JP3214776U - Indoor microclimate management system, microclimate management facility and microclimate management method using various types of wireless connection - Google Patents

Abstract

An indoor microclimate management system for adaptive and stable management of a microclimate in an indoor of an arbitrary size is provided. An indoor microclimate management system 300 transmits an automatic frequency controller module 301 including at least one processor, a communication control protocol TCP data packet, and a Bluetooth protocol data packet to one or more remote control devices. One or more remote wireless communication modules 302 that transmit the generated TCP protocol management data packet or the generated Bluetooth protocol management data packet to at least one remote wireless communication module 302 The remote control device 303 described above is included. [Selection] Figure 3

Description

  The present invention relates to a system, method and equipment for remote management of indoor microclimate, and can be applied for adaptive and stable management of microclimate in a room of any size.

  The most similar to the present invention is an indoor microclimate management system that uses a user's portable device, including a thermostat that receives and processes signals from a number of transducers and sensors of the indoor microclimate management system (patented) Reference 1). In this system, these transducers and sensors collect status information of individual units of the indoor microclimate management system and use the thermostat to transfer control signals to the control units of the elements of the indoor microclimate management system. Send. At this time, the control of the system is performed by a portable device of the user connected to the thermostat by a wireless communication channel, for example, Bluetooth or broadband network WAN.

U.S. Patent No. 20120310418

  Known deficiencies in indoor microclimate management systems limit the possibilities of indoor microclimate management systems because the control signals are sent directly to the thermostat, making it difficult to place system elements inside the building. And the control is performed directly via a general-purpose data transmission protocol, the stability of signal transmission within the system is impaired, and the control of the system is performed via one type of wireless connection In the point.

  In addition, the thermostat communication module can utilize an industrial data transmission protocol for microclimate management, in which case data packet redirection occurs directly to the unit or module functioning by this protocol system. That is, such a control method is not stable and efficient. This is because this means the control of the various components of the microclimate management system by a device that generates various types of control packets, which in turn is responsible for the stability of transmission of such data packets. It is because it affects. Such a data packet is a data packet including control data, not a control data packet. In transmitting a data packet formed in this way, the control data packet is decoded to extract control data therefrom. Such a data packet may be destroyed in the transmission process by the wireless communication network. For this reason, the integrity of the control data contained in such a data packet is impaired, and the control signal that is extracted in accordance therewith is lost. Distortion occurs, and stable control of the indoor microclimate management system becomes impossible.

  In view of the above, the present invention aims to create an adaptive and stable microclimate management system indoors of any size.

  Embodiments of the present invention relate to an indoor microclimate management system, an indoor microclimate management method, and an indoor microclimate management device, respectively.

  In one embodiment, the present invention relates to an indoor microclimate management system that includes one or more automatic frequency controller modules, including at least one or more processors, wherein the automatic The frequency controller module creates a data packet containing the status data of the indoor microclimate management system so that it can be transmitted to one or more remote wireless communication modules by an industrial data transmission protocol Has been. At this time, the one or more remote wireless communication modules generate a Bluetooth protocol data packet (the Bluetooth protocol data packet includes a data packet received from the automatic frequency controller module). The generated Bluetooth protocol data packet can be transmitted to one of the remote control devices via a wireless communication line. Also, one or more remote control devices receive the Bluetooth protocol data packet, decompress it to extract the status data of the indoor microclimate management system, and control the Bluetooth protocol control data packet (this Bluetooth protocol). • Protocol data packets contain data packets that control the indoor microclimate management system) and transmit the generated Bluetooth protocol control data packets to one of the remote wireless communication modules. It is made to be able to. At this time, each remote wireless communication module decompresses the Bluetooth protocol control data packet received from the remote control device in order to extract the control data packet of the indoor microclimate management system, according to the industrial data transmission protocol. The management data packet of the indoor microclimate management system is designed to be transmitted to the automatic frequency controller module. At this time, one or more processors of the automatic frequency controller module decompress the data packet received from the at least one remote radio communication module to extract the control data packet of the microclimate management system, It is designed to generate control signals for changing the operating conditions of the microclimate management system.

  In another embodiment, the present invention relates to an indoor microclimate management system that includes one or more automatic frequency controller modules that include at least one or more processors, wherein the automatic frequency The controller module is constructed so that it can generate a data packet containing the status data of the indoor microclimate management system and transmit it to one or more remote wireless communication modules via an industrial data transmission protocol. ing. At this time, the one or more remote wireless communication modules generate a TCP protocol data packet (the TCP protocol data packet includes a data packet received from the automatic frequency controller module). ), So that the generated TCP protocol data packet can be transmitted to one or more remote control devices via a wireless communication line. Also, one or more remote control devices receive the TCP protocol data packet, decompress it to extract the status data of the indoor microclimate management system, and control the TCP protocol control data packet (of this TCP protocol). The data packet includes a data packet for controlling the indoor microclimate management system), and the generated TCP protocol control data packet can be transmitted to one of the remote wireless communication modules. It has been produced. At this time, each remote wireless communication module decompresses the control data packet of the TCP protocol received from the remote control device to extract the control data packet of the indoor microclimate management system, and according to the industrial data transmission protocol, The management data packet of the indoor microclimate management system is designed to be transmitted to the automatic frequency controller module. At this time, one or more processors of the automatic frequency controller module decompress the data packet received from the at least one remote radio communication module to extract the control data packet of the microclimate management system, It is designed to generate control signals for changing the operating conditions of the microclimate management system.

