JP2023134823A - Apparatus information management system - Google Patents

Abstract

To provide an apparatus information management system capable of displaying a result of trial operation on a terminal device.SOLUTION: In an apparatus information management system including an air conditioner and a remote controller, the remote controller transmits a trial operation start signal for starting trial operation to the air conditioner when user's operation related to a start instruction of the trial operation is received; the air conditioner starts the trial operation on the basis of the trial operation signal; and the remote controller transmits the trial operation information related to the trial operation to a terminal device. The trial operation information is used in the terminal device to determine the trial operation result indicating whether or not abnormality exists in the air conditioner, and the determined trial operation result is displayed on the terminal device.SELECTED DRAWING: Figure 2

Description

The present invention relates to an equipment information management system, and particularly to an equipment information management system that allows trial run information to be easily acquired by a terminal device.

BACKGROUND ART Conventionally, for example, in an air conditioner, a remote control has been used to perform various displays and operations.
Conventionally, for example, the basic screen (110) is provided with a message display column for displaying a message, and the control unit (20) does not receive an abnormality notification signal input from the air conditioner to notify of an abnormality. When the control unit (20) receives an abnormality notification signal input from the air conditioner and displays a text message requesting a one-time operation input by the confirmation means (15) without displaying anything in the message display field, After that, when a single operation input is received by the confirming means (15), the screen of the display section (11) is switched to another screen (112) and the user displays information regarding the abnormality corresponding to the abnormality notification signal input. A technique has been disclosed in which abnormality response information (131) consisting of a plurality of pieces of information is displayed all at once on a display unit (11) (see, for example, Patent Document 1).

Patent No. 4820313

In the technique of Patent Document 1, a message can be displayed on the remote control when an abnormality occurs.
However, in the technique of Patent Document 1, when a maintenance worker installs an air conditioner and performs a test run, it is not determined whether or not the result of the test run is normal. In addition, in recent years, maintenance workers often perform services using portable terminal devices, and it is better to be able to send the results of the test run mentioned above from the remote control to the terminal device and display it on the terminal device. It's convenient.

An object of the present invention is to provide an equipment information management system that can display test run results on a terminal device.

To achieve the above object, the present invention provides an equipment information management system including an air conditioner and a remote controller, wherein the remote controller sends a test run start signal to start the test run when receiving a user's operation regarding an instruction to start a test run. The air conditioner starts a trial run based on the trial run start signal, the remote controller transmits trial run information regarding the trial run to a terminal device, and the trial run information is transmitted to the terminal device. is used to determine a test run result indicating whether or not there is an abnormality in the air conditioner, and the determined test run result is displayed on the terminal device.
According to the present invention, the results of the test run of the air conditioner can be displayed on the terminal device, so that the maintenance worker can recognize the results of the test run.

According to the present disclosure, the results of the trial run of the air conditioner can be displayed on the terminal display section of the terminal device, so the maintenance worker can recognize the results of the trial run.

A configuration diagram showing an embodiment of an air conditioner to which the present invention is applied Schematic diagram of the device information management system of this embodiment Block diagram showing the control configuration of this embodiment A diagram showing an outline of transmission and reception in the trial run mode of this embodiment Time chart showing the status of each device in the trial run state of this embodiment A diagram showing an example of a table that defines the threshold values of this embodiment A diagram showing an example when the test run result of this embodiment is determined to be normal. Flowchart showing the operation of this embodiment

A first aspect of the present invention is an equipment information management system including an air conditioner and a remote controller, in which when the remote controller receives a user's operation regarding an instruction to start a trial run, the remote controller transmits a trial run start signal to the air conditioner to start a trial run. and the air conditioner starts a trial run based on the trial run start signal, the remote controller transmits trial run information regarding the trial run to a terminal device, and the trial run information is transmitted to the terminal device when the air conditioner starts a trial run. It is used to determine a test run result indicating whether or not there is an abnormality in the harmonizing device, and the determined test run result is displayed on the terminal device.
According to this, the results of the trial run of the air conditioner can be displayed on the terminal device, so that the maintenance worker can recognize the results of the trial run.

In a second invention, the terminal device transmits the result of the trial run to a cloud server, and the cloud server stores the result of the trial run.
According to this, the results of the trial run can be stored in the server.

