JP5822583B2 - Air conditioning equipment management system - Google Patents

Description

  The present invention relates to an air conditioning equipment management system that performs individual management of air conditioning equipment.

Conventionally, as an air conditioning system that centrally manages a plurality of air conditioners in one building or house, for example, there is one described in Patent Document 1. Further, Patent Document 2 uses the MAC address and position information of each air conditioner (indoor unit) as an individual identification method and individual identification information acquisition method for each air conditioner necessary for centralized management, information acquisition In addition, it is disclosed that an RFID tag and an RFID reader are used as holding means. Further, conventionally, an air conditioner monitoring / operating function has been put into practical use in which an abnormality content of an air conditioner can be confirmed by connecting to the Internet from a remote personal computer via an internet connection modem and a VPN router to a LAN wiring.
By such a system, timely information on the air conditioner is obtained, and an information group obtained by continuously collecting the information can be useful information for field service and product development as equipment history.

JP-A-7-38967 JP 2007-10223 A

However, the continuous accumulation and accumulation of various information by the above system has a problem in terms of cost, such as requiring a large-capacity accumulation unit for each device in the field. Moreover, in order to reliably accumulate on the central management side, frequent access to the field is required, which is not practical.
Furthermore, installation of a system for connecting to the Internet from a remote personal computer via an Internet connection modem and VPN router for LAN wiring may be restricted due to security problems and public line infrastructure problems.

  The present invention has been made in order to solve the above-described problems, and can manage air conditioning equipment at a low cost, and provides security for a management system such as an air conditioning system that centrally manages a plurality of air conditioning equipment. The purpose is to obtain an air-conditioning equipment management system that has no effect.

The air-conditioning equipment management system according to the present invention performs communication between one or a plurality of air-conditioning units composed of at least one indoor unit and one outdoor unit and a centralized controller to concentrate information on the air-conditioning units. A first communication means for transferring to the controller, a second communication means for performing communication between the centralized controller and the communication device, and transferring information of the air conditioning unit transferred to the centralized controller to the communication device; the information transferred to the communication device, and a third communication means for transferring the individual information management server for managing information of the air-conditioning unit, from the communication apparatus, disposal start instruction to the second communication means The air conditioning unit constituting the air conditioning unit that is issued to the centralized controller and receives the disposal processing start command from the centralized controller via the first communication means, collects the refrigerant. Run the knowledge processing, refrigerant recording refrigerant recovery completion detects that the collected, the recorded information is to be transferred to the individual information management server via the at least a third communication means.

In the air conditioner management system according to the present invention, information indicating that the refrigerant recovery of the air conditioner has been completed is recorded in the individual information management server in response to the disposal processing start command. This information can be confirmed prior to the operation, and the work can be performed more efficiently.

It is a block diagram which shows the air-conditioning equipment management system by Embodiment 1 of this invention. It is explanatory drawing which shows the internal structure of the air conditioner, the centralized controller, and the individual information management server in the air conditioner management system of Embodiment 1 of this invention. It is explanatory drawing which shows the detail of the individual information database in the air-conditioning equipment management system of Embodiment 1 of this invention, an operation information database, and a discard information database. It is explanatory drawing which shows the flow of the data from the production of air conditioning equipment to disposal in the air conditioning equipment management system of Embodiment 1 of this invention. It is a flowchart which shows operation | movement of the data acquisition part of the air conditioning equipment in the air conditioning equipment management system of Embodiment 1 of this invention. It is a flowchart which shows the refrigerant | coolant collection | recovery detection process of the air conditioning equipment in the air conditioning equipment management system of Embodiment 1 of this invention. It is a block diagram which shows the air-conditioning equipment management system by Embodiment 2 of this invention. It is explanatory drawing which shows the internal structure of the air conditioning equipment in the air conditioning equipment management system of Embodiment 2 of this invention, a centralized controller, and a data interface server. It is a block diagram which shows the air-conditioning equipment management system by Embodiment 3 of this invention.

Embodiment 1 FIG.
1 is a block diagram showing an air conditioning equipment management system according to Embodiment 1 of the present invention.
The air conditioner management system shown in FIG. 1 includes air conditioners 101a to 101d, 102a to 102d, controllers 110a and 110b, a centralized controller 200, communication devices 300a, 300b, 301 and 302, and an individual information management server 400.

The air conditioning equipment management system according to Embodiment 1 is obtained from a field system including a relatively small-capacity data storage unit in a field system including air conditioning equipment 101a to 101d, 102a to 102d, controllers 110a and 110b, and a centralized controller 200. Various types of information are appropriately collected together with individual identification information of each air conditioner by communication devices 300a and 300b that are connected to this system and can communicate at a relatively short distance. Then, the collected individual information of each air conditioner is transmitted to the individual information management server 400 by communication means using a public line provided in the communication devices 300a and 300b. The individual information management server 400 aggregates various information (including continuous history information) of the huge amount of air conditioning equipment obtained by this communication means under any condition such as for each individual or the same model, so that the air conditioning equipment Various information (situation, history, etc. (for example, operation information for each region, every hour, every season, failure information, maintenance information, replacement information, etc.) is efficiently obtained. Data (such as history data of each device) in the individual information management server 400 useful for field service is referred to and updated.
Hereinafter, such an air conditioning equipment management system will be described in detail.

