JP2016196978A - Monitoring system for air conditioner, mobile terminal, and information collection application for air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce communication cost between a centralized control apparatus of an air conditioner and a management server.SOLUTION: A monitoring system for an air conditioner includes a centralized control apparatus 3 connected to the air conditioner, and communication means (a radio adapter) 4 for performing radio communication with a mobile terminal 5. When the mobile terminal enters the communication zone of the communication means, radio communication with the mobile terminal is automatically started through the communication means, and operation information for the air conditioner is transmitted from the centralized control apparatus to the mobile terminal. Also, when the mobile terminal enters the communication zone of a wide area radio communication base station of the mobile terminal after receiving the operation information for the air conditioner from the centralized control apparatus and storing the operation information in the mobile terminal, the mobile terminal automatically starts communication with a management server for managing the air conditioner and transmits the stored operation information for the air conditioner to the management server.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an air conditioner monitoring system, a mobile terminal, and an air conditioner information collection application.

  As a conventional monitoring system for an air conditioner, there is a system described in JP 2013-24546 A (Patent Document 1). The thing of this patent document 1 communicates between an air conditioner and a centralized controller, the 1st communication means for transferring the information of the said air conditioner to the said centralized controller, and communication with the said centralized controller A second communication means for communicating with the device and transferring the information of the air conditioner transferred to the centralized controller to the communication device; and the information transferred to the communication device with the air What is provided with the 3rd communication means for transferring to the management server which manages the information of a harmony machine is described.

JP 2013-24546 A

  In a conventional air conditioner such as that described in Patent Document 1, a central control device (central controller) installed near the air conditioner communicates with a management server such as a remote monitoring server installed far away. They are connected via devices and regularly send information. In addition, a separate contract with a communication carrier is required for connection between the central control device and the management server.

  However, in a conventional air conditioner monitoring system, if a contract is made with a communication carrier for information communication between the centralized control device and the management server, a running cost is generated and a financial burden on the manufacturer or user is generated. .

  In addition, in order to reduce the cost, when utilizing the Internet contract that the user is using for other purposes, the user's system such as the construction of the communication line needs to be modified, and money other than the construction of the air conditioner is required. Burden. Furthermore, when performing wireless communication, it is not always possible to perform wireless communication depending on the installation location of the centralized control device. Therefore, it is necessary to modify the user's system, and this causes a financial burden.

  An object of the present invention is to obtain an air conditioner monitoring system, a mobile terminal, and an air conditioner information collection application capable of reducing communication costs between a central control device of an air conditioner and a management server.

  In order to solve the above-mentioned problem, the present invention is characterized by comprising a centralized control device connected to an air conditioner and a communication means for wirelessly communicating with a mobile terminal, wherein the mobile terminal is within a communication range of the communication means. Upon entering, there is an air conditioner monitoring system that automatically starts wireless communication with the mobile terminal via the communication means and transmits operation information of the air conditioner from the central control device to the mobile terminal. .

  Another feature of the present invention is that when the communication means for wireless communication provided in the air conditioner enters a communication range, the communication means automatically starts wireless communication to operate the air conditioner. Located on a mobile terminal that automatically receives information.

  Still another feature of the present invention is an air conditioner information collection application executed by a mobile terminal, and the mobile terminal falls within a communication range of a communication means for wireless communication provided in the air conditioner. And automatically starting wireless communication with the communication means, automatically receiving the operation information of the air conditioner, and storing the received operation information of the air conditioner in the storage unit inside the mobile terminal To control air conditioner information gathering application.

  According to the present invention, it is possible to obtain an air conditioner monitoring system, a mobile terminal, and an air conditioner information collection application that can reduce communication costs between a central control device of an air conditioner and a management server. effective.

It is a whole block diagram of the monitoring system of the air conditioner which shows Example 1 of this invention. It is a refrigerating cycle system diagram of the air conditioner concerning Example 1 of the present invention. It is a functional block diagram of the outdoor unit in Example 1 of this invention. It is a functional block diagram of the indoor unit and remote control in Example 1 of the present invention. It is a functional block diagram of the wireless adapter in Example 1 of this invention. It is a functional block diagram of the mobile terminal in Example 1 of this invention. It is a functional block diagram of the management server in Example 1 of this invention. It is a flowchart explaining the processing flow in the mobile terminal in Example 1 of this invention.

  Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. Portions denoted by the same reference numerals in the drawings indicate the same or corresponding portions.

  In a present Example, using mobile terminals, such as a user's smart phone, upload to the management server of the operation information of a plurality of air conditioners, the diagnosis (operating state of the air conditioner by analysis of the operation information in the management server, A monitoring system for an air conditioner configured to transmit the diagnosis result to the mobile terminal and display the result on the mobile terminal will be described.

  FIG. 1 is an overall configuration diagram of an air conditioner monitoring system showing the first embodiment. The air conditioner monitoring system shown in FIG. 1 includes an outdoor unit 1 (1a, 1b), an indoor unit 2 (2a-1 to 2a-3, 2b-1 to 2b-3), a central control device 3, a wireless adapter ( Communication means) 4, mobile terminal 5, air conditioner communication transmission line 6, wide area wireless communication base station 7, Internet 8, management server 9, information terminal 10, printer 11, and the like.

  The outdoor unit 1 and the indoor unit 2 are connected by a refrigerant pipe to form a refrigeration cycle, as will be described later with reference to FIG. Although FIG. 1 shows an example in which there are two outdoor units 1 and six indoor units 2, one or more units may suffice. A remote controller is connected to the indoor unit 2, which is omitted in FIG.

  The centralized control device 3 is connected to the outdoor unit 1 and the indoor unit 2 via a communication transmission line 6 of an air conditioner, and monitors and controls the connected devices. That is, it is possible to perform operation / stop, operation mode switching, change of set temperature, change of wind direction and air volume, remote control operation prohibition setting, schedule setting, etc. for single or multiple air conditioners. It has become. Moreover, the status display and alarm display of the connected air conditioner can be performed.

  The wireless adapter 4 is connected to the outdoor unit 1 and the indoor unit 2 via the communication transmission line 6 of an air conditioner. The wireless adapter 4 exchanges data with the mobile terminal 5 by wireless communication. Examples of the wireless communication system include WiFi (registered trademark), Bluetooth (registered trademark), and Zigbee (registered trademark). Note that a wireless access point (wireless base station) may be provided between the wireless adapter 4 and the mobile terminal 5.

  The wireless adapter 4 transmits current operation information of the outdoor unit 1 and the indoor unit 2 to the mobile terminal 5 in accordance with an instruction from the mobile terminal 5 and controls the outdoor unit 1 and the indoor unit 2 ( (Such as stop control when a failure is predicted).

  In addition to performing wireless communication with the wireless adapter 4, the mobile terminal 5 can be connected to the Internet 8 via a wide area wireless communication base station 7. Examples of the wireless communication system include 3G (3rd Generation), LTE (registered trademark), WiMAX (registered trademark), and the like.

  The mobile terminal 5 receives the operation information of the air conditioner from the centralized control device 3 and stores it in the storage unit (memory), and then stores the operation information stored in the mobile terminal 5 in the air conditioning. It communicates with the management server which manages a machine, and is comprised so that the operation information of the accumulated air conditioner may be transmitted to the management server.

  The management server 9 is connected to the Internet 8 and communicates with the mobile terminal 5 to exchange data. The management server 9 holds the air conditioner operation information and connection information transmitted from the mobile terminal 5. Further, the management server 9 holds a database for each model of the air conditioner, and transmits it to the mobile terminal 5 in accordance with an instruction from the mobile terminal 5.

  Specific examples of the management server 9 include a remote monitoring system for monitoring and maintaining the air conditioner, a customer management server for customer management (an air conditioner operation information database for each customer, etc. For making renewal proposals).

  The information terminal 10 is a personal computer or the like, is connected to the Internet 8, and can communicate with the management server 9. Using this information terminal 10, the operation information and connection information of the air conditioner held in the management server 9, the database for each air conditioner model is referred to, or held in the management server 9. Update the database for each air conditioner model.

  The printer 11 is connected to the Internet 8 and can communicate with the mobile terminal 5 and the information terminal 10. The content displayed on the mobile terminal 5 can be output to the printer 11 in response to an instruction from the mobile terminal 5 or the like.

