KR101294308B1 - Facilities control system and operating method of the system - Google Patents

Abstract

A facility control system and its operating method are disclosed. The facility control system and its operation method according to the embodiments of the present invention minimize the time and cost of engineering by connecting one or more expansion board modules connected to the facility control device in a plug-in manner, and the status value of the connected expansion board module. If this change is made, even if there is no request for data transmission, the message can be transmitted in an event manner so that the state change of the control point used in controlling the equipment can be quickly processed. This minimizes engineering time and costs and speeds up the process of changing points.

Description

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

The present invention relates to a facility control system and a method for operating the same, and more particularly, to a facility control system for controlling one or more facilities using a facility control device and a method of operating the same.

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.

In the case of a general facility control system, the registration step on the facility control device is complicated when adding an expansion board module for new facility control, and thus, engineering time is required. Specifically, in order to add the expansion board module to the facility control apparatus, the address, module type, and designated group information of the expansion board module to be added must be set. And the information about the expansion board module should be transmitted from the central control server to the facility control device through the control program. In addition, even after such a registration process, it is possible to check whether the expansion board module is actually connected by polling the set address. In addition, the connected expansion board module transmits and receives data using a polling transmission method that transmits corresponding response data only when there is a request from the facility control apparatus. Therefore, there is a problem that it is not possible to quickly reflect the change in the state value for the facility and the control point connected to the expansion board module if there is no data transmission request from the facility control device.

In accordance with an embodiment of the present invention for solving the above problems, in the facility control system, when the expansion board module is additionally connected to the facility control device for controlling one or more facilities so that the setting and registration for it is made simple An object of the present invention is to provide a facility control system and a method of operating the same, which can reduce engineering time.

In addition, the embodiment according to the present invention, when the state value for the connected expansion board module is changed, the facility control system that can quickly detect the change in the state of the control point and the facility control system and its operation method There is another purpose in providing.

The facility control system according to an embodiment of the present invention for achieving the above objects, the control of transmitting and receiving data with the one or more facilities through one or more ports, and processing the transmitted and received data to control the one or more facilities A module; An expansion board module connected to the control module in a plug-in manner and transmitting and receiving the data between the control module and the one or more facilities; It is configured to include a facility control device having a.

In another embodiment of the present invention, the expansion board module is characterized in that the communication with the control module using the event method.

In another embodiment of the present invention, if there is a data transmission request from the control module, the expansion board module transmits corresponding data in response to the request, and if there is a state value change for the expansion board module, the expansion board module responds according to an event method. The event data is characterized in that for transmitting from the expansion board module to the control module.

In addition, in one embodiment of the present invention, the control module includes a sensing unit for detecting whether the expansion board module is connected; An expansion board module registration unit which performs a registration procedure for the connected expansion board module; And a data transceiver for transmitting and receiving data to or from the one or more facilities or transmitting and receiving data to or from the connected expansion board module through one or more ports.

In order to solve the above problems, the operation method of the facility control system according to an embodiment of the present invention, as an operation method of the facility control system for controlling one or more facilities using the facility control device having one or more communication ports. Detecting at least one expansion board module to which the facility control device is connected in a plug-in manner; A facility control device receiving attribute information from the connected expansion board module to register the expansion board module; Receiving, by a facility control device, data from the connected expansion board module using a communication protocol corresponding to the attribute information; And a facility control device processing the received data.

In another embodiment of the present invention, the step of receiving data from the connected expansion board module is a step of receiving corresponding event data from the connected expansion board module when there is a state value change for the connected expansion board module. It is characterized by.

According to the facility control system and its operation method according to the present invention, by connecting the at least one expansion board module connected to the facility control device in a plug-in method is registered automatically at the same time as the connection without requiring a complicated registration process as conventional, This minimizes engineering time and costs.

In addition, embodiments of the present invention can expect rapid communication expansion by simply connecting and registering a new expansion board module while the facility control device is in communication with one or more facilities.

In addition, embodiments of the present invention, if the state value of the connected expansion board module is changed, the expansion board module can quickly detect the change in the state of the expansion board module by sending a message in an event manner, and accordingly the state change of the control point The equipment can be controlled by reflecting it quickly.

1 is a block diagram schematically showing the configuration of a facility control system according to an embodiment of the present invention;
Figure 2 is a block diagram showing a facility control device connected to the expansion board module according to an embodiment of the present invention,
3 is a block diagram showing the configuration of a central control server in communication with the facility control apparatus according to an embodiment of the present invention,
4 is a view showing a data transmission and reception process between an expansion board module and a control module according to an embodiment of the present invention;
5 is a flowchart schematically showing a method of operating a facility control system according to an exemplary embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the facility control system and its operation method according to the present invention.