Embodiments of the device information management system according to the present invention will be described below with reference to the drawings.
FIG. 1 is a configuration diagram showing an embodiment of an air conditioner to which an equipment information management system according to the present invention is applied.
The air conditioner 1 shown in FIG. 1 includes an outdoor unit 2 and a plurality of indoor units 3.
In this embodiment, two indoor units 3, 3 are connected to one outdoor unit 2, respectively.

The outdoor unit 2 includes a compressor 10. A gas-liquid separator 11 that supplies gas refrigerant to the compressor 10 is connected to the suction side of the compressor 10, and a four-way valve 13 is connected to the discharge side of the compressor 10 via an oil separator 12. ing. An outdoor heat exchanger 15 equipped with an outdoor fan 14 is connected to the four-way valve 13 . The outdoor heat exchanger 15 is configured so that the air sent by the outdoor fan 14 and the refrigerant exchange heat.
Furthermore, an outdoor expansion valve 16 is connected to the outdoor heat exchanger 15 .

A plurality of indoor units 3 are connected to the outdoor expansion valve 16 and the four-way valve 13 via refrigerant pipes 17. Each indoor unit 3 includes an indoor heat exchanger 21 equipped with an indoor ventilation fan 20, and an indoor expansion valve 22 is connected to one side of the indoor heat exchanger 21.

Furthermore, the outdoor unit 2 includes an outdoor control section 30. A low pressure sensor 31 is provided on the refrigerant suction side of the compressor 10 of the outdoor unit 2 to detect the refrigerant pressure flowing into the compressor 10, and a low pressure sensor 31 is provided on the refrigerant discharge side of the compressor 10. A high pressure sensor 32 is provided to detect the refrigerant pressure. Furthermore, an outdoor refrigerant temperature sensor 33 is provided on the refrigerant discharge side of the compressor 10 to detect the discharge temperature of the refrigerant, and an outdoor temperature sensor 34 is provided in the outdoor unit 2 to detect the outside temperature. .
Further, the indoor unit 3 includes an indoor control section 40. Indoor refrigerant temperature sensors 41 are provided on both sides of the indoor heat exchanger 21 of the indoor unit 3 to detect the temperature of the refrigerant.
Further, a remote control 50 is installed inside the indoor unit 3 to control ON/OFF operation, indoor temperature setting, and the like. The remote control 50 is provided with a room temperature sensor 42 that detects the indoor temperature.

FIG. 2 is a schematic diagram of a device information management system showing an embodiment of the present invention.
As shown in FIG. 2, the device information management system includes an air conditioner 1, a terminal device 5, and a cloud server 6 as a server.
The air conditioner 1 includes an outdoor unit 2, a plurality of indoor units 3 connected to the outdoor unit 2, and a remote control 50.

Further, the indoor unit 3 includes a decorative panel 23, an air inlet 24 is provided in the center of the decorative panel 23, and an air outlet 25 is provided along each side of the decorative panel 23. ing. The outlet 25 is provided with a swingable flap 26 for adjusting the direction of the air. By driving the indoor ventilation fan 20, indoor air is taken in from the suction port 24, and the air after heat exchange with the indoor heat exchanger 21 is blown into the room from the blowout port 25.

Further, the remote control 50 includes a box-shaped main body 51 that is installed on a wall surface of a room or the like. A remote control display section 52 made of, for example, a liquid crystal display panel is provided on the front surface of the main body 51. Below the remote control display section 52, operation buttons 53 are provided as a plurality of remote control input sections for the user to perform start or stop operations, menu operations, cursor key operations, and the like.
At the lower right of the front surface of the main body 51, a display lamp 54 made of, for example, an LED for displaying the operating status of the air conditioner 1 is provided.

Further, the terminal device 5 includes a terminal display section 60 made of, for example, a liquid crystal display panel. In this embodiment, the terminal device 5 is, for example, a smartphone, a tablet terminal, or the like. The terminal device 5 includes a camera 61 as a light receiving section for receiving light emitted by the remote control display section 52.
The terminal device 5 includes a terminal operation section 62. In this embodiment, the terminal display section 60 has a touch panel function, and the terminal operation section 62 is configured so that a predetermined operation can be performed by touching the terminal display section 60. There is.

Next, the control configuration of this embodiment will be explained.
FIG. 3 is a block diagram showing the control configuration of this embodiment.
As shown in FIG. 3, the remote control 50 includes a remote control control section 55 as a device control section. Further, a room temperature sensor 42 for detecting the indoor temperature is provided inside the remote controller 50, and a remote controller memory 56 for storing predetermined information is provided inside the remote controller 50. .
The remote control control unit 55 controls the display of the remote control display unit 52 and controls the display of the remote control display unit 52 in response to various operation signals such as operation start operation using the operation button 53, operation switching operation such as cooling operation or heating operation, and setting temperature operation. Performs blinking control. Further, the remote control control section 55 is configured to output an operation control signal to the indoor control section 40 of the indoor unit 3 based on the detected value of the room temperature by the room temperature sensor 42.

