside of the indoor unit through the gap in the casing. The flammable refrigerant that has flowed out tends to accumulate on the indoor floor. Here, in the air conditioner according to the first aspect , since the sensor is provided in the lower part of the indoor unit, the combustible refrigerant gas accumulated on the indoor floor can be reliably detected by the sensor. Further, when the sensor detects the flammable refrigerant gas, the control unit performs control to rotate the fan, so that the air flow generated by the rotation of the fan, that is, taken into the casing through the suction port and the blowout port. The combustible refrigerant gas accumulated on the floor in the room can be effectively diffused by the flow of air blown into the room through the air, and the concentration can be made lower than the lower limit concentration of combustion. Therefore, accidents such as fire can be reliably prevented.
[0008]
Further, the fan is originally installed in the indoor unit, and the hardware constituting the control unit can be made common with that originally installed for operating the air conditioner. Therefore, when the present invention is applied to a general air conditioner, there is no particular cost increase.
[0009]
The air conditioner according to claim 2 includes an indoor unit in which a heat exchanger and a fan are housed in a casing having a suction port and a blowout port, and the fan is operated while flowing a flammable refrigerant through the heat exchanger during operation. An air conditioner that rotates and performs heat exchange between the air taken into the casing through the suction port and the flammable refrigerant by the heat exchanger, and blows the air after heat exchange into the room through the air outlet In addition, a sensor for detecting the combustible refrigerant gas is provided on the outer surface of the casing, and a control unit that performs control to rotate the fan when the sensor detects the combustible refrigerant gas . A combustible refrigerant gas that is disposed in an opening at a lower portion of the casing of the indoor unit and leaks to the outside and the inside of the indoor unit is detected.
[0010]
As described above, combustible refrigerants such as R32 have the property of being heavier than air. Therefore, the combustible refrigerant leaking inside the indoor unit tends to accumulate in the lower part of the indoor unit. Here, in the air conditioner according to claim 2 , the sensor is arranged on an outer surface of the casing of the indoor unit and in an opening of a lower portion of the casing of the indoor unit , and is arranged outside and inside the indoor unit. Since the combustible refrigerant gas leaked into the indoor unit is detected, not only the combustible refrigerant gas leaked to the outside of the indoor unit but also the combustible refrigerant gas leaked inside the indoor unit can be reliably detected by the sensor. Further, when the sensor detects the flammable refrigerant gas, the control unit performs control to rotate the fan, so that the air flow generated by the rotation of the fan, that is, taken into the casing through the suction port and the blowout port. The flammable refrigerant gas leaked inside the indoor unit can be effectively diffused by the flow of air blown into the room through the interior, so that the concentration is below the lower limit of combustion. Therefore, accidents such as fire can be reliably prevented.
[0011]
Further, the fan is originally installed in the indoor unit, and the hardware constituting the control unit can be made common with that originally installed for operating the air conditioner. Therefore, when the present invention is applied to a general air conditioner, there is no particular cost increase.
[0012]
An air conditioner according to claim 3 is the air conditioner according to any one of claims 1 and 2 , further comprising means for issuing an alarm when the sensor detects a combustible refrigerant gas. And
[0013]
In the air conditioner of the third aspect, it issues an alarm when the sensor detects a flammable refrigerant gas. Therefore, the user can know that the flammable refrigerant has leaked, and can take measures such as ventilating the room or calling a service person for repair.
[0014]
The air conditioner according to claim 4 is the air conditioner according to any one of claims 1 to 3 , wherein when the sensor detects a flammable refrigerant gas, the control unit Control for stopping the operation of the refrigerant circuit is performed.
[0015]
In the air conditioner of the fourth aspect, when the sensor detects a flammable refrigerant gas, the control unit performs control to stop the operation of the refrigerant circuit of the air conditioner. Accordingly, the refrigerant circuit is blocked by the valve existing on the refrigerant circuit, and the leakage of the combustible refrigerant is suppressed. Note that the combustible refrigerant remaining in the refrigerant pipe flows out to some extent from the problematic leak location, but is no longer pressurized, so the outflow amount is reduced.
[0016]
The air conditioner according to claim 5 is the air conditioner according to any one of claims 1 to 4 , wherein the combustible refrigerant is a mixed refrigerant containing 70 weight percent or more of R32 or R32, propane or It is a mixed refrigerant containing propane.
