WO2013014774A1 - 空調機器管理装置、空調機器管理プログラム、及び空調機器管理方法 - Google Patents
空調機器管理装置、空調機器管理プログラム、及び空調機器管理方法 Download PDFInfo
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- WO2013014774A1 WO2013014774A1 PCT/JP2011/067152 JP2011067152W WO2013014774A1 WO 2013014774 A1 WO2013014774 A1 WO 2013014774A1 JP 2011067152 W JP2011067152 W JP 2011067152W WO 2013014774 A1 WO2013014774 A1 WO 2013014774A1
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- information
- air conditioner
- identifying
- operation status
- air
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/52—Indication arrangements, e.g. displays
Definitions
- the present invention relates to an air conditioning equipment management apparatus, an air conditioning equipment management program, and an air conditioning equipment management method.
- Air conditioning equipment Multiple local management devices that collect data used to manage air conditioning equipment (hereinafter referred to as air conditioning equipment) installed in multiple buildings, and a central location that receives data used for the management from multiple local management devices
- air conditioning equipment air conditioning equipment
- a system configured with a management device is known (see, for example, Patent Document 1).
- Each of the plurality of local management devices transmits data used for management of the connected air conditioning device to the central management device when the air conditioning device is newly connected, and the central management device uses the received data. Start management of newly connected air conditioning equipment.
- Patent Document 1 when operating states of a plurality of air conditioners are managed, a list of operation states represented by data collected from air conditioners installed in a plurality of buildings is displayed. . For this reason, there existed a problem that the change of the operating condition of the other air-conditioning apparatus produced by operation
- the present invention has been made under the circumstances described above, and provides an air conditioning equipment management apparatus, an air conditioning equipment management program, and an air conditioning equipment management method capable of displaying changes in the operating status of other air conditioning equipment caused by the operation of a certain air conditioning equipment.
- the purpose is to provide.
- the air conditioning equipment management device of the present invention is: An information storage unit for storing information for identifying the first air conditioner and information for identifying the second air conditioner connected to the first air conditioner by piping; An information input unit for inputting schedule information representing a schedule for operating the first air conditioner; A device control unit for controlling the operation of the first air conditioning device based on the inputted schedule information; Information for identifying the first air conditioner, operation status information indicating the operation status of the first air conditioner, information for identifying the second air conditioner, and operation indicating the operation status of the second air conditioner An information communication unit for receiving status information; Operation status information of the first air conditioner and operation status information of the second air conditioner identified by information stored in the information storage unit in association with information identifying the first air conditioner. An information display unit for displaying.
- the air conditioning equipment management apparatus According to the air conditioning equipment management apparatus, the air conditioning equipment management program, and the air conditioning equipment management method according to the present invention, it is possible to display changes in the operating status of other air conditioning equipment caused by the operation of a certain air conditioning equipment.
- (B) is a figure showing an example of the updated connection information table which an air-conditioning equipment management apparatus memorize
- the air conditioner management apparatus 200 is mounted on the air conditioning management system 1 as shown in FIG.
- the air conditioning management system 1 includes a computer communication network 10 (hereinafter simply referred to as the communication network 10), terminal devices 101 and 102, an air conditioning system 301 installed in a building A, and a building B.
- the air conditioning system 302 is installed, and the air conditioning system 303 is installed in the building C.
- the air conditioning system 301 installed in the building A, the air conditioning system 302 installed in the building B, and the air conditioning system 303 installed in the building C have the same configuration. Therefore, the air conditioning system 301 installed in the building A will be described, and the description of the air conditioning system 302 in the building B and the air conditioning system 303 in the building C will be omitted. Further, since the terminal device 101 and the terminal device 102 have the same configuration, the terminal device 101 will be mainly described below, and the description of the terminal device 102 will be omitted.
- the communication network 10 is composed of the Internet, for example.
- the communication network 10 may be a LAN (Local Area Network) or a public line network.
- the terminal device 101 includes a personal computer including a display unit such as an LCD (Liquid Crystal Display) and an input unit such as a keyboard and a mouse.
- the terminal device 101 operates the input unit by the user, inputs various information, and transmits the input information to the air conditioner management device 200.
- the terminal device 101 receives various information from the air conditioning equipment management device 200 and displays the received information on the display unit.
- the air-conditioning equipment management apparatus 200 performs trial operation of the air-conditioning systems 301 to 303, collects information indicating the operation status of the air-conditioning systems 301 to 303 (hereinafter referred to as operation status information), and displays the collected operation status information.
- the air conditioning system 301 installed in the building A includes an air conditioner (hereinafter referred to as air conditioner) 310, 320a, 320b, 330, and 340, a remote controller (hereinafter referred to as remote controller) 329a, as shown in FIG. 329b and 359.
- air conditioner hereinafter referred to as air conditioner
- remote controller a remote controller 329a, as shown in FIG. 329b and 359.
- the air conditioners 310 and 330 are constituted by outdoor units.
- the air conditioners 310 and 330 include a compressor that increases the temperature and pressure of the refrigerant by compressing the refrigerant, an expander that decreases the temperature and pressure of the refrigerant by expanding the refrigerant, and a circulation pump that circulates the refrigerant. Consists of
- the air conditioner 310 is connected to an air conditioner 320a and an air conditioner 320b configured from indoor units via dedicated lines.
- the air conditioner 310 is connected to the air conditioner 320a via the refrigerant pipe Pa through which the refrigerant passes, and is connected to the air conditioner 320b via the refrigerant pipe Pb.
- the air conditioner 310 supplies the refrigerant to the air conditioner 320a and the air conditioner 320b according to the control signal output from the air conditioner 320a via the dedicated line, and the refrigerant that has become lower or higher temperature than the supply air conditioner 320a and the air conditioner. Receive from 320b.
- a sensor 311a for detecting the temperature of the refrigerant passing through the refrigerant pipe Pa is installed on the air conditioning equipment 310 side of the refrigerant pipe Pa, and the temperature of the refrigerant flowing through the refrigerant pipe Pb is detected on the air conditioning equipment 310 side of the refrigerant pipe Pb.
- a sensor 311b is installed. The sensor 311a and the sensor 311b each transmit detection value information indicating the detected temperature to the air conditioner 310.
- a sensor 321a and a sensor 322a are installed on the air conditioning equipment 320a side of the refrigerant pipe Pa.
