KR20170000549U - System for controlling a microclimate in a space with the aid of wireless connections of various types, microclimate control device and microclimate control method - Google Patents

Abstract

This group of inventions relates to a system, method and apparatus for remotely controlling microclimate in space and can be used to flexibly and reliably control microclimate in any size of space.

Description

TECHNICAL FIELD [0001] The present invention relates to a system for controlling microclimate in a space with the help of various types of wireless connections, a microclimate control apparatus, and a microclimate control method with a variety of types of wireless connections. BACKGROUND OF THE INVENTION }

The invention of this group belongs to a system, method and apparatus for micro-remote control of an interior. This can be used to organize flexible and reliable control of microclimate within a room of any size.

The prototype of the claimed utility model is a microcontrol system (US20120310418 A1, G05D23 / 00, 06.12.2012 (HARROD GREGORY RALPH et al.)) Of the user to the mobile device, which signals from the sensors and actuators of the micro- Which collects data on the status of the elements in the micro-computer control system and sends commands to the control unit of the element of the micro-computer system with the temperature controller. The system may be controlled from a user's mobile device connected via a temperature controller on a wireless communication channel such as Bluetooth or a broadband WAN.

One disadvantage of known microclimate control systems is their limited ability to control the microclimate of the room because the control signals are transmitted directly to the thermostat to make it difficult to locate elements of the system within the building. Another is that such control directly uses the shared data exchange protocol to compromise the reliability of signal transmissions within the system and that the system control uses only one type of wireless connection.

Also, the communication module of the thermostat may use an industrial data exchange protocol for micro-control, but in that case the data packet is passed to the node or module of the system operating directly with this protocol, The control method is reliable and efficient because it assumes that the various components of the microclimate control system are controlled by a device that generates different types of control packets, which is the reliability factor for such data packets as a result. Such a data packet contains control data, but does not contain control data packets. When the generated data packet is transmitted, the control data packet is decoded to extract the control data included therein. As transmitted over the wireless network, such data packets may be corrupted and corrupt the contained control data. This may result in distortion of the decoded control signal and disabling the operation of the microclimate control system.

In view of the above, it is an object of the present invention to create a reliable and flexible microclimate control system (hereinafter "microclimate control system") in a room of any size.

The technical effect should be better operational efficiency of the microcontroller system because the industrial data exchange protocol data packets are encapsulated into Bluetooth data packets and / or TCP data packets. This enables the remote operation of the microclimate system and does not require a control device that is located in close proximity to the automation module of the microclimate control system. This also makes the operation of the microclimate control system more flexible. Another technical result is that the reliable operation of the microcontroller system is ensured due to the transmission of industrial data exchange protocol data packets encapsulated in Bluetooth data packets and / or TCP data packets, Since the data exchange protocol data packets are native to the data packets exchanged within the micro-control system, they unpack the packets directly in the micro-control system, or exclude possible delivery failures.

Implementation options of the present invention each belong to an microcontrol system, a microcontrol system, and a microcontroller.

1 shows a general diagram of a microclimate control system with a Bluetooth connection.
Figure 2 shows a general view of a microclimate control system with a Wi-Fi connection.
Figure 3 shows a general view of a microclimate control system with a Bluetooth / Wi-Fi connection.
Fig. 4 shows a general view of a Bluetooth microclimate control device.
5 shows a general view of a Wi-Fi microcontroller.
Figure 6 shows a general view of a Bluetooth / Wi-Fi microcontroller.
FIG. 7 shows a general view of the steps of the microgeometry control method 400.
FIG. 8 shows a general view of the steps of the microgeometry control method 500.
FIG. 9 shows a general view of the steps of the microgeometry control method 600.

In one aspect of the implementation, the invention belongs to a microclimate control system having at least an automation module having at least one microprocessor, wherein the automation module generates a data packet containing data relating to the state of the microclimate control system, Protocol to one or more remote wireless communication modules. One or more remote wireless communication modules generate a Bluetooth data packet, the Bluetooth data packet including a data packet received from the automation module, and then transmitting the generated Bluetooth data packet to one of the remote control devices on the wireless communication line . At least one remote control receiving the Bluetooth data packet, unpacking the Bluetooth data packet to extract non-provisioning control system status data, and generating a control Bluetooth data packet, wherein the Bluetooth data packet includes a data packet for control of the micro- - send such generated control Bluetooth data packet to one of the remote wireless communication modules. Each remote wireless communication module unpacks a control Bluetooth data packet received from the remote control device to extract a data packet for control of the microclimate control system, and transmits a data packet for control of such microclimate control system to an industrial data exchange protocol It can be transferred to an automation module. One or more microprocessors of the automation module may unpack the data packets received from the at least one remote wireless communication module in order for the microclimate control system to extract such control data and generate a control signal that alters operating parameters of the microclimate control system .