[0017]
A mixed refrigerant containing R32 or R32 in an amount of 70% by weight or more, or a mixed refrigerant containing propane or propane is considered promising as an alternative refrigerant to replace R22. In the air conditioner according to claim 5 , when a mixed refrigerant containing 70% by weight or more of R32 or R32, or a mixed refrigerant containing propane or propane, which is regarded as a promising alternative refrigerant instead of R22, leaks, etc. Can prevent accidents.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the air conditioner of this invention is demonstrated in detail by embodiment of illustration.
[0019]
Drawing 1 shows the place which looked at indoor unit 1 of the air harmony machine of one embodiment from the front, omitting the front panel. FIG. 2 shows the indoor unit 1 as viewed from the right side with the casing 2 partially broken. The indoor unit 1 is a floor-standing type, includes a substantially rectangular parallelepiped casing 2, and is placed on a floor 101 of the room 100.
[0020]
As can be seen from FIG. 2, in the casing 2 of the indoor unit 1, a heat exchanger 3 having a substantially rectangular parallelepiped shape is provided on the front side, and a fan 7 is provided behind the heat exchanger 3. A drain pan 4 for receiving dew generated on the surface of the fins of the heat exchanger 3 is provided immediately below the heat exchanger 3. Further, an outlet 5 for blowing out air is provided immediately below the drain pan 4.
[0021]
As shown in FIG. 1, a pair of connecting pipes 10 for circulating a refrigerant between an outdoor unit (not shown) and the indoor unit 1 pass through holes 31 provided in the lower part of the left side plate 2 a of the casing 2. It is introduced inside the indoor unit 1. The communication pipe 10 is connected to the heat transfer tube 6 of the heat exchanger 3 although not shown. In this air conditioner, a flammable refrigerant composed of R32 is adopted as the refrigerant.
[0022]
In the lower part of the right side plate 2b of the casing 2 of the indoor unit 1, a hole 30 that penetrates the casing 2 in and out is provided as an opening. The hole 30 accommodates a gas sensor 11 for detecting a combustible refrigerant gas such as R32. The gas sensor 11 faces both the outside and the inside of the casing 2 and can detect the combustible refrigerant gas leaked to the outside and the inside of the indoor unit 1.
[0023]
In the casing 2 of the indoor unit 1, a control unit 9 is installed in the upper space adjacent to the right side of the heat exchanger 3 to control the operation of the entire air conditioner. An alarm device 12 is provided in the space below the control unit 9 for issuing an alarm when an abnormality occurs such as when a flammable refrigerant leaks. This alarm device 12 is provided with a lamp (a light emitting diode) made of LED (light emitting diode) (visible to the occupant through a front panel not shown) and a buzzer to notify the occupant of the occurrence of abnormality through vision and hearing. Contains.
[0024]
The controller 9 is backed up by a storage battery (not shown), and even when the operation of the air conditioner is stopped (when the power switch is off), the gas sensor 11 detects the combustible refrigerant gas and controls the alarm device 12. It can be carried out.
[0025]
During the operation of the air conditioner, the combustible refrigerant is sent from the outdoor unit to the inside of the indoor unit 1 through one of the connecting pipes 10 and flows through the heat transfer pipe 6 of the heat exchanger 3 under the control of the control unit 9. It goes out of the indoor unit 1 and is returned to the outdoor unit through the other side of the connecting pipe 10. At the same time, the fan 7 shown in FIG. 2 is rotated. Thereby, the air in the room 100 is sucked into the casing 2 through the grill (suction port) of the front panel, and exchanges heat with the combustible refrigerant through the fins of the heat exchanger 3. The air after heat exchange flows downward through the gap between the fan 7 and the back plate 2 c of the casing 2, and is blown out into the room 100 through the blowout port 5.
[0026]
Now, in this air conditioner, the gas sensor 11 for detecting flammable refrigerant gas facing both the inside and outside of the casing 2 is provided below the right side plate 2b of the casing 2 of the indoor unit 1. Therefore, when the combustible refrigerant leaks from the communication pipe 10 to the room 100 or when the combustible refrigerant leaked inside the indoor unit 1 flows out of the indoor unit 1 through the gap of the casing 2, it leaks and gasifies. The refrigerant can be detected by the gas sensor 11.