- the sensor 321a and the sensor 322a respectively transmit detection value information indicating the detection value of the temperature of the refrigerant passing through the refrigerant pipe Pa to the air conditioner 320a.
- a sensor 321b and a sensor 322b are installed on the air conditioning equipment 320b side of the refrigerant pipe Pb.
- the sensor 321b and the sensor 322b each transmit detection value information indicating the detection value of the temperature of the refrigerant passing through the refrigerant pipe Pb to the air conditioner 320b.
- the air conditioner 320a is connected to a remote controller 329a that is an operation terminal.
- the air conditioner 320a is cooled by the refrigerant supplied from the air conditioner 310 in accordance with the operation mode change command, the operation command, the stop command, the blow command, and the set temperature change command output from the remote controller 329a operated by the user. Blows dehumidified or dehumidified air.
- air conditioner 320b is connected to remote controller 329b and operates according to various commands output from remote controller 329a.
- the operation mode change command is a command for instructing to change the operation mode of the air conditioner to one of the heating mode, the cooling mode, and the dehumidification mode, and the operation command is for starting the operation. It is a command to instruct.
- the stop command is a command for instructing to stop the operation
- the blow command is a command for instructing to send out the wind.
- the set temperature change command is a command for instructing to change the temperature set in the air conditioner 320a.
- the air conditioning device 310 that circulates the heated or cooled refrigerant, the air conditioning devices 320a and 320b that operate using the heated or cooled refrigerant, and the circulation between the air conditioning device 310 and the air conditioning devices 320a and 320b.
- the circulation system C001 composed of the refrigerant pipes Pa and Pb through which the refrigerant to be passed passes is referred to as a cooling system C001.
- the air conditioner 330 that circulates the heated or cooled refrigerant, the air conditioner 340 that operates using the heated or cooled refrigerant, and the refrigerant that is circulated between the air conditioner 330 and the air conditioner 340 pass through.
- the circulation system C002 including the refrigerant pipe P is referred to as a cooling system C002.
- the sensors 331, 341, and 342 have the same configuration as the sensor 311a, the sensor 321a, and the sensor 322a, and thus description thereof is omitted.
- the remote controller 359 has a configuration similar to that of the remote controller 329a, and thus the description thereof is omitted.
- the air conditioner management apparatus 200 is installed on a wall such as a building. As shown in FIG. 3, a CPU (Central Processing Unit) 200a, a ROM (Read Only Memory) 200b, a RAM (Random Access Memory) 200c, and a hard disk 200d.
- the air conditioner management apparatus 200 may be configured with a personal computer.
- the CPU 200a performs overall control of the air conditioner management apparatus 200 by executing a program stored in the ROM 200b or the hard disk 200d.
- the RAM 200c temporarily stores data to be processed when the CPU 200a executes the program.
- the hard disk 200d stores a table storing various data.
- the air conditioner management apparatus 200 may include a flash memory instead of the hard disk 200d.
- the first communication circuit 200 f performs information communication with the terminal device 101 connected via the communication network 10.
- the second communication circuit 200g communicates various types of information between the air conditioner 310 connected via the dedicated line and the air conditioner 320a and the air conditioner 320b connected via the air conditioner 310.
- the second communication circuit 200g communicates various information between the air conditioner 330 connected via a dedicated line and the air conditioner 340 connected via the air conditioner 330.
- the first communication circuit 200f and the second communication circuit 200g may be a serial communication circuit such as a USB (Universal Serial Bus) communication circuit or a parallel communication circuit. Further, the first communication circuit 200f and the second communication circuit 200g may be wired communication circuits or wireless communication circuits. Furthermore, the protocol used for communication between the first communication circuit 200f and the second communication circuit 200g may be a protocol unique to the air conditioning management system 1.
- the 7SEG display component 200h displays various information according to the signal output from CPU 200a.
- the operation unit 200i includes an operation button operated by a user and an electronic circuit that inputs a signal corresponding to the operation button operation by the user.
- the operation unit 200i may be configured with a touch panel or a keyboard.
- the CPU 200a functions as a device control unit 210 that controls the operation of the air conditioner 310 and the like as shown in FIG. 4 by executing a program stored in the ROM 200b or the hard disk 200d.
- the CPU 200a functions as an information storage unit 220 that stores information used for program execution in cooperation with the hard disk 200d. Further, the CPU 200a cooperates with the first communication circuit 200f to input the information transmitted from the terminal device 101 to the device control unit 210 and the information output from the device control unit 210 to the terminal device 101. It functions as an external output unit 232 that outputs to the.
- the CPU 200a functions as an information communication unit 240 that relays information communicated between the device control unit 210 and the air conditioning device 310 in cooperation with the second communication circuit 200g.
- the CPU 200a functions as an information display unit 250 that displays information output from the device control unit 210 in cooperation with the 7SEG display component 200h. Further, the CPU 200a functions as an information input unit 260 that is operated by the user and inputs information corresponding to the operation to the device control unit 210 in cooperation with the operation unit 200i.
- the user of the air conditioning management system 1 manages the operation status information indicating the operation status of the air conditioner installed in a building different from the building where the air conditioning equipment that the air conditioning management system 1 already manages the operation status information is installed.
- An operation for starting the connection specifying process for specifying the connection configuration is performed on the operation unit 200i.
- the operation unit 200i When the operation is performed, the operation unit 200i inputs a predetermined signal corresponding to the operation to the CPU 200a. When the predetermined signal is input, the CPU 200a executes a connection specifying process as shown in FIG.
- connection specifying process Before explaining the connection specifying process, data used in the connection specifying process will be described.
- the information storage unit 220 shown in FIG. 4 stores air conditioning equipment data as shown in FIG.
- This air conditioning equipment data is composed of connection information representing the connection relationship between air conditioning equipment and operation status information representing the operating status of the air conditioning equipment.
- the connection information and the operation status information are classified (that is, grouped) based on a cooling system composed of a plurality of air conditioners and a building in which the plurality of air conditioners are installed.
- connection information included in the air conditioning equipment data in FIG. 6 is stored in the connection information table as shown in FIG.
- connection information table connection information indicating the connection configuration of the air-conditioning equipment installed in the building added to the air-conditioning management system 1 or connection information indicating the changed connection configuration is saved by executing the connection specifying process. Is done.