In another aspect of the invention, the invention belongs to a microclimate control system having at least one automation module having at least one microprocessor, wherein the automation module generates a data packet containing microclimate control system status data and transmits one or more Can be transmitted to the remote wireless communication module. One or more remote wireless communication modules generate a TCP data packet and the TCP data packet includes a data packet received from the automation module and transmit the generated TCP data packet to one or more remote control devices on the wireless communication line have. One or more remote control devices receive the TCP data packet, unpack the TCP data packet to extract data relating to the state of the non-provisional control system, generate a control TCP data packet, and - transmit the TCP data packet to the microcontroller control system , And may transmit the generated control TCP data packet to one or more remote wireless communication modules. Each remote wireless communication module unpacks a control TCP data packet received from a remote control device to extract a data packet for control of an unsettled control system and to transmit the data packet for control of an unsettled control system to an automation module As shown in FIG. The one or more automation module microprocessors may unpack the data packets received from the at least one remote wireless communication module to extract control data of the microprocessor control system and to generate control signals for modifying operating parameters of the microprocessor control system.

In another embodiment, the invention pertains to a microclimate control system having at least one automation module comprising at least one microprocessor, wherein the automation module generates a data packet comprising the microclimate control system status data, To one or more remote wireless communication modules. One or more remote wireless communication modules generate TCP data packets and Bluetooth data packets, such TCP data packets and Bluetooth data packets are received from an automation module, and generate such generated TCP data packets and Bluetooth data packets on one It is possible to transmit it to the remote control apparatus described above. One or more remote control devices receive the TCP data packet or the Bluetooth data packet, unpack the TCP data packet or the Bluetooth data packet to extract the untimely control system status data, and generate a control TCP data packet or a control Bluetooth data packet And the generated control TCP data packet and the generated control Bluetooth data packet include data packets for control of the microcontroller system, and send such generated control TCP data packets or control Bluetooth data packets to one or more remote wireless communication modules Can be transmitted. Each remote wireless communication module unpacks a control TCP data packet and a control Bluetooth data packet received from the remote control device to extract a data packet for control of an unsettled control system and to transmit the data packet for control of an unsettled control system to an industrial data Can be transmitted to the automation module on the exchange protocol. The one or more automation module microprocessors may unpack the data packets received from the at least one remote wireless communication module to extract control data of the microprocessor control system and to generate control signals for modifying operating parameters of the microprocessor control system.

In another embodiment, the invention belongs to an apparatus for remote operation of a microclimate control system, which has at least one Bluetooth transceiver adapted to receive a Bluetooth data packet from a wireless communication module of a microclimate control system. The Bluetooth data packet includes a data packet for an industrial data exchange protocol that includes information about the state of the microclimate control system. The computing unit may unpack the data packets received by the Bluetooth and extract data packets of the industrial data exchange protocol from there including information about the state of the microprocessor control system. At least one output module may report the status of the microclimate control system. At least one input module may issue a command to cause the computing unit to generate a data packet of an industrial data exchange protocol. Or at least one input / output module may report the status of the microprocessor control system and may issue commands to the computing unit to cause generation of data packets of the industrial data exchange protocol. The computing unit generates a data packet of an industrial data exchange protocol that includes information about desired parameters of the micro-computer control system and encapsulates the data packet of the generated industrial data exchange protocol into a Bluetooth data packet to generate a control Bluetooth data packet . The Bluetooth transceiver may send such generated control Bluetooth data packet to the wireless communication module of the microprocessor control system.

In another embodiment, the invention belongs to an apparatus for remote operation of a microclimate control system, which has at least a Wi-Fi transceiver capable of receiving a TCP data packet from a wireless communication module of an microclimate control system. The TCP data packet includes a data packet of an industrial data exchange protocol containing information about the state of the micro-computer control system. The computing unit may unpack the received TCP data packets and extract data packets of an industrial data exchange protocol from the network including information about the state of the microprocessor control system therefrom. At least one output module may report the status of the microclimate control system. At least one input module may issue a command to cause the computing unit to generate a data packet of an industrial data exchange protocol. Or at least one input / output module may report the status of the microprocessor control system and issue instructions to the computing unit to cause generation of a data packet of the industrial data exchange protocol. The computing unit generates a data packet of an industrial data exchange protocol containing information on a desired parameter of the micro-computer control system and encapsulates the data packet of the generated industrial data exchange protocol into a TCP data packet to generate a control TCP data packet . The Wi-Fi transceiver can send such generated control TCP data packets to the wireless communication module of the microprocessor control system.

In another embodiment, the invention pertains to an apparatus for remote operation of a microclimate control system having at least one Wi-Fi transceiver capable of receiving a TCP data packet from a Wi-Fi wireless communication module of a microclimate control system. The TCP data packet includes a data packet of an industrial data exchange protocol containing information about the state of the micro-computer control system. The Bluetooth transceiver may receive a Bluetooth data packet from the Bluetooth of the wireless communication module of the microcontroller system. The Bluetooth data packet includes a data packet of an industrial data exchange protocol that includes information about the state of the microclimate control system. The computing unit may unpack the received TCP data packet or the received Bluetooth data packet and extract a data packet of an industrial data exchange protocol containing information on the state of the microprocessor control system therefrom. At least one output module may report the status of the microclimate control system. At least one input module may issue a command to cause the computing unit to generate a data packet of an industrial data exchange protocol. Or at least one input / output module may report the status of the microprocessor control system and may also issue commands to the computing unit to generate data packets of the industrial data exchange protocol. The computing unit generates a data packet of an industrial data exchange protocol including information on a desired parameter of the micro-computer control system and encapsulates the data packet of the generated industrial data exchange protocol into a TCP data packet and a Bluetooth data packet, Packet and control Bluetooth data packets. The Wi-Fi transceiver can send such generated control TCP data packets to the Wi-Fi wireless communication module of the microprocessor control system. The Bluetooth transceiver can transmit such generated control Bluetooth data packet to the Bluetooth wireless communication module of the microprocessor control system.

