JP2017053509A - Air conditioning system and warning notification method of air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To notify not only a room where refrigerant leakage is detected but also a user present in another room of the refrigerant leakage, in a case of detecting the refrigerant leakage.SOLUTION: An air conditioning system 1 to which an outdoor machine 2 and a plurality of indoor machine 3a, 3b constituting a refrigeration cycle can be connected in a communicable manner, includes: refrigerant sensors 71a, 71b, 72a, 72b configured to detect leakage of refrigerant from the refrigeration cycle; a display unit configured to notify that the refrigerant sensors 71a, 71b, 72a, 72b have detected leakage of refrigerant; and remote controller 4a, 4b respectively provided correspondingly to the indoor machine 3a, 3b. The display unit configured to notify a user of leakage of refrigerant is provided in the respective indoor machines 3a, 3b or the respective remote controllers 4a, 4b.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an air conditioning system including a refrigerant leakage detection unit and a warning notification method for the air conditioning system.

  Conventionally, a method as disclosed in Patent Document 1 is known for an indoor unit that reports refrigerant leakage. In paragraph 0017 of Patent Document 1, “When the sensor S detects refrigerant leakage and the indoor unit 1 is in operation in S2, an infrared signal indicating refrigerant leakage is transmitted from the transmitter 7 of the remote controller 2 of the present invention. Is transmitted and received by the receiving unit 9 of the indoor unit 1, the determination device 24 determines that the refrigerant is leaking, and the output relay circuit 27 blinks the refrigerant leak warning device 28 composed of LEDs, and the user is notified of the refrigerant leak. In addition to being warned of danger, in S5, the power shut-off device 29 is operated by the output relay circuit 27 and the power supply to the refrigeration apparatus including the indoor unit 1 is cut off. "

JP 2000-35267 A

In the method described in Patent Document 1, it is possible to notify the user who is in the room where the remote controller / indoor unit in which the refrigerant leakage is detected to the refrigerant leakage, but for the user in another room in the building, The refrigerant leak cannot be notified.
The leakage of the refrigerant should be detected and dealt with early, and it is necessary to notify the user who is located in a room other than the room where the refrigerant is leaking.

  This invention makes it a subject to alert | report a refrigerant | coolant leak rapidly not only to the room which detected this refrigerant | coolant leak but also to the user of another room, when a refrigerant | coolant leak is detected.

In order to solve the above-described problem, an air conditioning system of the present invention is an air conditioning system in which an outdoor unit and a plurality of indoor units constituting a single refrigeration cycle are communicably connected. Leak detection means for detecting the leakage of the refrigerant, notification means for notifying that the leakage detection means has detected the leakage of the refrigerant, and a plurality of remote controllers provided corresponding to the indoor units. Each said alerting | reporting means is provided in each said indoor unit or each said remote control, It is characterized by the above-mentioned.
Other means will be described in the embodiment for carrying out the invention.

  According to the present invention, when refrigerant leakage is detected, it is possible to promptly notify the refrigerant leakage not only to the room where the refrigerant leakage is detected but also to users in other rooms.

It is a lineblock diagram of the air harmony system in a 1st embodiment. It is a sequence diagram concerning the warning of an air conditioning system. It is an external view of the remote control provided with the alerting | reporting means of a refrigerant | coolant leak. It is a bottom view of the indoor unit provided with the alerting | reporting means of a refrigerant | coolant leak. It is a mode transition diagram of an air conditioning system. It is a block diagram of the air conditioning system in 2nd Embodiment. It is a sequence diagram concerning the warning of an air conditioning system. It is an external view of the centralized control apparatus provided with the refrigerant | coolant leak notification means.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings.
FIG. 1 is an air conditioning system configuration diagram of the first embodiment.
The air conditioning system 1 has a refrigeration cycle in which an outdoor unit 2 and a plurality (two in FIG. 1) of indoor units 3 a and 3 b are connected by a refrigerant pipe 63. Although not shown in detail, the outdoor unit 2 includes a compressor that compresses the refrigerant and an outdoor heat exchanger that exchanges heat between the refrigerant and the outside air. Although not shown in detail, each indoor unit 3a, 3b includes an indoor heat exchanger that exchanges heat between the indoor air and the refrigerant, and a blower that blows the heat-exchanged air into the room.