- connection information includes information for identifying a building in which an air conditioner is installed (hereinafter referred to as a property ID) and information for identifying a cooling system composed of the air conditioner installed in the building (hereinafter referred to as a cooling system ID). ), Information indicating an address used for distinguishing the air conditioner from other air conditioners in communication via the dedicated line (that is, information for identifying the air conditioner), and the air conditioner connected to the refrigerant pipe Information indicating an address for identifying a connection destination connected via the network (hereinafter referred to as connection destination address information) and information indicating whether the model of the air conditioner is an outdoor unit or an indoor unit (hereinafter referred to as model information). The associated information.
- the connection specifying process executed using the data will be described.
- the information display unit 250 shown in FIG. 4 is an air conditioning in which the building or the connection configuration added to the air conditioning management system 1 is changed.
- a message prompting the user to enter a property ID that identifies the building where the device is installed is displayed.
- the information input unit 260 realized by the operation unit 200i includes the property ID “A” according to the user operation, and the property ID “A”.
- a request for acquiring connection destination address information of the air conditioner 310 or the like (hereinafter referred to as a connection destination information acquisition request) is input to the device control unit 210 from the air conditioner 310 or the like installed in the building A identified by .
- the device control unit 210 determines whether or not a connection destination information acquisition request has been input (step S11). At this time, the device control unit 210 determines that the connection destination information acquisition request including the property ID “A” is input from the information input unit 260 (step S11; Yes), and the property ID “A” from the connection destination information acquisition request. Is extracted (step S12). In step S11, when it is determined that the connection destination information acquisition request has not been input (step S11; No), the device control unit 210 repeats the process of step S11 after a predetermined time has elapsed.
- the device control unit 210 uses the extracted property ID “A” as the connection information table shown in FIG. It is determined whether or not it has already been saved (step S13). Specifically, the device control unit 210 determines that a new building A has been added to the air conditioning management system 1 because the extracted property ID “A” is not stored in the connection information table. The device control unit 210 determines that the new building A is not added to the air conditioning management system 1 when the extracted property ID “A” is stored in the connection information table.
- step S13 when the device control unit 210 determines that the extracted property ID “A” is not stored (step S13; No), the information display unit 250 is identified by the input property ID “A”. A message prompting the user to input address information of the air conditioner installed in the building A is displayed.
- the information input unit 260 realized by the operation unit 200i operated by the user who visually recognizes the message inputs the address information of the air conditioners 310, 320a, 320b, 330, and 340 installed in the building A, respectively. To do.
- the device control unit 210 associates the input address information with the property ID extracted in step S12 and stores it in the connection information table of FIG.
- the connection information table as shown in FIG. 6 is updated (step S14).
- step S14 the device control unit 210 searches the connection information table in FIG. 7B for address information associated with the property ID “A”. This is because the address information of the air conditioner installed in the building A identified by the property ID “A” is searched.
- the information communication unit 240 in FIG. 5 uses the address represented by the searched plurality of address information to control the connection destination address information to the air conditioners 310, 320a, 320b, 330, and 340. Are respectively transmitted (step S15).
- step S13 when it is determined that the extracted property ID is already stored (step S13; Yes), the process of step S15 is executed in the same manner.
- the information communication unit 240 receives address information for identifying each air conditioner 310 and the like from the air conditioner 310 that has received the control signal, and address information for identifying other air conditioners connected thereto (that is, connection destination address information). And model information representing each model is received.
- the device control unit 210 includes connection destination address information associated with the property ID extracted in step S12 and the address information received in step S15 in the connection information table of FIG. It is determined that the model information is not saved.
- the device control unit 210 stores the extracted property ID “A” and the searched address information in association with the connection destination address information received in step S15 and the model information (step S16). .
- the device control unit 210 already stores connection destination address information and model information associated with the extracted property ID and the searched address information in the connection information table of FIG. 7B. Is determined, the connection destination address information and the model information are updated with the connection destination address information and the model information received in step S15.
- the device control unit 210 identifies the building A identified by the property ID “A” extracted in step S12 based on the connection destination information stored in the connection information table shown in FIG.
- the cooling system of the air conditioner 310 etc. installed in is identified (step S17).
- the device control unit 210 determines that the air conditioner 310 identified by the address information stored in a record in the connection information table illustrated in FIG. 7B is the connection destination address stored in the record. Since the air conditioner 320a and the air conditioner 320b identified by the information are connected, the air conditioner 310, the air conditioner 320a, and the air conditioner 320b are identified as belonging to the same cooling system. Similarly, the device control unit 210 specifies that the air conditioning device 330 and the air conditioning device 340 belong to the same cooling system.
- the device control unit 210 generates a cooling system ID “C001” of the cooling system configured by the air conditioning device 310, the air conditioning device 320a, and the air conditioning device 320b, and the cooling configured by the air conditioning device 330 and the air conditioning device 340.
- a cooling system ID “C002” of the system is generated.
- the device control unit 210 corresponds to the property ID “A” of the building and the address information “310” of the air conditioner 310 installed in the building A in the connection information table shown in FIG. It is determined that the attached cooling system ID is not stored.
- the device control unit 210 stores the property ID “A”, the address information “310”, and the cooling system ID “C001” in association with each other (step S18). If the device control unit 210 determines that the cooling system ID associated with the property ID “A” and the address information “310” is already stored, the device ID “A” and the address information “310” The cooling system ID associated with is updated to the cooling system ID “C001”.
- the device control unit 210 saves the property ID “A” and the address information “320a” in association with the cooling system ID “C001” in the connection information table, and stores the property ID “A” and the address information “320b”. And the cooling system ID “C001” in association with each other. Furthermore, the device control unit 210 stores the property ID “A” and the address information “330” in association with the cooling system ID “C002” in the connection information table, and stores the property ID “A” and the address information “340”. And the cooling system ID “C002” in association with each other. Thereafter, the device control unit 210 ends the execution of the connection specifying process.
- the information storage unit 220 shown in FIG. 4 stores a schedule information table in which schedule information as shown in FIG. 9 is stored.
- the schedule information stored in the schedule information table includes a trial run schedule ID for identifying a trial run schedule, scheduled start date / time information indicating a date and time (hereinafter referred to as a scheduled start date / time) for starting the scheduled trial run, and the trial run.
- test operation mode information information indicating the mode specified by the user as the operation mode at the time of the test run
- trial operation device address information specifying to perform the test run Address information for identifying the air conditioner that has been assigned.