  The air conditioners 101a to 101d, 102a to 102d and the controllers 110a and 110b are physically connected by communication lines 120a and 120b capable of data communication. The air conditioners 101a and 102a are outdoor units, and the air conditioners 101b to 101d and 102b to 102d are indoor units connected to the air conditioners 101a and 102a, respectively, and constitute an air conditioning unit. In addition, you may include apparatuses, such as a ventilation apparatus, as an air conditioning apparatus. The centralized controller 200 is communicatively connected to the air conditioners 101a to 101d and 102a to 102d via the hub 10 via a network 11 such as a LAN. Further, the network 11 constitutes a first communication means. The hub 10 is connected with a wireless access point 12 for performing wireless communication connection with the communication devices 300a and 300b and a communication device 301, and these are installed in a building that uses an air conditioner.

  The communication devices 300a and 300b can communicate with the centralized controller 200 via the wireless access point 12 by short-range communication limited to two parties such as Bluetooth and wireless LAN using a protocol such as TCP / IP. Mobile terminals such as smart phones and portable computers. The communication device 301 is a communication device such as a personal computer connected to the hub 10 via a wired LAN. Here, the communication means between the wireless access point 12 and the communication devices 300a and 300b, and the communication means to the network 11 via the communication device 301 and the hub 10 connect the communication devices 300a, 300b, and 301 to the centralized controller 200. The 2nd communication means which can be connected arbitrarily is comprised.

  The individual information management server 400 is under the control of a manufacturer of air conditioning equipment such as a data center or a shipping factory, and is connected to the LAN 31 via the hub 30. In addition, a wireless access point 32 is connected to the hub 30 and a communication device 302 such as a personal computer is connected by a wired LAN, and these are connected by TCP / IP communication. Further, the individual information management server 400, the hub 30, the LAN 31, the wireless access point 32, and the communication device 302 within the broken line frame indicate a system for performing access to the individual information management server 400. Furthermore, the network between the wireless access point 32 and the communication devices 300a and 300b and the LAN 31 constitute third communication means using a public line such as the Internet. Further, since the communication devices 300a and 300b communicate with the individual information management server 400 using the third communication unit, the communication devices 300a and 300b have an interface corresponding to the second communication unit and an interface corresponding to the third communication unit. doing.

FIG. 2 shows the internal configuration of the air conditioners 101a to 101d, 102a to 102d, the centralized controller 200, and the individual information management server 400.
The air conditioners 101a to 101d, 102a to 102d include data acquisition units 130a, 130b,..., Data transmission / reception units 140a, 140b,..., ROMs 150a, 150b,. And. In addition, since the structure of the air conditioners 102a-102d is the same as that of the air conditioners 101a-101d, the illustration is abbreviate | omitted in FIG. Moreover, since the internal structure of the air conditioners 101c and 101d is the same as that of the air conditioner 101b, the internal structure is not shown.

  The data acquisition units 130a, 130b, ... are functional units that acquire environmental data and operation data and store them in the RAMs 160a, 160b, ..., and the data transmission / reception units 140a, 140b, ... are the controllers 110a, 110b shown in FIG. It is a communication control part for performing communication with the centralized controller 200 via this. The data acquisition units 130a, 130b,... Are realized by a processor executing an individual management control program or an environmental data measurement control program. In the ROMs 150a, 150b,..., Information relating to individual identification as an air conditioner, such as individual identification numbers and model information, programs for realizing the functions of the data acquisition units 130a, 130b,. In the RAMs 160a, 160b,..., Acquired data such as environment data and operation data is recorded.

  The centralized controller 200 includes a LAN communication unit 201, a control unit 202, a connected device communication unit 203, and a data unit 204. The LAN communication unit 201 is a functional unit that performs communication control with the communication devices 300a, 300b, and 301 via the hub 10 and the wireless access point 12. The control unit 202 is a functional unit that performs various controls as the centralized controller 200 such as analysis of received electronic messages, editing of transmitted electronic messages, and storage of data in the data unit 204. The connected device communication unit 203 is a communication control unit for transmitting and receiving data to and from the air conditioners 101a to 101d and 102a to 102d. That is, the LAN communication unit 201 is a communication unit for configuring the second communication unit, and the connected device communication unit 203 is a communication unit for configuring the first communication unit. The data unit 204 is a storage unit that records information about the air conditioners 101a to 101d and 102a to 102d, such as addresses, device types, and individual identification numbers of the air conditioners 101a to 101d and 102a to 102d.

  The individual information management server 400 includes an individual information management unit 401, an individual information database 402, an operation information database 403, and a discard information database 404. The individual information management unit 401 is a functional unit that centrally manages the air conditioners 101a to 101d and 102a to 102d from shipment to disposal, and manages the data of each state as a centralized management database. The information database 404 is used for the configuration.

