KR20120137115A - Facilities control system and operating method the same - Google Patents

Abstract

PURPOSE: A facility control system and an operation method thereof are provided to perform communication between a facility control device and a facility by setting a usable communication protocol in a communication port of the facility control device. CONSTITUTION: A facility control device(100) respectively sets a communication protocol in one or more embedded communication ports(110). The facility control device transceives data with a facility. A protocol setting module(130) respectively sets the communication protocol in one or more communication ports. A control module(140) processes the data. [Reference numerals] (120) Data transceiving module; (130) Protocol setting module; (140) Control module; (150) Storage module

Description

Facility control system and its operation method {FACILITIES CONTROL SYSTEM AND OPERATING METHOD THE SAME}

The present invention relates to a facility control system for interlocking a facility control device and a facility without the addition of hardware.

Recently, as the facilities of a building are modernized, an automatic control system for automatically controlling facilities such as electric power, lighting, air conditioning, disaster prevention, and crime prevention installed in a building has been expanded. That is, the development of facility control system that can integrate and manage the facilities as a whole is actively progressing.

Facility control systems are based on a monitoring point for control or monitoring, commonly referred to as a control point. The user sets several or single points in one facility (equipment) to monitor and control the facilities through the values of the points. The engineer sets the control points for each type and type of equipment installed in the building and registers them in the facility control system to perform automatic control of the building.

In the installation of the facility control system, the establishment and registration of the control point perform a large function throughout the installation work and require a long time. Thus, the establishment and registration of points tend to be highly dependent on the competence of the engineer. The operation of facility control systems is also largely achieved by controlling or monitoring these points. In general, the facility control system monitors, manages, and controls facilities by using operation logic for one or more facilities included in the system and a control program including the same.

Embodiments of the present invention provide a facility control system and a method of operating the same, including a facility control device capable of transmitting and receiving data to and from a facility without additional hardware without using a communication extension module using only a predetermined communication protocol. .

Embodiments of the present invention provide a facility control system and a method of operating the same so that communication between a facility control device and a facility is performed by setting a communication protocol available to the facility in a communication port of the facility control device.

Embodiments of the present disclosure provide a facility control system and a method of operating the same, when a facility is connected to a communication port of a facility control device, a communication protocol is sensed to communicate with each other using a detected communication protocol.

Equipment control system according to an embodiment, the control device to set the communication protocol to each of the at least one communication port, and to send and receive data to and from the equipment connected to each communication port using the communication protocol set in each communication port It is configured to include a device.

In the facility control system according to an embodiment, the facility control device, a protocol setting module for setting a communication protocol to each of the one or more communication ports, and a data transmission and reception module for transmitting and receiving data to and from the equipment connected to each communication port And a control module for processing the data using a communication protocol set in each communication port.

According to another embodiment, a facility control system includes one or more communication ports, and when each facility is connected to the one or more communication ports, the communication protocol of the connected facility is set by detecting a communication protocol of the connected facility. It is configured to include a facility control device.

In the facility control system according to another embodiment, the facility control device, a data transmission and reception module for transmitting and receiving data to and from the equipment connected to the one or more communication ports, and the communication by detecting the communication protocol of the data detected in the corresponding communication port A protocol setting module for setting a protocol, and a control module for processing the data using the set communication protocol.

An operating method of a facility control system according to an embodiment may include setting communication protocols in at least one communication port, transmitting and receiving data to and from equipment connected to each communication port, and communication protocols set in each communication port. It is configured to include the step of processing the data using.

In another embodiment, a method of operating a facility control system includes detecting whether a facility is connected to at least one communication port, transmitting and receiving data with a facility connected to the at least one communication port, and communicating a data communication protocol. Sensing, setting a detected communication protocol in a corresponding communication port, and processing the data using the set communication protocol.