[0027]
That is, combustible refrigerants such as R32 have a property that they are heavier than air. Therefore, the flammable refrigerant that has leaked from the communication pipe 10 into the room 100 or the flammable refrigerant that has leaked inside the indoor unit 1 and has flowed out of the indoor unit 1 through the gap in the casing 2 tends to accumulate on the floor 101 of the room 100. There is. Here, since the gas sensor 11 is provided in the lower part of the casing 2 and faces the outside of the casing 2, the combustible refrigerant gas accumulated on the floor 101 of the room 100 can be reliably detected by the gas sensor 11. The communication pipe 10 extends to the left from the indoor unit 1, but the flammable refrigerant leaked from the communication pipe 10 quickly diffuses through the floor 101 of the room 100, and the right side plate 2 b of the indoor unit 1. It reaches the place of the gas sensor 11 provided in.
[0028]
Further, the flammable refrigerant leaked inside the indoor unit 1 tends to accumulate in the lower part of the indoor unit 1. For example, in FIG. 1, the combustible refrigerant leaking from the heat transfer tube connection point X in the upper left part of the heat exchanger 3 descends downward, reaches the left end of the drain pan 4, moves to the right on the drain pan 4, and 4 falls from the right end of 4 and reaches the vicinity of the gas sensor 11. Here, since the gas sensor 11 is provided in the lower part of the casing 2 and faces not only the outside of the casing 2 but also the inside, not only the combustible refrigerant gas leaked to the outside of the indoor unit 1 but also The combustible refrigerant gas leaked inside the indoor unit 1 can be reliably detected by the gas sensor 11.
[0029]
FIG. 3 shows an output (sensor detection voltage) of the gas sensor 11 according to a change in the refrigerant concentration C when an inflammable refrigerant is leaked from the heat transfer tube connection point X at the upper left of the heat exchanger 3 experimentally for a certain period. ) Changes in Vout are shown as time elapses from the start of leakage. In FIG. 3, C ₀ indicates a change in the refrigerant concentration when the fan 7 is maintained in the stopped state during the experiment. On the other hand, C ₁ indicates the change in refrigerant concentration when the fan 7 is rotated simultaneously with the start of leakage and the rotation is maintained. Change of the sensor detection voltage Vout shown are those corresponding to the former C _0. From this result, it is understood that when the flammable refrigerant leaks, if the fan 7 is immediately rotated, the refrigerant concentration C can be maintained below the lower combustion limit concentration C _CL . Incidentally, the reference value Vref shown in FIG. 3, corresponds to the value indicated by the sensor detection voltage Vout when the concentration C of the flammable refrigerant gas becomes the reference concentration C _LL below the combustion limit concentration C _CL. This reference density _CLL is set as low as possible within a range that can be distinguished from noise.
[0030]
As shown in FIG. 4, the control unit 9 always detects the refrigerant concentration C by the gas sensor 11 (S1), and determines whether or not the sensor detection voltage Vout is equal to or higher than the reference value Vref (S2). If the sensor detection voltage Vout is below the reference value Vref, it is determined that the combustible refrigerant has not leaked, and the refrigerant concentration detection by the gas sensor 11 is continued. On the other hand, if the sensor detection voltage Vout is equal to or higher than the reference value Vref, it is determined that the flammable refrigerant has leaked, and an alarm is immediately issued by the alarm device 12 (S3). Specifically, the LED lamp is blinked and a buzzer is sounded to inform the occupant that the flammable refrigerant has leaked through vision and hearing. Thereby, the user can know that the flammable refrigerant has leaked, and can take measures such as ventilating the room 100 or calling a service person for repair. Moreover, if the control part 9 judges that the combustible refrigerant | coolant leaked, it will perform control which immediately rotates the fan 7 and stops the driving | operation of a refrigerant circuit (S4). By rotating the fan 7, the flow of air generated by the rotation of the fan 7, that is, the flow of air taken into the casing 2 through the front grille and blown into the room 100 through the blowout port 5, is connected from the communication pipe 10 to the room 100. The flammable refrigerant leaked, the flammable refrigerant leaked inside the indoor unit 1, and the gas of the flammable refrigerant leaking inside the indoor unit 1 and flowing out of the indoor unit 1 through the gap of the casing 2 are effectively used. It can be diffused to below the lower limit of combustion concentration. As a result, accidents such as fire can be prevented. In addition, by controlling to stop the operation of the refrigerant circuit, even when the air conditioner is in operation, the refrigerant circuit can be immediately shut off by a valve present on the refrigerant circuit, and a large amount of combustible refrigerant leaks. Can be suppressed. As a result, accidents such as fire can be reliably prevented.
