JP2016023809A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To detect leakage of a refrigerant more securely in an air conditioner.SOLUTION: An indoor unit (12) placed on a floor is provided in a room. A wireless remote controller (40) which sends a control signal to the indoor unit (12) is provided. A storage part (50) which stores the wireless remote controller (40) is provided at the indoor unit (12). The wireless remote controller (40) includes a detection part (41) which detects a refrigerant in air and detects refrigerant leakage with the detection part (41) in a case where the refrigerant leaks from the indoor unit (12) when the wireless remote controller (40) is stored in the storage part (50).SELECTED DRAWING: Figure 7

Description

  The present invention relates to an air conditioner having a refrigerant leakage detection mechanism.

  In order to prevent global warming, an air conditioner using R32, which is a refrigerant having a low global warming potential, is known (see, for example, Patent Document 1). Since this R32 is weak but has combustibility, it is desirable to be able to detect it in the unlikely event that the refrigerant leaks from the air conditioner. As a technique for detecting the leaked refrigerant, there is an example in which a sensor for detecting the leaked refrigerant is provided in the wireless remote controller of the air conditioner (see, for example, Patent Document 2).

JP 2012-97638 A JP 2000-35267 A

  However, users tend to place the wireless remote controller in a location that is easy to use, and that location is not always suitable for refrigerant detection, and the user is suitable for detecting refrigerant. It is thought that there are many cases that do not know whether or not.

  The present invention has been made paying attention to the above problem, and an object thereof is to make it possible to more reliably detect refrigerant leakage in an air conditioner provided with a refrigerant leakage detection mechanism in a wireless remote controller. .

In order to solve the above problems, the first invention is
A refrigerant circuit (20) filled with refrigerant;
An indoor unit (12) having a heat exchanger (25) connected to the refrigerant circuit (20),
A wireless remote controller (40) for sending a control signal to the indoor unit (12),
The indoor unit (12) is provided with a housing part (50) for housing the wireless remote controller (40),
The wireless remote controller (40) includes a detection unit (41) for detecting refrigerant in the air, and when the refrigerant leaks in the indoor unit (12) while being stored in the storage unit (50). The refrigerant leakage is detected by the detection unit (41).

  In this configuration, the presence or absence of the leaking refrigerant is detected by the detection unit (41) of the wireless remote controller (40) accommodated in the accommodation unit (50).

In addition, the second invention,
In the first invention,
The refrigerant has a higher specific gravity than air,
The housing part (50) is provided below the air inlet (12b) of the indoor unit (12) or side by side with the air inlet (12b).

  In this configuration, the detection unit (41) detects the leaked refrigerant that has accumulated below the air suction port (12b).

In addition, the third invention,
In the first or second invention,
The accommodating portion (50) is an insertion hole formed in the casing (12a) of the indoor unit (12),
The insertion hole is connected to a space (S) in the casing (12a) in which the heat exchanger (25) is accommodated.

  In this configuration, the detection unit (41) detects the leaked refrigerant in the casing (12a) of the indoor unit (12).

In addition, the fourth invention is
In any one of the first to third inventions,
The wireless remote controller (40) includes a display unit (42) for displaying the detection of the refrigerant by the detection unit (41).

  In this configuration, when a refrigerant leaks, the information is notified to the user by the wireless remote controller (40).

  According to 1st invention, even if a user does not know the place suitable for a refrigerant | coolant detection by providing the accommodating part (50), a wireless remote controller (40) is a place suitable for the detection of a leaking refrigerant | coolant. Will be installed reliably.

  In general, when a thing is put away, if there is a predetermined place, the place tends to be fixed more easily than when nothing is set. For this reason, the provision of the accommodating portion (50) increases the probability that the wireless remote controller (40) is placed in a location suitable for detecting a leaked refrigerant.

  Therefore, in the present invention, when there is a refrigerant leak, it can be detected more reliably.

  Further, according to the second invention, it is possible to easily detect the leakage of the refrigerant having a specific gravity greater than that of air.

  Further, according to the third invention, the leakage refrigerant in the casing (12a) can be easily detected.

