KR20110071529A - Communication port variable set method and the system of air conditioning integrated control system - Google Patents

Abstract

PURPOSE: A communications port variable set up method of the coordination integrated control system and an apparatus thereof are provided to use the RS-485 port regardless of the kind of system, the number of installation device. CONSTITUTION: A control input part(410) is input the apparatus control data. A control processing unit(400) processes the inputted control data. An image display part(510) indicates each status of the apparatuses. A status display processing unit(500) processes the information to display the image in the image display part. A memory unit(600) stores the information per each apparatus. A memory unit administration unit(610) manages the memory unit.

Description

Communication port variable set method and the system of an air conditioning integrated control system

The present invention relates to an integrated control system of a heating and cooling system and a ventilation system, and a method for setting an RS-485 communication port and a system for connecting a network of an air conditioner and a network of a ventilation device to an integrated control device, respectively. It is about.

Recently, as buildings have become higher and larger, large buildings and high-rise apartments often install both air conditioning and ventilation systems.

1 is a configuration diagram of a control system generally used in the prior art, FIG. 2 is a connection diagram for integrating and controlling different systems among control systems used in the related art, and FIG. 3 is a terminal block of the integrated central control apparatus. will be.

In the prior art, each central control unit exists separately unless the heating and cooling system and the ventilation system are configured in the same network.

Even if it is not composed of the same network, in order to connect to a single integrated control device, each connection to a predetermined RS-485 port can be connected to control a heating and cooling system, a ventilation system and an integrated control device as one.

In the development of integrated control device, in addition to cooling and heating system and ventilation system, in addition to control system using RS-485 port such as power control system, when designing hardware and developing program, the number of ports is fixed and expanded due to hardware characteristics. There is no surname.

For example, the RS-485 ports expected at the time of development (e.g., six RS-485 ports as shown in FIG. 3) are used for the air conditioning system port for the COM1 and COM2 ports, and the port for the ventilation system for the COM3 and COM4 ports. In case of COM5 port, power control system port, COM6 port gas meter port, and the circuit is configured and software is implemented, if you install the actual integrated control system, connect the network according to the corresponding port. It would be nice if it could be installed, but depending on the situation of the installation site, only the air conditioning system or the ventilation system may be installed alone, or the quantity expected by either system (for example, 2 air-conditioning systems, 2 port ventilation systems, etc.). If more installations are required, an integrated control device may be required.

That is, the number of indoor units installed in the air conditioning system in one building may not be connected to the port of the integrated control device (COM3 ~ COM6 port) is not used. In this case, an additional control device must be installed to control the cooling and heating system, which causes additional costs.

The present invention has been made to solve such a conventional problem, and when connecting the integrated control device and each system, by using a limited RS-485 port variably using a single integrated control device even in a specific situation The purpose is to configure the system using a single integrated control device even in a specific situation by allowing the RS-485 port to be used regardless of the type of system or the number of installations.

In order to achieve the above object, the present invention provides an integrated control system for controlling a device or system connected to a port by using at least one or more communication ports, the communication device including a plurality of RS-485 communication ports. Connection; An RS-485 communication processor including a receiver for processing RX-DATA coming from an RS-485 communication port and a transmitter for transmitting TX-DATA for sending control data to each port; Communication protocol processing unit for processing the protocol portion in the transmission and reception data; A control input unit for receiving device-specific control data; A control processor which processes the input control data; Image display unit for displaying the status for each device; A status display processor configured to process information to display an image on the image display unit; A memory unit which stores information for each device; And a memory unit manager for managing the memory unit.

On the other hand, the communication protocol processing unit processes the protocol part in the transmission and reception data, and transmits the information request packet to the signal for the information request transmitted from the integrated control system to the device to transmit a request for a response, the device to the integrated control system By combining the response packet with the transmitted data information, it is possible to distinguish the system or device connected to the port.

On the other hand, in the integrated control system to control the device or system connected to the port using at least one or more communication ports,

(a) sending specific device information request protocols in port order to recognize individual devices connected to any communication port;

(b) If the information data corresponding to the response of the transmission data is received, set the system information data and the corresponding communication port number by storing the device information.If there is no response for the transmission data, the corresponding communication port number is not used. Setting and storing the port;

(c) determining whether the information request is completed by the number of ports and repeating the operation of step (b) by the number of ports;

(d) executing the integrated control UI program when the information request for all the communication ports is completed.

As described above, according to the present invention, the system installed using the device information protocol is automatically connected to any port regardless of the system installed in the building in using the limited communication port (RS-485 port). By connecting to the integrated control unit, the heating and cooling system, ventilation system, power control system, etc. can be installed in one integrated control unit independently or in combination so that it can be connected to the integrated control unit automatically. By making it possible to control, it is a very useful invention that has the advantage of eliminating the inconvenience of installation by not being constrained by the configuration of the port at the time of installation, and reducing the additional development costs that may occur due to port restrictions.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

6 is a configuration diagram of a communication port variable setting device of the present air conditioning integrated control system.