[0031]
In this embodiment, the gas sensor 11 for detecting the combustible refrigerant gas facing both the outside and the inside of the casing 2 is provided below the right side plate 2b of the casing 2 of the indoor unit 1. The gas sensor 11 can always detect the combustible refrigerant gas leaked from the indoor unit 1 and its surroundings. Therefore, in order to prevent accidents such as a fire, a single gas sensor for detecting the flammable refrigerant gas can be used for the indoor unit 1, and an increase in cost can be suppressed.
[0032]
The fan 7 and the control unit (hardware constituting the fan 9) are originally installed in the indoor unit 1. Therefore, when the present invention is applied to a general air conditioner, no particular cost increase occurs.
[0033]
In this embodiment, the combustible refrigerant is made of R32. However, the present invention is not limited to this. The present invention can be widely applied to an air conditioner using a combustible refrigerant such as a mixed refrigerant containing R32 by 70 weight percent or more, or a mixed refrigerant containing propane or propane.
[0034]
【The invention's effect】
As is clear from the above, in the air conditioner according to claims 1 to 5 , even when the combustible refrigerant leaks, the leaked combustible refrigerant can be detected by the sensor. Therefore, accidents such as fire can be prevented.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing an indoor unit of an air conditioner according to an embodiment of the present invention as viewed from the front without a front panel.
FIG. 2 is a diagram showing the indoor unit as viewed from the right side with a casing partially broken.
FIG. 3 is a diagram showing a change in sensor detection voltage Vout accompanying a change in refrigerant concentration C as time elapses from the start of leakage.
FIG. 4 is a diagram illustrating a control flow by a control unit of the air conditioner.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Indoor unit 2 Casing 9 Control part 10 Connection piping 11 Gas sensor

Claims (5)

The casing (2) having the inlet and the outlet (5) is provided with an indoor unit (1) containing a heat exchanger (3) and a fan (7), and the heat exchanger (3) is flammable during operation. The fan (7) is rotated while flowing the refrigerant, and heat exchange between the air taken into the casing (2) through the suction port and the combustible refrigerant is performed by the heat exchanger (3), In the air conditioner that blows air after heat exchange into the room through the air outlet (5),
A sensor (11) for detecting a combustible refrigerant gas is provided on the outer surface of the casing (2),
A controller (9) for controlling the rotation of the fan (7) when the sensor (11) detects a flammable refrigerant gas ;
The indoor unit (1) is a floor type,
The air conditioner characterized in that the sensor (11) is provided in a lower part of the indoor unit (1) . The casing (2) having the inlet and the outlet (5) is provided with an indoor unit (1) containing a heat exchanger (3) and a fan (7), and the heat exchanger (3) is flammable during operation. The fan (7) is rotated while flowing the refrigerant, and heat exchange between the air taken into the casing (2) through the suction port and the combustible refrigerant is performed by the heat exchanger (3), In the air conditioner that blows air after heat exchange into the room through the air outlet (5) ,
A sensor (11) for detecting a combustible refrigerant gas is provided on the outer surface of the casing (2),
A controller (9) for controlling the rotation of the fan (7) when the sensor (11) detects a flammable refrigerant gas;
The sensor (11) is disposed in the opening (30) at the lower part of the casing of the indoor unit (1), and detects the combustible refrigerant gas leaked to the outside and the inside of the indoor unit (1). Air conditioner. In the air conditioner according to claim 1 or 2 ,
An air conditioner comprising means (12, 9) for issuing an alarm when the sensor (11) detects a flammable refrigerant gas. The air conditioner according to any one of claims 1 to 3 ,
When the said sensor (11) detects combustible refrigerant | coolant gas, the said control part (9) performs control which stops the driving | operation of the refrigerant circuit of this air conditioner, The air conditioner characterized by the above-mentioned. The air conditioner according to any one of claims 1 to 4 ,
The combustible refrigerant is an air conditioner characterized in that it is R32 or a mixed refrigerant containing R32 or more than 70 weight percent, or propane or a mixed refrigerant containing propane.

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