  In another embodiment, the present invention relates to an indoor microclimate management system that includes one or more automatic frequency controller modules that include at least one or more processors, wherein the automatic frequency The controller module is constructed so that it can generate a data packet containing the status data of the indoor microclimate management system and transmit it to one or more remote wireless communication modules via an industrial data transmission protocol. ing. In this case, the one or more remote wireless communication modules generate a TCP protocol data packet and a Bluetooth protocol data packet (the TCP protocol data packet and the Bluetooth protocol data packet include an automatic frequency). Data packets received from the controller module), the generated TCP protocol data packets and the generated Bluetooth protocol data packets to one or more remote control devices via a wireless communication line It is made so that it can be transmitted. Also, one or more remote control devices receive the TCP protocol data packet or the Bluetooth protocol data packet, decompress it to extract the indoor microclimate management system status data, and Protocol control data packet or Bluetooth protocol control data packet (the generated TCP protocol control data packet and the generated Bluetooth protocol control data packet include a data packet for controlling the indoor microclimate management system. The generated TCP protocol control data packet or the generated Bluetooth protocol control data packet can be transmitted to one or more remote wireless communication modules. In It has been created. At this time, each remote wireless communication module decompresses the TCP protocol control data packet and the Bluetooth protocol control data packet received from the remote control device to extract the control data packet of the indoor microclimate management system. However, the management data packet of the indoor microclimate management system can be transmitted to the automatic frequency controller module by an industrial data transmission protocol. At this time, one or more processors of the automatic frequency controller module decompress the data packet received from the at least one remote radio communication module to extract the control data packet of the microclimate management system, It is designed to generate control signals for changing the operating conditions of the microclimate management system.

  In another implementation aspect, the present invention relates to a remote controller for an indoor microclimate management system, including: an industrial data transmission protocol data packet containing status information for an indoor microclimate management system; A Bluetooth transceiver designed to be able to receive Bluetooth protocol data packets from the indoor microclimate management system wireless communication module; can decipher received Bluetooth protocol data packets A computing block designed to extract data packets of an industrial data transmission protocol, including status information of an indoor microclimate management system, and / or status information of an indoor microclimate management system Manufactured to be able to provide At least one output module; at least one input module configured to be able to issue an industrial data transmission protocol data packet formation command to the computing block; or status information of an indoor microclimate management system And at least one input / output module manufactured so that a data packet forming command of an industrial data transmission protocol can be issued to the operation block. At this time, the calculation block can form an industrial data transmission protocol data packet including information on desired conditions of the indoor management system, and the formed industrial data transmission protocol data packet is Bluetooth. It is designed to be able to encapsulate into protocol data packets and generate Bluetooth protocol control data packets. The Bluetooth transceiver is also designed to transmit the generated Bluetooth protocol control data packet to the wireless communication module of the indoor microclimate management system.

  In another implementation aspect, the present invention relates to a remote controller for an indoor microclimate management system, including: an industrial data transmission protocol data packet containing status information for an indoor microclimate management system; At least a Wi-Fi transceiver designed to be able to receive a TCP protocol data packet including a wireless communication module of an indoor microclimate management system; a received TCP protocol data packet can be decompressed A computing block designed to extract data packets of an industrial data transmission protocol, including status information of an indoor microclimate management system, and / or status information of an indoor microclimate management system At least one A module; at least one input module designed to allow a data packet formation command of an industrial data transmission protocol to be issued to the computing block; or manufactured to provide status information of an indoor microclimate management system And at least one input / output module manufactured so that a data packet forming command of an industrial data transmission protocol can be issued to the operation block. At this time, the arithmetic block can form an industrial data transmission protocol data packet including information on desired conditions of the indoor management system, and the formed industrial data transmission protocol data packet is TCP. It is manufactured so that it can be encapsulated into protocol data packets to generate TCP protocol control data packets. In addition, the Wi-Fi transceiver is manufactured so as to be able to transmit the generated control data packet of the TCP protocol to the wireless communication module of the indoor microclimate management system.

  In another implementation aspect, the present invention relates to a remote controller for an indoor microclimate management system, including: an industrial data transmission protocol data packet containing status information for an indoor microclimate management system; At least a Wi-Fi transceiver designed to be able to receive TCP protocol data packets including a Wi-Fi wireless communication module of an indoor microclimate management system; from a Bluetooth wireless communication module of an indoor microclimate management system A Bluetooth transceiver designed to receive Bluetooth protocol data packets, including industrial data transmission protocol data packets, including status information of indoor microclimate management systems; received TCP protocol data packets or Receive Is designed to extract data packets for industrial data transmission protocols, including status information of indoor microclimate management systems, from which data packets for Bluetooth protocol can be decompressed And / or at least one output module designed to provide status information of the indoor microclimate management system; a data packet formation command of an industrial data transmission protocol can be issued to the computing block; At least one input module manufactured in the above, or manufactured to provide status information of the indoor microclimate management system, so that a data packet forming command of an industrial data transmission protocol can be issued to the calculation block. Produced in a few One of the input and output modules both. At this time, the arithmetic block can form an industrial data transmission protocol data packet including information on desired conditions of the indoor management system, and the formed industrial data transmission protocol data packet is TCP. The protocol data packet and the Bluetooth protocol data packet are encapsulated to generate a TCP protocol control data packet and a Bluetooth protocol control data packet. In addition, the Wi-Fi transceiver is manufactured so that the generated control data packet of the TCP protocol can be transmitted to the Wi-Fi wireless communication module of the indoor microclimate management system. The Bluetooth transceiver is designed to transmit the generated Bluetooth protocol control data packet to the Bluetooth wireless communication module of the indoor microclimate management system.

  The technical effect is that by encapsulating industrial data transmission protocol data packets into Bluetooth protocol data packets and / or TCP protocol data packets, the control efficiency of the indoor microclimate management system is improved, As a result, the indoor microclimate management system can be remotely controlled. At this time, it is not necessary to place a control device in the immediate vicinity of the automatic frequency controller module of the indoor microclimate management system for system control, and this also improves the adaptability and stability of the indoor microclimate management system control. Rise. Other technical effects include transmission of industrial data transmission protocol data packets encapsulated in Bluetooth data packets and / or TCP protocol data packets, and transmitted industrial data. The transmission protocol data packets are inherent to the data packets transmitted within the indoor microclimate management system, thereby increasing the stability of the indoor microclimate management system, thereby preventing packet non-transmission or indoor The possibility of inaccurate thawing that takes place directly within the microclimate management system is eliminated.

The general layout of the indoor microclimate management system using Bluetooth connection is shown. 1 shows a general layout of an indoor microclimate management system using Wi-Fi connection. 1 shows a general layout of an indoor microclimate management system using Bluetooth / WiFi connection. A general layout of a Bluetooth control device for indoor microclimate is shown. The general arrangement | positioning figure of the Wi-Fi control apparatus of an indoor microclimate is shown. Figure 2 shows a general layout of a Bluetooth / Wi-Fi control device for indoor microclimate. A general layout of the stages of the indoor microclimate management method 400 is shown. A general layout of the stages of the indoor microclimate management method 500 is shown. A general layout of the stages of the indoor microclimate management method 600 is shown.