1-3 illustrate a general view of systems 100, 200, and 300 of microcontroller enabled by a Bluetooth connection, a Wi-Fi connection, and a hybrid connection (bluetooth and Wi-Fi), respectively, as non-limiting examples. The systems 100, 200, and 300 each have automation modules 101, 201, and 301, each having at least one microprocessor. An automation module (101, 201, and 301) having one or more microprocessors generates a data packet with state data of the microprocessor control system and generates one or more remote wireless communication modules 300) modules 102, 202, and 302). Here, the industrial data exchange protocol can be any known or newly created industrial data exchange protocol, and can be used in conjunction with Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB, DALI, and the like. The data packet containing the microclimate control system status data is for an industrial data exchange protocol and is used to transmit the data packet. The automation modules 101, 201 and 301 represent any automation suitable for controlling the elements of the microclimate control system, in particular ventilation control elements, heating control elements, air conditioning control elements, etc., . The one or more microprocessors of the automation modules 101,201 and 301 are adapted to receive control of an industrial data exchange protocol from a remote wireless communication module (remote modules 102,220 and 302 of the wireless communication systems 100,200 and 300, respectively) Receive a data packet, process a received control data packet of such an industrial data exchange protocol, and use the received data to generate a control signal that controls an element of the microprocessor control system. Wherein the remote wireless communication module generates a Bluetooth data packet and / or a TCP data packet, the data packet including a data packet received from an automation module, and transmitting the generated data packet to a remote device To the remote control devices 103, 203, and 303 of the systems 100, 200, and 300). The remote wireless communication module 102 is a Bluetooth communication module. The remote wireless communication module 202 is a Wi-Fi module. In turn, the remote wireless communication module 302 is a hybrid communication module (Bluetooth and Wi-Fi). Wherein the remote wireless communication module has one or more microprocessors whereby the remote wireless communication module identifies data packets of an industrial data exchange protocol received from each automation module and transmits data packets of the received industrial data exchange protocol Of Bluetooth data packets or TCP data packets to generate Bluetooth data packets and / or TCP data packets containing data packets of an industrial data exchange protocol. The remote wireless communication module 102 has one or more Bluetooth transceivers. The remote wireless communication module 202 has one or more Wi-Fi transceivers. In turn, the remote wireless communication module 302 simultaneously has one or more Bluetooth transceivers and one or more Wi-Fi transceivers. Thanks to the transceiver, data packets generated via Bluetooth data packets and / or TCP data packets are transmitted to one of the remote control devices (remote control devices 103, 203 and 303 of the systems 100, 200 and 300, respectively) . Also, the remote wireless communication module may all be remotely located from the automation module 101, 201 or 301 on a distance depending on the industrial data exchange protocol used in the microprocessor control system, and each automation module 101, 201 Or < RTI ID = 0.0 > 301). ≪ / RTI > Also, the remote wireless communication module may be used as a transponder for communicating with the corresponding automation module and another remote wireless communication module, and thus the micro-computerized control system may cover an unrestricted area. Thanks to the above transceiver, the remote wireless communication module receives the control Bluetooth data packet and / or the control TCP data packet. The one or more microprocessors above the remote wireless communication module may also identify and extract the control data packet of the industrial data exchange protocol in the control data packet of such received Bluetooth protocol or the control data packet of the TCP protocol. Once extracted, the remote wireless communication module transmits control data packets of the extracted industrial data exchange protocol to each of the automation modules. The remote wireless communication module may also synchronize the remote control device with the automation module. The remote wireless communication modules 202 and 302 may also synchronize the remote control devices with each other. In addition, the remote wireless communication modules 102, 202, and 302 may authenticate particular remote control devices 103, 203, and 303, in particular, using an encryption key.