Accordingly, the apparatus of the present invention includes a communication connection unit 100 having a plurality of RS-485 communication ports 110, a receiving unit 210 for processing RX-DATA coming from the RS-485 communication port 110, and RS-485 communication processing unit 200 comprising a transmission unit 220 for processing the TX-DATA to send control data to each port, a communication protocol processing unit 300 for processing the protocol portion in the transmission and reception data, and device-specific control data The control input unit 410 receives an input, a control processing unit 400 for processing the input control data, an image display unit 510 for displaying a device-specific state, and information processing for displaying an image on the image display unit. And a state display processing unit 500, a memory unit 600 storing information for each device, and a memory unit management unit 610 managing the memory unit 600.

The communication connection unit 100 is provided with at least one RS-485 communication port 110, so that it can transmit and receive information through the communication port.

The RS-485 communication processor 200 includes a receiver 210 for processing RX-DATA coming from an RS-485 communication port and a transmitter 220 for processing TX-DATA for sending control data to each port. . The transmitter 220 allows the integrated control system to scan each port and transmit information request protocols in order to determine a system or device connected to the port. The receiver 210 receives and processes a response packet and a device information protocol sent from a system or a device connected to a port.

The communication protocol processing unit 300 processes the protocol part in the transmission / reception data, requests the response by combining the information request packet with the signal for the information request transmitted from the integrated control system to the device, and requests a response, and the integrated control system in the device. A response packet is combined with data information transmitted to a network to distinguish a system or a device connected to a port.

The control processor 400 receives a control signal for controlling each device through the control input unit 410 and transmits the control signal to each device through a port. When the device is connected to the first port, the communication protocol processor 300 finds the information of the device, stores it in the memory unit, and then the control processor transmits a signal for controlling the device.

The status display processor 500 displays the status of each device through the image display unit 510, and displays information on the devices connected to each port found through the transmission / reception data and the state of the connected devices through the screen of the image display unit 510. Indicates.

The memory unit 600 determines the corresponding port through the response packet of the received data coming into the receiver of the RS-485 communication processor, and stores state information of each device that can be known through the data after the response packet. 610 manages the memory unit 600.

Meanwhile, a method of determining and controlling a device connected to a port by the integrated control system from the device of the present invention will be described below.

First, in the process of recognizing individual devices connected to an arbitrary communication port, a step (a) of transmitting a specific device information request protocol in the order of the ports is performed, and device information is distinguished when information data corresponding to a response of the transmission data is received. (B) setting and storing the system information data and the corresponding communication port number, and if there is no response to the transmission data, setting the corresponding communication port number to an unused port and storing the information request by the number of ports. (B) repeating the operation of step (b) by the number of ports, and (d) executing the integrated control UI program when the information request for all the communication ports is completed.

Step (a) is a step of transmitting specific device information request protocols in the order of the ports in the process of recognizing individual devices connected to an arbitrary communication port, and transmitting information request protocols in the order of the ports to request information from the device connected to the port. It's a step.

In step (b), when the information data corresponding to the response of the transmission data is received, the device information is distinguished and the system information data and the corresponding communication port number are set and stored. If there is no response to the transmission data, the corresponding communication port number is used. In the step of storing the information set to a port that does not have a port, when the information data is transmitted to the integrated control system in response to the information request protocol transmitted to the device connected to the port, the integrated control system receives the response and confirms that it is a response protocol. Read the information data following the protocol to find and store the device, assign the port number to connect to the integrated control system, and if there is no response, set the communication port to an unused port and save it.

Step (c) is to determine whether the information request is completed by the number of ports, and repeating the operation of step (b) by the number of ports, and obtaining information of the device connected to the port by repeating step (b) for each port. This step is to save the port and set the port that the device is not connected to as an unused port.

Step (d) executes the integrated control UI program when the information request is completed for all communication ports. Requests information on all communication ports and checks the status information of each connected and unused port. The step of executing the integrated control UI program to indicate the connection status to the display device and to control the devices connected to the port.

Referring to the effect of the present invention made of such a configuration and steps as follows.

The air conditioning integrated control system according to the present invention is an air conditioning system composed of at least one indoor unit and at least one outdoor unit and a ventilation system composed of at least one ventilation device and an additional power meter, gas meter, and RS-485 communication. It can be configured using the scheme.

In connecting the systems and the integrated control device via RS-485 communication, the terminal block is connected to the RS-485 port by using a terminal block as shown in FIG. 3. If there are 6 ports up to COM6, the device will be connected to the designated port by assigning the port to the system to be connected in advance, or connect the system to the arbitrary port and designate the port on the program UI of the integrated control device. It was.

If the connection of RS-485 port is set in advance in the program, it is cumbersome for the installer to connect only to the designated port at the installation site, and sometimes a mistake is made to connect the port incorrectly or +,-depending on the polarity. If connected, the system may not operate normally. In addition, when the RS-485 port connection status is specified on the program UI of the integrated control device, it is cumbersome to set the connection status in the UI program after installation, and this method also requires the installer to make a mistake. It may not work properly.