  Further, according to the fourth invention, when there is a leakage of the refrigerant, the user can easily know it.

FIG. 1 is a piping system diagram of an air-conditioning apparatus according to Embodiment 1 of the present invention. FIG. 2 is a perspective view of the indoor unit. FIG. 3 is a longitudinal sectional view of the indoor unit. FIG. 4 is a plan view of the wireless remote controller. FIG. 5 is a side view of the wireless remote controller. FIG. 6 is a rear view of the wireless remote controller. FIG. 7 is a cross-sectional view of the accommodating portion. FIG. 8 is a perspective view of an indoor unit according to the second embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The following embodiments are essentially preferable examples, and are not intended to limit the scope of the present invention, its application, or its use.

Embodiment 1 of the Invention
FIG. 1 is a piping diagram of an air conditioner (10) according to Embodiment 1 of the present invention. As shown in FIG. 1, the air conditioner (10) includes an outdoor unit (11), an indoor unit (12), an indoor control unit (31), an outdoor control unit (32), and a wireless remote controller (40). ing.

  In the air conditioner (10), the outdoor unit (11) and the indoor unit (12) are connected to each other via the liquid side connecting pipe (13) and the gas side connecting pipe (14). ), The refrigerant circuit (20) is formed by the indoor unit (12), the liquid side connecting pipe (13), and the gas side connecting pipe (14).

-Refrigerant circuit (20)-
The refrigerant circuit (20) is provided with a compressor (21), a four-way switching valve (22), an outdoor heat exchanger (23), an expansion valve (24), and an indoor heat exchanger (25).

  Various compressors can be adopted as the compressor (21). As an example, a scroll type compressor and a rotary type compressor are mentioned. The outdoor heat exchanger (23) and the indoor heat exchanger (25) are so-called cross fin type heat exchangers. The outdoor heat exchanger (23) exchanges heat between the outdoor air and the refrigerant, and the indoor heat exchanger (25) exchanges heat between the indoor air and the refrigerant. The expansion valve (24) is a so-called electronic expansion valve.

  The four-way selector valve (22) has first to fourth ports. The four-way switching valve (22) includes a first state (state indicated by a solid line in FIG. 1) in which the first port communicates with the third port and the second port communicates with the fourth port; It is possible to switch to a second state (state indicated by a broken line in FIG. 1) in which the port communicates with the fourth port and the second port communicates with the third port.

  In the refrigerant circuit (20), the compressor (21) has its discharge port connected to the first port of the four-way switching valve (22), and its suction port connected to the second port of the four-way switching valve (22). Each is connected. In the refrigerant circuit (20), the outdoor heat exchanger (23), the expansion valve (24), and the indoor heat exchanger are sequentially arranged from the third port to the fourth port of the four-way switching valve (22). (25) and are arranged. In the air conditioner (10), the cooling operation and the heating operation are switched by switching the four-way switching valve (22).

  The refrigerant circuit (20) is a closed circuit filled with a refrigerant. In this example, R32 is filled as the refrigerant. This refrigerant has a higher specific gravity than air. Moreover, although it is weak, it has combustibility.

-Outdoor unit (11)-
The outdoor unit (11) contains a compressor (21), a four-way switching valve (22), an outdoor heat exchanger (23), and an expansion valve (24). The outdoor unit (11) includes an outdoor fan (15) for supplying outdoor air to the outdoor heat exchanger (23).

-Indoor unit (12)-
The indoor unit (12) of this embodiment is placed on the floor in a room that performs air conditioning. FIG. 2 is a perspective view of the indoor unit (12). FIG. 3 is a longitudinal sectional view of the indoor unit (12). As shown in FIGS. 2 and 3, the indoor unit (12) includes a casing (12a) placed on the floor in the room. An indoor heat exchanger (25) is accommodated above the casing (12a). An air outlet (12c) is formed above the casing (12a) in the vicinity of the indoor heat exchanger (25), and indoor air is sucked below the casing (12a). An air inlet (12b) is provided. An indoor fan (16) for supplying room air to the indoor heat exchanger (25) is provided in the casing (12a). When the indoor fan (16) is activated, an air flow indicated by an arrow in FIG. 3 is formed.