- the trial run schedule ID includes the property ID of the building where the air-conditioning equipment scheduled for trial run is installed.
- the date and time represented by the scheduled start date and time information and the scheduled end date and time information may be a relative date and time from a specific date or may be an absolute date and time.
- the schedule saving process executed using the data will be described.
- the information display unit 250 shown in FIG. 4 inputs a property ID for identifying the building where the air-conditioning equipment to be run is installed. Display a message prompting you to do so.
- the information input unit 260 realized by the operation unit 200i includes a property ID corresponding to the user's operation, and the building identified by the property ID.
- a request to display connection destination information indicating the connection destination of the installed air conditioner (hereinafter referred to as a connection destination information display request) is input to the device control unit 210.
- the device control unit 210 determines whether a connection destination information display request is input from the information input unit 260 (step S21). At this time, when it is determined that the connection destination information display request has not been input (step S21; No), the device control unit 210 repeats the processing from step S21 after a predetermined time has elapsed.
- the device control unit 210 extracts a property ID from the input connection destination information display request (step S22). Thereafter, the device control unit 210 searches the connection information table in FIG. 7B for the cooling system ID, address information, connection destination address information, and model information associated with the extracted property ID (step S23). ). Next, the information display unit 250 in FIG. 5 displays the property ID extracted in step S22 and the cooling system ID, address information, connection destination address information, and model information searched in step S24 (step S24). S24).
- step S24 in the building A identified by the property ID “A”, the cooling system identified by the cooling system ID “C001” is composed of the air conditioner 310, the air conditioner 320a, and the air conditioner 320b. Is displayed. For this reason, the user who has visually recognized the information displayed on the information display unit 250 can confirm the influence on the operations of the air conditioner 310 and the air conditioner 320b configuring the same cooling system by, for example, performing a trial operation of the air conditioner 320a. Judge. For this reason, the operation unit 200i is operated to input schedule information indicating a schedule for trial operation of the air conditioner 320a.
- the information input unit 260 realized by the operation unit 200i includes scheduled start date and time information indicating the date and time when the trial operation of the air conditioner 320a is started according to the operation, and scheduled end date and time information indicating the date and time when the trial operation of the air conditioner 320a is ended. Then, test operation mode information indicating the operation mode at the time of the test operation and test operation device address information indicating an address for identifying the air conditioner 320a are input (step S25).
- the device control unit 210 generates a trial run schedule ID for identifying the trial run schedule represented by the input information.
- the device control unit 210 adds the generated test run schedule ID, the input scheduled start date / time information, the scheduled end date / time information, the test run mode information, and the test run device address to the schedule information table shown in FIG. After the information is stored in association with each other (step S26), the execution of the schedule storage process is terminated.
- the CPU 200a in FIG. 3 starts a scheduled execution process as shown in FIG. 10, which starts a scheduled test operation.
- the information storage unit 220 illustrated in FIG. 4 stores an operation state information table as illustrated in FIG. 11 that stores operation state information representing the operation state of the air conditioner that has been trial-run by executing the scheduled execution process.
- the operation status information includes the property ID of the building in which the air conditioner is installed, the cooling system ID of the cooling system configured by the air conditioner, the address information of the air conditioner, and a sensor connected to the air conditioner.
- Information indicating the date and time when the temperature was detected hereinafter referred to as detection date information
- detection content information information indicating the content detected by the sensor
- detection information indicating the detection value of the sensor
- the information storage unit 220 in FIG. 6 stores a detection content information table as shown in FIG.
- the detection content information table stores information in which information (hereinafter referred to as sensor ID) for identifying the sensors constituting the air conditioning management system 1 and information indicating the detection content detected by the sensors are associated with each other. Yes.
- the schedule execution process executed using the data will be described.
- the CPU 200a shown in FIG. 3 starts the execution of the scheduled execution process shown in FIG. 10
- the information display unit 250 shown in FIG. 4 starts executing the schedule when it is ready to test-run the air conditioner.
- a message prompting the user to perform a predetermined start operation is displayed.
- the user After confirming that the user who has visually recognized the message is ready to perform a trial operation of the air conditioner, the user performs a start operation on the operation unit 200i. Thereafter, the information input unit 260 realized by the operation unit 200i inputs a request for starting a scheduled operation (hereinafter, referred to as an operation start request) to the device control unit 210.
- an operation start request a request for starting a scheduled operation
- the device control unit 210 determines whether an operation start request is input from the information input unit 260 (step S31). At this time, when it is determined that the operation start request is not input (step S31; No), the device control unit 210 repeats the process of step S31 after a predetermined time has elapsed. In contrast, when the device control unit 210 determines that the operation start request has been input (step S31; Yes), the device control unit 210 starts referencing the schedule information stored in the schedule information table as illustrated in FIG. 9 (step S32). ).
- the information display unit 250 displays a message that prompts the user to perform a predetermined stop operation when stopping the trial operation of the air conditioner.
- the information input unit 260 realized by the operation unit 200i issues a request (hereinafter referred to as an operation end request) for requesting to end the operation of the air conditioner. Input to the controller 210.
- the device control unit 210 determines whether or not an operation end request is input from the information input unit 260 (step S33). At this time, when it is determined that the operation end request has not been input (step S33; No), the device control unit 210 acquires and acquires the system date and time (that is, the current date and time) managed by the OS (Operating System), for example. It is determined whether or not the current date and time match any one of the scheduled start date and time represented by the information stored in the schedule information table of FIG. 9 (step S35).
- step S35 when the device control unit 210 determines that either the current date and time or the scheduled start date and time coincides (step S35; Yes), the scheduled start date and time determined to match from the schedule information table illustrated in FIG.
- the information communication unit 240 shown in FIG. 4 gives an operation mode change command for instructing to change the operation mode to the test operation mode represented by the searched information and an operation instruction for instructing to start the operation.
- the control signal to be represented is transmitted to the address represented by the searched information using a dedicated line extending to the building identified by the extracted property ID.
- the trial run of the air conditioning equipment of the transmission destination installed in the said building is started (step S36).
- the device control unit 210 repeats the above process from step S33.
- step S35 when the device control unit 210 determines that neither the current date and time nor the scheduled start date and time match (step S35; No), the device control unit 210 is represented by information stored in the schedule information table as shown in FIG. It is determined whether or not any of the scheduled end dates and times matches the current date and time (step S37).