FIG. 2 is a refrigeration cycle system diagram of the air conditioner according to the first embodiment of the present invention.
The outdoor unit 1 and the indoor unit 2 are connected via a gas pipe 31 and a liquid pipe 32.
The outdoor unit 1 includes a compressor 101, a four-way valve 102, an outdoor heat exchanger 103, an outdoor blower 104, an outdoor expansion valve 105, and the like.

  The compressor 101 is a scroll compressor, a screw compressor, or the like, compresses refrigerant and discharges high-pressure gas. The four-way valve 102 switches whether the refrigerant gas discharged from the compressor 101 is guided to the outdoor heat exchanger 103 or the indoor heat exchanger 201 of the indoor unit 2. Switching between cooling operation and heating operation. The outdoor blower 104 is arranged to ventilate outdoor air to the outdoor heat exchanger 103, and the outdoor heat exchanger 103 performs heat exchange between outdoor air from the outdoor blower and refrigerant flowing inside. The outdoor expansion valve 105 is composed of an electronic expansion valve or the like, and depressurizes the refrigerant.

The outdoor unit 1 includes an outdoor temperature sensor 41, a discharge gas pipe temperature sensor 42 provided in a discharge gas pipe of the compressor 101, an outdoor heat exchanger pipe temperature sensor 43, a high pressure sensor 51, and a low pressure sensor 52. Is provided.
The outside air temperature sensor 41 is provided in the outdoor unit 1 and measures the temperature of the outside air. The discharge gas pipe temperature sensor 42 measures the temperature of the discharge gas pipe of the compressor 101. The outdoor heat exchanger pipe temperature sensor 43 measures the temperature of the outdoor heat exchanger 103 on the liquid pipe 32 side. The high pressure sensor 51 measures the pressure of the discharge gas discharged from the compressor 101. The low pressure sensor 52 measures the suction gas pressure to the compressor 101.

  The indoor unit 2 includes an indoor heat exchanger 201, an indoor blower 202, an indoor expansion valve 203, and the like. The indoor blower 202 is arranged to ventilate room air to the indoor heat exchanger 201. The indoor heat exchanger 201 performs heat exchange between the indoor air from the indoor blower 202 and the refrigerant flowing inside. The indoor expansion valve 203 is composed of an electronic expansion valve or the like, and depressurizes the refrigerant.

Further, the indoor unit 2 is provided with a suction temperature sensor 44, an outlet temperature sensor 45, a refrigerant gas pipe temperature sensor 46, and a refrigerant liquid pipe temperature sensor 47.
The suction temperature sensor 44 measures the indoor air temperature on the suction side of the indoor heat exchanger 201. The blowing temperature sensor 45 measures the indoor air temperature on the blowing side of the indoor heat exchanger 201. The refrigerant gas pipe temperature sensor 46 measures the temperature of the indoor heat exchanger 201 on the gas pipe 31 side. The refrigerant liquid pipe temperature sensor 47 measures the temperature of the indoor heat exchanger 201 on the liquid pipe 32 side.

  Furthermore, a remote controller 12 is connected to the indoor unit 2. The remote controller 12 is provided with a remote controller temperature sensor 48. The remote controller temperature sensor 48 measures the indoor air temperature around the remote controller 12.

FIG. 3 is a functional block diagram of the outdoor unit in Embodiment 1 of the present invention.
The outdoor unit control unit 106 included in the outdoor unit 1 controls the compressor 101, the four-way valve 102, the outdoor blower 104, the outdoor expansion valve 105, the outdoor unit communication unit 207, and the storage unit (memory) 108. The compressor 101, the four-way valve 102, the outdoor blower 104, and the outdoor expansion valve 105 are as described above. In the control of the compressor 101, the outdoor unit control unit 106 instructs the operating frequency of the compressor 101. In the control of the four-way valve 102, the outdoor unit control unit 106 switches the direction in which the refrigerant flows.