The remote control device 103 (FIG. 4) receives the Bluetooth data packet, unpacks the Bluetooth data packet to extract the non-provisioning control system status data, and generates a control Bluetooth data packet- System data, and then send such generated control Bluetooth data packets to one or more remote wireless communication modules 102. The remote wireless communication module 102 may then send the generated control Bluetooth data packets to one or more remote wireless communication modules 102. 5) receives the TCP data packet, unpacks the TCP data packet to extract the non-provisioning control system status data, and generates a control TCP data packet, And may then send such a generated control TCP data packet to one or more remote wireless communication modules 202. The remote control module 202 may then send the generated control TCP data packet to the remote wireless communication module 202, Finally, the remote control device 303 (FIG. 6) receives the Bluetooth data packet or the TCP data packet, unpacks the Bluetooth data packet or TCP data packet to extract the non-provisioning control system state data, Generating a control Bluetooth data packet or a control TCP data packet in accordance with a predetermined type, the control data packet including a data packet for control of a microprocessor control system, and transmitting the generated control data packet to one or more remote wireless communication modules (102, 202, or 302). The remote control device includes, but is not limited to, a smart phone, a PC, a tablet PC, a tablet, a portable game console, a portable handheld computer, a laptop, The remote control device comprises a remote control device 103 and a Bluetooth transceiver 1031 are connected to the wireless communication module 102 of the microcomputer control system 100 or the wireless communication module 302 of the microcomputer control system 300, The remote control device 203 - the Wi-Fi transceiver 2031 may receive a Bluetooth data packet including a data packet of an industrial data exchange protocol with a report on the status of the wireless control system 200, It is possible to receive a TCP data packet having a data packet of an industrial data exchange protocol together with a report on the status of the microclimate control system from the communication module 202 or the wireless communication module 302 of the microclimate control system 300, Control device 303 -The Wi-Fi transceiver 3031 is connected to the wireless communication module 202 of the microcontroller control system 200 or the wireless communication module 302 of the microcontroller control system 300 The Bluetooth transceiver 3032 may receive a TCP data packet having a data packet of an industrial data exchange protocol with a report on the state of the microcontroller system and the Bluetooth transceiver 3032 may receive the data packet of the wireless communication module 102 of the micro- Capable of receiving a Bluetooth data packet having data packets of an industrial data exchange protocol with a report on the status of the microclimate control system from the wireless communication module (302) of the system (300). The Bluetooth transceiver 1031 transmits a control Bluetooth data packet having a control data packet of an industrial data exchange protocol to the wireless communication module 102 of the microcomputer system 100 or the wireless communication module 302 of the microcomputer control system 300, And the Wi-Fi transceiver 2031 transmits a control TCP data packet having a control data packet of an industrial data exchange protocol to the wireless communication module 202 of the microprocessor control system 100 or the microprocessor control system 300, And the transceivers 3031 and 3032 transmit control TCP data packets containing control data packets of an industrial data exchange protocol to the wireless communication module 202 of the microprocessor control system 100, respectively, (Wi-Fi transceiver 3031) to the wireless communication module 302 of the micro-computer system 300 or the control data of the industrial data exchange protocol Bluetooth can transmit a control data packet including a kit with a wireless communication module 302 of the wireless communication module 102 or the micro-climate control system 300, the micro-climate control system 100 (Bluetooth transceiver 3032). The remote control device has a computing unit 1032 (remote control device 103), a computing unit 2032 (remote control device 203), and a computing device 3033 (remote control device 303), respectively. The computing unit 1032 unpacks the Bluetooth data packet received from the wireless communication module 102 or the wireless communication module 302 via the Bluetooth transceiver 1031 and transmits the industrial data The data packet of the exchange protocol can be extracted. In turn, the computing unit 2032 unpacks the Bluetooth data packet received from the wireless communication module 202 or the wireless communication module 302 to the Wi-Fi transceiver 2031 and from there the information about the state of the microprocessor control system Data packets of industrial data exchange protocol can be extracted. Finally, the computing unit 3033 unpacks the TCP data packets received from the wireless communication module 202 or the wireless communication module 302 to the Wi-Fi transceiver 3031 and transmits the packets to the wireless communication module 102 or wireless communication Unpack the Bluetooth data packet received from the module 302 to the Bluetooth transceiver 3032 and extract the data packet of the industrial data exchange protocol having information about the state of the microprocessor control system from there. Computing units 1032, 2032, and 3033 each have one or more microprocessors for performing the necessary computation and data conversion. Computing units 1032, 2032 and 3033 use the same microprocessor to produce data packets of an industrial data exchange protocol having information about the desired parameters of the microclimate control system. Each of the computing units 1032 encapsulates the data packet of the created industrial data exchange protocol into a Bluetooth data packet to generate a control Bluetooth data packet and the computing unit 2032 converts the data packet of the created industrial data exchange protocol into TCP data Packet to generate a control TCP data packet, and the computing unit 3033 encapsulates the data packet of the created industrial data exchange protocol into a TCP data packet and a Bluetooth data packet to generate a control TCP data packet and a control Bluetooth data packet, respectively do. The remote control device includes a memory 1035 (remote control device 103), a memory 2035 (remote control device 203) and a memory 3036 (remote control device 303), respectively. The data packets of the constructed industrial data exchange protocol can each be stored in the respective memory 1035, 2035 or 3036 of the remote device 103, 203 or 303 for the operation of the microclimate control system, And may be selected to expedite control data packets.

The remote control device comprises at least one output module 1033 (remote control device 103), at least one output module 2033 (remote control device 203), and at least one output module 1033, each of which can report the status of the micro- And at least one output module 3034 (remote control device 303). The output modules 1033,2033 and 3034 may be any of the known technology levels of data typical of smartphones or tablet PCs, or a tablet, handheld or portable computer, or laptop, or control panel, or PC, But are not limited to, standard means of display, display and reproduction-including screen displays, touch screens, monitors, projectors, printers, etc. that display, display or duplicate status reports on microclimate control systems. 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). The input modules 1034,2034 and 3035 may be any known technology level data typical of a smartphone or tablet PC or a tablet, handheld or portable computer, or laptop, or control panel, or PC, The user can select any of the computing units 1032, 2032 or 3033 as the control data packet of the industrial data exchange protocol, such as a keyboard, a joystick, a touch pad, a trackball, a mouse, Based on whether to generate or select the parameters of the microcontroller system. Also, if a touch screen is used as the input module 1034, 2034 or 3035, then the same touch screen can be used as the output module 1033, 2033 or 3034, respectively, i.e., the input / output modules 1034-1033, 2034-2033, 3035-3034) will be apparent to those skilled in the art.

