WO2014115316A1 - 空気調和システム - Google Patents
空気調和システム Download PDFInfo
- Publication number
- WO2014115316A1 WO2014115316A1 PCT/JP2013/051648 JP2013051648W WO2014115316A1 WO 2014115316 A1 WO2014115316 A1 WO 2014115316A1 JP 2013051648 W JP2013051648 W JP 2013051648W WO 2014115316 A1 WO2014115316 A1 WO 2014115316A1
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- Prior art keywords
- general
- air conditioning
- purpose device
- signal
- input
- Prior art date
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Classifications
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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
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
-
- 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
- F24F11/46—Improving electric energy efficiency or saving
-
- 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
- F24F11/523—Indication arrangements, e.g. displays for displaying temperature 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
- F24F11/56—Remote control
- F24F11/58—Remote control using Internet communication
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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
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B15/00—Systems controlled by a computer
- G05B15/02—Systems controlled by a computer electric
-
- 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
-
- 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
- F24F11/56—Remote control
-
- 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
-
- 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
- F24F11/65—Electronic processing for selecting an operating mode
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B2219/00—Program-control systems
- G05B2219/20—Pc systems
- G05B2219/26—Pc applications
- G05B2219/2642—Domotique, domestic, home control, automation, smart house
Definitions
- the present invention relates to an air conditioning system.
- Some conventional air conditioning systems include a plurality of air conditioners and a relay device that relays communication between air conditioners having different communication protocols (see, for example, Patent Document 1).
- JP 2007-327655 A (paragraph [0056]) JP 2011-52930 A (paragraph [0065])
- the relay device only mediates communication between air conditioners, and does not mediate communication between the air conditioner and devices other than the air conditioner.
- the relay device does not relay communication between air conditioning equipment including an air conditioner and general-purpose equipment such as a humidifier.
- Patent Document 2 In addition, in the conventional air conditioning system (Patent Document 2), it is only possible to update the control program of the air conditioner according to the situation in the area, and each air conditioner and each general-purpose device are linked and controlled. The control program to be updated was not performed.
- Patent Documents 1 and 2 have a problem that the air conditioning equipment and the general-purpose equipment cannot be controlled in conjunction with each other.
- the present invention has been made to solve the above-described problems, and an object of the present invention is to provide an air conditioning system capable of controlling the air conditioning equipment and the general-purpose equipment in conjunction with each other.
- An air conditioning system is an air conditioning system including a general-purpose device controller that controls a general-purpose device connected via a general-purpose transmission line or an input / output signal line and an air-conditioning facility connected via a dedicated transmission line.
- the general-purpose device controller receives a first signal corresponding to the air-conditioning equipment and a second signal corresponding to the general-purpose device, and the air-conditioner is based on the first signal and the second signal.
- a processing component that transmits a control signal for controlling the facility and the general-purpose device and the processing component is a first control target with a management address that specifies the air-conditioning facility included in the first signal
- the general-purpose device that is the second control target is specified by the input / output port number that specifies the general-purpose device included in the second signal, and the first control target, the second control target, It is to transmit the control signals for interlocking control.
- the present invention sends a composite control command designating an air conditioner provided in an air conditioning facility and a general-purpose device to the air-conditioning facility and the general-purpose device via each communication medium. Can be linked and controlled. Therefore, it is possible to provide an air conditioning system that performs integrated control including air conditioning equipment and general-purpose equipment. Therefore, it has the effect that the energy-saving property and comfort in the whole system can be improved.
- FIG. 1 shows an example of schematic structure of the air conditioning system 1 in Embodiment 1 of this invention. It is a figure which shows an example of the detailed structure of the outdoor unit 51 in Embodiment 1 of this invention. It is a figure which shows an example of the detailed structure of the indoor unit 53 in Embodiment 1 of this invention. It is a figure which shows an example of a functional structure of the general purpose apparatus controller 11 in Embodiment 1 of this invention. It is a figure which shows an example of the physical structure of the various data allocated to the memory
- FIG. 1 shows an example of schematic structure of the air conditioning system 1 in Embodiment 1 of this invention. It is a figure which shows an example of the detailed structure of the outdoor unit 51 in Embodiment 1 of this invention. It is a figure which shows an example of the detailed structure of the indoor unit 53 in Embodiment 1 of this invention. It is a figure which shows an example of a functional structure of
- FIG. 1 is a diagram illustrating an example of a schematic configuration of an air-conditioning system 1 according to Embodiment 1 of the present invention.
- the air conditioning equipment 23 and the general equipment 21 by sending a composite control command designating the air conditioning equipment 23 and the general equipment 21 to the air conditioning equipment 23 and the general equipment 21 via each communication medium, the air conditioning equipment 23, The general-purpose device 21 is controlled to be interlocked. Therefore, the air conditioning system 1 that performs integrated control including the air conditioning equipment 23 and the general-purpose device 21 is provided. Therefore, energy saving and comfort in the entire system are improved.
- the air conditioning system 1 includes a general-purpose device controller 11, a general-purpose device 21, and an air conditioning equipment 23.
- the general-purpose device controller 11 and the general-purpose device 21 are connected via a general-purpose transmission line 30 or an input / output signal line 31.
- the general-purpose device controller 11 and the air conditioning equipment 23 are connected via a dedicated transmission line 33.
- the general-purpose transmission line 30 is a communication medium in which communication is generally performed in accordance with a communication protocol disclosed to the outside.
- the input / output signal line 31 is an input signal and an output signal for causing each of various devices connected to the input / output signal line 31 to execute various input / output processes, between various devices that are the targets of various input / output processes.
- the dedicated transmission line 33 is a communication medium in which communication conforming to a communication protocol that is not disclosed to the outside is performed.
- the general-purpose device 21 is configured by a device that is connected to the general-purpose transmission line 30 or the input / output signal line 31 and controlled by the general-purpose device controller 11.
- the humidifier 101 is connected to the input / output signal line 31 as the general-purpose device 21. Therefore, the general-purpose device controller 11 and the humidifier 101 are connected via the input / output signal line 31.
- the humidifier 101 humidifies the air-conditioning target space by releasing moisture contained in the device. Therefore, the humidifier 101 transmits / receives various signals to / from the general-purpose device controller 11 and humidifies the air-conditioning target space by being controlled based on the various control signals from the general-purpose device controller 11.
- the heater 103 is connected to the input / output signal line 31. Therefore, the general-purpose device controller 11 and the heater 103 are connected via the input / output signal line 31.
- the heater 103 generates heat and supplies heat to the air-conditioning target space. Therefore, the heater 103 transmits / receives various signals to / from the general-purpose device controller 11 and is controlled based on various control signals from the general-purpose device controller 11, whereby heat is supplied to the air-conditioning target space.
- a ventilation fan 105 is connected to the input / output signal line 31. Therefore, the general-purpose device controller 11 and the ventilation fan 105 are connected via the input / output signal line 31. Moreover, the ventilation fan 105 sends air to the air conditioning target space by rotating a fan (not shown), and replaces the air in the air conditioning target space. Therefore, the ventilation fan 105 transmits / receives various signals to / from the general-purpose device controller 11 and is controlled based on various control signals from the general-purpose device controller 11, so that the air in the air-conditioning target space is replaced.
- a temperature / humidity sensor 107 is connected to the input / output signal line 31. Therefore, the general-purpose device controller 11 and the temperature / humidity sensor 107 are connected via the input / output signal line 31.
- the temperature / humidity sensor 107 detects the temperature and humidity of the place where it is installed. Therefore, the temperature / humidity sensor 107 supplies the detection result to the general-purpose device controller 11, and the general-purpose device controller 11 executes various processes based on the supplied detection result.
- the client terminal 109 is connected to the general-purpose transmission line 30. Therefore, the general-purpose device controller 11 and the client terminal 109 are connected via the general-purpose transmission line 30.
- the client terminal 109 changes various settings of the general-purpose device controller 11 as will be described in detail later with reference to FIG. Accordingly, when the client terminal 109 changes various settings of the general-purpose device controller 11, the general-purpose device controller 11 executes various processes based on the changed various settings.
- the general-purpose device 21 in the first embodiment is a general-purpose transmission line 30 whose communication protocol is publicly disclosed, or various devices connected to an input / output signal line 31 through which an input signal and an output signal flow. is there.