FIG. 3 is an explanatory diagram showing details of the individual information database 402 to the discard information database 404.
The individual information database 402 is a database for information regarding the air conditioners 101a to 101d and 102a to 102d itself, and includes individual identification number, model information, software (S / W) and version (Ver.), And shipment inspection record. Stores item information. The operation information database 403 is a database for information regarding the operation state of the air conditioners 101a to 101d and 102a to 102d, and includes items such as connection information indicating the connection state between the outdoor unit and the indoor unit and maintenance information indicating the maintenance state. Information is stored. The operation information database 403 can also store measurement data such as vibration, current value, sound, temperature, and humidity of specific locations related to the air conditioners 101a to 101d and 102a to 102d as operating environment data. The discard information database 404 is a database for information related to refrigerant recovery and disposal of the air conditioners 101a to 101d and 102a to 102d, and stores information such as the cause of disposal and the refrigerant recovery date.

  The individual information database 402 to the discard information database 404 are accessed from the communication device 302 connected to the individual information management server 400 via the LAN 31 and the communication devices 300a and 300b connected via the wireless access point 32. Data can be queried and changed.

Next, the operation of the air conditioning equipment management system will be described.
FIG. 4 is an explanatory diagram showing the flow of data from production to disposal of the air conditioning equipment.
At the time of production 100-1 of the air conditioners 101a to 101d and 102a to 102d, an individual identification number (for example, a serial number) unique to each air conditioner is determined and stored in the individual information database 402 in the individual information management server 400 shown in FIG. Device information (individual identification number, model information, etc.) is registered. On the other hand, individual identification numbers are written in the ROMs 150a, 150b,... On the control board of each air conditioner shown in FIG. At the time of shipping inspection 100-2, the inspection data corresponding to the individual identification number is registered as a shipping inspection record in the individual information database 402 shown in FIG. At the time of shipment 100-3, the shipment information corresponding to the individual identification number is registered in the aforementioned individual information database 402.

  In the case of installation 100-4 in a building that uses the air conditioners 101a to 101d and 102a to 102d shown in FIG. 1, the configuration of the air conditioning system and the individual identification number in the installed building are shown in FIG. Alternatively, it is acquired via the centralized controller 200 by the communication device 302). At this time, the operator terminal such as the communication device 301 (or the communication device 302) has its identification information (for example, MAC address) registered in advance in the database on the manufacturer side, and access to the centralized controller 200 has been registered. Permitted only from communication equipment. At the time of maintenance 100-5 such as inspection and repair of the equipment shown in FIG. 4, the centralized controller 200 displays the operation data and environmental data of the air conditioning equipment stored in the air conditioning equipment 101a to 101d and 102a to 102d together with the individual identification number. 3 together with the repair information input directly from the communication device terminal 301 (or 302) by the maintenance operator, and the individual identification number corresponding to the operation information database 403 shown in FIG. Each information is recorded. At the time of disposal 100-6 shown in FIG. 4 such as replacement, information that can be judged to be discarded, such as refrigerant recovery information, is acquired from the air conditioners 101a to 101d and 102a to 102d at the installation site. Alternatively, the information is registered in the discard information database 404 shown in FIG. 2 by the operator's input work from the product tracking data management screen of the communication device 302 shown in FIG. From the product tracking data management screen, registration information of the air conditioners 101a to 101d and 102a to 102d including the individual identification numbers can be extracted and inquired.

In the following, the role and operation of each unit when acquiring individual identification information will be described with reference to FIG.
Communication is established between the communication devices 300a and 300b and the centralized controller 200 installed in the building. At this time, the second communication means is based on TCP / IP communication via the wireless access point 12. Next, when obtaining the individual identification information, the connection information on the air conditioning system, the model information, etc. for the installed air conditioning devices 101a to 101d and 102a to 102d, the communication devices 300a and 300b are used for inquiring individual identification information. A communication message is issued to the centralized controller 200. As a result, the centralized controller 200 analyzes this communication message in the control unit 202, and for each of the air conditioners 101a to 101d and 102a to 102d connected on the same communication line 120a and 120b, individual identification of each device is performed. The information, the device-specific information such as the model, and a message for acquiring information related to the connection configuration are edited and transmitted to all the air-conditioning devices 101a to 101d and 102a to 102d via the connected device communication unit 203.