Further, the indoor unit 3 includes an indoor control section 40. The indoor control section 40 is configured to control the opening degree of the indoor expansion valve 22, the drive control of the indoor ventilation fan 20, and the drive control of the flap 26 based on a drive control signal from the remote control control section 55.
Furthermore, the outdoor unit 2 includes an outdoor control section 30. The indoor control section 40 is configured to output an operation control signal to the outdoor control section 30, and the outdoor control section 30 receives the operation control signal sent from the indoor control section 40, the outside temperature sensor 34, the low pressure sensor 31, The drive frequency of the compressor 10, the outdoor expansion valve 16, and the outdoor blower fan 14 are controlled based on the values detected by the high pressure sensor 32 and the outdoor refrigerant temperature sensor 33.
In this embodiment, the remote controller control section 55 is configured to centrally manage the control by the indoor control section 40 and the outdoor control section 30.

The outdoor control unit 30 also includes drive frequency information of the compressor 10, outside temperature information from the outside air temperature sensor 34, refrigerant pressure information on the suction side of the compressor 10 from the low pressure sensor 31, and information on the discharge side of the compressor 10 from the high pressure sensor 32. The refrigerant pressure information and the refrigerant temperature information on the discharge side of the compressor 10 obtained by the refrigerant temperature sensor are sent to the remote controller 55, and the remote controller 55 sequentially stores these information in the remote controller memory 56.
In addition, the indoor control section 40 sends room temperature information from the room temperature sensor 42 and refrigerant temperature information from the indoor refrigerant temperature sensor 41 to the remote control control section 55, and the remote control control section 55 sequentially stores these information in the remote control memory 56. I'll keep it.
Further, the remote control memory 56 stores in advance unique ID information of the air conditioner 1 that is set in advance, specifically, the serial number and model name. ID information is managed as system information.

The terminal device 5 includes a terminal control section 63. The terminal device 5 includes a terminal memory 64 for storing predetermined information. Further, the terminal device 5 includes a communication section 65, and is configured to be able to communicate with the cloud server 6 as a server via the network.
Further, the terminal device 5 is configured to be able to receive an optical signal from the remote control display section 52 of the remote control 50 via an image sensor included in the camera 61.
The remote control memory 56 stores a program for causing the remote control display section 52 to blink and emit an optical signal, and the remote control control section 55 reads and executes this program to cause the remote control display section 52 to blink and emit light. It is configured such that various information stored in the remote control memory 56 can be transmitted.
In order to perform such a transmission using light emission, for example, the order in which the operation buttons 53 are pressed to perform transmission using light emission is set in advance, and the user presses the operation buttons 53 in the set order. By operating the remote control unit 55, the remote control display unit 52 is controlled by the remote control control unit 55, and transmission is performed by blinking light emission.

Further, the terminal control unit 63 is configured to be able to acquire various information transmitted by the light emission of the remote control display unit 52 by receiving the light transmitted by the light emission of the remote control display unit 52 with the camera 61.
Note that the terminal memory 64 stores a program for the camera 61 to receive visible light communication generated by the light emitted from the remote control display section 52, and the terminal control section 63 reads and executes this program. Various information can be acquired from the remote control 50. When using a smartphone or a tablet terminal as the terminal device 5, this program can be obtained by downloading a dedicated application via a network.

As a means for transmitting information using the remote control display section 52 of the remote control 50, for example, a technique called visible light communication is used.
For example, the technology disclosed in the document "Development of Image Sensor Reception Type Visible Light Communication Technology (Panasonic Technical Journal Vol. 61 No. 2 Nov. 2015)" is used. Such visible light communication technology is a visible light communication technology that can transmit various information at high speed by blinking an LED light source at high speed. Specifically, for example, by blinking an LED light source at high speed, 128 bits of information can be transmitted in 0.3 seconds.

Moreover, in this embodiment, the air conditioner 1 is provided with a test run mode in which a test run is performed. The test run mode is for controlling a preset test run, and is performed by operating a test run switch (not shown) provided on the remote controller 50. In this case, when there are a plurality of indoor units 3, when the trial run switch is operated by the remote controller 50 of one indoor unit 3, all other indoor units 3 are configured to start operating.