- step S37 determines that either the current date and time or the scheduled end date and time match (step S37; Yes)
- the trial run schedule ID and trial run equipment address information associated with the scheduled end date and time information representing the search are searched.
- the information communication unit 240 extracts the property ID from the trial operation schedule ID, and stops driving to the address represented by the searched information using a dedicated line extending to the building identified by the extracted property ID.
- a control signal indicating a stop instruction instructing to do is transmitted.
- the trial operation of the destination air conditioner is completed (step S38).
- the device control unit 210 repeats the above process from step S33.
- step S37 when the device control unit 210 determines that neither the current date and time nor the scheduled end date and time match (step S37; No), the device control unit 210 determines from the scheduled start date and time information representing the date and time before the current date and time, and the current date and time.
- the property ID associated with the scheduled end date and time information representing the later date and the test run device address information are searched.
- the device control unit 210 determines, from the connection information table in FIG. 7B, the cooling system ID associated with the same address information as the searched trial operation device address information “320a” (that is, the cooling system of the air conditioning device during the trial operation). ID) Search for “C001”. After that, the device control unit 210 configures the same cooling system as that of the air conditioner under test operation associated with the searched cooling system ID “C001” from the connection information table of FIG. 7B. Address information of other air conditioners) “310” and “320b” are searched.
- the information communication unit 240 is represented by the searched address information of the air conditioner 320a during the trial operation and the address information of the other air conditioner 310 and the air conditioner 320a constituting the cooling system C001 of the air conditioner 320a.
- transmission control is performed to transmit a control signal for transmitting operation status information such as detection value information at a predetermined cycle of 1 minute to the address (step S39).
- the information communication unit 240 shown in FIG. 4 displays the operation status information such as detection value information and the detection value information from the air conditioners 310, 320a, and 320b to which the control signals are transmitted.
- the sensor ID of the sensor that has detected the detected value is received (step S40).
- the device control unit 210 acquires the current date and time from the OS, and sets the acquired date and time as the detection date and time when the detected value is detected.
- the device control unit 210 searches the detection content information associated with the received sensor ID from the detection content information table shown in FIG.
- the device control unit 210 performs the property ID “A” searched in step S38, the searched cooling system ID, the address information, and the acquired detection date and time with respect to the operation status table shown in FIG. Is stored in the information storage unit 220 (that is, the operation status information is stored) in association with each other (step S41), and step S33. Repeat the above process.
- step S33 when it is determined that the operation end request has been input (step S33; Yes), the device control unit 210 ends the reference of the schedule information (step S34), and then ends the execution of the schedule execution process.
- the user of the air conditioning management system 1 operates a predetermined operation for starting execution of an information output process for outputting the operation status information collected by the air conditioning management device 200 in order to confirm the operation status information collected by the air conditioning management system 1.
- Part 200i When the predetermined operation is performed, the operation unit 200i inputs a predetermined signal corresponding to the operation to the CPU 200a. When the predetermined signal is input, the CPU 200a starts executing an information output process as shown in FIG. When the CPU 200a starts executing the information output process, the information display unit 250 illustrated in FIG. 4 includes address information for identifying an air conditioner that confirms the operation status information, and the property ID of the building in which the air conditioner is installed. A message prompting the user to input is displayed.
- the user who visually recognizes the message decides to confirm the operation status information of the air conditioner 320a that is installed in the building A and is trial run.
- the information input unit 260 realized by the operation unit 200i includes the property ID “A” and the address information “320a” corresponding to the user operation, and the address information A request for displaying the operation status information of the air conditioner 320a identified by “320a” (hereinafter referred to as an operation status information display request) is input.
- the device control unit 210 determines whether or not an operation status information display request has been input by the information input unit 260 (step S51). At this time, the device control unit 210 determines that the operation status information display request has been input by the information input unit 260 (step S51; Yes), and receives the address information “320a” and the property ID “A” from the operation status information display request. Is extracted (step S52). In step S51, when the device control unit 210 determines that the operation status information display request is not input by the information input unit 260 (step S51; No), the process is repeated from step S51 after a predetermined time has elapsed.
- the device control unit 210 searches the operation status information table of FIG. 11 for the cooling system ID “C001” associated with the extracted property ID “A” and the address information “320a”. Next, the device controller 210 associates the searched cooling system ID “C001” with address information (that is, the air conditioning device 310 and the air conditioning device 320b constituting the cooling system C001 of the air-conditioning device 320a that has been trial-run), Operation status information such as detection date information, detection content information, and detection value information is searched (step S53).
- the information display unit 250 shown in FIG. 4 displays the operation status information searched in step S53 (step S54), and then ends the execution of the information output process.
- the operation status information indicating the operation status of the operated air conditioner 320a and the operation status information indicating the operation status of the air conditioner 310 connected to the air conditioner 320a are displayed.
- the failure often affects other air conditioners connected to the failed air conditioner. For this reason, since the operation status information is classified and displayed for each air conditioner connected to each other, changes in the operation status of other air conditioners caused by the operation of a certain air conditioner can be displayed.
- the operation of the air conditioner is controlled in accordance with the schedule represented by the input information, and the operation status information of the controlled air conditioner is acquired.
- the maintenance person who performs maintenance of the air conditioner checks the operation status after operating each air conditioner, not only can the work load of the maintenance person be reduced, but also the air conditioner operation check omission can be eliminated. Therefore, the malfunction of the air-conditioning management system 1 can be prevented beforehand.
- the operation of the air conditioner installed in the building identified by the input information since the operation of the air conditioner installed in the building identified by the input information is controlled, the operation of the air conditioner can be controlled for each building.
- the air conditioner installed in the same building as the building in which the air conditioner that has been controlled, the operation status of the air conditioner, and the building in which the air conditioner is installed are provided. Since the operation status of the air conditioner connected to the operation-controlled air conditioner is displayed, management of information representing the operation status of the air conditioner 310 and the like is facilitated. For this reason, since the transfer of know-how between the predecessor and the successor in charge of maintenance becomes easy, the work at the level specialized for each property is easily made efficient. Moreover, an air-conditioning apparatus is normally installed over the long period of 10 years or more with respect to the same building, for example. For this reason, for example, even if the person in charge of maintenance of the air conditioner 310 or the like installed in the building is changed, the operation status of the air conditioner can be easily managed. The situation becomes easier to manage.