  The outdoor unit 2 and the indoor units 3a and 3b are communicably connected by an outdoor communication wiring 61. Indoor units 3a and 3b are connected to remote controllers 4a and 4b via remote control communication wires 62a and 62b, respectively. The indoor unit 3a and the remote controller 4a are installed in the living room 5a. The indoor unit 3b and the remote controller 4b are installed in the living room 5b.

Refrigerant sensors 71a and 71b that detect refrigerant leakage are provided in the indoor units 3a and 3b, respectively. The refrigerant sensors 72a and 72b are provided on the remote controllers 4a and 4b, respectively. In the first embodiment, the refrigerant sensors 71a, 71b, 72a, 72b are provided in both the indoor units 3a, 3b and the remote controllers 4a, 4b, but may be provided in only one of them.
Hereinafter, when the indoor units 3a and 3b are not particularly distinguished, they are simply referred to as the indoor unit 3. When the remote control communication wires 62a and 62b are not particularly distinguished, they are simply referred to as remote control communication wires 62. When the remote controllers 4a and 4b are not particularly distinguished, they are simply referred to as the remote controller 4. When the refrigerant sensors 71a and 71b are not particularly distinguished, they are simply referred to as the refrigerant sensor 71. When the refrigerant sensors 72a and 72b are not particularly distinguished, they are simply referred to as the refrigerant sensor 72.

Below, the operation example when refrigerant | coolant leakage generate | occur | produces in the living room 5a is demonstrated.
FIG. 2 is a sequence diagram related to the warning of the air conditioning system 1.
In FIG. 2, a description will first be given of a mode in which the refrigerant sensor 71a is provided in the indoor unit 3a.
When the refrigerant sensor 71a detects refrigerant leakage (sequence Q10), the indoor unit 3a transmits refrigerant leakage detection information to the connected remote controller 4a and the outdoor unit 2 (sequences Q11 and Q13). Thereby, the remote controller 4a that has received the refrigerant leakage detection information from the indoor unit 3a displays a refrigerant leakage alarm on the display unit 41 (see FIG. 3) (sequence Q12).
The outdoor unit 2 that has received the refrigerant leak detection information from the indoor unit 3a simultaneously transmits the refrigerant leak detection information to the connected indoor units 3a and 3b (sequences Q14 and Q15).
The indoor unit 3b that has received the refrigerant leak detection information from the outdoor unit 2 transmits the refrigerant leak detection information to the connected remote controller 4b (sequence Q16).
The remote controller 4b that has received the refrigerant leakage detection information from the indoor unit 3b displays a refrigerant leakage alarm on the display unit 41 (see FIG. 3) (sequence Q17). Thereby, the refrigerant | coolant leak in the living room 5a can be alert | reported rapidly to the user who exists in the living room 5b. The user in the living room 5b can grasp the state of refrigerant leakage in the living room 5a in detail and can quickly contact a service center or the like.

Next, the refrigerant | coolant sensor 72a is demonstrated in the form provided in the remote control 4a.
When the refrigerant sensor 72a detects refrigerant leakage (sequence Q10a), the remote controller 4a transmits refrigerant leakage detection information to the connected indoor unit 3a (sequence Q11a) and the display unit 41 (see FIG. 3). Display a refrigerant leakage warning (sequence Q12).
The indoor unit 3a that has received the refrigerant leak detection information from the remote controller 4a transmits the refrigerant leak detection information to the connected outdoor unit 2 (sequence Q13). The subsequent operation is the same as the operation example in which the refrigerant sensor 71 is provided in the indoor unit 3. Thereby, the user can be notified of the refrigerant leakage by all the remote controllers 4 in the refrigerant system where the refrigerant leakage has occurred.