Embodiments of the present invention facilitate the installation and expansion of the system by providing a facility control apparatus capable of transmitting and receiving data to and from the facility without additional hardware without using a communication extension module that uses only a predetermined communication protocol. Reduce costs

Embodiments of the present invention improve the operation efficiency of the system by setting a communication protocol that the facility can use in the communication port of the facility control device to perform communication between the facility control device and the facility.

Embodiments of the present invention improve the operation efficiency and user convenience of the system by allowing a communication protocol to detect a communication protocol and perform communication with each other when the facility is connected to the communication port of the facility control apparatus.

1 is a block diagram schematically showing the configuration of a facility control system according to the embodiments;
2 is a block diagram schematically illustrating a configuration of a facility control apparatus according to embodiments;
3 is a block diagram schematically showing the configuration of a central control server according to the embodiments;
4 is a block diagram showing a detailed configuration of a facility control system according to the embodiments;
5 to 7 are flowcharts schematically illustrating a method of operating a facility control system according to embodiments.

1 and 2, the facility control system according to an embodiment controls one or more facilities by using one or more points. The facility control system may include a facility control device configured to set communication protocols to at least one built-in communication port, and to transmit and receive data to and from equipment connected to each communication port using a communication protocol set at each communication port. It is composed. Here, the communication port is one or more of a serial communication port, such as RS-232, 422, 485, parallel communication port, USB communication port, LAN communication port, infrared communication port. In addition, the communication protocol is a communication protocol standardized to facilitate data exchange between different devices. Here, the communication protocol includes not only general communication protocols such as TCP / IP and serial communication protocols, but also protocols such as BACnet (Building Automation and Control Networks), LonWorks, MODBUS, and the like.

The facility 200 is a sub system constituting the facility control system, and refers to an air conditioner, a ventilation, an air conditioner, a fan, a boiler, a cooling tower, a pump, a temperature / humidity sensor, a refrigerator, a lighting device, a power device, a fire system, and the like. The one or more facilities 200 consist of one or more equipment 210 for operating the facility. The equipment 210 refers to a cooling tower, a pump, a temperature sensor, and the like, for example, when a cooling tower system is installed. Facility control systems are based on a monitoring point for control or monitoring, commonly referred to as a control point. The user may set one or a plurality of control points in one facility 200 or equipment 210 to perform monitoring, control, etc. of the facility through the value of the corresponding control point. The control point is a monitoring or control item used in a facility or equipment, for example, control, monitoring, error, and the like.

2, the facility control apparatus 100 includes a protocol setting module 130, a data transmission / reception module 120, and a control module 140. The protocol setting module 130 sets communication protocols in the one or more communication ports 110, respectively. The protocol setting module 130 may set different communication protocols to communication ports built in the facility control apparatus 100 or set some of them as the same communication protocol. In addition, the protocol setting module 130 may be configured to communicate with one or more communication ports 110 embedded in the facility control apparatus 100 based on the communication ports provided in the facility 200 and the communication protocol to be used by the facility. Can be set.

 The data transmission / reception module 120 transmits and receives the data with the facility 200 connected to each communication port. The data transmission / reception module 120 receives an operation result, an execution result, status information, and the like from the facility 200. The control module 140 processes the data by using a communication protocol set in each communication port.

The facility control apparatus 100 may further include a storage module 150 for storing setting information set by the protocol setting module 130. The storage module 150 may further store information about each communication protocol. In addition, the storage module 150 may further store data transmitted and received through the data transmission / reception module 120 and further store matching information between the facility control apparatus and the facility.

Referring back to FIG. 2, the facility control system according to another embodiment includes one or more communication ports 110, and when facilities are connected to each of the one or more communication ports, the communication protocol of the connected facility is detected and connected. It is configured to include a facility control device 100 for setting the communication protocol of the connected facility to the port. Here, the communication port is one or more of a serial communication port, such as RS-232, 422, 485, parallel communication port, USB communication port, LAN communication port, infrared communication port. In addition, the communication protocol is a communication protocol standardized to facilitate data exchange between different devices. Here, the communication protocol includes not only general communication protocols such as TCP / IP and serial communication protocols, but also protocols such as BACnet (Building Automation and Control Networks), LonWorks, MODBUS, and the like.