Referring to Figure 1, Figure 1 schematically shows the configuration of the facility control system according to an embodiment of the present invention. As shown, the facility control system of Figure 1 is a facility control device 100, a facility control device 100 through the central control server 300 and the port and the like communicate with the facility control device 100 via a network And one or more equipments 200 connected to the equipment, and one or more equipments 210 provided in the equipments 200.

The facility 200 is a sub-system constituting the facility control system of FIG. It includes. The one or more facilities 200 consist of one or more equipment 210 for operating the facility. And the equipment 210 refers to a cooling tower, a pump, a temperature sensor, etc., for example, when equipped with a cooling tower system. In general, a facility control system is based on a monitoring point for one control or monitoring, called a 'point'. In detail, the user sets one or more control points in the one or more facilities 200 or the equipment 210 to monitor, control, etc. the facilities through the state values of the control points. Here, the control point is an item of monitoring or control used in a facility or equipment, and may include, for example, control, monitoring, and error.

The facility control apparatus 100 is connected between the central control server 300 and one or more facilities 200. The facility control apparatus 100 is a direct digital controller (DDC) that controls the one or more facilities 200. The facility control apparatus 100 communicates with the central control server 300 to exchange information with each other, and provides a control program from the central control server 300. Receive. The at least one facility 200 is controlled by operating the operation logics included in the received control program. The facility control apparatus 100 controls the output and status of facilities in a building through control points set in one or more equipments 210, for example, respective sensors and operating devices provided in the one or more facilities 200. It may be a microcomputer that controls or monitors the one or more facilities 200 according to the operation logic in the control program that records and stores all facility related information such as changes. That is, the facility control apparatus 100 is connected to the central control server 300 through a communication network to transmit and receive necessary information. Thus, the facility control device 100 directly controls the input and output signals to the one or more facilities 200 by using the built-in functions and monitoring and control of the control points of the air conditioning and other facilities installed in the building. In addition, the facility control apparatus 100 may be connected between at least one facility 200 and a control module included in the facility control device 100 to transmit and receive data and to control the facility 200. It includes more.

The central control server 300 corresponds to a device for comprehensively controlling or monitoring the situation of the entire building. The central control server 300 may be provided with separate terminals for the one or more facilities 200, for example, mechanical equipment, lighting, power, access control, disaster prevention, parking management, facility management. The central control server 300 is an automation server that communicates with the facility control apparatus 100 to share information with each other, and controls or monitors the facility 200 and the equipment 210 included therein through a control point. The central control server 300 generates a control program including operation logic for operating one or more facilities (200). Then, the generated control program is transmitted to the facility control apparatus 100. Accordingly, the control program is used to control or monitor the one or more facilities 200.

Here, each of the central control server 300, the facility control device 100, and one or more facilities 200 are connected through a communication network. The communication network may include, for example, a transmission control protocol / Internet protocol (TCP / IP), and when configuring a communication network using the same, for example, devices such as a redundant 10 base-T Ethernet switch hub may be used. Can be used. As another example of the communication network, BACnet, which is an international standard of communication methods related to building automation of a building management system, may be used.

Figure 2 shows in detail the expansion board module connected to the facility control device according to an embodiment of the present invention. Referring to FIG. 2, the facility control apparatus 100 includes a control module 110 connected to one or more facilities, and one or more expansion board modules 120 connected between the control module 110 and one or more facilities. It is configured by. In addition, the facility control apparatus 100 further includes a communication module 130 for communicating with the central control server.

The communication module 130 transmits the data processing result of the control module 110 to the central control server 300 and receives the control program from the central control server 300. As the communication network for this purpose, the above-described TCP / IP, BACnet, etc. may be used. The control program transmitted through the communication module 130 may be executed in the control module 110 to control one or more equipment 200 connected thereto.

The expansion board module 120 is located between the control module 110 of the facility control device 110 and one or more facilities 200 to transmit and receive data. When the expansion board module 120 is added, new facility control is possible. In an embodiment of the present invention, the expansion board module 120 is connected to the control module 110 in a plug-in manner. The connected expansion board module 120 is automatically registered by transmitting property information for the expansion board module 120, for example, a setting address, to the control module 110.

The control module 110 transmits and receives data with one or more facilities 200 connected through a port, and processes the transmitted and received data. The control module 110, the detection unit 111 for detecting the connection of the expansion board module 120, the expansion board module registration unit 112 for performing registration for the connected expansion board module 120, and the one It includes a data transmitting and receiving unit 113 for transmitting and receiving data with the facility 200 and the expansion board module 120 connected.

Here, the sensing unit 111 monitors the state of the control module 110 and detects the connection of the expansion board module 120 added for new facility control. In one embodiment, the sensing unit 111 may check the validity of the expansion board module 120 to be connected, or may consider a state such as equipment and communication defects necessary for connection.