- the air-conditioning management system 1 includes a sensor that detects the pressure of the refrigerant in the refrigerant pipe instead of or in addition to the sensor that detects the temperature of the refrigerant flowing through the refrigerant pipe connected to the air-conditioning equipment.
- the operating state of the device may be expressed by both the refrigerant pressure or the refrigerant temperature and the refrigerant pressure.
- the schedule information table shown in FIG. 9 has been described on the assumption that schedule information representing a schedule for a trial run is stored. However, the schedule information table is not limited to this, and even if schedule information representing a schedule for a normal operation is saved. good.
- the information input unit 260 shown in FIG. 4 inputs a connection information acquisition request in step S11 shown in FIG. 5, inputs address information of the air conditioner in step S14, and a connection display request in step S21 shown in FIG.
- Step S25 the scheduled start date and time information and the like are input.
- Step S31 shown in FIG. 10 an operation start request is input.
- Step S33 an operation end request is input.
- Step S51 of FIG. It explained that the display request was input.
- the external input unit 260 shown in FIG. 4 inputs a connection information acquisition request, inputs address information, inputs a connection display request, and inputs scheduled start date / time information and the like. Then, an operation start request may be input, an operation end request may be input, and an operation status information display request may be input.
- the external output unit shown in FIG. 4 outputs connection destination information and operation status information to the terminal device 102, and the terminal device 101 displays connection destination information and operation status information. You may do that.
- the air conditioner 310 and the like it is possible to check the operation of the air conditioner 310 and the like from the other location where the terminal device 101 is installed, not the place where the air conditioner management device 200 is installed. For this reason, not only can the air conditioner 310 and the like be operated in accordance with instructions from maintenance personnel at various locations, but also the maintenance personnel at various locations can check the operation of the air conditioner 310 and the like. The quality of maintenance work for 310 and the like is improved.
- the operation status information display request input by the information input unit 260 of FIG. 4 may further include reference start date information and reference end date information, as well as the property ID and address information.
- the device control unit 210 searches for the cooling system ID associated with the property ID and the address information extracted from the operation status information display request from the operation status information table shown in FIG.
- the device control unit 210 detects the cooling system ID and the date and time after the date and time indicated by the reference start date and time information and before the date and time indicated by the reference end date and time information. Address information, detection date information, detection content information, and detection value information associated with date information may be searched.
- the operation status information detected after the date and time indicated by the input reference start date and time information and before the date and time indicated by the input reference end date and time information is displayed, it is possible to easily check the operating status of the air conditioner 310 and the like in a predetermined period.
- the present embodiment and the first and second modifications of the present embodiment can be combined with each other.
- existing air conditioner management can be performed by applying a program.
- the apparatus can also function as the air conditioning equipment management apparatus 200 according to this embodiment and any one of the first and second modifications of the present embodiment. That is, a computer that controls an existing air conditioner management apparatus with a control program for realizing each functional configuration by the air conditioner management apparatus 200 exemplified in any one of the present embodiment and the modifications 1 and 2 of the present embodiment.
- CPU etc. By applying so that (CPU etc.) can be performed, it can be functioned as the air-conditioning equipment management apparatus 200 which concerns on this embodiment.