Referring to FIG. 2, the facility control apparatus includes a data transmission / reception module 120 that transmits and receives data to and from equipment connected to the one or more communication ports, and a communication protocol that detects a communication protocol of the data and detects the communication protocol. It comprises a protocol setting module 130 to set, and a control module 140 for processing the data using the set communication protocol.

The data transmission / reception module 120 receives data from the facility 200 connected to the communication port 110. In this case, the data may be data indicating a communication protocol of the facility. The protocol setting module 130 detects a communication protocol of the data and sets a communication port that receives the data as a corresponding communication protocol. The control module processes data from a facility connected to the corresponding communication port using a communication protocol set by the protocol setting module 130.

Referring to FIG. 1, the facility control system according to the embodiment may generate a control program for controlling the one or more facilities 200, and transmit the control program to the facility control apparatus 100. It is configured to further include. Here, the facility control apparatus 100 receives and executes the control program from the central control server 300, and transmits the execution result to the central control server 300.

The central control server 300 is a device for comprehensively controlling or monitoring the situation of the entire building. The central control server 300 may be equipped with separate terminals for facilities 200, for example, hardware, lighting, power, access control, disaster prevention, parking management, facility management, and the like. The central control server 300 is an automation server that shares information with each other through communication with the facility control apparatus 100 and controls or monitors the facility 200 and the devices 210 included therein through a control point. In addition, the central control server 300 generates a control program including a driving logic for operating the facilities 200, and controls or monitors the facilities 200 using the control program. The control program is generated by combining one operation logic or two or more operation logics for one facility or one or more operation logics for two or more facilities.

Referring to FIG. 3, the central control server 300 includes a communication unit 310, a control unit 320, an output unit 330, and an input unit 340. The communication unit 310 transmits the control program to the facility control apparatus 100, and receives the execution result from the facility control apparatus 100.

The control unit 320 generates the control program and monitors the state of the one or more facilities based on the execution result. The control program includes one or more operational logic to drive the facility 200 or the equipment 210.

The output unit 330 displays the control program on the screen. In addition, the output unit 330 may display the operation state and state of the equipment in the system and the equipment constituting the same, and may further output the execution result of the operation logic. The input unit 340 receives a control command for executing the control program. The input unit 340 receives a command for selecting driving logic and sets a condition of a site where a system is actually installed. The field conditions are, for example, the number of equipment or sensors, data values for the points, connection relationships, and the like.

The central control server 300 may further include a storage unit 350 that stores operation logics, control programs, field conditions, etc. for each facility 200 or the devices 210 constituting the system 200. . The storage unit 350 is a storage unit in the form of a ROM (Read Only Memory) for storing a program for the operation of the central control server 300, for example, a flash memory, and temporarily output data processed for transmission / reception or display. It may include a storage unit in the form of a random access memory (RAM) for storing them.

Referring to FIG. 4, the facility control apparatus may further include a communication module 160 that receives the control program from the central control server and transmits the execution result to the central control server. The facility control apparatus 100 is connected to the central control server 300 through the communication module 160. That is, the facility control apparatus 100 is provided between the central control server 300 and the facility 200. The facility control apparatus 100 is a direct digital controller that controls the facilities 200. The facility control apparatus 100 controls the facilities 200 by mutually communicating with the central control server 300 to exchange information, and receives the control program and executes operation logic included therein. In addition, the facility control apparatus 100 may control the output and status of facilities in a building through control points set in one or more equipments 210 provided in the facilities 200, for example, respective sensors and operation devices. It may be a microcomputer that records and stores all equipment related information such as changes, and controls or monitors the equipments 200 according to the operation logic in the control program. In other words, the facility control apparatus 100 is connected to the central control server 300 through a communication network to transmit and receive necessary information, and to monitor and control each control point of the air conditioning and other facilities installed in the building. Functions directly control input and output signals of the facilities 200.