  When each of the air conditioners 101a to 101d and 102a to 102d receives this message at the data transmission / reception units 140a, 140b,..., The individual identification information on the ROMs 150a, 150b,. In such a case, information on the RAMs 160a, 160b,. The centralized controller 200 receives the response message via the connected device communication unit 203, analyzes it by the control unit 202, and updates the data unit 204 in combination with address information on its own air conditioning system in the data unit 204. Next, the centralized controller 200 determines the type of each communication device 300a, 300b for which an information acquisition request has been made by the control unit 202, and responds with information acquired from the air conditioners 101a-101d, 102a-102d accordingly. The data is edited into a message, responded to the communication devices 300a and 300b via the LAN communication unit 201, and the acquired information is displayed on the display of the communication devices 300a and 300b, and the data format can be saved on the communication devices 300a and 300b. Edit and display a message prompting you to save. At this time, regarding the connection information, the centralized controller 200 is on the data unit 204 that uniquely stores all the information on the air conditioners 101a to 101d and 102a to 102d connected to the same communication lines 120a and 120b. A response message is generated together with the information. From the communication devices 300a and 300b, it is possible to save data and download individual identification information in a fixed data format.

Next, when acquiring individual information such as operation data and environmental data of a specific air conditioner after installation, the role and operation of each component when first setting the type of information to be acquired and the recording conditions will be described.
In the individual information condition setting, the communication device 300a, 300b, 301 establishes communication from the communication devices 300a, 300b, and 301 to the centralized controller 200 and obtains the individual identification information together with the individual identification number when acquiring the individual identification information. A communication message conforming to a predetermined format is issued to the centralized controller 200 together with setting conditions desired to be given to the device. The centralized controller 200 analyzes the received electronic message, obtains a destination on the system corresponding to the individual identification number from the data unit 204, and subordinates it via the communication lines 120a and 120b in a predetermined format together with a recording condition to be set. It is issued as a command to a specific air conditioner. The destination air conditioner can be specified by displaying the collected individual identification data on the display of the communication devices 300a, 300b, 301 and selecting the corresponding air conditioner in the building.

  The conditions to be set indicate a sensor to be measured, a measurement start trigger, a measurement end condition, a measurement method, and the like, and can be set according to a predetermined description format. For example, in a building in a certain area, when the temperature detected by the temperature sensor C in the air conditioner exceeds the threshold value X for the air conditioner A installed in a place where the possibility of high temperature is suspected, the sensor B in the apparatus You may want to record the value of. At this time, a case where the detected temperature of the sensor C is used as a condition for environmental measurement in the command is considered. At this time, in the command, recording conditions for monitoring the detected temperature of the sensor C as conditions for environmental measurement and recording the value of the sensor B when the threshold value X of the sensor C is over the threshold value are described as recording conditions.

  Receiving the condition, the air conditioner A analyzes the received command at the data acquisition units 130a, 130b,... And starts control for recording environmental data. At this time, the received condition values and data are recorded in the RAMs 160a, 160b,. For example, when the air conditioner A is the air conditioner 101b shown in FIG. 2, identification information as fixed information is stored in the ROM 150a, and control conditions and recorded data are stored in the RAM 160a.

Next, the operation | movement at the time of environmental data measurement after air-conditioning equipment installation is demonstrated.
The data acquisition units 130a, 130b,... Of the air conditioners 101a to 101d and 102a to 102d shown in FIG. 2 measure and record environmental data under predetermined conditions. FIG. 5 is a flowchart showing the operation of the data acquisition units 130a, 130b,.
First, it is determined whether or not environmental measurement is necessary (step ST1), and if not measured = NO, the process ends. If it is measured = YES, then branching is performed according to measurement conditions. When the condition A is a processing target (step ST2: YES), the data is acquired from the sensor A (step ST5) when it is the collection cycle and the recording condition is satisfied (step ST4: YES), and a predetermined value is obtained. The data is recorded in the RAM 160a, 160b,... In a format (step ST6).

  When the condition B is a processing target (step ST7: YES), the sensor B data is acquired as the recording condition (step ST9: YES) when the value of the sensor C exceeds the threshold value X (step ST9: YES) (step ST7: YES). ST10), and records in a predetermined format in RAM 160a, 160b,... (Step ST11).

  When the condition C is an object to be processed (step ST12: YES), the recording condition is satisfied at a constant cycle triggered by the value of the sensor C exceeding the threshold value X (step ST14: YES). When the recording condition is satisfied, the recording value Q is calculated based on the data of the sensor B (step ST15) and recorded (step ST16). At this time, the value Q is a solution obtained by substituting the sensor A value and the sensor C value into a predetermined calculation formula. In any case, if the end condition is satisfied (steps ST3, ST8, ST13: YES), the process is ended without performing recording.

  The environmental data can be operated by combining a plurality of measurement conditions and measurement objects. In addition to the sensors in the individual, it is also possible to install measurement devices outside the air conditioner and connect them to the air conditioner, and then measure the values from the external input of the air conditioner.

Next, the operation of collecting individual identification information or environmental data and operating state data recorded for each individual and registering information in the individual information management server 400 will be described.
In the collection of the individual identification information or the environmental data and the operation state data recorded for each individual, the communication device 300a, 300b, 301 has already acquired the communication after establishing communication with the centralized controller 200, as in the case of obtaining the individual identification information. The destination of the specific device is determined based on the individual identification information and the connection information, and an information collection command is issued together with the individual destination information to the centralized controller 200 by a communication message conforming to a predetermined format. The centralized controller 200 analyzes the received electronic message by the control unit 202, and issues it as a command to a specific subordinate air conditioner via the communication lines 120a and 120b in a predetermined format.
The destination air conditioner collects the requested information from the ROMs 150a, 150b,... Or the RAMs 160a, 160b,. respond. At this time, even when environmental data and driving state data are requested, it responds with the individual identification information. The centralized controller 200 analyzes the response message from the air conditioner and transmits it to the communication devices 300a, 300b, 301 as a communication message in accordance with a predetermined format.