- the general-purpose device 21 is a device connected to the general-purpose transmission line 30 or the input / output signal line 31 or a device connected to the general-purpose transmission line 30 or the input / output signal line 31. I will show you.
- the general-purpose device 21 is, for example, one or more humidifiers 101, one or more heaters 103, one or more ventilation fans 105, one or more temperature / humidity sensors 107, and one or more client terminals 109.
- Etc. means at least one unit.
- a dehumidifier or the like may be provided as the general-purpose device 21.
- the air conditioner 23 is configured by a device connected to the dedicated transmission line 33 and controlled by the general-purpose device controller 11.
- the general-purpose device controller 11 and one outdoor unit 51 are connected via the dedicated transmission line 33.
- three indoor units 53 are connected to the dedicated transmission line 33. Therefore, the general-purpose device controller 11 and the plurality of indoor units 53 are connected via the dedicated transmission line 33.
- the outdoor unit 51 and the indoor unit 53 are connected via a dedicated transmission line 33. Therefore, the general-purpose device controller 11 is connected to both the outdoor unit 51 and the indoor unit 53.
- the outdoor unit 51 and the indoor unit 53 transmit / receive various signals to / from the general-purpose device controller 11, are controlled based on various control signals from the general-purpose device controller 11, and perform various processes.
- the outdoor unit 51 and the indoor unit 53 are connected by a refrigerant pipe 41. Details of the outdoor unit 51 and the indoor unit 53 will be described later with reference to FIGS.
- the air conditioning equipment 23 for example, two of the air conditioning control remote controllers 71 are connected to the indoor unit 53 via the dedicated transmission line 33. Therefore, the general-purpose device controller 11 and the air conditioning control remote controller 71 are connected via the indoor unit 53. Therefore, such an air conditioning control remote controller 71 transmits and receives various signals and the like to and from the indoor unit 53, the outdoor unit 51, and the general-purpose device controller 11, respectively.
- one of the air conditioning control remote controllers 71 is directly connected to the dedicated transmission line 33 without passing through the indoor unit 53. Therefore, such an air-conditioning control remote controller 71 is in a state in which various signals and the like can be transmitted and received with various devices connected to the dedicated transmission line 33.
- such an air conditioning control remote controller 71 is connected to the general-purpose device controller 11 connected to the dedicated transmission line 33, the outdoor unit 51 connected to the dedicated transmission line 33, and the dedicated transmission line 33.
- Various signals are transmitted to and received from the indoor unit 53.
- the air conditioning control remote controller 71 includes an operation unit 75, for example.
- the air conditioning control remote controller 71 allows an unillustrated operator to operate the operation unit 75 to execute an operation command, a stop command, a temperature setting, a humidity setting, and the like for the outdoor unit 51, the indoor unit 53, the general-purpose device 21, and the like.
- Various signals are transmitted via the dedicated transmission line 33.
- the air conditioning control remote controller 71 includes a display unit 73, for example.
- the air conditioning control remote controller 71 displays various signals transmitted via the dedicated transmission line 33 on the display unit 73, for example. If the display unit 73 is formed by overlapping a touch panel on a liquid crystal display, the display unit 73 and the operation unit 75 are integrally formed, and the operability is improved. In this case, since the display unit 73 is formed of a liquid crystal display and the operation unit 75 is formed of a touch panel, the operation unit 75 is operated by touching various contents displayed on the display unit 73 by an operator (not shown). Therefore, for example, various contents displayed on the liquid crystal display are switched and displayed by operating the touch panel.
- the air conditioning control remote controller 71 includes an illuminance sensor 81, a human sensor 83, and a temperature / humidity sensor 85.
- the illuminance sensor 81 detects the illuminance around the air conditioning control remote controller 71.
- the human sensor 83 determines the presence or absence of a person near the air conditioning control remote controller 71. For example, the air-conditioning control remote controller 71 turns off the backlight of the display unit 73 when the presence sensor 83 detects the absence of a person, and displays the display unit 73 when the presence sensor 83 detects the presence of a person. Promote energy saving by turning on the backlight.
- the temperature / humidity sensor 85 detects the temperature and humidity around the air conditioning control remote controller 71.
- the general-purpose device 21 and the air conditioning equipment 23 described above are examples, and are not particularly limited thereto.
- the air conditioning control remote controller 71 includes a liquid crystal display as the display unit 73, a plurality of push buttons as the operation unit 75, and various sensors such as an illuminance sensor 81, a human sensor 83, and a temperature / humidity sensor 85. It may not be.
- the air conditioning control remote controller 71 is provided for each indoor unit 53 has been described, a single remote controller for centralized control may be provided.
- the number of outdoor units 51 and indoor units 53 is not particularly limited.
- the connection relationship of each component in the general purpose apparatus 21 demonstrated above and the connection relationship of each component of the air conditioning equipment 23 are only an example, and are not limited to these.
- FIG. 2 is a diagram illustrating an example of a detailed configuration of the outdoor unit 51 according to Embodiment 1 of the present invention.
- the outdoor unit 51 includes a compressor 111, a four-way switching valve 113, an outdoor unit side heat exchanger 115, an outdoor unit side expansion valve 117, an accumulator 119, an outdoor unit side fan 121, and an outdoor unit control means. 131 and outdoor unit communication means 133.
- the outdoor unit communication means 133 transmits and receives various signals and the like via the dedicated transmission line 33.
- an outdoor unit temperature sensor 61 is provided in the outdoor unit 51.
- the outdoor unit temperature sensor 61 is a device that detects the temperature around the outdoor unit 51.
- the outdoor unit control unit 131 includes a compressor 111, a four-way switching valve 113, an outdoor unit side expansion valve 117, based on various signals supplied from the outdoor unit communication unit 133 and the detection result of the outdoor unit temperature sensor 61.
- the driving of the outdoor unit side fan 121 is controlled.
- the outdoor unit temperature sensor 61 is illustrated as being provided outside the outdoor unit 51, but is not particularly limited thereto.
- the outdoor unit temperature sensor 61 only needs to detect the temperature around the outdoor unit 51.
- the compressor 111 is a device that compresses the sucked refrigerant and discharges it by applying an arbitrary pressure based on the operating frequency.
- the compressor 111 may be, for example, an inverter compressor that varies the capacity using an inverter circuit that changes the capacity, for example, the amount of refrigerant sent out per unit time by arbitrarily changing the operating frequency.
- the four-way switching valve 113 is a valve that switches the path of the refrigerant pipe in accordance with, for example, a cooling operation or a heating operation.
- the outdoor unit side heat exchanger 115 is a device that performs heat exchange between the refrigerant passing through the heat exchanger and the air.
- the outdoor unit side expansion valve 117 is a device that controls the flow rate of the refrigerant by adjusting the opening of the valve based on the control signal of the outdoor unit control means 131.
- the accumulator 119 is a device that stores a refrigerant liquid and causes the compressor 111 to suck only a gas-phase refrigerant.
- the outdoor unit side fan 121 is a device that sends, for example, air to the outdoor unit side heat exchanger 115 to exchange heat with the outdoor unit side heat exchanger 115.
- FIG. 3 is a diagram showing an example of a detailed configuration of the indoor unit 53 according to Embodiment 1 of the present invention.
- the indoor unit 53 includes an indoor unit side heat exchanger 215, an indoor unit side expansion valve 217, an indoor unit side fan 221, an indoor unit control unit 231, and an indoor unit communication unit 233.
- the indoor unit communication means 233 transmits and receives various signals and the like via the dedicated transmission line 33.
- the indoor unit control means 231 includes an indoor unit humidity sensor 63 and an indoor unit temperature sensor 65.
- the indoor unit humidity sensor 63 is a device that detects the humidity of the air-conditioning target space.
- the indoor unit temperature sensor 65 is a device that detects the temperature of the air-conditioning target space.
- the indoor unit control means 231 is based on various signals supplied from the indoor unit communication means 233, the detection result of the indoor unit humidity sensor 63, and the detection result of the indoor unit temperature sensor 65, and the indoor unit side expansion valve 217. And the drive of the indoor unit side fan 221 is controlled.