The facility control apparatus 100 is connected to the central control server 300 through a communication network. For example, the facility control apparatus 100 is connected to a transmission control protocol / Internet protocol (TCP / IP). As a communication network, BACnet, which is an international standard of communication methods related to building automation of a building management system, can be used.

Referring to FIG. 5 or FIG. 6, a method of operating a facility control system according to an embodiment may include setting communication protocols in at least one communication port (S110), and transmitting and receiving data with equipment connected to each communication port. And a step (S130) of processing the data using a communication protocol set in each communication port. The configuration of the apparatus will be described with reference to Figs.

The operation method is performed by a facility control device having one or more communication ports. The facility control device is a direct digital controller provided between the central control server and the facility to control the facilities. The facility control device communicates with the central control server to exchange information, and controls the facilities by receiving the control program and executing the operation logic included therein. In addition, the facility control apparatus records and records all facility-related information such as control outputs and state changes of facilities in the building through control points set in one or more equipments, for example, respective sensors and operating devices. It may be a microcomputer that stores and controls or monitors the facilities according to the operating logic in the control program. In other words, the facility control device is connected to the central control server through a communication network to transmit and receive the necessary information, and monitor the control points of the air conditioning and other facilities installed in the building and its own built-in functions. Directly control input and output signals.

The facility control apparatus sets communication protocols in at least one communication port (S110). The facility control apparatus may set different communication protocols on the built-in communication ports, or set a part of the same communication protocol. In this case, the facility control apparatus sets communication protocols to at least one communication port embedded based on the communication ports provided in the facility and the communication protocol to be used by the facility. Then, the facility control device transmits and receives the data and the facility connected to each communication port (S120). In addition, the facility control apparatus receives an operation result, an execution result, status information, and the like from the connected facility. The facility control apparatus processes the data using a communication protocol set in each communication port (S130). The facility control apparatus is connected to the central control server through a communication network to receive a control program including one or more operating logics, and execute the control program using a communication protocol established with the connected facilities. The facility control apparatus may determine whether the communication protocols of the facilities connected to the communication protocols set in each communication port are the same (S140), and if not, output an error message (S150) to induce resetting. In addition, when the facility to be interlocked is changed (S160), the facility control apparatus may re-establish the communication protocol according to the communication ports and the communication protocol of the changed facility.

The operation method may further include storing the setting information set in the setting of the facility control apparatus (S111). The facility control apparatus may further store information about each communication protocol, an execution result of an operation logic or a control program, data, and matching information with the facility.

Referring to FIG. 7, a method of operating a facility control system according to another embodiment may include detecting whether a facility is connected to at least one communication port (S210), and transmitting and receiving data with a facility connected to the at least one communication port. Step S220, detecting the communication protocol of the data (S230), setting the detected communication protocol in the corresponding communication port (S240), and processing the data using the set communication protocol ( S250) is configured to include. The configuration of the apparatus will be described with reference to Figs.

The facility control apparatus includes one or more communication ports and receives data from a facility connected to the communication port (S220). In this case, the data may be data indicating a communication protocol of the facility. The facility control apparatus detects a communication protocol of data (S230) and sets a communication port that receives the data as a corresponding communication protocol (S240). The facility control apparatus processes data from a facility connected to a corresponding communication port using a set communication protocol (S250).

As described above, the facility control system and the control method thereof according to the embodiments of the present invention do not use a communication extension module that uses only a predetermined communication protocol, and control a facility that can transmit and receive data to and from the facility without additional hardware. Provide a device. Embodiments of the present invention set a communication protocol that can be used by a facility in a communication port of a facility control device to perform communication between the facility control device and the facility. In addition, embodiments of the present invention, when the facility is connected to the communication port of the facility control device detects the communication protocol and performs communication with each other using the detected communication protocol.