The expansion board module registration unit 112 registers the expansion board module 120 automatically by receiving attribute information (eg, a setting address) from the expansion board module 120 connected in a plug-in manner. The expansion board module 120 connected in a plug-in manner only needs to pass its setting address to the control module 110. The expansion board module registration unit 112 may further include a storage unit (not shown) for storing the setting address received from the connected expansion board module 120. In addition, the expansion board module registration unit 112 may check the data value of the transmitted attribute information, and if the check result is a pre-registered setting address value, may notify that the module is a duplicate and prevent occurrence of an error.

The data transceiver 113 transmits and receives data with one or more facilities connected through a port. The data transmitting and receiving unit 113 may transmit data such as an operation command, a status value request, an execution request, and the like to the connected one or more facilities 200, and receive data such as an operation result, an execution result, and status information therefrom. . The communication port may use one or more of a serial communication port such as RS-232, 422, 485, parallel communication port, USB communication port, LAN communication port, and infrared communication port. In addition, the data transmitting and receiving unit 113 transmits and receives data with the expansion board module 120 is connected. In this case, the data transceiver 113 may transmit and receive the data with the expansion board module 120 connected using a corresponding communication protocol based on the received set address.

The data transmission / reception process can take two ways as follows. In general, the control module 110 transmits and receives data using a transmission control method (polling method) that continuously checks the state of one or more equipments 200 connected thereto. That is, when the control module 110 requests to transmit the status value for the one or more equipment 200 connected, the status value data is received from the corresponding equipment 200 in response thereto. When the control module 110 transmits control signal data to one or more facilities 200 to which the control module 110 is connected, the control module 110 controls the one or more facilities 200 correspondingly, and transmits the data back to the control module 110 as a result. Do it. In an embodiment of the present invention, another type of data transmission and reception is possible with the expansion board module 120 connected. Specifically, when the expansion board module 120 is plug-in connected, even if there is no request for an address value from the control module 110, the expansion board module 120 transmits its address value to the control module 110. When the control point state of the expansion board module is changed, even if there is no request for a state value from the control module 110, the expansion board module 120 transmits the changed state value to the control module 110. Alternatively, event data according to the event transmission method may be periodically transmitted to the control module 110 at a predetermined time interval even if there is no change in the state value of the control point. In addition, a plurality of expansion board modules 120 connected to the control module 110 may exist, and when communication lines between such modules are busy, an idle event transmission method is used. Data can be resent automatically. In an embodiment of the present invention, when the initial registration and the state value of the connected expansion board module 120 is changed, the event method is used to transmit and receive data to shorten the engineering time of the facility control system and quickly change the state of the control point. I can figure it out.

3 is a block diagram schematically illustrating a configuration of a central control server that communicates with a facility control apparatus according to an embodiment of the present invention. Referring to FIG. 3, the central control server 300 includes a communication unit 310, a control unit 320, an output unit 330, an input unit 340, and a storage unit 350. More specifically, the communication unit 310 transmits a control program to the facility control apparatus 100 and receives a result of executing the control program 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 output unit 330 displays the control program and the execution result on the screen. The input unit 340 receives a control command for executing the control program. The storage unit 350 stores the control program, field conditions, and the like.

The facility control apparatus 100 monitors and controls the connected facility 200 using data transmitted and received between at least one facility 200 and the communication unit 310. More specifically, referring to FIG. 2, the facility control apparatus 100 may transmit data, such as status values and execution result values, received from the one or more facilities 200 connected to the control module 110 through a polling scheme. 310). And similarly, the facility control apparatus 100 communicates the data such as status values, execution result values, etc. received from the connected expansion board module 120 to the control module 110 using polling and / or event transmission methods. May transmit to the unit 310. The communication unit 310 transmits the control program generated by reflecting the received data to the facility control apparatus 100 again. The facility control apparatus 100 receives and executes the control program and transmits the execution result to the communication unit 310 again.

Figure 4 shows a data transmission and reception process between the expansion board module and the control module according to an embodiment of the present invention. 2 and 4, one or more expansion board modules 120 are connected to the control module 110 of the facility control device in a plug-in manner for new facility control. The expansion board module 120 transmits its setting address in the form of event data to the control module 110 using the event method at the same time as the connection. The control module 110 checks whether the set address value is pre-registered and automatically registers the set address if it is not already registered. In this way, the initial registration of the expansion board module 120 connected in a plug-in manner uses an event transmission method.