  Although not limited to this in FIG. 1 to FIG. 3, as an example of implementation, indoor connection using a Bluetooth connection, a Wi-Fi connection, and a combination of them (Bluetooth and Wi-Fi) respectively. A general layout of the climate management systems 100, 200, and 300 is shown. System 100, system 200, and system 300 each include automatic frequency controller modules 101, 201, and 301, each including at least one or more processors, and indoors according to an industrial data transmission protocol. Generate a data packet containing status data of the microclimate management system and send it to one or more remote wireless communication modules (wireless communication modules 102, 202 and 302 incorporated in the systems 100, 200 and 300, respectively). ). At this time, the industrial data transmission protocol that can be used is any known industrial data transmission protocol of any technical level, or a newly created industrial data transmission protocol. Including, but not limited to: Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONWORKS , DALI, etc.

  At this time, the data packet including the status data of the indoor microclimate management system is a data packet of an industrial data transmission protocol in which the data packet is transmitted. In this case, the modules 101, 201 and 301 of the automatic frequency control device are suitable for controlling the elements of the indoor microclimate management system, in particular the elements of the ventilator, the elements of the heating device, the elements of the air conditioner and other An automatic frequency control device of any known technical level suitable for control or a newly created automatic frequency control device. The one or more automatic frequency controller modules 101, 201, and 301 are connected to an industrial data transmission protocol from a remote radio module (remote radio communication modules 102, 202, and 302 of systems 100, 200, and 300, respectively). Control data packets can be received, received industrial data transmission protocol control data packets can be processed, and based on the received data, for controlling the elements of the indoor microclimate management system It is designed to be able to generate control signals. In this case, the remote radio communication module receives Bluetooth protocol data packets and / or TCP protocol data packets (these data packets include data packets received from the automatic frequency controller module). Can be generated and is created by the wireless communication line so that the generated data packets can be transmitted to the remote control devices (remote control devices 103, 203 and 303 of the systems 100, 200 and 300, respectively). ing.

  The remote wireless communication module 102 is a Bluetooth communication module. The remote wireless communication module 202 is a Wi-Fi communication module. The remote wireless communication module 302 is a communication module combining Bluetooth and Wi-Fi. The remote radio communication module includes one or more processors, whereby the remote radio communication module identifies industrial data transmission protocol data packets received from respective automatic frequency controller modules. And encapsulating the received industrial data transmission protocol data packet into a respective Bluetooth protocol data packet or TCP protocol data packet, thereby including the industrial data transmission protocol data packet. Generate protocol data packets and / or TCP protocol data packets.

  The remote wireless communication module 102 includes one or more Bluetooth transceivers. The remote wireless communication module 202 includes one or more Wi-Fi transceivers. The remote wireless communication module 302 includes one or more Bluetooth transceivers and one or more Wi-Fi transceivers at the same time. A Bluetooth protocol data packet and / or a TCP protocol data packet generated by the transceiver is one of the remote control devices (remote control devices 103, 203, and 303 of the systems 100, 200, and 300, respectively). Is transmitted. In addition, the remote wireless communication module is installed remotely from the automatic frequency controller module 101, 201 or 301 by a distance corresponding to the industrial data transmission protocol used in the indoor microclimate management system. They can be connected by a data transmission cable or can be built into each automatic frequency controller module 101, 201 or 301. The remote radio communication module can also be used as a transmitter for ensuring communication with the respective automatic frequency control module of other remote radio communication modules, thereby enabling an indoor microclimate management system to be used arbitrarily. Available in area. Through the transceiver, the remote wireless communication module receives a Bluetooth protocol control data packet and / or a TCP protocol control data packet. The one or more processors of the remote radio communication module receive a control data packet of an industrial data transmission protocol in a received control data packet of a Bluetooth protocol or a control data packet of a TCP protocol. Can be identified and their data packets can be extracted. After the extraction, the remote radio communication module transmits the extracted industrial data transmission protocol control data packet to each automatic frequency controller module. The remote radio communication module can also be made so that the remote control device can be synchronized with the automatic frequency controller module. The remote wireless communication modules 202 and 302 can also be supplementarily manufactured so that the remote control device (s) can be synchronized with each other. In addition, the wireless communication modules 102, 202, and 302 can be manufactured so that the respective remote control devices 103, 203, and 303 can be authenticated using, inter alia, a decryption key.

  The remote control device 103 (FIG. 4) can receive the Bluetooth protocol data packet and can decompress the Bluetooth protocol data packet to extract the status data of the indoor microclimate management system. • Protocol control data packets (where the Bluetooth protocol data packets contain data packets that control the indoor microclimate management system) can be generated and the generated Bluetooth protocol It is designed to transmit control data packets to one or more remote wireless communication modules 102. Further, the remote control device 203 (FIG. 5) can receive the TCP protocol data packet, and can extract the TCP protocol data packet to extract the status data of the indoor microclimate management system. A protocol control data packet (in this case, the TCP protocol data packet includes a data packet for controlling the indoor microclimate management system), and the generated TCP protocol control data packet Are transmitted to one or more remote wireless communication modules 202. The remote control device 303 (FIG. 6) can receive the Bluetooth protocol data packet or the TCP protocol data packet, and extract the Bluetooth protocol data packet to extract the status data of the indoor microclimate management system. Alternatively, the TCP protocol data packet can be decompressed, and the Bluetooth protocol control data packet or the TCP protocol control data packet (in this case, the control data packet includes an indoor Data packets that control the climate management system are included), and the generated control data packets can be transmitted to one or more remote wireless communication modules 102, 202 or 302. Is manufactured . The remote control device is, but not limited to, the following: a smartphone, a personal computer, a tablet personal computer, a fablet, a portable game machine, a pocket portable computer, a notebook computer, a control panel, and the like.