- the indoor unit humidity sensor 63 and the indoor unit temperature sensor 65 are illustrated as being provided outside the indoor unit 53, but are not particularly limited thereto.
- the indoor unit humidity sensor 63 only needs to detect the humidity of the air conditioning target space
- the indoor unit temperature sensor 65 only needs to detect the temperature of the air conditioning target space.
- the indoor unit side heat exchanger 215 is a device that performs heat exchange between the refrigerant passing through the heat exchanger and the air.
- the indoor unit side expansion valve 217 is a device that adjusts the opening of the valve based on the control signal of the indoor unit control means 231 and controls the flow rate of the refrigerant.
- the indoor unit side fan 221 is a device that sends air that exchanges heat with the indoor unit side heat exchanger 215 to the indoor unit side heat exchanger 215, for example.
- the outdoor unit 51 and the indoor unit 53 are collectively referred to as an air conditioner.
- the air conditioning equipment 23 in the first embodiment is a device connected to the dedicated transmission line 33 whose communication protocol is not disclosed and related to the harmony of air existing in the air conditioning target space.
- the air conditioning equipment 23 indicates a device connected to the dedicated transmission line 33 or a device connected to the dedicated transmission line 33. Therefore, the air conditioning equipment 23 means at least one of, for example, one or more outdoor units 51, one or more indoor units 53, and one or more air conditioning control remote controllers 71.
- FIG. 4 is a diagram illustrating an example of a functional configuration of the general-purpose device controller 11 according to Embodiment 1 of the present invention.
- the general-purpose equipment controller 11 controls the air-conditioning equipment 23 and the general-purpose equipment 21 in conjunction with each other based on a composite control signal that designates the air-conditioning equipment 23 and the general-purpose equipment 21.
- the general-purpose device controller 11 includes an interface configuration unit 301, a processing configuration unit 303, and an input / output port 305.
- the interface configuration unit 301 includes a storage unit 355, receives a communication frame flowing through the dedicated transmission line 33, stores the received communication frame in the storage unit 355, and processes the communication frame stored in the storage unit 355 at predetermined intervals. Supply to the component 303. In other words, the interface configuration unit 301 relays various signals transmitted and received between the air conditioning equipment 23 and the processing configuration unit 303.
- the communication frame is formed in a format conforming to a communication protocol used for communication via the dedicated transmission line 33.
- the communication frame is composed of, for example, a header portion including actual data such as a transmission source address, a transmission destination address, and a communication command message length, a communication command portion, and a frame check portion including a code for detecting a transmission error. ing.
- the communication command part is composed of a communication command classification part indicating the classification of the communication command, an operation content part indicating the operation content of the communication command, an operation target part indicating the operation target of the communication command, and the like.
- the communication frame described above is an example, and the present invention is not limited to this.
- the communication frame including the management data corresponds to the first signal in the present invention.
- the outdoor unit 51 or the indoor unit 53 transmits management data on the dedicated transmission line 33.
- the interface configuration unit 301 collects management data flowing on the dedicated transmission line 33.
- the interface configuration unit 301 determines whether the management data is necessary management data, and stores the management data and a management address corresponding to the management data if necessary.
- the interface configuration unit 301 requests the outdoor unit 51 or the indoor unit 53 to return management data at a predetermined cycle.
- the interface configuration unit 301 supplies management data collected from the outdoor unit 51 or the indoor unit 53 to the processing configuration unit 303 at a predetermined cycle different from that at the time of collection.
- the management data is, for example, the suction temperature of the compressor 111 or the operation mode of the indoor unit 53.
- the management address is a transmission source address of management data, and the network constituent elements constituting the air conditioning system 1 are specified by specifying the management address. Examples of the network components include the outdoor unit 51, the indoor unit 53, the humidifier 101, the heater 103, the ventilation fan 105, and the temperature / humidity sensor 107.
- the management address to be managed by the general-purpose device controller 11 may be stored in advance, or may be included in a communication frame collected by the interface configuration unit 301.
- the input / output port 305 includes a control unit 417, a third communication unit 420, a fourth communication unit 421, an analog port 431, a digital port 433, a USB (Universal Serial Bus) port 435, a wireless port 437, and a LAN (Local Area Network) port. 439 and a storage unit 455.
- the control unit 417 performs overall control of the input / output port 305.
- the third communication unit 420 relays communication between the control unit 417 and the second communication unit 403.
- the fourth communication unit 421 relays communication between the control unit 417 and the analog port 431.
- the fourth communication unit 421 relays communication between the control unit 417 and the digital port 433.
- the fourth communication unit 421 relays communication between the control unit 417 and the USB port 435.
- the fourth communication unit 421 relays communication between the control unit 417 and the wireless port 437.
- the fourth communication unit 421 relays communication between the control unit 417 and the LAN port 439.
- the storage unit 455 stores various signals and the like.
- control unit 417, the third communication unit 420, the fourth communication unit 421, and the storage unit 455 may be omitted. In this case, these functions may be implemented in the control unit module 407, the second communication unit 403, and the storage unit module 405.
- the analog port 431 is a device that receives an analog signal supplied from the general-purpose device 21 connected to the analog port 431 and supplies the analog signal to the fourth communication unit 421. Further, the analog port 431 may convert various signals supplied from the fourth communication unit 421 into analog signals in a predetermined range range and supply the analog signals to the general-purpose device 21 connected to the analog port 431. The analog port 431 supplies the input / output port number assigned to the analog port 431 to the processing configuration unit 303 via the fourth communication unit 421 and the third communication unit 420.
- the digital port 433 is a device that receives a digital signal supplied from the general-purpose device 21 connected to the digital port 433 and supplies the digital signal to the fourth communication unit 421.
- the digital port 433 may convert various signals supplied from the fourth communication unit 421 into digital signals in a predetermined range range and supply the digital signals to the general-purpose device 21 connected to the digital port 433.
- the digital port 433 supplies the input / output port number assigned to the digital port 433 to the processing configuration unit 303 via the fourth communication unit 421 and the third communication unit 420.
- the USB port 435 is a device that receives various signals supplied from the general-purpose device 21 connected to the USB port 435 and supplies the signals to the fourth communication unit 421. Further, the USB port 435 may convert various signals supplied from the fourth communication unit 421 into various signals in a predetermined range range and supply the converted signals to the general-purpose device 21 connected to the USB port 435. The USB port 435 supplies the input / output port number assigned to the USB port 435 to the processing configuration unit 303 via the fourth communication unit 421 and the third communication unit 420.
- the wireless port 437 is a device that receives various signals supplied from the general-purpose device 21 that establishes a communication link with the wireless port 437 via a wireless medium and supplies the signal to the fourth communication unit 421.
- the wireless port 437 converts various signals supplied from the fourth communication unit 421 into various signals in a predetermined range range, and supplies the signals to the general-purpose device 21 that establishes a communication link with the wireless port 437 via a wireless medium. May be.
- the wireless port 437 supplies the input / output port number assigned to the wireless port 437 to the processing configuration unit 303 via the fourth communication unit 421 and the third communication unit 420.
- the wireless port 437 transmits and receives a wireless signal such as infrared or Bluetooth (registered trademark).
- the various ports described above are merely examples, and are not particularly limited thereto.
- the input / output port may include an optical port for optical communication.
- the communication frame including the input / output port number corresponds to the second signal in the present invention.
- the processing configuration unit 303 includes a first communication unit 401, a second communication unit 403, a storage unit module 405, and a control unit module 407.
- the first communication unit 401 converts various signals and the like supplied from the interface configuration unit 301 into signals of a predetermined format and supplies the signals to the control unit module 407.
- the second communication unit 403 converts various signals supplied from the input / output port 305 into signals of a predetermined format and supplies the signals to the control unit module 407.
- the storage module 405 has a collected data storage area 411 and a PLC program storage area 413 formed therein.
- the collected data storage area 411 stores management data among various signals supplied from the interface configuration unit 301.
- the collected data storage area 411 stores a management address corresponding to the management data.
- the collected data storage area 411 stores input / output port numbers among various signals supplied from the input / output port 305.
- the PLC program storage area 413 stores a control logic that is a control sequence of the PLC program, a threshold value used for the control logic, and a data collection cycle used when performing various operations described later.
- the points related to the PLC program are stored in the PLC program storage area 413.