  The casing (12a) is formed with a housing part (50) for housing the wireless remote controller (40). The accommodating part (50) will be described in detail later.

-Indoor control unit (31), outdoor control unit (32)-
The indoor control unit (31) is accommodated in the indoor unit (12), and the signal received from the wireless remote controller (40) or the detection value of a sensor (not shown) installed in the air conditioner (10) The indoor fan (16) and the like are controlled accordingly. The indoor control unit (31) is wired to the outdoor control unit (32) and exchanges signals with the outdoor control unit (32).

  The outdoor control unit (32) is housed in the outdoor unit (11), and receives signals received from the indoor control unit (31) and detection values of sensors (not shown) installed in the air conditioner (10). Accordingly, the compressor (21), the four-way switching valve (22), the expansion valve (24), and the outdoor fan (15) are controlled.

  The indoor control unit (31) and the outdoor control unit (32) are configured by a microcomputer and a memory storing a program for operating the microcomputer.

-Remote controller-
The wireless remote controller (40) sends a control signal to the indoor unit (12). The control signal is used, for example, to transmit to the indoor unit (12) commands for starting and stopping the air conditioner (10), changing the set temperature, and the like. This control signal is transmitted using, for example, infrared rays or radio waves.

  FIG. 4 is a plan view of the wireless remote controller (40). FIG. 5 is a side view of the wireless remote controller (40). FIG. 6 is a rear view of the wireless remote controller (40). As shown in FIG. 4, the wireless remote controller (40) includes a button for instructing operation and stop and a temperature setting button for setting temperature. Further, the wireless remote controller (40) includes a liquid crystal display panel (42) indicating a set temperature, a set air volume, and the like. The liquid crystal display panel (42) is an example of the display unit in the present invention. The wireless remote controller (40) is equipped with a battery (43) as shown by a broken line in FIG. Therefore, the wireless remote controller (40) operates regardless of whether the air conditioner (10) body is operating or stopped. For example, the liquid crystal display panel (42) can be operated to display information even when the main body of the air conditioner (10) is stopped.

  The wireless remote controller (40) includes a detection unit (41) for detecting a refrigerant in the air on one end side in the longitudinal direction, as indicated by a broken line in FIG. The detection unit (41) also uses the battery (43) as a power source. Therefore, the detection unit (41) operates regardless of whether the air conditioner (10) body is operating or stopped.

  In the present embodiment, the detection unit (41) includes a sensor (41a) and a signal processing unit (41b). The sensor (41a) detects a refrigerant in the air (R32 in this example). For the sensor (41a), for example, a ceramic semiconductor type sensor is employed. A ventilation hole (45) is formed in the casing (44) of the wireless remote controller (40), and air is introduced to the sensor (41a) through the ventilation hole (45). Thereby, when the refrigerant leaks in the indoor unit (12) while being accommodated in the accommodation unit (50), the wireless remote controller (40) detects the refrigerant leakage by the detection unit (41).

  The signal processing unit (41b) receives a signal from the sensor (41a) and notifies the liquid crystal display panel (42) of the information when the sensor (41a) detects the refrigerant. When the information from the signal processing unit (41b) indicates that the refrigerant is detected, the liquid crystal display panel (42) performs, for example, a character display such as “refrigerant detection”. Thereby, the user can know the leakage of the refrigerant.

  Note that the method of notifying the user of leakage is merely an example, and instead of the liquid crystal display panel (42), for example, a light emitting diode may be blinked to notify that the refrigerant has been detected.

-Housing part (50)-
FIG. 7 is a cross-sectional view of the accommodating portion (50). This figure shows a state in which the wireless remote controller (40) is accommodated. In this example, the accommodating portion (50) is an insertion hole for inserting the wireless remote controller (40) in the longitudinal direction. The accommodating part (50) is formed below the air inlet (12b) (see FIGS. 2 and 3). More specifically, the accommodating part (50) is provided below the lower end of the air inlet (12b) having a height in the vertical direction.