  In the control of the outdoor fan 104, the outdoor unit controller 106 instructs the operation of the outdoor fan 104 and acquires the operating state of the fan. In the control of the outdoor expansion valve 105, the outdoor unit control unit 106 controls the opening degree of the expansion valve. The outdoor unit communication unit 107 communicates with the indoor unit 2, the central control device 3, and the wireless adapter 4 via the communication transmission line 6 of the air conditioner shown in FIG. The storage unit 108 stores a control program for the outdoor unit 1 and various set values.

  Further, the outdoor unit control unit 106 reads out the measured values of the outside air temperature sensor 41, the discharge gas piping temperature sensor 42, the outdoor heat exchanger piping temperature sensor 43, the high pressure sensor 51, and the low pressure sensor 52 shown in FIG. Can do.

FIG. 4 is a functional block diagram of the indoor unit and the remote controller according to the first embodiment of the present invention.
The indoor unit control unit 204 included in the indoor unit 2 controls the indoor blower 202, the indoor expansion valve 203, the indoor unit communication unit 205, the remote control communication unit 206, and the storage unit (memory) 207. The indoor blower 202 and the indoor expansion valve 203 are as described above. In the control of the indoor blower 202, the indoor unit control unit 204 instructs the operation of the indoor blower 202 and acquires the operating state of the blower. In the control of the indoor expansion valve 203, the indoor unit control unit 204 controls the opening degree of the expansion valve.

The indoor unit communication unit 205 communicates with the outdoor unit 1, the centralized control device 3, and the wireless adapter 4 via the communication transmission line 6 of the air conditioner shown in FIG. The remote controller communication unit 206 communicates with the remote controller 12. The storage unit 207 stores a control program, various set values, and various internal states of the indoor unit 2. Various set values include set temperature, operation mode, air volume setting, and the like. The various internal states include an alarm code that identifies the type of abnormality when the abnormality occurs.
Further, the indoor unit control unit 204 can read the measured values of the suction temperature sensor 44, the blowout temperature sensor 45, the refrigerant gas pipe temperature sensor 46, and the refrigerant liquid pipe temperature sensor 47 shown in FIG.

A remote control unit 1201 included in the remote control 12 controls a remote control communication unit 1202, a display unit 1203, an operation unit 1204, and a storage unit (memory) 1205.
The remote control communication unit 1202 communicates with the indoor unit 2. The display unit 1203 includes an LCD (Liquid Crystal Display), an LED (Light Emitting Diode), and the like, and displays information related to the indoor unit or the remote controller.

  The operation unit 1204 includes buttons, switches, a touch panel, and the like, and receives input from the user. The storage unit 1205 stores the control program of the remote controller 12, various set values, and various internal states. Various set values include set temperature, operation mode, air volume setting, and the like. The various internal states include an alarm code that identifies the type of abnormality when the abnormality occurs. Further, the remote control unit 1201 can read the measurement value of the remote control temperature sensor 48 shown in FIG.

FIG. 5 is a functional block diagram of the wireless adapter according to the first embodiment of the present invention.
The wireless adapter control unit 401 included in the wireless adapter 4 controls the air conditioner communication unit 402, the first wireless communication unit 403, and the storage unit (memory) 404.

  The air conditioner communication unit 402 communicates with the outdoor unit 1, the indoor unit 2, and the centralized control device 3 through the communication transmission line 6 of the air conditioner shown in FIG. The first wireless communication unit 403 performs wireless communication with the mobile terminal 5. The wireless communication system is, for example, WiFi (registered trademark), Bluetooth (registered trademark), or Zigbee (registered trademark). The storage unit 404 stores a control program for the wireless adapter 4, various setting values, and current state information (current operation information) acquired from the outdoor unit 1 and the indoor unit 2.

  The wireless adapter 4 may be separate from the air conditioner (the outdoor unit 1, the indoor unit 2, the central control device 3, etc.), or may be attached to the air conditioner. If the air conditioner can be configured to have the function of the wireless adapter 4, it may be provided integrally with the air conditioner so as to be configured as one function of the air conditioner.

FIG. 6 is a functional block diagram of the mobile terminal according to the first embodiment of the present invention.
The mobile terminal control unit 501 included in the mobile terminal 5 controls the first wireless communication unit 502, the second wireless communication unit 503, the display unit 504, the operation unit 505, and the storage unit (memory) 506.