100: equipment control device 200: equipment
210: equipment 300: central control server
110: communication port 120: data transmission and reception module
130: protocol setting module 140: control module
150: storage module 160: communication module
310: communication unit 320: control unit
330: output unit 340: input unit
350: storage unit

Claims (18)

A facility control system for controlling one or more facilities using one or more control points,
And a facility control device configured to set communication protocols in at least one built-in communication port, and to transmit and receive data to and from equipment connected to each communication port using a communication protocol set in each communication port. According to claim 1, The facility control device,
A protocol setting module for setting a communication protocol in each of the one or more communication ports;
A data transmission / reception module configured to transmit and receive data with a facility connected to each communication port; And
And a control module for processing the data using a communication protocol set in each communication port. The method of claim 2, wherein the protocol setting module,
And a communication protocol is set in each of the one or more communication ports embedded in the facility control apparatus based on the communication ports provided in the facility and the communication protocol to be used by the facility. According to claim 2, The facility control device,
And a storage module for storing setting information set by the protocol setting module. A facility control system for controlling one or more facilities using one or more control points,
Facility control device having one or more communication ports, each facility is connected to the one or more communication ports, the facility control device for detecting the communication protocol of the connected equipment to set the communication protocol of the connected equipment to the connected communication port; system. According to claim 5, The facility control device,
A data transceiving module for transceiving data with a facility connected to the at least one communication port;
A protocol setting module configured to detect a communication protocol of the data and set a detected communication protocol in a corresponding communication port; And
And a control module for processing the data using the set communication protocol. 7. The method according to any one of claims 1 to 6,
And a central control server generating a control program for controlling the one or more facilities and transmitting the control program to the facility control apparatus. According to claim 7, The facility control device,
Receiving and executing the control program from the central control server, and transmitting the execution result to the central control server. The method of claim 8, wherein the central control server,
A communication unit for transmitting the control program to the facility control device and receiving the execution result from the facility control device;
A control unit for generating the control program and monitoring the state of the one or more facilities based on the execution result;
An output unit for displaying the control program on a screen; And
And an input unit for receiving a control command for executing the control program. The apparatus of claim 9, wherein the facility control device is
And a communication module for receiving the control program from the central control server and transmitting the execution result to the central control server. The method of claim 7, wherein the central control server,
Facility control system for generating a control program by combining one operation logic or two or more operation logic for one facility, or one or more operation logic for two or more facilities. The method of claim 7, wherein
And at least one device provided in the at least one facility to operate the facility. The method of claim 12, wherein the central control server,
The facility control system setting the one or more points in the one or more pieces of equipment. A method of operating a facility control system for controlling one or more facilities by using a facility control device having one or more communication ports,
Establishing, by the facility control apparatus, a communication protocol on each of the one or more communication ports;
The facility control device transmitting and receiving the data with the facility connected to each communication port; And
And the facility control device processing the data using a communication protocol set in each communication port. The method of claim 14, wherein setting the communication protocol comprises:
A method of operating a facility control system, characterized in that the communication protocol is set on the basis of the communication protocol and the communication ports of the equipment to be interlocked. The method of claim 15, wherein setting the communication protocol comprises:
If the equipment to be linked is changed, the operating method of the equipment control system, characterized in that to set the communication protocol again based on the communication protocol and the communication protocol of the changed equipment. The method according to any one of claims 14 to 16,
And storing, by the facility control device, setting information set in the setting step. A method of operating a facility control system for controlling one or more facilities by using a facility control device having one or more communication ports,
Detecting, by the facility control device, whether a facility is connected to the one or more communication ports;
The facility control device transmitting and receiving data to and from a facility connected to the one or more communication ports;
Sensing, by the facility control device, a communication protocol of the data;
Setting, by the facility control device, a communication protocol detected at a corresponding communication port; And
And the facility control device processing the data using the set communication protocol.

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