  Next, the individual information obtained from the air conditioners 101a to 101d and 102a to 102d is registered in the individual information management server 400. As shown in FIG. 3, communication with each individual information management server 400 is established from each communication device 300a, 300b, 302 via TCP / IP communication. At this time, the communication destination may be a relay that can communicate with the individual information management server 400. The individual information management server 400 (or relay device) determines the type of the communication device 300a, 300b, 302, and transmits the individual identification information registration screen information of the communication device to the communication device accordingly. From the displayed individual identification information registration screen, the communication device can transmit the acquired individual information and discard information to the individual information management server 400. In the individual information management server 400, the received data is stored in the operation information database 403 and the discard information database 404 by the individual information management unit 401.

  In addition, regarding the air conditioners 101a to 101d and 102a to 102d, an operator can directly input information other than information obtained from each individual from the communication devices 300a, 300b, and 302. For example, for the replacement of a part, certain information such as the part name of the replacement part, the reason for replacement, and the name of the worker is input from the communication device screen. At this time, the input information can be registered in the operation database 403 using the same connection means as that used when registering the individual information in the database.

  Next, a method for obtaining similar events and countermeasures based on individual information when investigating or repairing malfunctions of air conditioning equipment such as abnormal operation will be described. When any or all of the air conditioners 101a to 101d shown in FIG. 2 are investigated for a failure, the maintenance worker obtains the individual identification information and individual information of the target air conditioner using the above-described means. . Next, after combining the obtained individual information, for example, the model, lot, version of the air conditioner control software, the characteristics of the internal state of the device detected by the sensor, failure events, etc. as an extraction condition, the communication device A stored information read request is output to the operation information database 403 in the individual information management server 400 from 300a, 300b, or from the repeater. On the other hand, corresponding information is extracted from the individual information management server 400, and the inquiry result is returned to the communication devices 300a and 300b or the relay device. The returned information can be read on a terminal such as the communication devices 300a and 300b.

Next, information registration when the air conditioners 101a to 101d and 102a to 102d shown in FIG. 1 are discarded will be described.
The air conditioner to be discarded is specified by selecting the corresponding air conditioner in the building on the display of the communication devices 300a and 300b using the individual identification data collected previously. Communication according to a predetermined format to determine the destination of a specific device based on the acquired individual identification information and connection information, and for the air conditioning device equipped with the refrigerant recovery detection function, together with the individual destination information, the disposal processing start Issued to the centralized controller 200 by electronic message. The air conditioner receives a disposal processing start command via the centralized controller 200, and executes refrigerant recovery detection processing by the data acquisition units 130a, 130b,.

  The refrigerant recovery detection process is shown in the flowchart of FIG. When an execution condition is given, change detection of the refrigerant pressure is started (step ST101), and is executed until a change value that can be determined to indicate refrigerant recovery appears. In accordance with a predetermined calculation method, it is determined whether or not a value change that can be determined as refrigerant recovery has occurred (step ST102). If occurrence = YES, the completion of refrigerant recovery is recorded in the RAMs 160a, 160b,. ST103). If it is not determined that the refrigerant is recovered, the change in the refrigerant pressure or the like is recorded in the RAMs 160a, 160b,... (Step ST104), and the process is continued until a new command is issued from the centralized controller 200.

  Next, the communication device 300a, 300b issues a refrigerant recovery inquiry message. The centralized controller 200 issues an inquiry message in a predetermined format to a specific destination air conditioner, and the air conditioner returns the refrigerant recovery information recorded on the RAMs 160a, 160b,. Here, when the communication devices 300a and 300b receive the record of the refrigerant recovery completion, the discard information database 404 is updated.

  If the air conditioning equipment that is not equipped with the refrigerant recovery detection function is discarded or the refrigerant recovery confirmation is not performed, the disposal information is input for the specific individual information to be discarded. The input contents are registered from the communication devices 300a, 300b, and 302 to the individual information management server 400 by the same means as in the installation information registration described above. When the disposal information is known without checking inside the building, it is possible to inquire about the information at the time of installation from the maintenance screen of the communication device related to the individual information database 402 to the disposal information database 404 and add the disposal information. .

As described above, since information specific to individual units is acquired from the air conditioners 101a to 101d and 102a to 102d connected to the centralized controller 200, outdoor units, indoor units, and ventilators in the air conditioning system Individual identification information of all other air conditioners can be acquired at once, and environmental data specific to each air conditioner can also be collected.
Further, since the individual identification information is recorded on the storage medium of the control board of the air conditioning equipment, it can be determined at the time of product production and can be closely related to general-purpose air conditioning control software. As a result, a series of product information from production to disposal can be managed collectively, and accurate individual management and rapid individual information tracing can be performed.