  The first wireless communication unit 502 performs wireless communication with the wireless adapter 4 via the first wireless communication unit 403 of the wireless adapter 4. The wireless communication system is, for example, WiFi (registered trademark), Bluetooth (registered trademark), or Zigbee (registered trademark). The second wireless communication unit 503 connects to the Internet 8 via the wide area wireless communication base station 7 shown in FIG. Examples of the wireless communication method include 3G (3rd Generation), LTE (registered trademark), and WiMAX (registered trademark).

  The display unit 504 includes an LCD, an LED, and the like, and displays various types of information. The operation unit 505 includes buttons, switches, a touch panel, and the like, and receives input from the user. The storage unit 506 acquires the control program of the mobile terminal 5 and various setting values, the current state information (current operation information) of the outdoor unit 1 and the indoor unit 2 acquired from the wireless adapter 4 shown in FIG. Store the data.

  In the control program of the mobile terminal 5, the wireless adapter 4 and the management server 9 are automatically wirelessly communicated to obtain operating information of the air conditioner, and are stored and stored in the storage unit 506 of the mobile terminal 5. An air conditioner information collection application for automatically wirelessly communicating the accumulated air conditioner operation information to the management server 9 is included. This information collection application may be preinstalled in the mobile terminal 5, downloaded from the Internet, or downloaded from the management server 9 or the like and installed. The display unit 504, the operation unit 505, and the storage unit 506 described above may be configured as separate devices.

FIG. 7 is a functional block diagram of the management server according to the first embodiment of the present invention.
A management server control unit 901 included in the management server 9 controls a LAN communication unit 902, a display unit 903, an operation unit 904, and a storage unit (memory) 905.
The LAN communication unit 902 is connected to the Internet 8. The display unit 903 includes an LCD, an LED, and the like, and displays various types of information. The operation unit 904 includes buttons, switches, a touch panel, a keyboard, a mouse, and the like, and receives input from the user.

The storage unit 905 stores data such as a control program of the management server 9, various set values of the air conditioner, and operation information acquired from the mobile terminal 5. The storage unit 905 also stores a database regarding each product of the air conditioner, and the database includes specification information, a manual, and the like of each air conditioner.
The display unit 903, the operation unit 904, and the storage unit 905 described above may be configured as separate devices.

  Next, a processing flow in the mobile terminal 5 in which the information collection application is installed will be described with reference to FIG. FIG. 8 is a flowchart for explaining the processing flow in the mobile terminal according to the first embodiment.

  First, the information collection application installed in the mobile terminal 5 is activated (step S1). When this information collection application is activated, the process proceeds to step S2, and the mobile terminal 5 determines whether or not it is within the communication range of the wireless adapter 4 shown in FIG. When it is not within the communication range (in the case of NO), the operation of step S2 is repeated. When entering the communication range of the wireless adapter 4 (in the case of YES), the process proceeds to step S3, where communication with the wireless adapter 4 is automatically started and the air conditioner stored in the storage unit 404 of the wireless adapter 4 is started. Driving information and the like are downloaded to the storage unit 506 of the mobile terminal 5.

  In step S4, the download is continued until the download is completed. When the download is completed (in the case of YES), the mobile terminal 5 ends the communication with the wireless adapter 4 and proceeds to the next step S5. In this step S5, it is determined whether or not the mobile terminal can communicate with the management server 9 installed at a remote location via the wide area radio communication base station 7 shown in FIG. When communication with the management server 9 is possible, the mobile terminal 5 automatically starts communication with the management server 9 and transmits the operation information of the air conditioner accumulated in the mobile terminal 5 to the management server. (Step S6). When the transmission to the management server 9 is completed (in the case of YES at step S7), the process proceeds to step S8 and enters a state of waiting for reception from the management server 9.

  The management server 9 analyzes the received operation information of the air conditioner and creates failure prediction data. After creating the failure prediction data, the management server 9 transmits the created failure prediction data to the mobile terminal 5.

  When the mobile terminal 5 in the standby state for receiving from the management server 9 receives from the management server 9 (YES in step S9), the mobile terminal 5 downloads the received information (failure prediction data, etc.) The information is stored in the storage unit 506 of the terminal and displayed on the display unit 504 of the mobile terminal 5 (step S10).