The remote devices 103, 203, and 303 for operation of the microclimate control system may also be implemented using any known technology, such as, but not limited to, a password authentication method, a graphical password authentication method, a voice authentication method, a fingerprint authentication method, May have an authentication module for revealing the identity of the user of the remote device 103, 203 or 303. The remote devices 103, 203 and 303 for the operation of the microclimate control system are also connected to the automation module 101 or the automation module 301 of each microclimate control system 100 or 300 and the remote The time synchronization of the device 103, the operation of the microcontroller system 200 or 300 with the automation module 201 or the automation module 301 and / or other remote microcontroller 203 or 303, The time synchronization of the remote device 203 for each of the microcontroller systems 100, 200 or 300, the automation module 101, the automation module 201 or the automation module 301 of each microcontroller system 100, 200 or 300 and / (203 or 303) and a synchronization module for time synchronization of the remote device (303) for the operation of the microclimate control system.

If the remote devices 103, 203 and 303 for operation of the microclimate control system are smartphones, or tablet computers, or one of a tablet, a pocket PC, a laptop PC, or a remote control pad, Smart phone, tablet computer, tablet, Pocket PC, laptop PC, or remote control pad.

By way of a non-limiting example, FIGS. 7-9 illustrate general views of steps of a method 400, 500, and 600, respectively, for operation of an uncontrolled control system. In each optional authentication step 4011, 5011 and 6011, the user is authenticated by the respective remote control device 103, 203 or 303, and if the authentication is successful, the respective query step 401, 501 or 601, Each remote control device 103,203 or 303 queries each wireless communication module 102,202 or 302 of the microclimate control system 100,200 or 300 and identifies at least the type of microclimate control system . Thus, the remote device 103, 203 or 303 for operation of the microclimate control system can be used to selectively control each microclimate control system 100, 200 or 300. [ After the system type has been identified and the microprocessor control system has been selected, the remote device 103 for operation of the microprocessor control system (in the selected microprocessor control system 100 or 300) Determines which of the communication modules 102 or 302 will guarantee the most reliable and stable Bluetooth connection and then establishes a Bluetooth connection with each wireless communication module 102 or 302. In turn, the remote device 203 for operation of the microclimate control system determines which wireless communication module 202 or 302 (respectively within the selected microcontroller system 200 or 300) has the most reliable and reliable Wi-Fi connection And then establishes a Wi-Fi connection with each wireless communication module 202 or 302. [ Finally, the remote device 303 for operation of the microclimate control system determines which wireless communication module 102, 202 or 302 (within each selected micro-control system 100, 200 or 300) is the most reliable and stable Wi- Fi or Bluetooth connection and then establishes a Bluetooth connection with each wireless communication module 202 or 302 and a Wi-Fi connection or each wireless communication module 102 or 302. [ After the connection is established, in the optional synchronization step 4033, 5033 or 6033, the remote device 103 for the operation of the microclimate control system may optionally communicate with each of the automation modules 101 or 301 and the selected microclimate control system 100 Or 300 via the wireless communication module 102 or 302. In turn, the remote device 203 for operation of the microclimate control system may optionally be coupled to another device for operation of the microclimate control system coupled to the microclimate control system 200 or 300 and / or to the respective automation module 201 or 301 And may be synchronized via the wireless communication module 202 or 302 of the selected micro-computer control system 200 or 300. [ Finally, the remote device 303 for the operation of the microclimate control system may optionally be coupled to another device for operation of the microclimate control system coupled to the microclimate control system 200 or 300 and / or to each of the automation modules 101, 201 301 or the wireless communication module 102, 202, or 302 of the selected micro-computer control system 100, 200, or 300. [ In particular, the remote devices 203 and 303 for operation of the microclimate control system can all be synchronized with the other control devices of each selected microclimate control system via the wireless communication modules 202 and 302, Will be established between devices using the Wi-Fi transceiver properly. In query steps 403, 503, and 603, remote devices 103, 203, and 303 for operation of the microclimate control system query respective microprocessor control system state data by contacting each wireless communication module 102, 202, And receives a TCP data packet or a Bluetooth data packet having a data packet of an industrial data exchange protocol including information on the state of the microprocessor control system from each wireless communication module through each transceiver. After the received TCP protocol data packet or Bluetooth protocol data packet is processed by each computing unit 1032, 2032 or 3033, in the attestation steps 404, 504 and 604, Output modules 1033, 2033, or 3034, or input / output modules 1034-1033, 2034-2033, or 3035-3034, respectively (when the input / output module is a touch screen). In the subsequent parameter setting steps 405, 505, and 606, the user selects each input module 1034, 2034, or 3035 or each input / output module 1034-1033, 2034-2033, or 3035 (if the input / output module is a touch screen, 3034) to issue instructions to each computing unit 1032, 2032, or 3033 that the microclimate control system should have such requested parameters, and each computing unit 1032, 2032, or 3033, based on the instructions, 2035 or 3036, which is then encapsulated in each TCP data packet or Bluetooth data packet to generate a control TCP data packet or control Bluetooth data packet do. Further, in the transmit steps 406, 506, and 606, each transceiver transmits such generated control TCP data packet or control Bluetooth data packet to each wireless (e.g., wireless) device of the selected system 100, 200, or 300 for operation of the micro- To the communication module (102, 202 or 302). Thereafter, in the extraction step 407, 507, or 607, each wireless communication module 102, 202, or 302 receives a respective received generated control TCP protocol data packet or each received generated control Bluetooth protocol data packet The control data packets of the industrial data exchange protocol are extracted and then transmitted to the respective automation module 101, 201 or 301 on the data cable and processed in respective control signal generation steps 408, 508 or 608, The control signal is transmitted to each element of the micro-climate control system, so that the system parameters are set as preset. Since remote control devices 103, 203 and 303 transmit the control data packet as part of the TCP protocol data packet or the Bluetooth protocol data packet, this ensures reliable control of the microcontroller system. Since any suitable device from a professional Wi-Fi or Bluetooth console to a standard mobile communication device such as a smart phone can be used as the remote device 103, 203 or 303 for operation of the microclimate control system, the flexible operation of the microclimate control system . It is also possible for the remote device 103, 203 or 303 for the microclimate control system to establish connections with different wireless communication modules used in different microclimate control systems and to select the preferred type of wireless connection or even the type of microclimate control system The flexible operation of the microcontroller control system is possible.