  Moreover, the hole (51) connected with the space (S) in a casing (12a) is formed in the back | inner side of an accommodating part (50), as shown in FIG. When the wireless remote controller (40) is inserted into the housing part (50) so that the vent hole (45) side is on the back side of the housing part (50), the wireless remote controller (40) is inserted into the space (S) through the hole (51). Air is introduced into the vent (45) of the wireless remote controller (40).

<Detection of leaked refrigerant>
If the refrigerant leaks from the indoor heat exchanger (25) or piping connected to it in the indoor unit (12) during the operation or stop of the air conditioner (10), the leaked refrigerant Is considered to once accumulate in the casing (12a) of the indoor unit (12).

  In particular, when the specific gravity of the refrigerant is larger than that of air, the leaked refrigerant is considered to stay in the space (S) below the air inlet (12b). For this reason, for example, assuming that the wireless remote controller (40) is placed above the air inlet (12b), the detection unit (41) moves away from the position where the refrigerant exists and leaks in the casing (12a). It is considered difficult to detect the refrigerant.

  However, in this embodiment, since the accommodating part (50) which accommodates the wireless remote controller (40) is provided below the air inlet (12b), the leaked refrigerant is located near the accommodating part (50). It will stay. Moreover, the accommodating part (50) is connected with the space (S) in the casing (12a) by the hole (51). Therefore, if the wireless remote controller (40) is accommodated in the accommodating part (50), the refrigerant in the space (S) is introduced into the sensor (41a) via the hole (51) and the vent hole (45). Is done.

  Therefore, the detection unit (41) can reliably detect the leaked refrigerant. When the refrigerant is detected, the signal processing unit (41b) of the detection unit (41) displays information (such as text information indicating that the refrigerant has been detected) on the liquid crystal display panel (42). In response, the liquid crystal display panel (42) displays the notified information. Thereby, the user can know the leakage of the refrigerant.

<Effect in this embodiment>
For example, in an air conditioner of the type in which an indoor unit is attached above the wall, if the specific gravity of the refrigerant is greater than that of air, it is difficult for the refrigerant to stay in the indoor unit even if the refrigerant leaks. The significance of detection is poor. However, in the indoor unit (12) of the type that is placed on the floor as in this embodiment, if the specific gravity of the refrigerant is greater than that of air, the leaked refrigerant is considered to once stay in the casing (12a). That is, in the indoor unit (12) of the floor type, it can be said that the significance of detecting the refrigerant in the casing (12a) is great.

  In this regard, in the present embodiment, the housing part (50) is provided at a position where the leaked refrigerant is likely to stay in the indoor unit (12) (more specifically, below the air suction port (12b)), and the housing part (50 ) Is equipped with a wireless remote controller (40) having a refrigerant detection unit (41). Therefore, in the present embodiment, it is possible to reliably detect the presence or absence of refrigerant leakage.

  In addition, even if the user does not know the location suitable for detecting leaked refrigerant, the wireless remote controller (40) can be securely placed in a location suitable for detecting leaked refrigerant by providing a housing (50). Can do.

  In general, when a thing is put away, if there is a predetermined place, the place tends to be fixed more easily than when nothing is set. For this reason, the provision of the accommodating portion (50) increases the probability that the wireless remote controller (40) is placed in a location suitable for detecting the leaked refrigerant.

  Moreover, since the detector (41) and the liquid crystal display panel (42) of the wireless remote controller (40) are powered by the battery (43), the air conditioner (10) is not only operating but also being stopped. Can operate. Therefore, even if the air conditioner (10) main body is stopped, the detection unit (41) can determine the presence or absence of the leaked refrigerant and notify the user of the result. That is, it is possible to monitor the presence or absence of refrigerant leakage even when the main body of the air conditioner (10) is not energized.

  As described above, in the present embodiment, when refrigerant leaks, it can be detected more reliably.