  A service person or the like who owns the mobile terminal 5 can take necessary measures with reference to failure prediction data displayed on the mobile terminal. In addition, the service staff displays the failure prediction data displayed or stored on the mobile terminal via the Internet 8 to the central control device 3 of the air conditioner or the user information terminal (such as a personal computer) 10. Can also be sent. Alternatively, the content displayed on the mobile terminal may be output to paper by being transmitted to the printer 11 via the Internet 8. Alternatively, the mobile terminal 5 may automatically transmit the reception information from the management server 9 to the central control device 3 or the like.

  As described above, when the mobile terminal 5 of the present embodiment enters the communication range of the wireless adapter (communication means) 4 for wireless communication provided in the air conditioner, the mobile terminal 5 automatically communicates with the wireless adapter 4. Since the wireless communication is configured to start, the operation information of the air conditioner can be automatically received. Therefore, by installing an information collection application that performs the processing described in FIG. 8 on the mobile terminal 5 and starting the application, a service person or the like operates the air conditioner without operating the mobile terminal 5 one by one. Driving information can be downloaded automatically.

  Further, in the mobile terminal of the present embodiment, after receiving the operation information of the air conditioner and the like and storing it in the storage unit 506 of the mobile terminal, the mobile terminal is connected to the wide area wireless communication base station 7 of the mobile terminal. When entering the communication range, it is configured to automatically start communication with the management server 9 that manages the air conditioner and automatically transmit the accumulated operation information of the air conditioner to the management server 9. ing. Usually, the wireless adapter 4 is installed near the centralized control device 3, and the centralized control device 3 is often installed in a basement or the like. For this reason, as long as the wireless adapter 4 can communicate, the mobile terminal 5 is often not in an environment capable of communicating with the wide area wireless communication base station 7. However, in the present embodiment, when the service person who owns the mobile terminal enters the communication area of the wide area radio communication base station 7, communication is automatically started with the management server 9 that manages the air conditioner. Thus, the operation information of the air conditioner accumulated in the mobile terminal can be automatically transmitted to the management server 9 without active operation by the service staff.

  Further, in the mobile terminal of the present embodiment, failure prediction data created by analyzing the operation information of the air conditioner transmitted from the mobile terminal 5 to the management server 9 is received from the management server 9. Since the received failure prediction data and the like can be displayed on the display unit 504, the service staff can easily refer to the prepared failure prediction data obtained by analyzing the latest operation information, and the necessary measures are taken. Can easily be taken.

  Moreover, the information collection application of the air conditioner in a present Example is an application performed by a mobile terminal, Comprising: It controls so that a mobile terminal may perform each process mentioned above automatically.

  The monitoring system of the air conditioner of the present embodiment includes a centralized control device 3 connected to the air conditioner, and a wireless adapter (communication means) 4 for wirelessly communicating with the mobile terminal 5, and the mobile terminal The wireless adapter is configured to automatically start wireless communication with the mobile terminal via the wireless adapter when the wireless adapter enters the communication area, and to transmit air conditioner operation information from the central control device to the mobile terminal. It is what you are doing.

  As described above, according to the present embodiment, a contract with a communication carrier is not particularly required for connection between the central control device and the management server, and a user system is used for construction of communication lines. Since there is no need to remodel, the financial burden other than the construction of the air conditioner can be reduced. Furthermore, when performing wireless communication, wireless communication may not be possible depending on the installation location of the centralized control device. However, according to the above-described embodiment, wireless communication can be performed reliably and easily without modifying the user's system. Since communication is possible, cost reduction can be achieved.

  Therefore, according to the present embodiment, it is possible to reliably perform failure prediction and remote monitoring of the air conditioner on the mobile terminal without modifying the user's system. It is possible to obtain an air conditioner monitoring system, a mobile terminal, and an air conditioner information collection application that can reduce the communication cost between the two.

In addition, this invention is not limited to the Example mentioned above, Various modifications are included. The above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described.
Information such as a program for realizing each function, each determination value, and each set time is stored in a recording device such as a memory, a hard disk, an SSD (Solid State Drive), or a recording medium such as an IC card, an SD card, or a DVD. Can be put in.