  The remote control devices each include the following: the remote device 103 includes a Bluetooth transceiver 1031, which is the remote wireless communication module 102 of the indoor microclimate management system 100 or the radio of the indoor microclimate management system 300. The communication module 302 is designed to receive Bluetooth protocol data packets including industrial data transmission protocol data packets including status information of the indoor microclimate management system. The remote device 203 includes a Wi-Fi transceiver 2031, which is the status of the indoor microclimate management system from the remote wireless communication module 202 of the indoor microclimate management system 200 or the wireless communication module 302 of the indoor microclimate management system 300. It is designed to receive TCP protocol data packets, including information, including industrial data transmission protocol data packets. The remote device 303 includes a Wi-Fi transceiver 3031 and a Bluetooth transceiver 3032, and the former is connected to the indoor microclimate management system 200 from the remote wireless communication module 202 or the indoor microclimate management system 300 wireless communication module 302. Designed to be able to receive TCP protocol data packets, including industrial data transmission protocol data packets, including climate management system status information, the latter Bluetooth transceiver 3032 is designed for indoor microclimate management system 100. Bluetooth protocol including data packet of industrial data transmission protocol including status information of indoor microclimate management system from remote radio communication module 102 or remote radio communication module 302 of indoor microclimate management system 300 It is fabricated to be able to receive data packets.

  The Bluetooth transceiver 1031 sends a Bluetooth protocol control data packet including a control data file of an industrial data transmission protocol to the wireless communication module 102 of the indoor microclimate management system 100 or the wireless communication module 302 of the indoor microclimate management system 300. It is made so that it can be sent to. The Wi-Fi transceiver 2031 transmits a TCP protocol control data packet including a control data file of an industrial data transmission protocol to the wireless communication module 202 of the indoor microclimate management system 100 or the indoor microclimate management system 300. It is manufactured so that it can be transmitted to the wireless communication module 302. Each of the transceivers 3031 and 3032 transmits a TCP protocol control data packet including a control data file of an industrial data transmission protocol to the wireless communication module 202 of the indoor microclimate management system 100 or the indoor microclimate management system 300. Bluetooth protocol control data packets manufactured to be transmitted to a wireless communication module 302 (Wi-Fi transceiver 3031) or including an industrial data transmission protocol control data file. It is designed to transmit to the wireless communication module 102 or the wireless communication module 302 of the indoor microclimate management system 300 (Bluetooth protocol 3032).

  Each of the remote control devices includes a calculation block 1032 (remote control device 103) and a calculation block 2032 (remote control device 203). At this time, the arithmetic block 1032 can decompress the Bluetooth data packet received from the remote wireless communication module 102 or the remote communication module 302 by the Bluetooth transceiver 1031, and from the data packet, the indoor microclimate management system It is designed to extract data packets of industrial data transmission protocol including status information. In addition, the calculation block 2032 can decompress the Bluetooth data packet received from the remote wireless communication module 202 or the remote communication module 302 by the Wi-Fi transceiver 2031, and the indoor microclimate management can be performed from the data packet. It is designed to extract data packets of industrial data transmission protocol including system status information. At this time, the arithmetic block 3033 can decompress the TCP data packet received from the remote wireless communication module 202 or the remote communication module 302 by the Wi-Fi transceiver 3031 and can be remotely operated by the Bluetooth transceiver 3032. The Bluetooth data packet received from the wireless communication module 102 or the remote communication module 302 can be decompressed, and the data packet of the industrial data transmission protocol including the status information of the indoor microclimate management system can be extracted from the data packet. It is manufactured as follows. Arithmetic blocks 1032, 2032, and 3033 each include one or more processors that perform the necessary computations and conversions. Just by this processor, the computing blocks 1032, 2032 and 3033 form an industrial data transmission protocol data packet containing information about the desired conditions of the indoor microclimate management system. Among them, the operation block 1032 encapsulates the generated industrial data transmission protocol data packet into a Bluetooth protocol data packet, thereby generating a Bluetooth protocol control data packet. 2032 encapsulates the generated industrial data transmission protocol data packet into a TCP protocol data packet, thereby generating a TCP protocol control data packet, and the operation block 3033 is generated as described above. Encapsulate industrial data transmission protocol data packets into TCP protocol data packets and Bluetooth protocol data packets, thereby enabling TCP protocol control data packets and Respectively generating control data packets Tusu protocol.

  The remote control devices include a storage device 1035 (remote control device 103), a storage device 2035 (remote control device 203), and a storage device 3036 (remote control device 303), respectively. The three industrial data transmission protocol data packets formed are stored in storage devices 1035, 2035 and remote management devices 103, 203 and 303 of the indoor microclimate management system to select and form respective control data packets. 3036, respectively.

  The remote control device includes at least one output module 1033 (remote control device 103), at least one output module 2033 (remote control device 203), which is manufactured to provide status information of the indoor microclimate management system. At least one output module 3034 (remote control device 303) is included in each. The output modules 1033, 2033, and 3034 are provided for information of a smartphone, a tablet personal computer, a fablet, a pocket portable personal computer, a notebook personal computer, a control panel, a personal computer, or a portable game machine. Of the presentation, display and playback equipment, these correspond to, but are not limited to, typical and known levels of equipment: screens, displays, touch displays, monitors, projectors, printers, etc. A device capable of presenting, displaying or reproducing status information of an indoor microclimate management system.

  The remote control device includes at least one input module 1034 (remote control device 103), at least one input module 2034 (remote control device 203), and at least one input module 3035 (remote control device 303). ing. The input modules 1034, 2034, and 3035 are control devices provided in a smartphone, a tablet personal computer, a fablet, a pocket portable personal computer, a notebook personal computer, a control panel, a personal computer, or a portable game machine. Among the typical and known level of equipment are: keyboards, joysticks, touchpads, trackballs, mice, touch displays, and others that users can use for indoor microclimate management systems A command for designating a desired condition can be issued, and based on the command, a control data packet of an industrial data transmission protocol is formed or selected by each operation block 1032, 2032 or 3033.In addition, when the input module 1034, 2034, or 3035 is a touch display, the touch display can also be used as the output modules 1033, 2033, and 3034, that is, these modules are input / output modules 1034-1033, respectively. The fact that it is 2034-2033 or 3035-3034 must be obvious to the expert in this technical field.