In the present invention, even if the number of RS-485 ports is determined in hardware, if a connection is made regardless of the port number, information such as the type and port number of the connected device can be known by communicating with a specific protocol between the integrated control device and the connected device. Allows you to configure the port of the connected device automatically.

4 is a flowchart illustrating a port setting method between an integrated control device and an installed system. According to the flowchart, when installing one or more systems such as a heating / cooling system, a ventilation system, a power control system, a power meter, and a gas meter and to connect with the integrated control device, it is connected to any of the COM ports of the terminal block shown in FIG. In this case, the integrated control device scans the RS-485 communication port at the start of the UI program and transmits the information request protocol (FIG. 5) in turn and uses the received port and device information depending on whether or not the installed system is installed. After the communication port scan process is completed by automatically setting the type, the UI program can be operated and the installed system can be automatically connected to the RS-485 communication port without any additional setting process.

5 is an information request protocol used when establishing a connection with an integrated control device by scanning a communication port. For example, '0xAA' data may be transmitted for each port to request reception data, and the device connected to each port may be distinguished using the reception data. After the response packet of '0xBB' as the received data, the information of each device is distinguished by the data and stored in the status information database for each device including the corresponding port and device information.

6 is an RS-485 communication processing unit comprising a receiving unit for processing RX-DATA coming from an RS-485 communication port and a transmitting unit for transmitting TX-DATA for sending control data to each port, and a protocol for transmitting and receiving data. A communication protocol processing unit for processing a portion, a control processing unit for receiving control data for each device, a state display processing unit for displaying a state for each device, a memory unit for storing information for each device, and a memory unit for managing the memory unit It is configured to include a management unit.

After the connection is made, communication is performed using the control command and the status information protocol corresponding to the system connected to each port. As shown in the configuration of FIG. 2, the status information of each system can be checked in the GUI of the integrated central control unit. Using the GUI program, control commands such as total, group, and individual control can be sent.

In addition, as shown in the example of FIG. 8, the integrated control device installed in each building can be connected to the administrator's PC through the Internet network, and the integrated management program is installed on the PC to simultaneously monitor the status information of the system for each building using the PC. In addition to the control functions available in the integrated control unit installed in each building, it provides the function to control the entire building at the same time.

As described above, the air conditioning integrated control system according to the present invention can be connected to any port irrespective of the installed system to solve the inconvenience in installation, and even in hardware or software even when one system wants to use many ports. Integrated control is possible by installing without modification.

It should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

1 is a configuration diagram of a control system generally used in the prior art,

2 is a connection diagram for integrating and controlling different systems among control systems used in the related art;

3 is a terminal block of the integrated central control unit,

4 is a flow chart for RS-485 port connection of the integrated control system,

5 is a schematic diagram showing a transmission and reception protocol for information of a specific device;

6 is a configuration diagram of a communication port variable setting device of the present inventors air conditioning integrated control system;

Figure 7 is a terminal block connection configuration diagram of the communication port variable setting device of the present invention air conditioning integrated control system,

8 is a total building integrated management system using the Internet network.

Explanation of symbols on the main parts of the drawings

100: communication connection unit 200: communication processing unit

210: receiver 220: transmitter

300: communication protocol processing unit 400: control processing unit

410: control input unit 500: status display processing unit

510: image display unit 600: memory unit

610: memory management unit

Claims (3)

In order to achieve the above object, the present invention provides an integrated control system for controlling a device or system connected to a port by using at least one or more communication ports, the communication device including a plurality of RS-485 communication ports. Connection; An RS-485 communication processor including a receiver for processing RX-DATA coming from an RS-485 communication port and a transmitter for transmitting TX-DATA for sending control data to each port; Communication protocol processing unit for processing the protocol portion in the transmission and reception data; A control input unit for receiving device-specific control data; A control processor which processes the input control data; Image display unit for displaying the status for each device; A status display processor configured to process information to display an image on the image display unit; A memory unit which stores information for each device; And a memory unit management unit for managing the memory unit. The method of claim 1, The communication protocol processing unit processes the protocol part in the transmission / reception data, requests the response by combining the information request packet with the signal for the information request transmitted from the integrated control system to the device, and requests a response, which is transmitted from the device to the integrated control system. Communication port variable setting device of the air conditioning integrated control system, characterized in that by combining the response packet to the data information to distinguish the system or device connected to the port. An integrated control system for controlling a device or system connected to a port using at least one communication port, (a) transmitting specific device information request protocols in the order of ports during the process of recognizing individual devices connected to any communication port; (b) If the information data corresponding to the response of the transmission data is received, set the system information data and the corresponding communication port number by storing the device information.If there is no response for the transmission data, the corresponding communication port number is not used. Setting and storing the port; (c) determining whether the information request is completed by the number of ports and repeating the operation of step (b) by the number of ports; (d) executing an integrated control UI program when requesting information for all communication ports is completed; Communication port variable setting method of the air conditioning integrated control system comprising a.

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