FIG. 3 is an example of the remote controller 4 provided with a refrigerant leak notification means.
The remote controller 4 includes a display unit 41 that displays an operation state, an operation / stop button 42, and an operation unit 43 that can operate temperature, humidity, and the like using a cross button.
When receiving the refrigerant leak detection information from the indoor unit 3, the remote controller 4 displays a refrigerant leak warning message 411 on the display unit 41. Here, the refrigerant leak warning message 411 displays the name of the room “Conference Room A” where the refrigerant leaked, the type of the leaked refrigerant, the concentration of the refrigerant in the atmosphere, the amount of refrigerant leak, and the time when the refrigerant leak was detected. Is done. This makes it easy to grasp the situation of the room where the refrigerant has leaked and what equipment should be used to deal with the refrigerant leak.

  The refrigerant leakage alarm is shown in a format for displaying a message in FIG. 3, but may be a format for displaying a “refrigerant leakage” icon. Thereby, it is possible to notify the user of the refrigerant leakage by the display unit 41 of the remote controller 4.

  In addition to the refrigerant leakage warning, for example, a message such as “Please contact the support center. The telephone number is XXX-XXX-XXX” may be displayed. As a result, the display unit 41 of the remote controller 4 can inform the user of action guidelines when refrigerant leakage occurs.

In addition to this, the refrigerant leak alarm is connected to the indoor unit 3 that has detected the refrigerant leak, such as “A refrigerant leak was detected in this room” or “A refrigerant leak was detected in another room”. The message content displayed on the remote controller 4 and the remote controller 4 connected to the other indoor units 3 may be changed. Thereby, the display part 41 of the remote controller 4 can also inform the user of information on the location where the refrigerant leakage is detected (information specifying the indoor unit 3 and the living room 5).
In this embodiment, the example which displays a message and an icon on the display part 41 as a refrigerant | coolant leak alarm is demonstrated, However, The refrigerant | coolant leak alarm may be audio | voice output by a speaker etc.

FIG. 4 is an example of the indoor unit 3 provided with the refrigerant leak notification means, and is a bottom view of the housing portion exposed to the indoor side.
The indoor unit 3 has an air inlet 31, air outlets 32 a to 32 d, and a display unit 33 in a casing portion exposed indoors.
The indoor unit 3 displays a refrigerant leakage alarm on the display unit 33 when it detects refrigerant leakage or receives refrigerant leakage detection information. The display unit 33 is, for example, a light emitting diode. When a refrigerant leakage alarm is generated, the display unit 33 notifies the user of a warning by turning on the light emitting diode. Thereby, the user can be notified of refrigerant leakage by the display unit 33 of the indoor unit 3.

FIG. 5 is a mode transition diagram of the air conditioning system 1.
When the air conditioning system 1 is activated, a transition is made to the stop state shown in mode M10. When the operation is instructed by the user in this stop state, the state transits to the operation state shown in mode M11, and when the refrigerant leakage is detected, the state transits to the abnormal stop state shown in mode M12. The refrigerant leakage notification is started as shown in FIG.

  When the stop is instructed by the user in the operating state, the air-conditioning system 1 transitions to the stopped state shown in mode M10, and when the refrigerant leakage is detected, the air-conditioning system 1 transitions to the abnormally stopped state shown in mode M12. 3. As shown in FIG. 4, the refrigerant leak notification is started.

  After transitioning to the abnormal stop state shown in mode M12 and starting the refrigerant leak notification as shown in FIGS. 3 and 4, the refrigerant leaks even if the operation unit 43 or the run / stop button 42 of the remote controller 4 is operated. Continue displaying alarms. Thereby, it can prevent that the warning display of a refrigerant | coolant leakage is cancelled | released accidentally by a user's operation of the remote control 4.