  The remote control devices 103, 203 and 303 of the indoor microclimate management system additionally include an authentication module, password authentication, signature / picture authentication, voice authentication, authentication with one finger fingerprint (multiple finger fingerprints), It is possible to authenticate the user of the remote control device 103, 203 or 303 by any known method of authentication, such as but not limited to authentication by the retina of the eye. it can. In addition, the remote control devices 103, 203, and 303 of the indoor microclimate management system can include a synchronization module that can perform the following synchronization: The remote control device 103 of the indoor microclimate management system , Synchronization with the automatic frequency controller module 101 or the automatic frequency controller module 301 corresponding to the indoor microclimate management system 100 or 300, respectively, another indoor microclimate control apparatus of the remote control device 203 of the indoor microclimate management system 203 or 303 and / or synchronization with the automatic frequency controller module 201 or automatic frequency controller module 301 corresponding to the indoor microclimate management system 200 or 300, respectively, of the remote controller 303 of the indoor microclimate management system Other indoor microclimate remote control devices 203 or 30 Synchronization, and / or synchronization of the automatic frequency control module 101, 201 or 301 corresponding respectively to the indoor micro-climate control system 100, 200 or 300 with.

  The remote control devices 103, 203, and 303 of the indoor microclimate management system are one of a smartphone, a tablet personal computer, a fablet, a pocket portable personal computer, a notebook personal computer, a control panel, and other devices. In some cases, the elements of each device are similarly housed in the same case of a smartphone, a tablet computer, a fablet, a pocket portable computer, a notebook computer, or a control panel.

  Although not limited to FIGS. 7 to 9, general arrangement diagrams of stages corresponding to the control methods 400, 500, and 600 of the indoor microclimate management system are shown as examples. In each optional authentication stage 4011, 5011 and 6011, the user is authenticated by the respective remote control device 103, 203 and 303, and after successful authentication, the corresponding scanning stage 401, 501 or 601 respectively. Each of the wireless communication modules 103, 203 or 303 scans the respective wireless communication modules 102, 202 and 302 of the indoor microclimate management systems 100, 200 and 300 to provide at least one type of indoor microclimate management system. To decide. In this way, the indoor microclimate management systems 100, 200, and 300 corresponding to the remote control device 103, 203, or 303 of the indoor microclimate management system are selectively controlled. In connection phase 402, 502 or 602, the type of indoor microclimate management system is determined, and after that system is selected, the indoor microclimate management system remote controller 103 (selects the indoor microclimate, respectively). Within the management system 100 or 300) it is determined which of the wireless communication modules 102 and 302 is used to make the Bluetooth connection function more reliably and stably, and then the wireless communication modules 102 and 302. Set up a Bluetooth connection using any of the above. Also, the remote control device 203 of the indoor microclimate management system can use any of the wireless communication modules 202 and 302 (within the selected indoor microclimate management system 200 or 300, respectively). It is determined whether the Fi connection functions more reliably and stably, and thereafter, a Wi-Fi connection using any one of the wireless communication modules 202 and 302 is set. The indoor microclimate management system remote control 303 then selects any of the wireless communication modules 102, 202 and 302 (within the selected, respectively, indoor microclimate management system 100, 200 or 300). If used, it is determined whether the corresponding Wi-Fi connection or Bluetooth connection functions more reliably and stably, and then the Wi-Fi connection using any one of the wireless communication modules 202 and 302 or A Bluetooth connection using any one of the wireless communication modules 102 and 302 is set. After the connection is established, in the optional synchronization stage 4033, 5033 or 6033, the indoor microclimate management system remote controller 103 selects the wireless communication module 102 of the indoor microclimate management system 100 or 300 selected or Via 302, it is optionally synchronized by the corresponding automatic frequency controller module 101 or 301. Also, the remote controller 203 of the indoor microclimate management system is selected by the corresponding automatic frequency controller module 201 or 301 via the selected wireless communication module 202 or 302 of the indoor microclimate management system 200 or 300, and Optionally synchronized by other controllers of the indoor microclimate management system, connected to the indoor microclimate management system 200 or 300. The remote control device 303 of the indoor microclimate management system then selects the corresponding automatic frequency control module 101, via the selected wireless communication module 102, 202 or 302 of the indoor microclimate management system 100, 200 or 300. Optionally synchronized by 201 or 301 and / or by other controllers of the indoor microclimate management system connected to the indoor microclimate management system 200 or 300. At this time, the synchronization of the control devices 203 and 303 of the indoor microclimate management system is not only performed by the wireless communication modules 202 and 302 using other control devices corresponding to the selected indoor microclimate management system. It is worth mentioning that it can also be done without these modules, but in this case the synchronization is performed between the devices themselves by the Wi-Fi transceiver.

  In the inquiry stage 403, 503 and 603, the indoor microclimate management system remote control devices 103, 203 and 303 query the status data of the indoor microclimate management system by the wireless communication module 102, 202 or 302 and corresponding transmission / reception. The TCP protocol data packet or the Bluetooth protocol data packet including the data packet of the industrial data transmission protocol including the status information of the indoor microclimate management system is received from the corresponding wireless communication module.

After processing the received TCP protocol data packet or Bluetooth protocol data packet in display stages 404, 504 and 604, the current status information of the system is output by the corresponding operation block 1032, 2032 or 3033 to the corresponding output. Displayed to the user using module 1033, 2033 or 3034, or corresponding input / output module 1034-1033, 2034-2033 or 3035-3034 (eg, when the touch screen is an input / output module).

  Further, in the condition specification stages 405, 505 and 606, the user can use the corresponding input module 1034, 2034 or 3035 or the corresponding input / output module 1034-033, 2034-2033 or 3035-3034 (eg, touch screen). Is used as an input / output module), a command specifying the desired condition of the indoor microclimate management system is sent to the corresponding arithmetic block 1032, 2032 or 3033, and the corresponding arithmetic block 1032, 2032 or 3033 forms a control data packet of the industrial data transmission protocol from the corresponding storage device 1035, 2035 or 3036, and these data packets are then sent to the corresponding TCP protocol data packet or blue. Encapsulated in data packets Usu protocol, by its control data packets of the control data packet or the Bluetooth protocol TCP protocol is generated.