- the present invention is not limited to this.
- the control logic and parameters related to the control logic may be stored.
- an object code corresponding to the control logic and various data associated with parameters used in the object code may be stored. In short, it does not depend on a specific programming language and language system, and it suffices to store information related to control commands.
- the controller module 407 is formed of an updatable program module and can be exchanged as appropriate.
- the controller module 407 sets a physical execution environment for executing the control logic stored in the PLC program storage area, and controls the control logic.
- the controller module 407 includes a register (not shown) included in the general-purpose device controller 11 based on the input conditions and output conditions of the control logic before executing the control logic that controls the air conditioning equipment 23 and the general-purpose device 21 in conjunction with each other. Assign etc.
- control unit module 407 executes various calculations using the assigned registers and the like, and operates an internal relay and the like (not shown), thereby causing the first communication unit 401 and the interface configuration unit 301 to operate.
- a control signal or the like is transmitted to the air conditioning equipment 23 through the second communication unit 403 and a control signal or the like is transmitted to the general-purpose device 21 through the second communication unit 403 and the input / output port 305.
- each block diagram described in the present embodiment may be considered as a hardware block diagram or a software functional block diagram.
- each block diagram may be realized by hardware such as a circuit device, or may be realized by software executed on an arithmetic device such as a processor.
- FIG. 5 is a diagram illustrating an example of various data allocated to the storage unit 968 and the physical configuration of the processing configuration unit 303 according to Embodiment 1 of the present invention.
- the processing configuration unit 303 includes a CPU (Central Processing Unit) 961, a ROM (Read Only Memory) 962, a RAM (Random Access Memory) 963, a bus 964, and an input / output interface 965.
- the CPU 961, the ROM 962, and the RAM 963 are connected to each other via a bus 964.
- An input / output interface 965 is connected to the CPU 961, ROM 962, and RAM 963 via a bus 964.
- An input unit 966, an output unit 967, a storage unit 968, a communication unit 969, and a drive 970 are connected to the input / output interface 965.
- the CPU 961 executes various processes based on various programs stored in the ROM 962 or the storage unit 968.
- the RAM 963 appropriately stores various programs executed by the CPU 961 or various data.
- the CPU 961 executes various processes corresponding to various signals input from the input unit 966.
- the CPU 961 outputs the results of various processes to the output unit 967.
- the storage unit 968 is configured with, for example, a hard disk or a semiconductor memory, and stores various programs or various data executed by the CPU 961.
- the communication unit 969 performs various communications with the outside of the processing configuration unit 303.
- the drive 970 acquires the various data stored in the various media and transfers them to the storage unit 968 as necessary.
- the storage unit 968 stores various data corresponding to the storage unit module 405 shown in FIG. 4 and data corresponding to the control unit module 407 shown in FIG. Specifically, as shown in FIG. 4, a collected data storage area 411 and a PLC program storage area 413 are allocated as the storage module 405.
- the collected data storage area 411 includes an input / output port number that uniquely identifies the general-purpose device 21, management data that is data related to the air conditioning equipment 23, and management that corresponds to the management data that identifies the air conditioning equipment 23.
- the address is stored.
- the PLC program storage area 413 stores control logic data, threshold data used for the control logic, and data collection cycle data.
- control logic data, the threshold data used for the control logic, the data collection cycle data, and the data of the control unit module 407 are stored in the RAM 13 of the memory card 12, the general-purpose device controller is connected via the memory card 12.
- the control unit module 407 can be updated by exchanging the control unit module 407 stored in the control unit 11.
- the drive 970 drives the memory card 12 and data of the control unit module 407 stored in the RAM 13, control logic data, threshold data used for the control logic, and data collection Get period data.
- the acquired various data is transferred to the storage unit 968 and stored as necessary.
- the memory card 12 is not particularly limited in its mounting form.
- the memory card 12 may be configured by an SRAM (Static Random Access Memory).
- the memory card 12 may be implemented by CompactFlash (registered trademark).
- the memory card 12 may be mounted with an ATA (AT Attachment) card.
- the update of the control unit module 407 may be executed via the communication unit 969.
- the data may be updated by uploading data of the control unit module 407 to the processing configuration unit 303 using the Internet or the like via the communication unit 969.
- FIG. 6 is a diagram showing an example of a device used when updating the PLC program in the first embodiment of the present invention.
- FIG. 7 is a diagram showing an example of the PLC program editing screen 601 according to Embodiment 1 of the present invention.
- the editing screen 601 described later is called from the general-purpose device controller 11 via the dedicated transmission line 33 with reference to FIG. 7.
- various update operations are performed by operating the operation unit 75 by the operator, and the execution results are displayed on the display unit 73.
- the editing screen 601 described later with reference to FIG. 7 is called from the general-purpose device controller 11 via the general-purpose transmission line 30.
- various update operations are performed by using the input device 501 of the client terminal 109, and the execution result is displayed on the output device 503.
- the input device 501 is, for example, a keyboard and a mouse
- the output device 503 is, for example, a liquid crystal display.
- an edit window 603 and an input window 605 are displayed on the edit screen 601.
- the edit window 603 displays an edit area 631, and the operation result of the input window 605 is reflected in the edit area 631.
- a device selection area 611 for example, a device name input area 613, an OK button 615, and a cancel button 617 are formed.
- the device selection area 611 for example, a symbol indicating A contact serial connection is displayed.
- M01 is designated as an internal relay. If the OK button 615 is operated in this state, the result is reflected in the editing area 631.
- the device here is a virtual device and means an element constituting the PLC program.
- the various symbols, various parameters, and various display screens described above are merely examples, and are not particularly limited thereto.
- FIG. 8 is a flowchart for explaining an example of the PLC program update process of the general-purpose device controller 11 according to the first embodiment of the present invention.
- step S11 the general-purpose device controller 11 determines whether or not there is a PLC program editing start command. If there is a PLC program editing start command, the general-purpose device controller 11 proceeds to step S12. On the other hand, if there is no PLC program editing start command, the general-purpose device controller 11 returns to step S11.
- step S12 the general-purpose device controller 11 displays a PLC program editing screen.
- the general-purpose device controller 11 displays the editing screen 601 shown in FIG. 7 on the display unit 73 of the air conditioning control remote controller 71 or the output device 503 of the client terminal 109 in the connection configuration shown in FIG.
- step S13 the general-purpose device controller 11 determines whether or not an input / output port name has been input. When the name of the input / output port is input, the general-purpose device controller 11 proceeds to step S14. On the other hand, if the name of the input / output port is not input, the general-purpose device controller 11 proceeds to step S15.
- various input operations are performed via the operation unit 75 of the air-conditioning control remote controller 71 or the input device 501 of the client terminal 109 shown in FIG. 6, and various signals corresponding to these operations are sent to general-purpose devices.
- the data is transmitted to the controller 11 and various registrations are executed by the general-purpose device controller 11 according to these operations.
- step S14 the general-purpose device controller 11 registers the name of the input / output port.
- the general-purpose device controller 11 sets the names of the general-purpose devices 21 connected to the input / output port 305, such as the humidifier 101, the heater 103, the ventilation fan 105, and the temperature / humidity sensor 107, as the input / output port names. sign up.
- the names of the input / output ports registered in this way are stored in the PLC program storage area 413 shown in FIG. For example, each name is stored in association with the threshold in an area for storing the threshold used in the control logic shown in FIG.
- step S15 the general-purpose device controller 11 determines whether or not an input condition has been input. When the input condition is input, the general-purpose device controller 11 proceeds to step S16. On the other hand, if the input condition is not input, the general-purpose device controller 11 proceeds to step S17.
- step S16 the general-purpose device controller 11 registers input conditions. For example, the temperature and illuminance of the air conditioning target space of the indoor unit 53 are registered in the general-purpose device controller 11 as input conditions. Further, the various input conditions registered in this way are requested and collected at predetermined intervals by the interface configuration unit 301, as will be described later with reference to FIGS.
- the data is supplied to the processing configuration unit 303 at predetermined intervals different from the time and stored in the collected data storage area 411 shown in FIG.
- the designation of the air conditioning equipment 23 is identified based on the management address
- the designation of the general-purpose device 21 is identified based on the input / output port number. Each cycle can be changed as appropriate by an operator who operates the general-purpose device controller 11.