  After transitioning to the abnormal stop state shown in mode M12 and starting notification of refrigerant leakage as shown in FIGS. 3 and 4, the operation of the compressor and the like is stopped to stop the refrigeration cycle. Thereby, the expansion of the refrigerant leakage can be prevented, and the warning display of the refrigerant leakage can be continued on that. If the leakage site is properly repaired in the abnormal stop state, the state transits to the stop state shown in mode M10.

  In the first embodiment, an example is described in which a refrigerant sensor is used as the refrigerant leakage detection unit. However, the refrigerant leakage detection unit determines the refrigerant amount in the refrigeration cycle without using the refrigerant sensor, and The refrigerant leakage may be detected based on the result.

The second embodiment will be described below.
FIG. 6 shows a configuration diagram of the air conditioning system 1A of the second embodiment, and the same components as those of the first embodiment are denoted by the same reference numerals.
Unlike FIG. 1, the air conditioning system 1 </ b> A includes an outdoor unit 2 and a plurality of indoor units 3 that configure a plurality of refrigeration cycles, and further includes a centralized control device 8.
The outdoor unit 2a and the indoor units 3a and 3b are connected by a refrigerant pipe 63a as in FIG. 1 to constitute a first refrigeration cycle. The outdoor unit 2a and the indoor units 3a and 3b are communicably connected via an outdoor communication wire 61, and the indoor units 3a and 3b are connected to the remote controllers 4a and 4b via remote control communication wires 62a and 62b, respectively. The indoor unit 3a and the remote controller 4a are installed in the living room 5a. The indoor unit 3b and the remote controller 4b are installed in the living room 5b.

  The outdoor unit 2b and the indoor units 3c and 3d are connected by a refrigerant pipe 63b to constitute a second refrigeration cycle. The outdoor unit 2b and the indoor units 3c and 3d are communicably connected via an outdoor communication wire 61, and the indoor units 3c and 3d are connected to the remote controllers 4c and 4d via remote control communication wires 62c and 62d, respectively. The indoor unit 3c and the remote controller 4c are installed in the living room 5c. The indoor unit 3d and the remote controller 4d are installed in the living room 5d.

In the second embodiment, the refrigerant sensors 71a to 71d that detect refrigerant leakage are provided in the indoor units 3a to 3d. Refrigerant sensors 72a to 72d that detect refrigerant leakage are provided in the remote controllers 4a to 4d. In the second embodiment, the refrigerant sensors 71 and 72 are provided in both the indoor unit 3 and the remote controller 4, but only one of them may be provided.
Hereinafter, when the indoor units 3a to 3d are not particularly distinguished, they are simply referred to as the indoor unit 3. When the remote control communication wires 62a to 62d are not particularly distinguished, they are simply referred to as remote control communication wires 62. When the remote controllers 4a to 4d are not particularly distinguished, they are simply described as the remote controller 4. When the refrigerant sensors 71a to 71d are not particularly distinguished, they are simply referred to as the refrigerant sensor 71. When the refrigerant sensors 72a to 72d are not particularly distinguished, they are simply referred to as the refrigerant sensor 72.

The centralized control device 8 is connected to the outdoor units 2a, 2b of a plurality of different refrigeration cycles, the indoor units 3a, 3b, 3c, 3d and the outdoor communication wiring 61, and displays the operating state of the connected refrigeration cycle (refrigerant system). Operation control is possible.
The refrigeration cycle is not limited to two systems. Further, the central control device 8 may be provided in the air conditioning system 1 including one refrigeration cycle as in the first embodiment.