DESCRIPTION OF SYMBOLS 1 ... Outdoor unit, 2 ... Indoor unit, 3 ... Central control apparatus, 4 ... Wireless adapter (communication means),
5 ... mobile terminal, 6 ... transmission line for air conditioner communication, 7 ... wide area wireless communication base station,
8 ... Internet, 9 ... Management server, 10 ... Information terminal, 11 ... Printer,
12 ... Remote control,
31 ... gas piping, 32 ... liquid piping,
41 ... Outside air temperature sensor, 42 ... Discharge gas piping temperature sensor,
43 ... Outdoor heat exchanger piping temperature sensor,
44 ... Suction temperature sensor, 45 ... Blowing temperature sensor,
46 refrigerant gas pipe temperature sensor, 47 ... refrigerant liquid pipe temperature sensor,
48 ... remote control temperature sensor,
51 ... High pressure sensor, 52 ... Low pressure sensor,
101: Compressor, 102: Four-way valve, 103: Outdoor heat exchanger,
104: outdoor blower, 105 ... outdoor expansion valve,
201 ... indoor heat exchanger, 202 ... indoor blower, 203 ... indoor expansion valve.

Claims (10)

A centralized control device connected to the air conditioner, and communication means for wirelessly communicating with the mobile terminal,
When the mobile terminal enters the communication area of the communication means, wireless communication is automatically started with the mobile terminal via the communication means, and the operation information of the air conditioner is sent from the central control device to the mobile terminal. An air conditioner monitoring system characterized by transmitting.   2. The air conditioner monitoring system according to claim 1, wherein the mobile terminal receives air conditioner operation information from the central control device and stores the operation information in the mobile terminal, and then the mobile terminal When the communication range of the wide area wireless communication base station is entered, communication with the management server that manages the air conditioner is automatically started, and the accumulated operation information of the air conditioner is transmitted to the management server. A monitoring system for air conditioners.   3. The air conditioner monitoring system according to claim 2, wherein the management server analyzes operation information of the air conditioner received from the mobile terminal to create failure prediction data, and the failure prediction data is used as the mobile terminal. A monitoring system for an air conditioner, characterized in that   4. The air conditioner monitoring system according to claim 3, wherein the mobile terminal is configured to display the failure prediction data on a display unit of the mobile terminal when receiving the failure prediction data transmitted from the management server. An air conditioner monitoring system characterized by   Upon entering the communication range of the communication means for wireless communication provided in the air conditioner, automatically start wireless communication with the communication means and automatically receive the operation information of the air conditioner Mobile terminal characterized by.   In the mobile terminal according to claim 5, after receiving the operation information of the air conditioner and storing in the mobile terminal, when the mobile terminal enters the communication area of the wide area wireless communication base station of the mobile terminal, A mobile terminal that automatically starts communication with a management server that manages the air conditioner and transmits the accumulated operation information of the air conditioner to the management server.   7. The mobile terminal according to claim 6, wherein failure prediction data created by analyzing air conditioner operation information transmitted from the mobile terminal to the management server is received from the management server, and the received failure is received. A mobile terminal characterized in that prediction data can be displayed on a display unit.   An information collection application for an air conditioner executed by a mobile terminal, and when the mobile terminal enters a communication range of a communication means for wireless communication provided in the air conditioner, the communication means automatically Control is performed so as to start wireless communication, automatically receive the operation information of the air conditioner, and store the received operation information of the air conditioner in a storage unit inside the mobile terminal. Information gathering application for air conditioners.   9. The information collection application for an air conditioner according to claim 8, wherein after the mobile terminal receives the operation information of the air conditioner and stores it in the mobile terminal, the mobile terminal performs wide area wireless communication of the mobile terminal. When entering the communication range of the base station, control is performed to automatically start communication with the management server that manages the air conditioner and to transmit the accumulated operation information of the air conditioner to the management server. A featured information collection application for air conditioners.   The information collection application for an air conditioner according to claim 9, wherein failure prediction data created by analyzing the operation information of the air conditioner transmitted from the mobile terminal to the management server is received from the management server. An information collecting application for an air conditioner that controls to display the received failure prediction data on a display unit.

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