FIG. 4 is a diagram schematically showing transmission and reception of signals or information between the outdoor control section 30, the remote control control section 55, the terminal control section 63, and the cloud server 6 of the outdoor unit 2 during the trial run mode.
As shown in FIG. 4, when the user operates the trial run button on the remote control, a trial run start signal is transmitted from the remote control control unit 55 to the outdoor unit 2, and this causes the outdoor unit, which had been stopped due to the control signal from the outdoor control unit 30, to Machine 2 begins trial operation. When the test run is started, a test run start signal is transmitted from the outdoor control section 30 to the remote controller, and the remote control control section 55 causes the remote control display section to display that the test run is being performed.

The remote control control unit 55 checks the progress status with the outdoor control unit 30 and confirms whether the outdoor unit 2 is operating stably. Note that stable operation will be described later.
When it is determined that the operation of the outdoor unit 2 is stable, the remote control control unit 55 requests information from the outdoor control unit 30, and the outdoor control unit 30 sends system information, the driving frequency of the compressor 10, the low pressure of the refrigerant, Trial run information such as high pressure and refrigerant discharge temperature is transmitted to the remote controller control unit 55.
Further, the remote control control unit 55 acquires test run information such as outlet temperature information of the indoor unit 3, refrigerant temperature information obtained by the indoor refrigerant temperature sensor 41, and opening degree information of the indoor expansion valve 22 from the indoor unit 3.

The remote controller control unit 55 transmits system information and trial run information to the terminal device 5, and the terminal control unit 63 determines whether the result of the trial run is normal or abnormal based on the trial run information.
The terminal control unit 63 causes the test run result to be displayed on the terminal display unit 60, and also transmits the test run result to the cloud server 6 and stores it in the cloud server 6.

On the other hand, after transmitting the trial run information to the terminal device 5, the remote controller control unit 55 transmits an instruction to end the trial run to the outdoor unit 2, and erases the display of the trial run. Upon receiving the instruction to end the test run, the outdoor control unit 30 ends the test run.

FIG. 5 is a time chart showing the state of each device in a test run state.
As shown in FIG. 5, when the test run is started, the remote control 50 is turned on, the indoor unit 3 is turned on with thermostat, and the outdoor unit 2 is turned on, and the compressor 10 is driven and controlled at a predetermined driving frequency. At this time, no special control such as defrosting is performed, and the drive frequency of the compressor 10 is controlled so as not to fall below a predetermined drive frequency by limiting the lower limit.
In this state, the remote controller 55 monitors the high pressure and refrigerant discharge temperature on the discharge side of the compressor 10, and determines that the test run has stabilized when the changes in the high pressure and discharge temperature become small. .

Then, when it is determined that the operation of the compressor 10 is stable, the remote controller control unit 55 acquires the drive frequency of the compressor 10, the low pressure, the high pressure of the refrigerant, and the discharge temperature of the refrigerant, and sends the information to the terminal device 55 as trial run information. Send to. This test run information is transmitted to the terminal device 5 by visible light communication by blinking the remote control display section 52 of the remote control 50.
The terminal control unit 63 has a function of determining the result of the trial run based on the trial run information of the air conditioner 1 sent from the remote controller 50.

The terminal device 5 stores in advance, for each indoor unit 3, the outlet temperature difference of the indoor unit 3 according to the outside temperature, the indoor superheat degree, and the threshold value of the opening degree of the indoor expansion valve 22 as a table.
FIG. 6 is a diagram showing an example of a table defining such thresholds.
As shown in the table of FIG. 6, thresholds for the outlet temperature difference of the indoor unit 3, the indoor superheat degree, and the opening degree of the indoor expansion valve 22 are determined in advance according to the outside temperature.

Then, the terminal control unit 63 of the terminal device 5 acquires the trial run information sent from the remote controller 50, and compares the trial run information with the threshold set in the table to determine the outlet temperature difference and indoor superheat degree based on the trial run information. , it is determined whether the opening degree of the indoor expansion valve 22 is within the threshold range set in the table.
If the terminal control unit 63 determines that the trial run information is within the threshold range of the table, it determines that the trial run result is normal; if it determines that the trial run information is outside the threshold range, it determines that the trial run result is normal. The result is judged to be abnormal (refrigerant shortage, fan/expansion valve failure, installation error).