Hereinafter, an operation example when refrigerant leakage occurs in the living room 5d will be described.
FIG. 7 is a sequence diagram according to the warning of the air conditioning system 1A. In FIG. 7, the central control device 8 is abbreviated as “central control”.
In FIG. 7, the refrigerant sensor 71d will be described first in the indoor unit 3d.
When the refrigerant sensor 71d detects refrigerant leakage (sequence Q30), the indoor unit 3d transmits refrigerant leakage detection information to the connected remote controller 4d and the central control device 8 (sequences Q31 and Q33). Thereby, the remote controller 4d that has received the refrigerant leak detection information from the indoor unit 3d displays a refrigerant leak alarm on the display unit 41 (see FIG. 3) (sequence Q32).
Receiving the refrigerant leak detection information from the indoor unit 3d, the centralized control device 8 transmits the refrigerant leak detection information all at once to the connected indoor units 3a to 3d (sequences Q34 to Q37), and the display unit 81 (FIG. 8). The refrigerant leakage warning is displayed (see sequence Q38).

The indoor unit 3a that has received the refrigerant leak detection information from the central control device 8 transmits the refrigerant leak detection information to the connected remote controller 4a (sequence Q39), and the remote controller 4a displays a refrigerant leak alarm on the display unit 41. (Sequence Q40).
The indoor unit 3b that has received the refrigerant leak detection information from the central control device 8 transmits the refrigerant leak detection information to the connected remote controller 4b (sequence Q41), and the remote controller 4b displays a refrigerant leak alarm on the display unit 41. (Sequence Q42).
The indoor unit 3c that has received the refrigerant leak detection information from the central control device 8 transmits the refrigerant leak detection information to the connected remote controller 4c (sequence Q43), and the remote controller 4c displays a refrigerant leak alarm on the display unit 41. (Sequence Q44).

Next, a description will be given in the form in which the refrigerant sensor 72 is provided in the remote controller 4.
When the refrigerant sensor 72d detects refrigerant leakage (sequence Q30a), the remote controller 4d transmits refrigerant leakage detection information to the connected indoor unit 3d (sequence Q31a) and the display unit 41 (see FIG. 3). Display a refrigerant leakage warning (sequence Q32).
The indoor unit 3d that has received the refrigerant leak detection information from the remote controller 4d transmits the refrigerant leak detection information to the connected centralized control device 8 (sequence Q33). The subsequent operation is the same as the operation example in which the refrigerant sensor 71 is provided in the indoor unit 3. Thereby, not only the remote control 4 of the refrigerant system (refrigeration cycle) in which the refrigerant leakage has occurred but also the remote control 4 of all the refrigerant systems can notify the user of the refrigerant leakage.

FIG. 8 is an example of the centralized control device 8 provided with a refrigerant leakage notification means.
The centralized control device 8 includes a display unit 81 that displays the operation state of each connected indoor unit 3a to 3d, and an operation unit 84 that can be operated / stopped. The display unit 81 displays the installation locations of the indoor units 3a to 3d, the operation mode, and the set air volume.
When the central control device 8 receives the refrigerant leak detection information, the central control device 8 displays the refrigerant leak alarm icon 82 in the same system described as “refrigerant leak in system” on the display unit 81 and the refrigerant described as “refrigerant leak detection”. A leak detection alarm icon 83 is displayed. The refrigerant leak warning icon 82 in the same system indicates refrigerant leak in the same refrigerant system, and the refrigerant leak detection alarm icon 83 indicates the refrigerant leak detection source. In the example of FIG. 8, the indoor unit 3c in the conference room C and the indoor unit 3d in the conference room D are in the same refrigerant system, and the indoor unit 3d in the conference room D detects refrigerant leakage.

Furthermore, a light warning color is given to the conference room C in which the in-system refrigerant leakage warning icon 82 is displayed. The conference room C corresponds to the living room 5c in which the indoor unit 3c is installed.
A dark warning color is given to the conference room D in which the refrigerant leakage detection alarm icon 83 is displayed. The conference room D corresponds to the living room 5d in which the indoor unit 3d is installed.
FIG. 8 shows an example in which the indoor unit 3d in the conference room D detects refrigerant leakage. Thereby, the user can be notified of refrigerant leakage by the display unit 81 of the centralized control device 8, and information on the location where refrigerant leakage is detected (information specifying the indoor unit 3 and the living room 5) and the degree of warning thereof Can also be notified to the user.