  Further, in the transmission stages 406, 506 and 606, the corresponding generated TCP protocol control data packet or the generated Bluetooth protocol control data packet is selected by the corresponding transceiver by the indoor microclimate management system 100 selected. , 200 or 300 to the corresponding wireless communication module 102, 202 or 302. After this, in the extraction stage 407, 507 or 607, the industrial data transmission protocol control data packet is received by the wireless communication module 102, 202 or 303, and the corresponding received TCP protocol control data packet generated or Extracted from the corresponding received and generated Bluetooth protocol control data packet and transmitted by a data transmission cable to the corresponding automatic frequency controller module 101, 201 or 301, where the corresponding control signal formation Processed in steps 408, 508 or 608 and transmitted to the corresponding elements of the indoor microclimate management system, so that the conditions of the system are the desired conditions. The remote control device 103, 203 and 303 transmits the control data packet in the corresponding configuration of the TCP protocol data packet or in the corresponding configuration of the Bluetooth protocol data packet. Reliable control is guaranteed.

  The adaptability of the control of the indoor microclimate management system is that the remote control device 103, 203 or 303 of the indoor microclimate management system can be applied to a normal mobile device such as a smartphone such as a special Wi-Fi or Bluetooth control panel. Guaranteed by being able to use any suitable device. The adaptability of the indoor microclimate management system allows the indoor microclimate management system remote controller 103, 203 or 303 to be connected to various wireless communication modules utilized in various indoor microclimate management systems, A supplementary guarantee is also provided by the fact that the best type of wireless connection can be selected and even the type of indoor microclimate management system can be selected.

  This description of the implementation of the invention represents only a portion of the implementation of the invention and does not limit other implementations of the invention. This is because the implementation alternative of the present invention, which does not exceed the information frame described in this patent application, is a specialized technical field with ordinary skill proficiency that the present invention keeps in mind. For the house it must be obvious.

Claims (38)