FIG. 7 is a diagram illustrating an example of a case where the test run result is determined to be normal based on the test run information.
As shown in Figure 7, when the outside temperature detected by the outside temperature sensor is 30°C or higher, the indoor unit outlet temperature difference is normal if it is in the range of -1 to +14°C, and the indoor superheat degree is 0 to 3°C. It is normal if the opening degree of the indoor expansion valve is within the range of 0 to 480 pulses.
In addition, the refrigerant discharge temperature of the outdoor unit is normal if it is in the range of 25 to 100°C, the high pressure is normal if it is in the range of 1.0 to 3.5 MPa, and the low pressure is in the range of 0.1 to 1.6 MPa. It is normal if the primary current is in the range of 0 to 27 A, and normal if the compressor drive frequency is in the range of 20 to 95 Hz.
In the case of the example shown in FIG. 7, all the acquired trial run information is within the range, so the result of the trial run is determined to be normal.

In the present embodiment, when it is determined that the result of the trial run is abnormal, the terminal control unit 63 determines that the high pressure on the discharge side of the compressor 10 is high, that the outdoor blower fan 14 is malfunctioning. Alternatively, the terminal display section 60 displays that the cause is an air short or the like.
In addition, if it is determined that the low pressure on the suction side of the compressor 10 is low, the terminal will inform you that the cause is a failure of the outdoor fan 14, an air short, a connection error in the refrigerant piping, or a malfunction of the indoor expansion valve 22. It is displayed on the display unit 60.
Further, if it is determined that there is an excess or shortage of refrigerant, a message to confirm the amount of refrigerant to be filled is displayed on the terminal display unit 60. When an alarm is issued, a message is displayed on the terminal display section 60 to the effect that corrective measures will be taken in accordance with the content of the alarm.
Note that the display contents of the terminal display section 60 are merely examples, and various changes can be made as necessary.

Next, the operation of this embodiment will be explained with reference to the flowchart shown in FIG.
First, when the user operates the trial run button (ST1), an operation control signal is sent from the remote controller 55 to the indoor controller 40 and the outdoor controller 30, and the indoor unit 3 and the outdoor unit 2 are driven and controlled. Start a trial run (ST2).

The remote controller control unit 55 determines whether the outdoor unit 2 is operating stably by communicating with the outdoor controller 30 (ST3), and if it is determined that the operation of the outdoor unit 2 is stable (ST3: YES). ), the remote controller controller 55 makes an information request to the outdoor controller 30, and receives system information and test run information such as the driving frequency of the compressor 10, the low pressure, the high pressure of the refrigerant, and the discharge temperature of the refrigerant. (ST4).
Moreover, the remote control control unit 55 acquires the blowout temperature information of the indoor unit 3, the refrigerant temperature information obtained by the indoor refrigerant temperature sensor 41, and the opening degree information of the indoor expansion valve 22 from the indoor unit 3 (ST5).

The remote controller control unit 55 transmits the system information and trial run information to the terminal device 5 (ST6), and the terminal control unit 63 compares the trial run information with the threshold value set in the table, and determines the outlet temperature difference according to the trial run information, It is determined whether the indoor superheat degree and the opening degree of the indoor expansion valve 22 are within the threshold ranges set in the table (ST7).
Then, if the test run information is within the threshold (ST7: YES), the terminal control unit 63 determines that the test run result is normal (ST8), ends the test run (ST9), and transfers the test run result to the terminal. The information is displayed on the display section 60 (ST10).
On the other hand, if the test run information is not within the threshold (ST7: NO), the terminal control unit 63 determines that the test run result is abnormal (ST11), and displays the cause of the abnormal test run result on the terminal display. 60 (ST12).

As described above, in this embodiment, the remote controller 50 (equipment) includes the remote controller control section 55 (device control section), the remote control display section 52 (light emitting section), the terminal control section 63, and the remote controller 50. The terminal device 5 includes a camera 61 (light receiving section) that performs visible light communication with the remote control display section 52, and a terminal display section 60. By controlling the light emission of It is determined whether or not the trial run is successful, and the determination result of this test run result is displayed on the terminal display unit 60.
According to this, the result of the trial run of the air conditioner 1 can be displayed on the terminal display section 60 of the terminal device 5, so that the maintenance worker can easily recognize the result of the trial run. Moreover, since visible light communication is used for communication between the remote control 50 and the terminal device 5, there is no need to install separate communication equipment, and manufacturing costs do not increase.