- Such a program distribution method is arbitrary.
- the program can be distributed by being stored in a recording medium such as a memory card, a CD-ROM, or a DVD-ROM, or can be distributed via a communication medium such as the Internet.
- the air conditioning equipment management method of the present invention can be implemented using the terminal device 300.
- the present invention is suitable for an air conditioning equipment management apparatus that manages air conditioning equipment that harmonizes indoor air.
- Air-conditioning management system 100 Terminal device 200 Air-conditioning equipment management device 300 Outdoor unit 200a CPU 200b ROM 200c RAM 200d Hard disk 200f First communication circuit 200g Second communication circuit 200h 7SEG display component 200i Operation unit 210 Device control unit 220 Information storage unit 231 External input unit 232 External output unit 240 Information communication unit 250 Information display unit 260 Information input units 310 and 320a 320b, 330, 340 Air-conditioning equipment 329a, 329b, 359 Remote control 311a, 311b, 321a, 321b, 322a, 322b Temperature sensor
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Abstract
Description
第1の空調機器を識別する情報と前記第1の空調機器に配管で接続された第2の空調機器を識別する情報とを対応付けて記憶する情報記憶部と、
前記第1の空調機器を運転させる予定を表す予定情報を入力する情報入力部と、
前記入力された予定情報に基づいて前記第1の空調機器の動作を制御する機器制御部と、
前記第1の空調機器を識別する情報と当該第1の空調機器の動作状況を表す動作状況情報と、前記第2の空調機器を識別する情報と当該第2の空調機器の動作状況を表す動作状況情報と、を受信する情報通信部と、
前記第1の空調機器の動作状況情報と、当該第1の空調機器を識別する情報に対応付けて前記情報記憶部が記憶する情報で識別される第2の空調機器の動作状況情報と、を表示する情報表示部と、を備える。
図3に示したCPU200aが、図5に示した接続特定処理の実行を開始すると、図4に示した情報表示部250は、空調管理システム1に追加されたビル若しくは接続構成が変更された空調機器が設置されたビルを識別する物件IDを入力するように促すメッセージを表示する。
図3に示したCPU200aが、図8に示した予定保存処理の実行を開始すると、図4に示した情報表示部250は、試運転させる空調機器が設置されたビルを識別する物件IDを入力するように促すメッセージを表示する。
図3に示したCPU200aが、図10に示した予定実行処理の実行を開始すると、図4に示した情報表示部250は、空調機器を試運転させる準備が整った場合に、予定の実行を開始させる所定の開始操作を行うように促すメッセージを表示する。
図4に示した情報入力部260が、図5に示したステップS11で接続情報取得要求を入力し、ステップS14で空調機器のアドレス情報を入力し、図8に示したステップS21で接続表示要求を入力し、ステップS25で開始予定日時情報等を入力し、図10に示したステップS31で運転開始要求を入力し、ステップS33で運転終了要求を入力し、図13のステップS51で動作状況情報表示要求を入力すると説明した。しかし、これに限定される訳ではなく、図4に示した外部入力部260が、接続情報取得要求を入力し、アドレス情報を入力し、接続表示要求を入力し、開始予定日時情報等を入力し、運転開始要求を入力し、運転終了要求を入力し、動作状況情報表示要求を入力しても良い。
図13のステップS51において、図4の情報入力部260が入力する動作状況情報表示要求は、物件IDとアドレス情報とだけでなく、参照開始日時情報と参照終了日時情報とをさらに含んでも良い。また、ステップS52において、機器制御部210は、図11に示した動作状況情報テーブルから、動作状況情報表示要求から抽出された物件IDとアドレス情報とに対応付けられた冷却系統IDを検索する。次に、機器制御部210は、検索された冷却系統IDと、参照開始日時情報で表される日時よりも後であり、かつ参照終了日時情報で表される日時よりも前の日時を表す検出日時情報とに対応付けられたアドレス情報、検出日時情報、検出内容情報、及び検出値情報を検索してもよい。
100 端末装置
200 空調機器管理装置
300 室外機
200a CPU
200b ROM
200c RAM
200d ハードディスク
200f 第1通信回路
200g 第2通信回路
200h 7SEG表示部品
200i 操作部
210 機器制御部
220 情報記憶部
231 外部入力部
232 外部出力部
240 情報通信部
250 情報表示部
260 情報入力部
310、320a、320b、330、340 空調機器
329a、329b、359 リモコン
311a、311b、321a、321b、322a、322b 温度センサ
Claims (6)
- 第1の空調機器を識別する情報と前記第1の空調機器に配管で接続された第2の空調機器を識別する情報とを対応付けて記憶する情報記憶部と、
前記第1の空調機器を運転させる予定を表す予定情報を入力する情報入力部と、
前記入力された予定情報に基づいて前記第1の空調機器の動作を制御する機器制御部と、
前記第1の空調機器を識別する情報と当該第1の空調機器の動作状況を表す動作状況情報と、前記第2の空調機器を識別する情報と当該第2の空調機器の動作状況を表す動作状況情報と、を受信する情報通信部と、
前記第1の空調機器の動作状況情報と、当該第1の空調機器を識別する情報に対応付けて前記情報記憶部が記憶する情報で識別される第2の空調機器の動作状況情報と、を表示する情報表示部と、を備える、
空調機器管理装置。 - 前記情報記憶部は、前記第1の空調機器を識別する情報と、前記第2の空調機器を識別する情報とに、前記第1の空調機器及び前記第2の空調機器が設置された物件を識別する情報をさらに対応付けて記憶し、
前記情報入力部は、動作を制御させる空調機器が設置された物件を識別する情報をさらに入力し、
前記情報表示部は、前記入力された物件を識別する情報と対応付けて前記情報記憶部に記憶された空調機器を識別する情報を表示し、
前記情報入力部は、前記表示された情報で識別される空調機器を運転させる予定を表す予定情報を入力し、
前記機器制御部は、前記入力された予定情報に基づいて前記表示された情報で識別される空調機器の動作を制御する、
請求項1に記載の空調機器管理装置。 - 前記機器制御部は、前記取得された動作状況情報と、当該動作状況にある空調機器を識別する情報と、当該空調機器が設置された物件を識別する情報とを対応付けて前記情報記憶部に保存し、
前記情報表示部は、前記動作を制御された空調機器が設置された物件を識別する情報と、前記動作を制御された空調機器の動作状況情報と、当該動作を制御された空調機器を識別する情報及び当該物件を識別する情報に対応付けて前記情報記憶部が記憶する空調機器を識別する情報と、当該空調機器の動作状況情報とを表示する、
請求項2に記載の空調機器管理装置。 - 前記配管は、内部を冷媒が通過する冷媒配管であり、
前記情報記憶部は、前記冷媒配管によって冷媒を循環させる循環システムを識別する情報と、前記循環システムによって冷媒が供給される第1の空調機器を識別する情報、前記第2の空調機器を識別する情報、及び前記第1の空調機器若しくは前記第2の空調機器と配管で接続された第3の空調機器を識別する情報と、を対応付けて記憶し、
前記情報表示部は、前記動作を制御された前記第1の空調機器を識別する情報に対応付けて前記情報記憶部に記憶された循環システムを識別する情報と、当該循環システムを識別する情報に対応付けて前記情報記憶部に記憶された情報で識別される前記第1の空調機器の動作状況情報、前記第2の空調機器の動作状況情報、及び前記第3の空調機器の動作状況情報と、を表示する、
請求項1から3のいずれか一項に記載の空調機器管理装置。 - コンピュータを、
第1の空調機器を識別する情報と前記第1の空調機器に配管で接続された第2の空調機器を識別する情報とを対応付けて記憶する情報記憶部、
前記第1の空調機器を運転させる予定を表す予定情報を入力する情報入力部、
前記入力された予定情報に基づいて前記第1の空調機器の動作を制御する機器制御部、
前記第1の空調機器を識別する情報と当該第1の空調機器の動作状況を表す動作状況情報と、前記第2の空調機器を識別する情報と当該第2の空調機器の動作状況を表す動作状況情報と、を受信する情報通信部、
前記第1の空調機器の動作状況情報と、当該第1の空調機器を識別する情報に対応付けて前記情報記憶部が記憶する情報で識別される第2の空調機器の動作状況情報と、を表示する情報表示部、として機能させる、
空調機器管理プログラム。 - 第1の空調機器を運転させる予定を表す予定情報を入力する情報入力ステップと、
前記入力された予定情報に基づいて前記第1の空調機器の動作を制御する機器制御ステップと、
前記第1の空調機器を識別する情報と当該第1の空調機器の動作状況を表す動作状況情報と、第1の空調機器に配管で接続された第2の空調機器を識別する情報と当該第2の空調機器の動作状況を表す動作状況情報と、を受信する情報通信ステップと、