An automatic frequency controller module that includes at least one processor that generates and transmits status data packets for a microclimate management system in accordance with an industrial data transmission protocol that transmits data to one or more remote wireless communication modules. Automatic frequency controller module, made so that it can
The communication control protocol TCP data packet and the Bluetooth protocol data packet including the data packet received from the automatic frequency controller module are generated, and the generated TCP data packet and the Bluetooth protocol data packet are transmitted by the wireless communication line. One or more remote wireless communication modules designed to be transmitted to one or more remote control devices; and
The TCP protocol data packet or the Bluetooth protocol data packet can be received, and the TCP protocol data packet or the Bluetooth protocol data packet is decompressed to extract status data of an indoor microclimate management system. A TCP protocol management data packet or a Bluetooth protocol management data packet can be generated (the generated TCP protocol data packet and the generated Bluetooth protocol data packet can be Including a management data packet of a climate management system), a generated management data packet of a TCP protocol or a generated management data packet of a Bluetooth protocol. Includes one or more remote control devices that are fabricated so as to be able to transmit to the 隔無 line communication module, a indoor microclimate management system,
Each wireless communication module can decompress the TCP protocol management data packet and the Bluetooth protocol management data packet received from the remote control device to extract the management data packet of the indoor microclimate management system. The management data packet of the indoor microclimate management system is designed to be transmitted to the automatic frequency controller module according to the industrial data transmission protocol,
One or more processors of the automatic frequency controller module can decompress the data packets received from the at least one remote radio communication module to extract the management data of the microclimate management system, and the indoor microclimate management An indoor microclimate management system that is designed to be able to generate control signals for changing the operating conditions of the system.   The indoor microclimate management system of claim 1, wherein at least one of the remote wireless communication modules is configured to authenticate one or more of the remote control devices.   3. The supplementary fabrication of claim 2, wherein at least one of the remote wireless communication modules is supplemented so that at least one remote controller can be synchronized with an automatic frequency controller module. The indoor microclimate management system described.   At least one of the remote wireless communication modules is supplementarily fabricated to allow synchronization between all remote control devices connected to the remote wireless communication module. The indoor microclimate management system according to Item 3.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, BI The indoor microclimate management system according to any one of claims 1 to 4, wherein the indoor microclimate management system is selected. An automatic frequency controller module including at least one or more processors, the frequency controller module generating a data packet including status data of an indoor microclimate management system according to an industrial data transmission protocol; An automatic frequency controller module designed to be transmitted to one or more remote radio communication modules,
Bluetooth protocol data packets (including data packets received from the automatic frequency controller module) can be generated, and the generated Bluetooth protocol data packets are transmitted over the wireless communication line to the remote controller. One or more remote wireless communication modules designed to transmit to one; and
The Bluetooth protocol data packet can be received, the Bluetooth protocol data packet can be decompressed to extract the status data of the indoor microclimate management system, and the Bluetooth protocol control data packet ( The generated Bluetooth protocol data packet also includes a data packet for managing the indoor microclimate management system), and the generated Bluetooth protocol control data packet is at least one An indoor microclimate management system comprising one or more remote control devices capable of transmitting to a remote wireless communication module,
Each wireless communication module can decompress the Bluetooth protocol control data packets received from the remote control device to extract the status data of the indoor microclimate management system and manage the indoor microclimate management system The data packet is manufactured to be transmitted to the automatic frequency controller module according to an industrial data transmission protocol,
One or more processors of the automatic frequency controller module can decompress data packets received from at least one remote radio communication module to extract management data for the microclimate management system, An indoor microclimate management system designed to generate control signals for changing the operating conditions of the climate management system.   The indoor microclimate management system according to claim 6, wherein at least one of the remote wireless communication modules is designed to authenticate one of the remote control devices.   8. The supplementary fabrication of claim 7, wherein at least one of the remote wireless communication modules is supplemented so that at least one remote controller can be synchronized with an automatic frequency controller module. The indoor microclimate management system described.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, BI The indoor microclimate management system according to any one of claims 6 to 8, wherein the indoor microclimate management system is selected from the following. An automatic frequency controller module comprising at least one or more processors, the automatic frequency controller module generating status data of an indoor microclimate management system according to an industrial data transmission protocol, and An automatic frequency control device module manufactured so that the data can be transmitted to the above remote wireless communication module,
A TCP protocol data packet (which includes a data packet received from the automatic frequency controller module) can be generated, and the generated TCP protocol data packet is transmitted by the wireless communication line. One or more remote wireless communication modules that are designed to be transmitted to or from one or more remote control devices; and
The TCP protocol data packet can be received, the TCP protocol data packet can be decompressed to extract the status data of the indoor microclimate management system, and the TCP protocol control data packet is generated. (The generated TCP protocol data packet includes a data packet for managing the indoor microclimate management system), and the generated TCP protocol control data packet is transmitted to at least one remote wireless communication module. An indoor microclimate management system including one or more remote control devices capable of transmitting to
Each wireless communication module can decompress TCP protocol control data packets received from the remote control device to extract data packets for managing the indoor microclimate management system. The data packet to be managed is manufactured so that it can be transmitted to the automatic frequency controller module according to the industrial data transmission protocol,
One or more processors of the automatic frequency controller module can decompress data packets received from at least one remote radio communication module to extract management data for the microclimate management system, An indoor microclimate management system designed to generate control signals for changing the operating conditions of the climate management system.   11. The indoor microclimate management system according to claim 10, wherein at least one of the remote wireless communication modules is designed to authenticate one or more of the control devices.   The indoor structure according to claim 11, characterized in that at least one of said wireless communication modules is supplementarily manufactured so that at least one remote control device can be synchronized with an automatic frequency control device module. Microclimate management system.   At least one of the remote wireless communication modules is supplementarily manufactured so that all remote control devices connected to the remote wireless communication module can be synchronized with each other. Item 13. The indoor microclimate management system according to Item 12.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, E, The indoor microclimate management system according to claim 10, wherein the indoor microclimate management system is selected from the group consisting of: Wi-Fi transceiver manufactured to receive a TCP protocol data packet including a data packet of an industrial data transmission protocol including status information of an indoor microclimate management system from a wireless communication module of the indoor microclimate management system ,
Bluetooth transceiver designed to receive Bluetooth protocol data packets, including industrial data transmission protocol data packets containing status information of indoor microclimate management system, from Bluetooth wireless communication module of indoor microclimate management system Machine and
Can extract received TCP protocol data packets or received Bluetooth protocol data packets and extract industrial data transmission protocol data packets including status information of indoor microclimate management system from that data A remote control device for an indoor microclimate management system, comprising a computing block designed to be capable of providing at least one output module designed to provide status information for the indoor microclimate management system; and At least one input module manufactured so that a command for generating a data packet of an industrial data transmission protocol can be issued to the arithmetic block, or
At least one input / output module capable of providing status information of an indoor microclimate management system and capable of issuing a data packet generation command of an industrial data transmission protocol to the calculation block. Including
The calculation block can generate a data packet of an industrial data transmission protocol including information on desired conditions of an indoor microclimate management system, and the generated data packet of the industrial data transmission protocol is converted to a TCP protocol. It is manufactured so that it can be encapsulated into data packets and TCP protocol control data packets can be generated,
The Wi-Fi transceiver is manufactured so that the generated TCP protocol control data packet can be transmitted to the wireless communication module of the indoor microclimate management system.
The Bluetooth transceiver is designed to transmit a generated Bluetooth protocol control data packet to a wireless communication module of the indoor microclimate management system. Control device.   16. The indoor microclimate management system remote control device according to claim 15, further comprising an authentication module for authenticating the device user.   17. A supplementary arrangement comprising a synchronization module for synchronizing the apparatus with other control units of the indoor microclimate management system and / or with the control module of the indoor microclimate management system. Remote control device for indoor microclimate management system as described.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DET, LON, LONWORKS, LONTALK, EIB The remote control device for an indoor microclimate management system according to any one of claims 15 to 17, wherein the remote control device is an indoor microclimate management system. Bluetooth transceiver designed to receive Bluetooth protocol data packets from the indoor microclimate management system wireless communication module, including industrial data transmission protocol data packets containing status information of indoor microclimate management system ,and,
The received Bluetooth protocol data packet can be decompressed, and from this data, the industrial data transmission protocol data packet, including the status information of the indoor microclimate management system, can be extracted. A remote control device for an indoor microclimate management system including a computing block comprising:
An industrial data transmission protocol data packet generation command can be issued to at least one output module designed to be able to provide status information of an indoor microclimate management system and the arithmetic block. At least one input module, or