This description of an invention implementation only demonstrates a particular option of that implementation and does not set a limit on other implementation options of the invention, which means that alternative possible implementation solutions of the invention, within the scope of the information disclosed herein, Since it should be clear to the standard level and expert of the present technical field that the target is the target audience.

Claims (38)

As a microcontroller control system,
An automation module having at least one microprocessor, wherein the automation module is capable of generating and transmitting data packets including micro-control system status data to one or more remote wireless communication modules on an industrial data exchange protocol;
The generated TCP data packet and the Bluetooth data packet including the data packet received from the automation module, and the generated TCP data packet and the Bluetooth data packet are received from the automation module One or more remote wireless communication modules capable of transmitting such generated TCP data packets and Bluetooth data packets to one or more remote control devices on a wireless communication line;
Receiving the TCP data packet or the Bluetooth data packet, unpacking the TCP data packet or the Bluetooth data packet to extract the untimely control system status data, generating a control TCP data packet or a control Bluetooth data packet, Wherein the control TCP data packet and the generated control Bluetooth data packet include data packets for control of the microprocessor control system, transmit the generated control TCP data packet or the generated control Bluetooth data packet to at least one remote wireless communication module One or more remote control devices
At least,
Each wireless communication module unpacks a control TCP data packet and a control Bluetooth data packet received from the remote control device to extract a data packet for control of the micro-computerized control system, and transmits the data for control of the micro- And transmit the packet to the automation module on the industrial data exchange protocol,
At least one microprocessor of the automation module unpacks a data packet received from the at least one remote wireless communication module to extract control data for the microprocessor control system and generates a control signal for changing operating parameters of the microprocessor control system Generable,
Microclimate control system. The method according to claim 1,
Wherein at least one of the remote wireless communication modules is capable of authenticating one or more of the remote control devices. 3. The method of claim 2,
Wherein at least one of the remote wireless communication modules is further capable of synchronizing the at least one remote control device with the automation module. The method of claim 3,
Wherein at least one of the remote wireless communication modules is further capable of synchronizing among them all remote control devices connected to the remote wireless communication module. 5. The method according to any one of claims 1 to 4,
Wherein said industrial data exchange protocol is selected from among Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. As a microcontroller control system,
An automation module having at least one microprocessor, wherein the automation module is capable of generating and transmitting data packets including micro-control system status data to one or more remote wireless communication modules on an industrial data exchange protocol;
The method comprising: generating a Bluetooth data packet, the Bluetooth data packet including a data packet received from the automation module, one or more remote wireless communications capable of transmitting the generated Bluetooth data packet to one of the remote control devices on a wireless communication line module;
Receiving the Bluetooth data packet, unpacking the Bluetooth data packet to extract the unsettled control system status data, and generating a control Bluetooth data packet, wherein the generated control Bluetooth data packet is a data packet for control of the micro- - one or more remote control devices capable of transmitting such generated control Bluetooth data packets to at least one remote wireless communication module,
At least,
Each wireless communication module unpacks a control Bluetooth data packet received from the remote control device to extract a data packet for control of the microprocessor control system and transmits the data packet for control of the microprocessor control system to the industrial data exchange Protocol to the automation module,
At least one microprocessor of the automation module unpacks a data packet received from at least one remote wireless communication module to extract control data of the microprocessor control system and generates a control signal to change operating parameters of the microprocessor control system That can be,
Microclimate control system. The method according to claim 6,
Wherein at least one of the remote wireless communication modules is capable of authenticating one of the remote control devices. 8. The method of claim 7,
Wherein at least one of the remote wireless communication modules is further capable of synchronizing the at least one remote control device with the automation module. 9. The method according to any one of claims 6 to 8,
The industrial data exchange protocol is selected from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. As a microcontroller control system,
An automation module having at least one microprocessor, wherein the automation module is capable of generating and transmitting data packets including micro-control system status data to one or more remote wireless communication modules on an industrial data exchange protocol;
Generating a TCP data packet, wherein the TCP data packet includes a data packet received from the automation module, and transmitting the generated TCP data packet to one or more remote wireless devices on a wireless communication line, Communication module;
Receiving the TCP data packet, unpacking the TCP data packet to extract the non-provisioning control system status data, and generating a control TCP data packet, the generated TCP data packet including a data packet for controlling the microprocessor control system - one or more remote control devices capable of transmitting the generated control TCP data packets to at least one remote wireless communication module
At least,
Each wireless communication module unpacks a control TCP data packet received from the remote control device to extract a data packet for control of the microprocessor control system and transmits the data packet for control of the microprocessor control system to the industrial data exchange Protocol to the automation module,
At least one microprocessor of the automation module unpacks a data packet received from at least one remote wireless communication module to extract control data for the microprocessor control system and generates a control signal for changing operational parameters of the microprocessor control system Lt; / RTI >
Microclimate control system. 11. The method of claim 10,