(Modification)
The present invention is not limited to the embodiments described above, and includes various modifications. For example, the above-described embodiment has been described in detail for easy understanding of the present invention, and is not necessarily limited to the one having all the configurations described. A part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment. Moreover, it is also possible to add, delete, and replace other configurations for a part of the configuration of each embodiment.

  In each embodiment, the control lines and information lines indicate what is considered necessary for the explanation, and not all the control lines and information lines on the product are necessarily shown. Actually, it may be considered that almost all the components are connected to each other.

2, 2a, 2b Outdoor unit 3, 3a-3d Indoor unit 31 Air inlet 32a-32d Air outlet 33 Display unit 4, 4a-4d Remote control 71a-71d, 72a-72d Refrigerant sensor 61 Outdoor communication wiring 62a-62d Remote control Communication wiring 5a to 5d Living room 41 Remote control display unit 411 Refrigerant leak alarm message 43 Operation unit 8 Central control device 81 Central control device display unit 82 Refrigerant leak alarm icon 83 in the same system Refrigerant leak detection alarm icon 84 Operation unit

Claims (10)

An air conditioning system in which an outdoor unit constituting a single refrigeration cycle and a plurality of indoor units are communicably connected,
Leak detection means for detecting refrigerant leakage from the refrigeration cycle;
Informing means for informing that the leakage detecting means has detected the leakage of the refrigerant;
A plurality of remote controls provided corresponding to the indoor units,
Each of the notification means is provided in each of the indoor units or each of the remote controllers.
An air conditioning system characterized by that. An air conditioning system in which a plurality of outdoor units and a plurality of indoor units constituting a plurality of refrigeration cycles are communicably connected,
Leakage detection means for detecting leakage of refrigerant from each refrigeration cycle;
Informing means for informing that the leakage detecting means has detected the leakage of the refrigerant;
A plurality of remote controls provided corresponding to the indoor units,
Each of the notification means is provided in each of the indoor units or each of the remote controllers.
An air conditioning system characterized by that. The air conditioning system according to claim 1 or 2,
A central control device having a notification means;
An air conditioning system characterized by that. The air conditioning system according to claim 3,
Displaying information on the room where the refrigerant has leaked on the centralized control device,
An air conditioning system characterized by that. The air conditioning system according to claim 3,
Displaying information on a range that affects the same refrigeration cycle in which the refrigerant has leaked on the centralized control device;
An air conditioning system characterized by that. The air conditioning system according to claim 1 or 2,
The notification means continues the notification even if the operation / stop button of the remote control is operated,
An air conditioning system characterized by that. The air conditioning system according to claim 6,
When the leakage detection means detects refrigerant leakage, the refrigeration cycle is stopped and the notification is continued.
An air conditioning system characterized by that. The air conditioning system according to claim 1 or 2,
The leakage detection means is a refrigerant sensor, provided in the indoor unit,
The notification means changes notification contents depending on whether the refrigerant sensor that has detected leakage of the refrigerant is in the same room or in a separate room.
An air conditioning system characterized by that. The air conditioning system according to claim 1 or 2,
The notification means notifies any one of a location or time when refrigerant leakage is detected, the amount of refrigerant leakage, the concentration of refrigerant in the atmosphere, and the type of refrigerant.
An air conditioning system characterized by that. A warning notification method for an air conditioning system in which an outdoor unit and a plurality of indoor units constituting a refrigeration cycle are communicably connected,
Leak detection means for detecting refrigerant leakage from the refrigeration cycle;
A plurality of remote controls provided corresponding to the indoor units,
Informing means provided in each indoor unit or each remote controller;
With
The leakage detection means detects leakage of refrigerant from the refrigeration cycle,
Each of the notification means notifies that the refrigerant leakage has been detected,
A warning notification method for an air conditioning system characterized by the above.

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