  As described above, according to the air conditioning equipment management system of the first embodiment, communication is performed between one or a plurality of air conditioning units composed of at least one indoor unit and one outdoor unit and the centralized controller. Communicating between the central controller and the communication device, and transferring the air conditioning unit information transferred to the central controller to the communication device A second communication means for controlling the air conditioner and a third communication means for transferring the information transferred to the communication equipment to the individual information management server for managing the information of the air conditioning unit. Can be realized at low cost, and air-conditioning equipment management that does not affect security on management systems such as air-conditioning systems that centrally manage multiple air-conditioning equipment The stem can be obtained.

  Further, according to the air conditioning equipment management system of the first embodiment, the second communication means is a communication means that can arbitrarily connect the communication equipment to the centralized controller. can do.

  Further, according to the air conditioning equipment management system of the first embodiment, the communication equipment includes the interface corresponding to the second communication means and the interface corresponding to the third communication means. Information obtained from the centralized controller can be transferred to the individual information management server.

  Further, according to the air conditioning equipment management system of the first embodiment, the second communication means is short-distance communication limited to two parties, and the third communication means uses a public line. It is possible to maintain security for the management system and manage air conditioning equipment at low cost.

  In addition, according to the air conditioning equipment management system of the first embodiment, the air conditioning equipment having the individual information including the individual identification information, the central controller that communicates with the air conditioning equipment and acquires the individual information, and the air conditioning for the centralized controller. In addition to making an individual information acquisition request of the device, the communication device that acquires the individual information from the centralized controller as a response to the individual information acquisition request, and an individual information management server that holds the individual information of the air conditioner collected by the communication device, When the centralized controller receives the individual information acquisition request from the communication device, it acquires the individual information from the air conditioning device corresponding to the individual information acquisition request, and sends this individual information to the communication device as a response. Individual information of all air conditioners can be collected without any errors.

  Further, according to the air conditioning equipment management system of the first embodiment, the air conditioning equipment uses the operation environment data as measurement data related to the environment of the air conditioning equipment and the operation history data generated by the operation of the air conditioning equipment as individual information. Since the measurement conditions of the measurement data can be set from the communication device through the path for acquiring the individual information, for example, all the air conditioning devices can be set by a service person or the like via the communication device at any timing. Alternatively, by giving a threshold value of a specific sensor serving as a data recording condition and information on the type of data to be measured to a specific air conditioner, measurement of environmental data can be started and measurement conditions can be changed. Furthermore, after that, at any timing, operating environment data such as vibration, current value, sound, temperature and humidity of specific locations detected or measured by each air conditioner, and operation history data such as operation status, setting status, and accumulated operation time It can be collected as individual information by communication telegram.

  Further, according to the air conditioning equipment management system of the first embodiment, the individual information management server includes an individual information database that stores individual identification information, and an operation information database that stores operation environment data and operation history data. Since the communication device can access the individual information database and the operation information database by accessing the individual information management server, the individual information regarding the air conditioner can be centrally managed. This data can be analyzed and used as a material for improving and developing air conditioning equipment.

  In addition, according to the air conditioning equipment management system of the first embodiment, the individual information management server includes a disposal information database that stores the disposal information of the air conditioning equipment, and the communication equipment discards by accessing the individual information management server. Since the information database can be referred to, it is possible to reliably grasp that the air conditioner has been discarded.

  Further, according to the air conditioning equipment management system of the first embodiment, the individual information management server includes an individual information database that stores individual identification information, and an operation information database that stores operation environment data and operation history data. Since the communication device can access the individual information database and the operation information database by accessing the individual information management server, the communication device designates a certain extraction condition and the data on these databases. Can be obtained and the result can be obtained on the communication device. For example, when investigating a failure event of an air conditioner, acquire individual information of the device subject to investigation, specify a narrowing condition according to the content of the information, and match information from the data in the individual information management server. It can be extracted and confirmed on a communication device. As a result, it is possible to determine whether there is an abnormality in light of the tendency of the same model, or to extract the cause and countermeasure of a similar failure event, and to expect an early solution of the problem and unification of survey contents.

  Moreover, according to the air conditioning equipment management system of the first embodiment, the air conditioning equipment includes the data acquisition unit that records that the refrigerant recovery is performed based on the change in the refrigerant pressure, and the discard information database includes the refrigerant recovery information. Since the communication device acquires information on the presence or absence of refrigerant recovery from the disposal information database, for example, at the time of maintenance or replacement, a service person or the like via the communication device prior to the refrigerant recovery operation It is possible to acquire the refrigerant recovery information, and then confirm whether or not the refrigerant recovery has been performed reliably. At this time, if the purpose of refrigerant recovery is to dispose of the air conditioning equipment, it can be registered as disposal information in the disposal information database on the individual information database, or only refrigerant recovery is performed for reasons such as parts replacement during maintenance. Then, if it is for continuing use of an apparatus by reinjecting a refrigerant | coolant etc. after that, refrigerant | coolant collection | recovery can be recorded on the driving | operation information database on a solid information database as maintenance information.