- step S17 the general-purpose device controller 11 determines whether or not a control logic has been input. When the control logic is input, the general-purpose device controller 11 proceeds to step S18. On the other hand, if the control logic is not input, the general-purpose device controller 11 proceeds to step S19.
- step S18 the general-purpose device controller 11 registers the control logic.
- the control logic is defined by, for example, an AND condition, an OR condition, and a threshold value as will be described later. Specifically, there are conditions such as whether or not the set temperature of the indoor unit 53 is equal to or higher than a threshold value, or whether or not the operation state of the general-purpose device 21 is in operation.
- step S19 the general-purpose device controller 11 determines whether an output item has been input. When the output item is input, the general-purpose device controller 11 proceeds to step S20. On the other hand, if the output item is not input, the general-purpose device controller 11 proceeds to step S21.
- step S20 the general-purpose device controller 11 registers output items. For example, when registering the output item, the general-purpose device controller 11 specifies the output destination with the management address for the air conditioner 23 and specifies the output destination with the input / output port number for the general-purpose device 21. The operations for those specific destinations are registered above.
- step S21 the general-purpose device controller 11 determines whether or not there is a PLC program editing end command. If there is a PLC program editing end command, the general-purpose device controller 11 ends the process. When the processing is completed, various registration results are stored in the collected data storage area 411 and the PLC program storage area 413 shown in FIG. 4, and the editing screen 601 shown in FIG. Is selected and the editing screen 601 is closed. On the other hand, if there is no PLC program editing end command, the general-purpose device controller 11 returns to step S13.
- FIG. 9 is a flowchart for explaining an example of the interlock control process of the general-purpose device controller 11 according to the first embodiment of the present invention.
- step S31 the general-purpose device controller 11 reads out various data stored in the PLC program storage area 413.
- the general-purpose device controller 11 reads control logic data, threshold data used for the control logic, data collection cycle data, and the like from the PLC program storage area 413.
- the general-purpose device controller 11 reads out various data to be collected stored in the collected data storage area 411.
- the general-purpose device controller 11 reads management data, a management address corresponding to the management data, and an input / output port number from the collected data storage area 411.
- the management data and the management address corresponding to the management data are registered prior to the interlock control process as to be collected.
- the management data of the air conditioning equipment 23 to be managed and the management address corresponding to the management data may be registered as appropriate during the operation of the air conditioning system 1.
- step S33 the general-purpose device controller 11 executes a first data collection process, which will be described later with reference to FIG. 10, for details, and proceeds to step S34 after the first data collection process is completed.
- step S34 the general-purpose device controller 11 executes a second data collection process, which will be described later with reference to FIG. 13, for details, and proceeds to step S35 after the second data collection process is completed.
- step S35 the general-purpose device controller 11 determines whether or not various conditions of the control logic are satisfied. If the general-purpose device controller 11 satisfies various conditions of the control logic, the general-purpose device controller 11 proceeds to step S36. On the other hand, if the general-purpose device controller 11 does not satisfy the various conditions of the control logic, the process returns to step S33.
- step S36 it is determined whether or not a corresponding output condition is satisfied based on each control sequence described in the PLC program. If the output condition is satisfied, processing corresponding to the output condition is executed in step S36. .
- step S36 the general-purpose device controller 11 executes various controls based on the control logic. Note that the general-purpose device controller 11 executes output control set by the PLC program as necessary when executing various controls described in the control logic.
- step S37 the general-purpose device controller 11 determines whether or not the first predetermined period has elapsed. If the first predetermined period has elapsed, the general-purpose device controller 11 proceeds to step S38. On the other hand, if the first predetermined period has not elapsed, the general-purpose device controller 11 returns to step S37.
- step S38 the general-purpose device controller 11 resets the count value of the first predetermined cycle, and proceeds to step S39.
- step S39 the general-purpose device controller 11 starts counting the count value of the first predetermined cycle, and returns to step S33.
- FIG. 10 is a flowchart illustrating a detailed example of the first data collection process of the general-purpose device controller 11 according to the first embodiment of the present invention. 10 is based on the premise that various signals are flowing on the dedicated transmission line 33 and the signals flowing on the dedicated transmission line 33 are transmitted to all devices connected to the dedicated transmission line 33. To do. In other words, it is premised that the broadcast is performed from one device to all devices in the network.
- step S51 the general-purpose device controller 11 determines whether or not a signal has been received from the dedicated transmission line 33. When receiving a signal from the dedicated transmission line 33, the general-purpose device controller 11 proceeds to step S52. On the other hand, when the general-purpose device controller 11 does not receive a signal from the dedicated transmission line 33, the general-purpose device controller 11 ends the processing.
- step S52 the general-purpose device controller 11 determines whether or not the transmission source address of the received signal is a management address. If the source address of the received signal is a management address, the general-purpose device controller 11 proceeds to step S53. On the other hand, when the source address of the received signal is not the management address, the general-purpose device controller 11 ends the process.
- step S53 the general-purpose device controller 11 determines whether or not the received signal is necessary management data. If the received signal is necessary management data, the general-purpose device controller 11 proceeds to step S54. On the other hand, when the received signal is not necessary management data, the general-purpose device controller 11 ends the process.
- step S54 the general-purpose device controller 11 stores the management address and the management data in association with each other.
- step S55 the general-purpose device controller 11 executes management data acquisition processing, and ends the processing after the management data acquisition processing ends.
- FIG. 11 is a flowchart for explaining a detailed example of the management data acquisition process of the general-purpose device controller 11 in the first embodiment of the present invention.
- the process described with reference to FIG. 11 is an example of a management data collection process that is performed every predetermined first predetermined period.
- step S61 the general-purpose device controller 11 requests a return of management data for each management address.
- a return of management data for each management address has been described, but necessary management data may be requested in a batch.
- step S62 the general-purpose device controller 11 determines whether or not there is a return of management data. If there is a response to the management data, the general-purpose device controller 11 proceeds to step S63. On the other hand, when there is no management data response, the general-purpose device controller 11 returns to step S62.
- step S62 the general-purpose device controller 11 may move to step S63 after executing the processing described below without returning to step S62 when no management data is returned.
- the air conditioning equipment 23 corresponding to the management data is defined as having a logical connection relationship with the dedicated transmission line 33 eliminated.
- the general-purpose device controller 11 removes the air conditioning equipment 23 corresponding to the management data from the control target when there is no response of the management data. That is, for the control logic using that amount, processing is performed that assumes that the control logic has not been implemented from the beginning.
- step S63 the general-purpose device controller 11 determines whether or not the received management data is necessary management data. If the received management data is necessary management data, the general-purpose device controller 11 proceeds to step S64. In this case, the general-purpose device controller 11 extracts management data from the signal flowing through the dedicated transmission line 33. Here, the management data includes a transmission source address, a transmission destination address, and actual data. On the other hand, if the received management data is not necessary management data, the general-purpose device controller 11 returns to step S61.
- step S64 the general-purpose device controller 11 stores the management address and the management data in association with each other.
- the management address is, for example, a transmission source address included in a reply signal.
- step S65 the general-purpose device controller 11 determines whether or not the management data return request has been completed for all management addresses. If the request for returning management data for all management addresses is completed, the general-purpose device controller 11 proceeds to step S66. On the other hand, the general-purpose device controller 11 returns to step S61 when the management data return request for all management addresses is not completed.
- step S66 the general-purpose device controller 11 executes the second predetermined cycle corresponding process, and ends the process after the second predetermined cycle corresponding process ends.
- FIG. 12 is a flowchart for explaining a detailed example of the second predetermined cycle handling process of the general-purpose device controller 11 according to the first embodiment of the present invention.
- the processing described in FIG. 12 is an example in which management data is transmitted from the interface configuration unit 301 to the processing configuration unit 303 at every second predetermined period.
- step S71 the general-purpose device controller 11 determines whether or not the second predetermined period has elapsed. If the second predetermined period has elapsed, the general-purpose device controller 11 proceeds to step S72. If the second predetermined period has not elapsed, the general-purpose device controller 11 returns to step S71.
- step S72 the general-purpose device controller 11 transmits the management data of the interface configuration unit 301 to the processing configuration unit 303.