Further, in the present embodiment, the terminal device 5 includes a table that defines threshold values for determining whether or not the trial run result is normal, and the terminal control unit 63 performs the following operations based on the threshold values in the table. It is determined whether the test run result is normal or not based on the test run information.
According to this, it is possible to easily judge from the table whether or not the test run result is normal.

In the present embodiment, if the test run information is not within the threshold and the test run result is determined to be abnormal, the terminal control unit 63 displays the cause of the abnormal test run result on the terminal display unit 60. Display.
According to this, the factors that caused the test run results to become abnormal are displayed, allowing maintenance workers to understand the factors that caused the test run results to become abnormal, and to perform maintenance by concentrating on the areas where the test run results are abnormal. I can do it. As a result, regardless of the experience of the maintenance worker, it is possible to perform accurate work, and furthermore, maintenance work can be performed efficiently.

Further, in this embodiment, a cloud server 6 that can communicate with the terminal device 5 is provided, the terminal device 5 sends the result of the trial run to the cloud server 6, and the cloud server 6 stores the result of the trial run.
According to this, the results of the trial run can be accumulated in the cloud server 6.

Although the embodiments of the present invention have been described based on the drawings, the present invention is not limited to the embodiments described above, and can be modified without departing from the gist of the invention.
For example, in the embodiment described above, a case has been described in which the remote control 50 of the air conditioner 1 is used as the device, but the present invention is not limited thereto. For example, the invention can be applied to any device as long as it has a display section that can emit light.
Further, in the embodiment, a case has been described in which the remote control display section 52 of the remote control 50 is used as the light emitting section, but the present invention is not limited thereto. For example, the display lamp of the remote control 50 may be used as a light emitting section. Further, an indicator lamp 54 provided on the decorative panel 23 of the indoor unit 3 and used to display the operating status of the indoor unit 3 may be used as a light emitting part. In this case, the indoor control section 40 may be used as the device control section.
Further, in the embodiment, an example has been described in which the communication between the remote control and the terminal device is performed using visible light communication, but the present invention is not limited to this. For example, communication may be performed using near field communication (NFC) or Bluetooth (registered trademark).
Further, in the above embodiment, the terminal device determines whether or not the test run result is normal; however, the present invention is not limited to this; for example, the terminal device may determine whether or not the normal operation result is normal. It's okay.
Furthermore, in the embodiment described above, a case has been described in which the remote control control section 55 is used as the device control section, but the present invention is not limited thereto. For example, if an integrated controller is provided to centrally manage the outdoor control section 30, indoor control section 40, and remote control control section 55 of the air conditioner 1, this integrated controller may be used as the device control section. Good too.

Further, in the embodiment, a case has been described in which a smartphone or a tablet terminal is used as the terminal device 5, but the present invention is not limited thereto. For example, a dedicated terminal device 5 that can communicate with the cloud server 6 may be used. In this case, a light receiving sensor may be used as the light receiving section instead of the camera 61.
Furthermore, the server does not have to be the cloud server 6; any server may be used as long as the terminal device 5 can communicate with it, such as a server of a device management company.

1 Air conditioner 2 Outdoor unit 3 Indoor unit 5 Terminal device 6 Cloud server 10 Compressor 14 Outdoor blower fan 15 Outdoor heat exchanger 16 Outdoor expansion valve 20 Indoor blower fan 21 Indoor heat exchanger 22 Indoor expansion valve 30 Outdoor control unit 31 Low pressure sensor 32 High pressure sensor 33 Outdoor refrigerant temperature sensor 34 Outdoor temperature sensor 40 Indoor control section 41 Indoor refrigerant temperature sensor 42 Room temperature sensor 50 Remote control 52 Remote control display section 54 Display lamp 55 Remote control control section 60 Terminal display section 61 Camera 62 Terminal operation section 63 Terminal control unit

Claims (2)

In a device information management system that includes an air conditioner and a remote control,
When the remote control receives a user operation regarding an instruction to start a trial run, the remote controller transmits a trial run start signal to the air conditioner to start a trial run;
The air conditioner starts a trial run based on the trial run start signal,
The remote control transmits trial run information regarding the trial run to a terminal device,
The test run information is used in the terminal device to determine a test run result indicating whether or not there is an abnormality in the air conditioner, and the determined test run result is displayed on the terminal device.
Equipment information management system. The terminal device transmits the test run results to a cloud server,
The cloud server stores the test run results.
The device information management system according to claim 1.

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