  Further, according to the air conditioning equipment management system of the first embodiment, since the individual information database has information at the time of shipment of the air conditioning equipment, it is possible to reliably grasp the flow from the shipment to the disposal of the air conditioning equipment. it can.

Embodiment 2. FIG.
In the second embodiment, an example in which a plurality of centralized controllers are provided will be described.
FIG. 7 is a configuration diagram of an air conditioning equipment management system according to the second embodiment.
The air conditioner management system in the second embodiment includes air conditioners 101a to 101d, 102a to 102d, controllers 110a and 110b, central controllers 200a, 200b, and 200c, communication devices 300a, 300b, 301, and 302, an individual information management server 400, A data interface server 500 is provided. The centralized controllers 200a to 200c are assigned air-conditioning devices 101a to 101d and 102a to 102d to be managed, respectively, and the basic functions are the same as those of the centralized controller 200 of the first embodiment. The data interface server 500 has information on which centralized controllers 200a to 200c are assigned to which air conditioning devices 101a to 101d and 102a to 102d, and in response to individual identification information acquisition requests from the communication devices 300a and 300b, Communication with any or all of the centralized controllers 200a to 200c is performed to respond to individual identification information. Since other configurations are the same as those of the first embodiment shown in FIG. 1, the same reference numerals are given to corresponding portions, and descriptions thereof are omitted.

  FIG. 8 shows the internal configuration of the air conditioners 101a to 101d, 102a to 102d, the centralized controllers 200a to 200c, and the data interface server 500. In FIG. 8, only the centralized controller 200a and the air conditioners 101a to 101d are shown as examples of the centralized controllers 200a to 200c and the air conditioners 101a to 101d and 102a to 102d. Further, the configuration of the centralized controller 200a and the air conditioners 101a to 101d is the same as the configuration of the centralized controller 200 and the air conditioners 101a to 101d shown in FIG.

  The data interface server 500 includes a LAN communication unit 501, a control unit 502, a controller communication unit 503, and a data unit 504, and is installed in a building where the centralized controllers 200a to 200c are provided. The LAN communication unit 501 is a functional unit that performs communication control with the communication devices 300a and 300b via the hub 10, the network 11, and the wireless access point 12, and the control unit 502 is a functional unit that controls the data interface server 500 and a controller. The communication unit 503 is a functional unit that performs communication control with the centralized controllers 200 a to 200 c via the network 11 and the hub 10.

  In the air conditioner management system configured as described above, the communication devices 300a and 300b communicate with the data interface server 500 by TCP / IP communication. Individual information acquisition requests from the communication devices 300a and 300b or setting conditions for acquiring individual information are transmitted to the data interface server 500. The data interface server 500 analyzes the request message received via the LAN communication unit 501 by the control unit 502, and the controller communication unit 503 transmits the request message to the centralized controllers 200a to 200c. For the centralized controllers 200a to 200c, the controller communication unit 503 first checks the existence, and records the addresses on the network of the centralized controllers 200a to 200c that have responded to the data unit 504. Next, with respect to the centralized controllers 200a to 200c for which the connection has been established, the control unit 502 transmits the individual identification information of each device and the model to the air conditioners 101a to 101d and 102a to 102d under the centralized controllers 200a to 200c. The device-specific information such as information and a message for acquiring information regarding the connection configuration are edited and transmitted to the centralized controllers 200a to 200c by the controller communication unit 503. Information acquisition from the air conditioners 101a to 101d and 102a to 102d in the centralized controllers 200a to 200c that has received the information acquisition request from the data interface server 500 is the same as in the first embodiment.

  When the data interface server 500 receives a response to the individual information acquisition request from the centralized controllers 200a to 200c, the LAN communication unit 501 transmits a response message to the acquisition request to the communication devices 300a and 300b. Further, in the data interface server 500, when there is an individual information acquisition request for the specific air conditioners 101a to 101d and 102a to 102d from the communication devices 300a and 300b, the control unit 502 refers to the data unit 504 and corresponds. The centralized controllers 200a to 200c are specified, and an information acquisition request is transmitted to the centralized controllers 200a to 200c.

  Note that the processing related to the management of the individual identification information acquired by the communication devices 300a and 300b by the individual information management server 400 is the same as in the first embodiment.

  As described above, the data interface server 500 can collectively acquire data from the centralized controllers 200a to 200c that can be connected on the network, and can respond to the communication devices 300a and 300b. Therefore, for example, the service person only accesses the data interface server 500 in the building using the communication devices 300a and 300b at the time of trial operation and maintenance of the air conditioning device, and all the air conditioning devices 101a in the building. It is possible to obtain connection information and individual identification information of ˜101d, 102a˜102d. When wireless communication by the wireless access point 12 is possible from the data interface server 500 in the building, it is not necessary to perform registration work in the building, and accurate connection information can be obtained through the Internet line. Furthermore, the individual identification information obtained via the data interface server 500 can be registered in the individual information management server 400 as in the first embodiment, and the information can be centrally managed.