- step S73 the general-purpose device controller 11 resets the count value of the second predetermined cycle.
- step S74 the general-purpose device controller 11 starts counting the count value of the second predetermined cycle and ends the process.
- FIG. 13 is a flowchart for explaining a detailed example of the second data collection process of the general-purpose device controller 11 according to the first embodiment of the present invention.
- step S81 the general-purpose device controller 11 requests a return of the input / output port number for each input / output port.
- step S82 the general-purpose device controller 11 determines whether there is a reply of the input / output port number. If the input / output port number is returned, the general-purpose device controller 11 proceeds to step S83. On the other hand, if the input / output port number is not returned, the general-purpose device controller 11 returns to step S82.
- step S82 if the input / output port number is not returned, the general-purpose device controller 11 may move to step S83 after executing the processing described below without returning to step S82.
- the general-purpose device 21 corresponding to the input / output port number is defined as having a logical connection relationship with the input / output signal line 31 eliminated.
- the general-purpose device controller 11 removes the general-purpose device 21 corresponding to the input / output port number from the control target when there is no return of the input / output port number. That is, for the control logic using that amount, processing is performed that assumes that the control logic has not been implemented from the beginning.
- step S83 the general-purpose device controller 11 stores the input / output port number.
- step S84 the general-purpose device controller 11 determines whether or not the input / output port number return request has been completed for all the input / output ports.
- the general-purpose device controller 11 ends the process when the request for returning the input / output port numbers for all the input / output ports is completed.
- the general-purpose device controller 11 returns to step S81 when the request for returning the input / output port numbers for all the input / output ports is not completed.
- steps for describing the program for performing the operation of the first embodiment are not limited to the processing performed in time series according to the described order, but are not necessarily performed in time series, either in parallel or individually. Also includes processing to be performed.
- FIG. 14 is a diagram showing an example of various PLC programs in the first embodiment of the present invention. It is assumed that the first PLC program 701 has been described as shown in FIG. In the first PLC program 701, D13 is defined as a general-purpose device parameter. D13 is, for example, one of registers that store data in the general-purpose device controller 11. It is assumed that the temperature / humidity sensor 107 is connected to the analog port 431 as the general-purpose device 21. In this state, it is assumed that temperature data which is one of the detection results of the temperature / humidity sensor 107 is stored in D13. Therefore, a process is described in which any one of the first interlock control 801, the second interlock control 802, and the third interlock control 803 is selected by comparing D13 with each threshold value. Also, K200 is a decimal constant, meaning 20, K300 is a decimal constant, meaning 30, and K400 is a decimal constant, meaning 40.
- the first interlock control 801 is executed. For example, if the temperature data is 15, it is smaller than 20, so the first interlock control 801 is executed. This means that, for example, the first interlock control 801 is selected because the detection result is 15 ° C. and the threshold is 20 ° C. That is, the interlock control logic is executed using the threshold value stored in D13.
- the second interlock control 802 is executed. For example, if the temperature data is 30, it is the same as 30, so the second interlock control 802 is executed. This means that, for example, since the detection result is 30 ° C. and the threshold is 30 ° C., the second interlock control 802 is selected. That is, the interlock control logic is executed using the threshold value stored in D13.
- the third interlock control 803 is executed. For example, if the temperature data is 35, it is smaller than 40, so the third interlock control 803 is executed. This means that, for example, since the detection result is 35 ° C. and the threshold is 40 ° C., the third interlock control 803 is selected. That is, the interlock control logic is executed using the threshold value stored in D13.
- M03 is defined as an air conditioning equipment parameter
- M13 and M15 are defined as general-purpose device parameters.
- Each of M03, M13, and M15 is, for example, one of auxiliary relays inside the general-purpose device controller 11.
- M03 is a B contact serial connection virtual device, and when M03 is true, it is defined that the outdoor unit 51 is stopped.
- M13 is a virtual device of B setting series connection, and when M13 is true, it is defined as meaning that the humidifier 101 which is one of the general-purpose devices 21 is stopped.
- M15 is a virtual device of B setting series connection, and when M15 is true, it is defined as meaning that the heater 103 which is one of the general-purpose devices 21 is stopped.
- the B contact is a normally-on contact.
- the fourth interlock control 804 is selected.
- the fifth interlock control 805 is executed. That is, the interlock control logic is executed using the AND condition of M03 and M13, the AND condition of M03 and M15, and the OR condition of M13 and M15.
- FIG. 15 is a diagram showing an example of various PLC programs in the first embodiment of the present invention.
- the third PLC program 703 has been described.
- D13 and M07 are defined as air conditioning equipment parameters
- D23 is defined as a general-purpose equipment parameter.
- Each of D13 and D23 is, for example, one of registers that store data in the general-purpose device controller 11.
- M07 is, for example, one of the auxiliary relays inside the general-purpose device controller 11, and is a virtual device with B contact series connection.
- M07 is, for example, one of the auxiliary relays inside the general-purpose device controller 11, and is a virtual device with B contact series connection.
- M07 is, for example, one of the auxiliary relays inside the general-purpose device controller 11, and is a virtual device with B contact series connection.
- the sixth interlock control 806 is executed.
- the sixth interlocking control 806 is control for operating the outdoor unit 51 and the heater 103 connected to the digital port 433, for example. That is, the interlock control logic is executed using the threshold values stored in D13 and D23.
- M11 and M19 are defined as general equipment parameters, and M01 is defined as an air conditioning equipment parameter.
- M01 is defined as an air conditioning equipment parameter.
- M01, M11, and M19 is, for example, one of the auxiliary relays inside the general-purpose device controller 11, and is a virtual device of A contact series connection.
- M19 is true, the wireless port 437 is defined as being activated.
- M01 is true, it is defined that the entire air conditioner 23 is in an operating state.
- M11 the entire general-purpose device 21 is defined as being in an operating state.
- the A contact is a normally-off contact.
- the seventh interlock control 807 is executed according to the control signal. That is, the interlock control logic is executed using the AND condition of M19, M01, and M11.
- D1 and M01 are defined as air conditioning equipment parameters
- D2 and M11 are defined as general-purpose equipment parameters.
- D1 and D2 is, for example, one of registers that store data in the general-purpose device controller 11.
- D1 and D2 is, for example, one of registers that store data in the general-purpose device controller 11.
- D1 and D2 is, for example, one of registers that store data in the general-purpose device controller 11.
- D1 and D2 is, for example, one of registers that store data in the general-purpose device controller 11.
- data indicating that no management data is returned from the air conditioner 23 is stored in D1
- data indicating that no input / output port number is returned from the general-purpose device 21 is stored in D2.
- each of M01 and M11 is, for example, one of the auxiliary relays in the general-purpose device controller 11, and is a virtual device of B contact series connection.
- M01 is true
- M11 it is defined as meaning that the entire air conditioner 23 is stopped.
- the air conditioning equipment 23 and the general equipment 21 are stopped, the air conditioning equipment 23 is stopped, the general equipment 21 is selected to stop, and the eighth interlock control 808 is executed. That is, the threshold values stored in D1 and D2, the AND conditions of D1, D2, M01, and M11, the AND conditions of D1, D2, and M01, the AND conditions of D1, D2, and M11, and M01 and M11 And the logic of the interlock control is executed using the OR condition of M01 and M11.
- the various PLC programs described above, their parameters, threshold values, etc. are merely examples, and are not particularly limited thereto.
- the description format of various PLC programs and the meaning of the description also show an example, and the present invention is not particularly limited to this.
- various PLC programs have been described, the present invention is not limited to this.
- it may be a control program in which a logical configuration of control is defined. That is, although PLC demonstrated as what represents what is called a programmable logic controller, it showed only an example and does not limit a meaning to the component called a programmable logic controller.
- the processing configuration unit 303 itself may be configured by a PLC.
- the general-purpose device 21 connected via the general-purpose transmission line 30 or the input / output signal line 31 and the air-conditioning equipment 23 connected via the dedicated transmission line 33 are controlled. It is the air conditioning system 1 provided with the general-purpose device controller 11 to be received, and the general-purpose device controller 11 receives the first signal corresponding to the air conditioning equipment 23 and the second signal corresponding to the general-purpose device 21, and receives the first signal And a processing configuration unit 303 that transmits a control signal for controlling the air conditioning equipment 23 and the general-purpose device 21 based on the second signal, and the processing configuration unit 303 is a management address that designates the air conditioning equipment 23 included in the first signal.