At least one input / output module that is capable of providing status information of an indoor microclimate management system and is capable of issuing a data packet generation command of an industrial data transmission protocol to the operation block; Including
The computing block can generate an industrial data transmission protocol data packet including information on desired conditions of the indoor microclimate management system, and the generated industrial data transmission protocol data packet It is designed to encapsulate protocol data packets and generate Bluetooth protocol control data packets.
The Bluetooth transceiver is designed to transmit the generated Bluetooth protocol control data packet to a wireless communication module of the indoor microclimate management system. .   20. The indoor microclimate management system remote control device according to claim 19, further comprising an authentication module for device user authentication.   21. The remote control device of an indoor microclimate management system according to claim 20, further comprising a synchronization module for synchronizing the device with the control module of the indoor microclimate management system.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DET, LON, LONWORKS, LONTALK, EIB The remote control device for an indoor microclimate management system according to any one of claims 19 to 21, wherein the remote control device is an indoor microclimate management system. The Wi-Fi is designed to receive data packets of the TCP protocol including the data packets of the industrial data transmission protocol including the status information of the indoor microclimate management system from the wireless communication module of the indoor microclimate management system. Transceiver, and
Received TCP protocol data packets can be decompressed, and from that data, industrial data transmission protocol data packets including status information of indoor microclimate management systems can be extracted. A remote control device for an indoor microclimate management system including a calculation block,
Issue a data packet generation command for industrial data transmission protocol to at least one output module designed to provide status information of an indoor microclimate management system and the computing block At least one input module designed to
At least one input / output that is capable of providing status information of an indoor microclimate management system and is capable of issuing a data packet generation command of an industrial data transmission protocol to the calculation block. Including modules,
The calculation block is capable of forming a data packet of an industrial data transmission protocol including information about desired conditions of an indoor microclimate management system, and is manufactured to generate a control data packet of a TCP protocol.
The Wi-Fi transceiver is manufactured so that the generated control data packet of the TCP protocol can be transmitted to the wireless communication module of the indoor microclimate management system. .   24. The remote control device for an indoor microclimate management system according to claim 23, further comprising an authentication module for authenticating the device user.   25. The remote control device of an indoor microclimate management system according to claim 24, further comprising a synchronization module for synchronizing the device with other control devices of the indoor microclimate management system.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DET, LON, LONWORKS, LONTALK, EIB The remote control device for an indoor microclimate management system according to any one of claims 23 to 25, wherein: The apparatus according to any one of claims 15 to 18 enables scanning of the various radio communication modules of the indoor microclimate management system according to any one of claims 1 to 14. The steps performed (assuming that these wireless communication modules are located within a range where one or more transceivers of the device can be used),
A suitable indoor microclimate management system among the indoor microclimate management systems according to any one of claims 1 to 14 is selected by the device, and the connection of the wireless communication module of the selected system is set. Stage,
A command to provide status information of the selected indoor microclimate management system is sent to the wireless communication module to which the connection is set;
Status information of the selected indoor microclimate management system is displayed by a corresponding output module or input / output module of the device;
Desired conditions of the selected indoor microclimate management system are specified by the corresponding output module or input / output module of the device, and the control data packet of the industrial data transmission protocol is formed and formed by the operation block of the device The industrial data transmission protocol control data packet is encapsulated into a TCP protocol data packet or a Bluetooth protocol data packet, whereby a corresponding TCP protocol control data packet or a Bluetooth protocol control data is encapsulated. A packet is generated and the corresponding generated TCP protocol control data packet or the corresponding generated Bluetooth protocol control data packet is transmitted to the corresponding wireless communication of the selected indoor microclimate management system. Step to be transmitted to the module,
The industrial data transmission protocol according to the industrial protocol, wherein the control data packet of the industrial data transmission protocol is extracted from the TCP protocol control data packet or the Bluetooth protocol control data packet by the corresponding wireless communication module. A control data packet is transmitted to the automatic frequency controller module of the selected indoor microclimate management system, and
A method of controlling an indoor microclimate management system for performing the step of forming a control signal for controlling selected elements of the indoor microclimate management system by the corresponding automatic frequency controller module.   28. The method of controlling an indoor microclimate management system according to claim 27, wherein the apparatus additionally includes an authentication stage in which user authentication is performed.   Complementary steps include synchronization of said device with the automatic frequency controller module of the selected indoor microclimate management system and / or with other remote control devices of the indoor microclimate management system The method of controlling an indoor microclimate management system according to claim 28.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DET, LON, LONWORKS, LONTALK, EIB 30. The method of controlling an indoor microclimate management system according to any one of claims 27 to 29, wherein: The apparatus according to any one of claims 19 to 22 enables scanning of the various radio communication modules of the indoor microclimate management system according to any one of claims 1 to 9. The steps performed (assuming that these wireless communication modules are located within a range where one or more transceivers of the device can be used),
A suitable indoor microclimate management system of the indoor microclimate management systems according to any one of claims 1 to 9 is selected by the device, and the connection of the wireless communication module of the selected system is performed. Stage set,
A command to provide status information of the selected indoor microclimate management system is sent to the wireless communication module to which the connection is set;
Status information of the selected indoor microclimate management system is displayed by a corresponding output module or input / output module of the device;
The desired output conditions of the selected indoor microclimate management system are specified by the corresponding output module or input / output module of the device, and the control data packet of the industrial data transmission protocol is formed and formed by the operation block of the device. In addition, the industrial data transmission protocol control data packet is encapsulated into a Bluetooth protocol data packet, thereby generating a Bluetooth protocol control data packet and a corresponding generated Bluetooth protocol control data packet. Is transmitted to the corresponding wireless communication module of the selected indoor microclimate management system,
The control packet of the industrial data transmission protocol is extracted from the Bluetooth protocol control data packet by the corresponding wireless communication module, and the extracted control data packet of the industrial data transmission protocol according to the industrial protocol is selected. Transmitted to the automatic frequency controller module of the constructed indoor microclimate management system, and
A method of controlling an indoor microclimate management system for performing a step in which control signals for controlling selected elements of the indoor microclimate management system are formed by the corresponding automatic frequency controller module.   32. The method of controlling an indoor microclimate management system according to claim 31, wherein the apparatus additionally includes an authentication stage in which user authentication is performed.   33. The method of controlling an indoor microclimate management system according to claim 32, further comprising the step of synchronizing the device with an automatic frequency controller module of the selected indoor microclimate management system.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DET, LON, LONWORKS, LONTALK, EIB The method for controlling an indoor microclimate management system according to any one of claims 31 to 33, wherein the control method is selected from the following. An indoor microclimate management as claimed in any of claims 1 to 5 and 10 to 14 by means of an apparatus as claimed in any one of claims 23 to 26. Scanning of the various wireless communication modules of the system (provided that these wireless communication modules are located within a range where one or more transceivers of the device can be used);
A suitable indoor microclimate management system of any of the indoor microclimate management systems as claimed in any one of claims 1 to 5 and 10 to 14 is selected and selected by the device. The connection of the wireless communication module of the connected system is set,
A command to provide status information of the selected indoor microclimate management system is sent to the wireless communication module to which the connection is set;
Status information of the selected indoor microclimate management system is displayed by a corresponding output module or input / output module of the device;
The desired output conditions of the selected indoor microclimate management system are specified by the corresponding output module or input / output module of the device, and the control data packet of the industrial data transmission protocol is formed and formed by the operation block of the device. In addition, industrial data transmission protocol control data packets are encapsulated into TCP protocol data packets, thereby generating TCP protocol control data packets and selecting the corresponding generated TCP protocol control data packets. The transmitted indoor microclimate management system to the corresponding wireless communication module,
The control packet of the industrial data transmission protocol is extracted from the TCP protocol control data packet by the corresponding wireless communication module, and the control data packet of the industrial data transmission protocol according to the extracted industrial protocol is selected. Transmitted to an automatic frequency controller module of an indoor microclimate management system, and
A method of controlling an indoor microclimate management system for performing a step in which control signals for controlling selected elements of the indoor microclimate management system are formed by the corresponding automatic frequency controller module.   36. The method of controlling an indoor microclimate management system according to claim 35, further comprising an authentication step in which authentication of a user is performed in the device.   Complementary steps include synchronization of said device with the automatic frequency controller module of the selected indoor microclimate management system and / or with other remote control devices of the indoor microclimate management system 37. A method for controlling an indoor microclimate management system according to claim 36.   Industrial data transmission protocols from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus HI, CANopen, SERCOS I / II, Modbus, BACnet, DET, LON, LONWORKS, LONTALK, EIB 38. The method of controlling an indoor microclimate management system according to any one of claims 35 to 37, wherein:

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