前記第1の空調機器の動作状況情報と、当該第1の空調機器を識別する情報に対応付けて情報記憶部が記憶する情報で識別される第2の空調機器の動作状況情報と、を表示する情報表示ステップと、を有する、
空調機器管理方法。
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103900224A (zh) * | 2014-03-25 | 2014-07-02 | 四川长虹电器股份有限公司 | 一种空调控制方法及第一空调 |
JP2014199148A (ja) * | 2013-03-29 | 2014-10-23 | ダイキン工業株式会社 | 表示装置 |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015111203A1 (ja) * | 2014-01-27 | 2015-07-30 | 日立アプライアンス株式会社 | 空調機試運転アプリケーション、及び空調機試運転システム |
WO2016088176A1 (ja) * | 2014-12-01 | 2016-06-09 | 東京電力ホールディングス株式会社 | 設備状態解析装置、設備状態解析方法、記憶媒体および設備管理システム |
DE112017005865T5 (de) * | 2017-01-27 | 2019-08-01 | Mitsubishi Electric Corporation | Verwaltungsvorrichtung und Verwaltungsverfahren |
CN108061359B (zh) * | 2017-11-08 | 2021-01-29 | 珠海格力电器股份有限公司 | 空调控制方法及装置 |
WO2019225539A1 (ja) * | 2018-05-23 | 2019-11-28 | 日本電気株式会社 | 無線通信識別装置および無線通信識別方法 |
WO2019239470A1 (ja) * | 2018-06-11 | 2019-12-19 | 三菱電機株式会社 | 操作端末および設備機器制御システム |
JP7316254B2 (ja) * | 2020-08-20 | 2023-07-27 | 株式会社日立ビルシステム | ビル設備の稼働状態表示装置、及びビル設備の稼働状態表示方法 |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002312456A (ja) * | 2000-04-03 | 2002-10-25 | Daikin Ind Ltd | 施設運用方法、その装置、施設運用システム、管理方法、その装置および施設 |
JP2003302092A (ja) * | 2002-04-09 | 2003-10-24 | Daikin Ind Ltd | 設備機器管理装置 |
JP2008232531A (ja) * | 2007-03-20 | 2008-10-02 | Toshiba Corp | リモート性能監視装置及びリモート性能監視方法 |
JP2009058187A (ja) * | 2007-08-31 | 2009-03-19 | Daikin Ind Ltd | 空気調和システム |
JP2010038430A (ja) * | 2008-08-04 | 2010-02-18 | Daikin Ind Ltd | 遠隔管理システム、およびその初期設定方法 |
Family Cites Families (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4608560A (en) * | 1981-06-09 | 1986-08-26 | Adec, Inc. | Computer controlled energy monitoring system |
US5195045A (en) * | 1991-02-27 | 1993-03-16 | Astec America, Inc. | Automatic impedance matching apparatus and method |
US5706191A (en) * | 1995-01-19 | 1998-01-06 | Gas Research Institute | Appliance interface apparatus and automated residence management system |
US6647317B2 (en) * | 2000-09-06 | 2003-11-11 | Hitachi Ltd | Air conditioner management system |
US7302313B2 (en) * | 2001-02-07 | 2007-11-27 | Aircuity, Inc. | Air quality monitoring systems and methods |
KR101146411B1 (ko) * | 2005-10-25 | 2012-05-17 | 오티스 엘리베이터 컴파니 | 다수의 카 승강기 안전 시스템 및 방법 |
CN100585289C (zh) * | 2006-03-29 | 2010-01-27 | 三菱电机株式会社 | 设备机器的集中管理装置和管理系统 |
ES2392179T3 (es) * | 2006-06-01 | 2012-12-05 | Mitsubishi Electric Corporation | Sistema de gestión de equipos, método de control del mismo y aparato de gestión de equipos |
US8014902B2 (en) * | 2008-02-22 | 2011-09-06 | Lawrence Kates | Method and apparatus for energy-efficient temperature-based systems management |
WO2009125627A1 (ja) * | 2008-04-11 | 2009-10-15 | 三菱電機株式会社 | 機器状態検出装置及び機器状態検出方法並びに生活者異常検知装置、生活者異常検知システム及び生活者異常検知方法 |
CN102037289A (zh) * | 2008-05-22 | 2011-04-27 | 大金工业株式会社 | 设备管理装置 |
JP4958936B2 (ja) * | 2009-04-13 | 2012-06-20 | 三菱電機株式会社 | 空気調和システム診断装置 |
JP5253573B2 (ja) * | 2009-06-12 | 2013-07-31 | 三菱電機株式会社 | 空気調和システム診断装置及び空気調和システム診断結果表示装置 |
CN102109209A (zh) * | 2009-12-23 | 2011-06-29 | 中国科学院沈阳自动化研究所 | 中央空调风机盘管控制器 |
CN201866886U (zh) * | 2010-11-16 | 2011-06-15 | 珠海格力电器股份有限公司 | 风管机系统及其控制系统 |
CN102128482B (zh) * | 2011-03-30 | 2012-12-26 | 浙江浙大网新能源技术有限公司 | 数据中心一体化空调控制系统 |
-
2011
- 2011-07-27 US US14/232,704 patent/US9546797B2/en active Active
- 2011-07-27 CN CN201180072578.2A patent/CN103732995B/zh active Active
- 2011-07-27 WO PCT/JP2011/067152 patent/WO2013014774A1/ja active Application Filing
- 2011-07-27 JP JP2013525506A patent/JP5677577B2/ja active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002312456A (ja) * | 2000-04-03 | 2002-10-25 | Daikin Ind Ltd | 施設運用方法、その装置、施設運用システム、管理方法、その装置および施設 |
JP2003302092A (ja) * | 2002-04-09 | 2003-10-24 | Daikin Ind Ltd | 設備機器管理装置 |
JP2008232531A (ja) * | 2007-03-20 | 2008-10-02 | Toshiba Corp | リモート性能監視装置及びリモート性能監視方法 |
JP2009058187A (ja) * | 2007-08-31 | 2009-03-19 | Daikin Ind Ltd | 空気調和システム |
JP2010038430A (ja) * | 2008-08-04 | 2010-02-18 | Daikin Ind Ltd | 遠隔管理システム、およびその初期設定方法 |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2014199148A (ja) * | 2013-03-29 | 2014-10-23 | ダイキン工業株式会社 | 表示装置 |
CN103900224A (zh) * | 2014-03-25 | 2014-07-02 | 四川长虹电器股份有限公司 | 一种空调控制方法及第一空调 |
CN103900224B (zh) * | 2014-03-25 | 2016-08-24 | 四川长虹电器股份有限公司 | 一种空调控制方法及第一空调 |
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US20140156086A1 (en) | 2014-06-05 |
JP5677577B2 (ja) | 2015-02-25 |
CN103732995A (zh) | 2014-04-16 |
US9546797B2 (en) | 2017-01-17 |
CN103732995B (zh) | 2016-08-17 |
JPWO2013014774A1 (ja) | 2015-02-23 |
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