- the air conditioner 23 that is the first control target is specified
- the general-purpose device 21 that is the second control target is specified by the input / output port number that specifies the general-purpose device 21 included in the second signal
- the first control Air conditioning system 1 for transmitting a control signal for interlock control the elephant and the second control object is constructed.
- the air conditioning equipment 23 and the general-purpose device 21 can be controlled in conjunction with each other. Therefore, the air conditioning system 1 that performs integrated control including the air conditioning equipment 23 and the general-purpose device 21 can be provided. Therefore, energy saving and comfort in the entire system can be improved.
- the general-purpose device controller 11 further includes an interface configuration unit 301 that relays various signals transmitted and received between the air conditioning equipment 23 and the processing configuration unit 303.
- the interface configuration unit 301 includes: Among the first signals flowing through the dedicated transmission line 33, the first signals determined to be collected based on the management address are collected.
- the interface structure part 301 requests
- the first signal determined to be collected based on the management address is collected.
- the interface configuration unit 301 sets the second predetermined cycle at an interval longer than the first predetermined cycle as the timing at which the collected first signal is supplied to the processing configuration unit 303.
- the collected first signal is supplied to the processing configuration unit 303 at predetermined intervals.
- the general-purpose device controller 11 further includes an input / output port 305 that relays various signals transmitted and received between the general-purpose device 21 and the processing configuration unit 303.
- the processing configuration unit 303 includes: The first predetermined period is set as a timing for collecting the second signal, and when there is a reply for requesting the second signal to the input / output port 305 for each first predetermined period, the input / output port included in the second signal Collect numbers.
- the input / output port 305 supplies the detection result of the general-purpose device 21 to the processing configuration unit 303, and the processing configuration unit 303 outputs the control signal generated based on the detection result to the input / output port. It transmits to the general-purpose device 21 via 305.
- the processing configuration unit 303 executes control in which the air conditioning equipment 23 and the general-purpose device 21 are combined based on the management address and the input / output port number.
- the process structure part 303 changes the air conditioning equipment 23 about the air conditioning equipment 23 corresponding to the management address which was not supplied from the interface structure part 301 among the management addresses contained in a control signal.
- the general-purpose device 21 corresponding to the input / output port number that is not supplied from the input / output port number among the input / output port numbers included in the control signal is excluded from the control target.
- the processing configuration unit 303 includes a control unit module 407 that executes various preset processes based on the first signal and the second signal, and the control unit module 407 is updated. Formed with possible program modules.
- control logic is created based on the PLC program in various processes, and the control module 407 sets the physical execution environment of the control logic and executes the control logic.
- the PLC program is edited by any one of the air conditioning control remote controller 71 that is one of the air conditioning facilities 23 and the client terminal 109 that is one of the general-purpose devices 21.
- the air conditioning equipment 23 corresponding to the management address is set in either the air conditioning control remote controller 71 or the client terminal 109, and the general-purpose device 21 corresponding to the input / output port number is set.
- the PLC program is edited.
- Embodiment 2 the air conditioning system 2 includes a centralized controller 901, and the centralized controller 901 manages a plurality of air conditioning facilities 23-1 and 23-2. Therefore, the difference from the first embodiment is that a centralized controller 901 is newly added to the system configuration.
- a centralized controller 901 is newly added to the system configuration.
- items that are not particularly described are the same as those in the first embodiment, and the same functions and configurations are described using the same reference numerals.
- FIG. 16 is a diagram showing a schematic configuration of the air conditioning system 2 in which the centralized controller 901 according to the second embodiment of the present invention monitors the air conditioning equipment 23-1 and the air conditioning equipment 23-2.
- the centralized controller 901 is connected to the dedicated transmission line 33, and is equipped with an air conditioning equipment 23-1, a general equipment controller 11-1, a general equipment 21-1, an air conditioning equipment 23-2, and a general equipment controller 11-. 2 and the general-purpose device 21-2 can communicate with each other. Due to this connection configuration, the centralized controller 901 can monitor the air conditioning equipment 23-1 and the air conditioning equipment 23-2 and perform various operations.
- the centralized controller 901 can communicate with the general-purpose device controller 11-1 and the general-purpose device controller 11-2, various cooperation processes are possible.
- the centralized controller 901 can perform various types of cooperation processing with the general-purpose device controller 11-1 and the general-purpose device controller 11-2. Therefore, the centralized controller 901 monitors the general-purpose device 21-1 and the general-purpose device 21-2, performs various operations, and performs various operations. Settings can be made.
- the centralized controller 901 is connected to the external device 911 via the LAN 35.
- the general-purpose device controller 11-1 and the general-purpose device controller 11-2 are collectively referred to as a general-purpose device controller 11.
- the air conditioning equipment 23-1 and the air conditioning equipment 23-2 are collectively referred to as an air conditioning equipment 23.
- the general-purpose device 21-1 and the general-purpose device 21-2 are collectively referred to as a general-purpose device 21.
- FIG. 17 is a diagram illustrating an example of a functional configuration of the centralized controller 901 according to the second embodiment of the present invention.
- the centralized controller 901 includes an interface configuration unit 921 and a processing configuration unit 923.
- the interface configuration unit 921 relays transmission and reception of various signals between the air conditioning equipment 23 and the general-purpose device controller 11 and the processing configuration unit 923, and appropriately converts a communication frame in accordance with a communication protocol.
- the processing configuration unit 923 includes a fifth communication unit 931, a sixth communication unit 933, a storage unit 935, and a control unit 937.
- the general-purpose device controller 11, the air conditioning equipment 23, and the general-purpose device 21 are monitored, operated, set, and the like. I do.
- the fifth communication unit 931 relays communication between the interface configuration unit 921 and the control unit 937.
- the sixth communication unit 933 relays communication between the control unit 937 and the external device 911.
- the storage unit 935 stores various data related to monitoring, operation, setting, and the like of the general-purpose device controller 11, the air conditioning equipment 23, and the general-purpose device 21.
- the control unit 937 performs integrated management of the processing configuration unit 923.
- an energy management device 951, a WEB browser 953, a wireless transmission device 955, and a tablet terminal 957 are assumed.
- the energy management device 951 manages, for example, power consumption of the air conditioning equipment 23 and the general-purpose equipment 21.
- the WEB browser 953 makes it possible to browse, for example, the operating state of the air conditioning equipment 23, the operating state of the general-purpose device 21, the operating state of the general-purpose device controller 11, and the management content of the centralized controller 901.
- the wireless transmission device 955 is a device that enables transmission and reception of various signals from various wireless terminals.
- the tablet terminal 957 is a portable terminal that can be moved, and can monitor the centralized controller 901 and the like from a remote location.
- each function of the centralized controller 901 is realized by hardware or software. That is, each block diagram described in the present embodiment may be considered as a hardware block diagram or a software functional block diagram. For example, each block diagram may be realized by hardware such as a circuit device, or may be realized by software executed on an arithmetic device such as a processor.
- the general-purpose device controller 11 and the centralized controller 901 have been described as an example in which computation is performed separately, and processing is implemented in separate housings, that is, physically separated positions. It does not specifically limit to this.
- the function of the general-purpose device controller 11 and the function of the centralized controller 901 may be implemented in one server device in a logically different form. That is, since the function of the general-purpose device controller 11 and the function of the centralized controller 901 need only be executed, the physical storage location or execution location is not particularly limited.
- the operations shown in FIGS. 8 to 13 described above may be distributed to a plurality of server devices at remote locations, and the processing may be executed while synchronizing the calculation results with each other.
- the functions of the general-purpose device controller 11 and the functions of the centralized controller 901 are virtualized in a logically different form, so that two functions are implemented in one server device. May be.
- a centralized controller that is connected to the dedicated transmission line 33, manages the air conditioning equipment 23 and the general-purpose device controller 11, and manages the general-purpose device 21 via the general-purpose device controller 11.
- An air conditioning system 2 further including 901 is configured.
- the centralized controller 901 can manage a plurality of air conditioning facilities 23-1 and 23-2.