Wherein at least one of the remote wireless communication modules is capable of authenticating one or more of the remote control devices. 12. The method of claim 11,
Wherein at least one of the remote wireless communication modules is further capable of synchronizing the at least one remote control device with the automation module. 13. The method of claim 12,
Wherein at least one of the remote wireless communication modules is further capable of synchronizing all remote control devices connected to the remote wireless communication module to each other. 14. The method according to any one of claims 10 to 13,
The industrial data exchange protocol is selected from Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. A remote control device for a microclimate control system,
A Wi-Fi transceiver capable of receiving a TCP data packet including a data packet of an industrial data exchange protocol including information on the status of the micro-computer system from a wireless communication module of the micro-computer system;
A Bluetooth transceiver capable of receiving a Bluetooth data packet including a data packet of the industrial data exchange protocol, the Bluetooth data packet including information on the state of the microcontroller system from a Bluetooth wireless communication module of the microcontroller system;
A computing unit capable of unpacking such received TCP data packets or such received Bluetooth data packets and extracting data packets of said industrial data exchange protocol containing information on the status of said microprocessor control system therefrom; And
At least one input module capable of providing at least one output module capable of providing a status of the microprocessor control system and a command for causing generation of a data packet of the industrial data exchange protocol to the computing unit; One of at least one input / output module capable of reporting the status of the microprocessor control system and issuing an instruction to the computing unit to cause generation of a data packet of the industrial data exchange protocol
At least,
The computing unit generates a data packet of the industrial data exchange protocol including information on a desired parameter of the micro-computer control system and encapsulates the data packet of the generated industrial data exchange protocol into a TCP data packet, , ≪ / RTI >
The Wi-Fi transceiver may send such generated control TCP data packets to the wireless communication module of the microprocessor control system,
Wherein the Bluetooth transceiver is operable to transmit the generated control Bluetooth data packet to the wireless communication module of the micro-
Device. 16. The method of claim 15,
Further comprising an authentication module used to authenticate a user of the device. 17. The method of claim 16,
Further comprising a synchronization module used to synchronize the control module of the microclimate control system and / or another remote control device for the microclimate control system. 18. The method according to any one of claims 15 to 17,
Wherein said industrial data exchange protocol is selected from among Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. A remote control device for a microclimate control system,
A Bluetooth transceiver capable of receiving a Bluetooth data packet including a data packet of an industrial data exchange protocol including information on the status of the micro-computer system from a wireless communication module of the micro-computer system;
A computing unit capable of unpacking the received Bluetooth data packet and extracting data packets of the industrial data exchange protocol including information on the status of the microcontroller system therefrom; And
At least one input module capable of providing at least one output module capable of providing a status of the microprocessor control system and a command for causing generation of a data packet of the industrial data exchange protocol to the computing unit; Or one of at least one input / output module capable of reporting the status of the microprocessor control system and capable of issuing an instruction to the computing unit to cause generation of a data packet of the industrial data exchange protocol
At least,
The computing unit generates a data packet of the industrial data exchange protocol including information on a desired parameter of the micro-computer control system and encapsulates the data packet of the industrial data exchange protocol into a Bluetooth data packet to generate a control Bluetooth data packet , ≪ / RTI >
Wherein the Bluetooth transceiver is operable to transmit the generated control Bluetooth data packet to the wireless communication module of the micro-
Device. 20. The method of claim 19,
Further comprising an authentication module used to authenticate a user of the device. 21. The method of claim 20,
Further comprising a synchronization module used to synchronize the device with a control module of the microclimate control system. 22. The method according to any one of claims 19 to 21,
Wherein said industrial data exchange protocol is selected from among Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. A remote control device of a microclimate control system,
A Wi-Fi transceiver capable of receiving a TCP data packet including a data packet of an industrial data exchange protocol including information on the status of the micro-computer system from a wireless communication module of the micro-computer system;
A computing unit capable of unpacking such received TCP data packets and extracting data packets of said industrial data exchange protocol from there, including information on the state of said micro-computer system; And
At least one output module capable of reporting the status of the microprocessor control system and at least one input module capable of issuing to the computing unit an instruction to cause generation of a data packet of the industrial data exchange protocol; One of at least one input / output module capable of reporting the status of the microprocessor control system and issuing an instruction to the computing unit to cause generation of a data packet of the industrial data exchange protocol
At least,
The computing unit generates a data packet of the industrial data exchange protocol including information on a desired parameter of the micro-computer control system and encapsulates the data packet of the generated industrial data exchange protocol into a TCP data packet, , ≪ / RTI >
The Wi-Fi transceiver is capable of transmitting such generated control TCP data packets to the wireless communication module of the micro-
Device. 24. The method of claim 23,
Further comprising an authentication module used to authenticate a user of the device. 25. The method of claim 24,
Further comprising a synchronization module used to synchronize the control module of the micro-computer system with another control device of the micro-computer system and / or the device. 26. The method according to any one of claims 23 to 25,
Wherein said industrial data exchange protocol is selected from among Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. A control method for a microclimate control system, comprising:
18. A device according to any one of claims 15 to 18, characterized in that the device is located within the range of the transceiver of the device, Querying the module;
Selecting a microclimate control system from the list of available microclimate control systems according to any one of claims 1 to 14 and establishing a connection with the wireless communication module of the selected system;
Transmitting a command to report the status of the selected microclimate control system to the wireless communication module to which the connection is established;
Displaying the status report on the selected microclimate control system by the respective output module or input / output module of the device;
Setting a desired parameter of the selected microprocessor control system by the respective input module or input / output module of the device, generating control data packets of the industrial data exchange protocol by the computing unit of the device, Encapsulating the control data packet of the industrial data exchange protocol into a TCP protocol data packet or a Bluetooth protocol data packet to generate a TCP protocol control data packet or a Bluetooth protocol control data packet, respectively, Sending a generated Bluetooth protocol control data packet of the selected microprocessor control system to the respective communication module of the selected microprocessor control system;
Extracting a control data packet of the industrial data exchange protocol from the TCP protocol control data packet or the Bluetooth control data packet by each of the communication modules and transmitting the control data packet of the extracted industrial data exchange protocol on the industrial protocol Transmitting to the automation module of the selected microclimate control system; And
Generating a control signal for controlling an element of the selected microclimate control system by each of the automation modules
≪ / RTI > 28. The method of claim 27,
Further comprising an authentication step of authenticating a user of the device. 29. The method of claim 28,
Further comprising a synchronization step for synchronizing the device with another remote control device of the microprocessor control system and / or the automation module of the selected microprocessor control system. 30. The method according to any one of claims 27 to 29,
Wherein said industrial data exchange protocol is selected from among Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. A control method for a microclimate control system, comprising:
The device according to any one of claims 19 to 22, characterized in that the radio communication of the microcomputer control system according to any one of claims 1 to 9, which is located within the range of the transceiver of the device Querying the module;
Selecting an microcontroller control system from the list of available microcontroller control systems according to any one of claims 1 to 9 and establishing a connection with the wireless communication module of the selected system;
Transmitting a command to report the status of the selected microclimate control system to the wireless communication module to which the connection is established;
Displaying the status report on the selected microclimate control system by the respective output module or input / output module of the device;
Setting a desired parameter of the selected microprocessor control system by the respective input module or input / output module of the device, generating control data packets of the industrial data exchange protocol by the computing unit of the device, Encapsulating a control data packet of an industrial data exchange protocol into a Bluetooth protocol data packet to generate a Bluetooth protocol control data packet and transmitting each said generated Bluetooth protocol control data packet to each said communication module of said selected microprocessor control system step;
Extracting a control data packet of the industrial data exchange protocol from the Bluetooth control data packet by each of the communication modules and transmitting the control data packet of the extracted industrial data exchange protocol to the selected micro- Transmitting to an automation module; And
Generating a control signal for controlling an element of the selected microclimate control system by each of the automation modules
≪ / RTI > 32. The method of claim 31,
Further comprising an authentication step of authenticating a user of the device. 33. The method of claim 32,
Further comprising a synchronization step for synchronizing the device with the automation module of the selected microclimate control system. 34. The method according to any one of claims 31 to 33,
Wherein said industrial data exchange protocol is selected from among Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI. A control method for a microclimate control system, comprising:
26. A device according to any one of claims 1 to 5 and 10 to 14, wherein the device according to any one of claims 23 to 26 is located within the range of the transceiver of the device. Querying the wireless communication module of the microclimate control system;
Wherein the apparatus is adapted to select an microcontroller control system from the list of available microcontroller control systems according to any of claims 1 to 5 and 14 to 14, ;
Transmitting a command to report the status of the selected microclimate control system to the wireless communication module to which the connection is established;
Displaying the status report on the selected microclimate control system by the respective output module or input / output module of the device;
Setting a desired parameter of the selected microprocessor control system by the respective input module or input / output module of the device, generating control data packets of the industrial data exchange protocol by the computing unit of the device, Encapsulating a control data packet of an industrial data exchange protocol into a TCP protocol data packet to generate a TCP control data packet and transmitting the generated TCP control data packet to each of the communication modules of the selected microprocessor control system;
Extracting a control data packet of the industrial data exchange protocol from the TCP control data packet by each of the communication modules and transmitting the control data packet of the extracted industrial data exchange protocol to the selected microprocessor Transmitting to an automation module; And
Generating a control signal for controlling an element of the selected microclimate control system by each of the automation modules
≪ / RTI > 36. The method of claim 35,
Further comprising an authentication step of authenticating a user of the device. 37. The method of claim 36,
Further comprising a synchronization step for synchronizing the device with another remote control device of the microprocessor control system and / or the automation module of the selected microprocessor control system. 37. The method according to any one of claims 35 to 37,
Wherein said industrial data exchange protocol is selected from among Profibus, DeviceNet (CIP), ControlNet (CIP), Foundation fieldbus H1, CANopen, SERCOS I / II, Modbus, BACnet, DNET, LON, LONWORKS, LONTALK, EIB and DALI.

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