In general, the control module 110 performs communication with the connected expansion board module 120 to obtain control result values, state value data, etc. from one or more facilities 200 connected with the expansion board module 120. Request the transfer. The expansion board module 120 receiving the request transmits the response data corresponding thereto to the control module 110 again. In this way, the control module 110 transmits a message requesting data transmission for continuous status check on the connected expansion board module 120, and the expansion board module 120 receiving the message responds with a corresponding message. The transmission method transmitted to the control module 110 again is called a polling method. In this case, the control module 110 becomes a master and the expansion board module 120 becomes a slave.

When there is a state change for the connected expansion board module 120, even if there is no data transmission request from the control module 110, the changed state value is quickly transmitted to the control module 110. The state change, for example, the change of the equipment 210 associated with one or more facilities 200 connected to the expansion board module 120, in addition to changing the state value of the control point, the address of the expansion board module 120 is changed If so, it may include all. As such, even if the control module 110 does not receive a control command, a data transmission request, or the like, an event transmission scheme in which the connected expansion board module 120 actively transmits the changed state value to the control module 110. This is called. At this time, on the contrary, the expansion board module 120 becomes a master and the control module 110 becomes a slave. The data transmission according to the event transmission scheme may be implemented to be performed when a specific event occurs or to perform data transmission periodically at predetermined time intervals. In the data transmission method between the expansion board module and the control module according to the embodiments of the present invention, as described above, by appropriately mixing the polling and event methods, data transmission related to facility control can be performed quickly and accurately.

5 is a flowchart schematically showing a method of operating a facility control system using a facility control device according to an embodiment of the present invention. First, the facility control device detects one or more expansion board modules connected in a plug-in manner (S10). As a result of the detection, if there is an expansion board module connected, the facility control apparatus automatically receives the attribute information from the expansion board module and automatically registers the connected expansion board module (S20). Then, the facility control device transmits and receives data with the connected expansion board module. That is, the facility control device receives data transmitted according to the polling and / or event transmission method from the connected expansion board module (S30). In this case, the connected expansion board module may transmit data using an appropriate communication protocol corresponding to the attribute information. The facility control apparatus analyzes the received data and transmits it to the central control server to reflect the control program or change the state of the associated control point (S40).

As such, the facility control system and its operating method according to the embodiments of the present invention minimize the time and cost of engineering by connecting one or more expansion board modules connected to the facility control device in a plug-in manner, connected expansion board module If the status value of is changed, even if there is no request for data transmission, the message can be transmitted in the event method so that the status change of the control point used in the facility control can be processed quickly.

100-Facility Control Unit 110-Control Module
111-Detection part 112-Expansion board module registration part
113-Data Transceiver 120-Expansion Board Module
130-Communication module 200-Equipment
210-Equipment 300-Central Control Server

Claims (10)

In the facility control system to control one or more facilities using a control program,
A control module for transmitting and receiving data with the one or more facilities through one or more ports, and controlling the one or more facilities by processing the transmitted and received data;
An expansion board module connected to the control module in a plug-in manner and transmitting and receiving the data between the control module and the one or more facilities; Including a facility control device provided with,
The expansion board module, if there is a state value change, facility control system, characterized in that for transmitting the corresponding data to the control module according to the event method. delete The method according to claim 1,
The expansion board module,
If there is a data transmission request from the control module, in response to the request to transmit the corresponding data,
If there is a change in the state value for the expansion board module, facility control system, characterized in that for transmitting the corresponding event data from the expansion board module to the control module according to the event method. The method according to claim 1,
The control module includes:
A sensing unit detecting whether the expansion board module is connected;
An expansion board module registration unit that performs a registration procedure for the connected expansion board module; And
And a data transceiver for transmitting and receiving data to and from the one or more facilities through the one or more ports or transmitting and receiving data to and from the connected expansion board module. The method according to claim 1,
And a central control server generating a control program for controlling the one or more facilities and transmitting the generated control program to the facility control apparatus. 6. The method of claim 5,
The facility control device,
A communication module for transmitting a result of the processing of the transmitted and received data to the central control server and receiving the control program from the central control server; Facility control system further comprises a. 5. The method of claim 4,
The expansion board module registration unit,
When the expansion board module is plug-in-connected, facility control system characterized in that for receiving the attribute information from the connected expansion board module to perform a registration procedure. 5. The method of claim 4,
The expansion board module registration unit,
Receiving attribute information from the expansion board module according to the event method, facility control system, characterized in that for performing the registration procedure for the connected expansion board module. 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 at least one expansion board module to which the facility control device is connected in a plug-in manner;
Registering, by the facility control apparatus, the extension board module by receiving attribute information from the connected expansion board module;
Receiving, by the facility control apparatus, data from the connected expansion board module using a communication protocol corresponding to the attribute information;
The facility control device processing the received data; Including but not limited to:
Receiving data from the connected expansion board module,
If there is a change in the state value for the connected expansion board module, the operation method of the facility control system, characterized in that for receiving the corresponding event data from the connected expansion board module. delete

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