<< Embodiment 2 of the Invention >>
According to said wireless remote controller (40), it is also possible to detect the refrigerant leaking into the room. FIG. 8 is a perspective view of the indoor unit (12) according to the second embodiment of the present invention. As shown in FIG. 8, the accommodating part (50) of this embodiment has a box-shaped form, and is provided in the side surface of the casing (12a). More specifically, the accommodating part (50) is provided side by side with the air suction port (12b), and its arrangement height is slightly above the lower end of the air suction port (12b). The housing part (50) is provided with a vent hole on the side or bottom surface of the housing part (50) so that the air hole (45) of the wireless remote controller (40) can take in indoor air, or the wireless remote controller (40 The wireless remote controller (40) can be inserted only when the vent hole (45) of () is on the upper side.

<Detection of leaked refrigerant>
If the refrigerant leaks in the indoor unit (12) while the air conditioner (10) is stopped, the refrigerant has a higher specific gravity than air, so once in the casing (12a) It is considered that the air stays in the space (S) below the air inlet (12b) and then leaks into the room through the air inlet (12b). And the refrigerant | coolant which flowed out from the air inlet (12b) accumulates gradually toward the upper direction from the downward direction around the indoor unit (12).

  In the present embodiment, the housing part (50) for housing the wireless remote controller (40) is provided on the side surface of the casing (12a), and the arrangement height is slightly above the lower end of the air inlet (12b). . Therefore, when the amount of refrigerant leakage exceeds a certain level, the refrigerant staying around the casing (12a) reaches the housing part (50). Therefore, if the wireless remote controller (40) is accommodated in the accommodating portion (50), the leaked refrigerant is detected by the detecting portion (41). When the leaked refrigerant is detected, the information (such as text information indicating that the refrigerant has been detected) is displayed on the liquid crystal display panel (42). Thereby, the user can know the leakage of the refrigerant.

  As described above, in the present embodiment, when there is a refrigerant leak in the room, it can be detected more reliably.

<< Other Embodiments >>
In addition, the technique demonstrated by the said embodiment is applicable even if it is refrigerant | coolants other than R32.

  Further, when the wireless remote controller (40) detects the leaked refrigerant, the user may be prohibited from starting the main body of the air conditioner (10).

  In addition, the detection unit (41) is activated when the user instructs the activation of the air conditioner (10) with the wireless remote controller (40), or is periodically activated with a timer, thereby leaking refrigerant. You may make it detect the presence or absence of.

  Moreover, the structure of the accommodating part (50) is an illustration, and if it is a form which can hold | maintain a wireless remote controller (40), it will not be limited to said example.

  The present invention is useful as an air conditioner having a refrigerant leakage detection mechanism.

DESCRIPTION OF SYMBOLS 10 Air conditioning apparatus 12 Indoor unit 12a Casing 12b Air inlet 20 Refrigerant circuit 25 Indoor heat exchanger (heat exchanger)
40 Wireless remote controller 41 Detector 42 Liquid crystal display panel (display)
50 containment

Claims (4)

A refrigerant circuit (20) filled with refrigerant;
An indoor unit (12) having a heat exchanger (25) connected to the refrigerant circuit (20),
A wireless remote controller (40) for sending a control signal to the indoor unit (12),
The indoor unit (12) is provided with a housing part (50) for housing the wireless remote controller (40),
The wireless remote controller (40) includes a detection unit (41) for detecting refrigerant in the air, and when the refrigerant leaks in the indoor unit (12) while being stored in the storage unit (50). An air conditioner that detects refrigerant leakage by the detection unit (41). In claim 1,
The refrigerant has a higher specific gravity than air,
The air conditioner characterized in that the housing part (50) is provided below the air suction port (12b) of the indoor unit (12) or alongside the air suction port (12b). In claim 1 or claim 2,
The accommodating portion (50) is an insertion hole formed in the casing (12a) of the indoor unit (12),
The air conditioner characterized in that the insertion hole is connected to a space (S) in the casing (12a) in which the heat exchanger (25) is accommodated. In any one of Claims 1-3,
The wireless remote controller (40) includes an indicator (42) for displaying refrigerant detection by the detector (41).

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