- the centralized controller 901 manages the air conditioning equipment 23, the general-purpose device 21, and the general-purpose device controller 11 based on the first signal and the second signal.
- Embodiments 1 and 2 may be implemented independently or in combination. In either case, the advantageous effects described above are produced.
- Air conditioning system 11, 11-1, 11-2 General equipment controller, 12 Memory card, 13,963 RAM, 21, 21-1, 21-2 General equipment, 23, 23-1, 23-2 Air conditioning equipment, 30 general purpose transmission lines, 31, 31-1, 31-2 I / O signal lines, 33 dedicated transmission lines, 35 LAN, 41 refrigerant piping, 51, 51-1, 51-2 outdoor units, 53, 53- 1, 53-2 indoor unit, 61 outdoor unit temperature sensor, 63 indoor unit humidity sensor, 65 indoor unit temperature sensor, 71, 71-1, 71-2 air conditioning control remote controller, 73 display unit, 75 operation unit, 81 illuminance Sensor, 83 Human sensor, 101, 101-1, 101-2 Humidifier, 103, 103-1, 103-2 Heater, 105, 105 1, 105-2 ventilation fan, 85, 107, 107-1, 107-2 temperature / humidity sensor, 109, 109-1, 109-2 client terminal, 111 compressor, 113 four-way switching valve, 115 outdoor unit side heat exchange 117, outdoor unit side expansion valve, 119 accumulator
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Abstract
Description
連動制御される制御プログラムの更新が行われるものではなかった。
図1は、本発明の実施の形態1における空気調和システム1の概略構成の一例を示す図である。本実施の形態1は、空調設備23と、汎用機器21とをそれぞれ指定した複合的な制御指令を各通信媒体を介して空調設備23と汎用機器21とに送ることで、空調設備23と、汎用機器21とが連動制御される。よって、空調設備23と、汎用機器21とを含めて一体的な制御を行う空気調和システム1が提供される。したがって、システム全体における省エネ性及び快適性は向上する。
本実施の形態2は、空気調和システム2が集中コントローラー901を備え、集中コントローラー901は、複数の空調設備23-1及び23-2を管理する。よって、実施の形態1との相違点は、集中コントローラー901が新たにシステム構成に追加された点である。なお、本実施の形態2において、特に記述しない項目については実施の形態1と同様とし、同一の機能や構成については同一の符号を用いて述べることとする。
Claims (13)
- 汎用伝送線又は入出力信号線を介して接続される汎用機器と、専用伝送線を介して接続される空調設備とを制御する汎用機器コントローラーを備えた空気調和システムであって、
前記汎用機器コントローラーは、
前記空調設備に対応する第1信号と、前記汎用機器に対応する第2信号とを受信し、前記第1信号及び前記第2信号に基づいて前記空調設備及び前記汎用機器を制御する制御信号を送信する処理構成部を備え、
前記処理構成部は、
前記第1信号に含まれる前記空調設備を指定する管理アドレスで第1制御対象である前記空調設備を指定し、
前記第2信号に含まれる前記汎用機器を指定する入出力ポート番号で第2制御対象である前記汎用機器を指定し、
前記第1制御対象と前記第2制御対象とを連動制御する前記制御信号を送信する
ことを特徴とする空気調和システム。 - 前記汎用機器コントローラーは、
前記空調設備と、前記処理構成部との間で送受信される各種信号を中継するインターフェース構成部をさらに備え、
前記インターフェース構成部は、
前記専用伝送線を流れる前記第1信号のうち、前記管理アドレスに基づいて収集すると判定した前記第1信号を収集する
ことを特徴とする請求項1に記載の空気調和システム。 - 前記インターフェース構成部は、
前記第1信号を収集するタイミングとして第1所定周期が設定され、
前記第1所定周期毎に、前記空調設備に前記第1信号を要求して返信があった場合、前記管理アドレスに基づいて収集すると判定した前記第1信号を収集する
ことを特徴とする請求項2に記載の空気調和システム。 - 前記インターフェース構成部は、
収集した前記第1信号を前記処理構成部に供給するタイミングとして前記第1所定周期よりも長い間隔で第2所定周期が設定され、
前記第2所定周期毎に、収集した前記第1信号を前記処理構成部に供給する
ことを特徴とする請求項3に記載の空気調和システム。 - 前記汎用機器コントローラーは、
前記汎用機器と前記処理構成部との間で送受信される各種信号を中継する入出力ポートをさらに備え、
前記処理構成部は、
前記第1所定周期が前記第2信号を収集するタイミングとして設定され、
前記第1所定周期毎に、前記入出力ポートに前記第2信号を要求して返信があった場合、該第2信号に含まれる前記入出力ポート番号を収集する
ことを特徴とする請求項3又は4に記載の空気調和システム。 - 前記入出力ポートは、
前記汎用機器の検知結果を前記処理構成部に供給し、
前記処理構成部は、
前記検知結果に基づいて生成した前記制御信号を前記入出力ポートを介して前記汎用機器に送信する
ことを特徴とする請求項5に記載の空気調和システム。 - 前記処理構成部は、
前記管理アドレス及び前記入出力ポート番号に基づいて、前記空調設備と、前記汎用機器とを組み合わせた制御を実行する
ことを特徴とする請求項4又は6に記載の空気調和システム。 - 前記処理構成部は、
前記制御信号に含まれる前記管理アドレスのうち、前記インターフェース構成部から供給されなかった管理アドレスに対応する前記空調設備については、該空調設備を制御対象から外し、
前記制御信号に含まれる前記入出力ポート番号のうち、前記入出力ポート番号から供給されなかった入出力ポート番号に対応する前記汎用機器については、該汎用機器を制御対象から外す
ことを特徴とする請求項7に記載の空気調和システム。 - 前記処理構成部は、
前記第1信号及び前記第2信号に基づいて、予め設定された各種処理を実行する制御部モジュールを備え、
前記制御部モジュールは、更新可能なプログラムモジュールで形成された
ことを特徴とする請求項7又は8に記載の空気調和システム。 - 前記各種処理は、PLCプログラムに基づいて制御ロジックが作成され、
前記制御部モジュールは、前記制御ロジックの物理的な実行環境を設定し、該制御ロジックを実行するものであって、
前記PLCプログラムは、前記空調設備のうちの1つである空調制御リモートコントローラー及び前記汎用機器のうちの1つであるクライアント端末の何れかで編集された
ことを特徴とする請求項9に記載の空気調和システム。 - 前記空調制御リモートコントローラー及び前記クライアント端末の何れかで、
前記管理アドレスに対応した前記空調設備が設定され、前記入出力ポート番号に対応した前記汎用機器が設定された前記PLCプログラムが編集される
ことを特徴とする請求項10に記載の空気調和システム。 - 前記専用伝送線に接続され、前記空調設備と、前記汎用機器コントローラーとを管理し、該汎用機器コントローラーを介して前記汎用機器を管理する集中コントローラーをさらに備えた
ことを特徴とする請求項7又は11に記載の空気調和システム。 - 前記集中コントローラーは、
前記第1信号及び前記第2信号に基づいて、前記空調設備、前記汎用機器、及び前記汎用機器コントローラーを管理する
ことを特徴とする請求項12に記載の空気調和システム。
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JPWO2018087799A1 (ja) * | 2016-11-08 | 2019-06-24 | 三菱電機株式会社 | 空気調和装置 |
JPWO2018179276A1 (ja) * | 2017-03-30 | 2019-06-27 | 三菱電機株式会社 | 空調制御中継機器 |
JP2019090548A (ja) * | 2017-11-13 | 2019-06-13 | 三菱電機株式会社 | 空調制御システム、遠隔制御装置及び空調制御方法 |
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CN104956154A (zh) | 2015-09-30 |
US9810445B2 (en) | 2017-11-07 |
JP6008994B2 (ja) | 2016-10-19 |
US20150308707A1 (en) | 2015-10-29 |
EP2950013A1 (en) | 2015-12-02 |
EP2950013A4 (en) | 2016-09-28 |
JPWO2014115316A1 (ja) | 2017-01-26 |
EP2950013B1 (en) | 2018-05-23 |
CN104956154B (zh) | 2017-09-29 |
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