  As described above, according to the air conditioning equipment management system of the second embodiment, a plurality of air conditioning equipment each having individual information including individual identification information, and when receiving an individual information acquisition request, A plurality of centralized controllers that communicate with at least one of the air conditioners and acquire individual information, and manage information indicating which centralized controller of the plurality of centralized controllers acquires individual information of which air conditioner A request for acquiring individual information of the air conditioner to the data interface server and the data interface server, a communication device for acquiring the individual information from the data interface server as a response to the request for acquiring the individual information, and a list of the air conditioners collected by the communication device And an individual information management server that holds individual information. When an individual information acquisition request is received from the device, an individual information acquisition request is made to the centralized controller that acquires the individual information of the air conditioner corresponding to the individual information acquisition request, and a response to the individual information acquisition request from the centralized controller is made. When received, this individual information is sent as a response to the communication device, so even if there are multiple centralized controllers, it is possible to collect individual information of all air conditioning devices without human error. .

Embodiment 3 FIG.
The third embodiment is an example in which a general-purpose personal computer or the like is used instead of a dedicated device for the centralized controller, and the data is directly collected from each device by directly connecting to the communication line of the air conditioning device.

FIG. 9 is a configuration diagram of an air conditioning equipment management system according to the third embodiment.
The air conditioner management system shown in FIG. 9 includes air conditioners 101a to 101d, 102a to 102d, a communication device 303, an individual information management server 400, and a protocol converter 600. The communication device 303 is a personal computer or the like, and has functions equivalent to those of the centralized controllers 200 and 200a to 200c in the first and second embodiments with respect to collecting individual information. That is, it has a function of issuing a command to a plurality of air conditioners 101a to 101d and 102a to 102d existing on the communication lines 120a and 120b, analyzing the response, and associating the system configuration with the individual information. Yes. At this time, a method in which the communication device 303 performs communication using a dedicated protocol in the air conditioners 101a to 101d and 102a to 102d and a dedicated protocol of the air conditioners 101a to 101d and 102a to 102d shown in FIG. Protocol converter 600 for converting to / IP may be used. In addition, the communication device 303 can edit a message with the associated contents and perform data communication with the individual information management server 400 by TCP / IP communication. As in the first and second embodiments, the individual information management is possible. It is possible to register with the server 400 and perform unified management of information.

  As described above, according to the air conditioning equipment management system of the third embodiment, the air conditioning equipment having the individual information including the individual identification information, the communication equipment that communicates with the air conditioning equipment and acquires the individual information, and the communication equipment Since it has an individual information management server that holds the individual information of air conditioners collected by, even if there is no system dedicated to the centralized controller, it collects individual information of all air conditioners without human error can do.

  In the present invention, within the scope of the invention, any combination of the embodiments, or any modification of any component in each embodiment, or omission of any component in each embodiment is possible. .

  101a-101d, 102a-102d Air conditioning equipment, 110a, 110b Controller, 120a, 120b Communication line, 130a, 130b Data acquisition unit, 140a, 140b Data transmission / reception unit, 150a, 150b ROM, 160a, 160b RAM, 200, 200a-200c Centralized controller, 201 LAN communication unit, 202 control unit, 203 connected device communication unit, 204 data unit, 300a, 300b, 301, 302, 303 communication device, 400 individual information management server, 401 individual information management unit, 402 individual information database 403 Operation information database 404 Discard information database 500 Data interface server 600 Protocol converter

Claims (4)

A first unit for communicating between one or a plurality of air-conditioning units composed of at least one indoor unit and one outdoor unit and the centralized controller, and transferring information on the air-conditioning unit to the centralized controller Communication means of
Communicating between the centralized controller and the communication device, second communication means for transferring the information of the air conditioning unit transferred to the centralized controller to the communication device;
A third communication means for transferring the information transferred to the communication device to an individual information management server that manages the information of the air conditioning unit ;
From the communication device, a disposal processing start command is issued to the centralized controller via the second communication means,
The air conditioner constituting the air conditioning unit that has received the disposal start instruction from the centralized controller via the first communication means executes a refrigerant recovery detection process, and detects that the refrigerant has been recovered and completes the recovery of the refrigerant. Record,
The recorded information is transferred to the individual information management server through at least the third communication means . Said second communication means, the air conditioning equipment management system according to claim 1, characterized in that optionally connectable communication means the communication equipment to said centralized controller. The communication device, said the interface corresponding to the second communication means, the third claim 1 or claim 2 air conditioning equipment management system according to characterized by comprising an interface corresponding to the communication means. Said second communication means is a short-range communications limited between two parties, the third communication means of the claims 1 to 3, characterized in that one using the public line The air conditioning equipment management system according to any one of the preceding claims.

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