KR20130096601A - Facilities control system and operating method of the same - Google Patents

Abstract

PURPOSE: A facility control system and an operating system thereof are provided to automatically register a plurality of control points of each object type corresponding to a facility, thereby reducing time to set up control points of each object type. CONSTITUTION: An object mapping table is generated which comprises addresses of facilities and IDs of objects (S10). Control points of each object type are automatically registered using values of the object mapping table (S20). A control program is generated which controls facilities using the registered control points (S30). The generated control program is transmitted to a facility control device based on a Building Automation and Control network (BACnet) protocol (S40). The facility control device operates the received control program (S50). [Reference numerals] (AA) Start; (BB) Finish; (S10) Generate an object mapping table composed of an object ID and an address of a facility; (S20) Automatically register a control point according to an object type by using an object mapping table; (S30) Generate a control program by using a control point; (S40) Transmit a control program based on a BACNet protocol; (S50) Facility control device executes a control program

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a facility control system,

The present invention relates to a facility control system and a method of operating the same, and more particularly, to a facility control system capable of automatically registering control points for monitoring and controlling facilities according to object types and a method of operating the same.

Recently, with the modernization of building facilities, an automatic control system that automatically controls facilities such as electric power, lighting, air conditioning, disaster prevention, and crime prevention installed in buildings has been expanded, and facility control System is being actively developed.

A facility control system is generally based on a monitoring point for one or more monitoring or control, called a "point of control". Specifically, an administrator establishes multiple or single points of control in one facility (equipment) and performs services such as monitoring and control of facilities through the values of the points of control. To this end, the engineer sets a plurality of control points in accordance with the type and type of facilities installed in the building, and registers the plurality of control points in the facility control system to automatically control the facilities in the building. Such a facility control system includes a facility, a central control server, and a facility control device for controlling the facility between the facility and the central control server and transmitting the result of the execution.

Especially, in the case of the back-net-based facility control device, when installing or removing the existing facility control device, the type of control point, the number of the control point, and the name of the control point have to be set for each individual input / output port. That is, a unique ID (ID) composed of the object type and the number of the object to be monitored and controlled for each control point that controls the facility can be defined, so that an object that conforms to the one-byte standard can be defined, . For example, when an indoor unit of an air conditioner is registered in a building, it is necessary to set and register the type and number of a control point which is a control and monitoring item for each indoor unit.

Therefore, in the embodiments of the present invention, the control points for controlling the facility can be automatically registered for each object type without needing to set information of corresponding control points at the time of installing the facility control device or adding or removing facilities, And a method of operating the system.

Accordingly, a facility control system according to an embodiment of the present invention is a facility control system that controls one or more facilities using one or more control points, generates a control program for controlling the facility, and transmits the generated control program A central control server; And a facility control device for receiving the control program and controlling the facility based on a back-net protocol, wherein the central control server generates an object mapping table using an address of the facility and an ID of a predetermined object , And automatically registers a plurality of control points corresponding to the facility for each object type.

In an embodiment, the central control server includes an object generation module for generating an object mapping table composed of an address of the facility and an ID of a common object for the facility at the time of registration of the facility; And a control point automatic registration module for automatically registering the control point by object type using the value of the object mapping table.

In an embodiment, the control unit automatically changes the data of the control point for each object type when a new object is added to the object mapping table or an existing object is deleted.

In an embodiment, the control unit is configured to set an address of the facility, generate the object mapping table, or register the control point for each object type through a graphic object of a user screen.

In an embodiment, the object generation module generates the object mapping table by automatically assigning an ID of a common object to the facility when an address for the facility is set.

In an embodiment, the central control server includes a storage unit for storing the generated object mapping table.

In an embodiment, the storage unit updates the object mapping table every predetermined time period and stores the object mapping table automatically.

In an embodiment, the central control server includes an input unit for receiving a control command for controlling the control program; And an output unit for outputting the control command and the control program.

In an embodiment, the input unit receives an address of the facility through a user input, and the output unit outputs the address together with the ID of the common object.

In the embodiment, the central control server comprises a communication unit for transmitting a control command for controlling the control program, and receiving the control program and the execution result of the control command from the facility control apparatus .

A method of operating a facility control system according to an embodiment of the present invention is a method of operating a facility control system that controls one or more facilities using one or more control points, Generating an object mapping table composed of IDs of the objects; The central control server automatically registering the point by object type using the value of the object mapping table; The central control server creating the control program using the registered control points; The central control server transmitting the generated control program to the facility control device based on a back-net protocol; And executing the received control program by the facility control device.

In an embodiment, the automatically registering step may include automatically changing data of a corresponding object point by object type when a new object is added to the object mapping table or an existing object is deleted. do.

In an embodiment, the step of generating the object mapping table is a step of creating the object mapping table by automatically assigning an ID of a common object to the facility when the address of the facility is set.

In an embodiment, the operation method further includes storing the generated object mapping table.

The facility management system and its operation method according to the present invention can automatically generate an object mapping table composed of the address and the ID of an object determined only by setting an address for the facility, Is automatically registered for each object type, the time required for setting a plurality of points of control for each object type is reduced and user convenience is provided.

1 is a block diagram schematically showing the configuration of a facility control system according to an embodiment of the present invention;
FIG. 2 is a detailed view of the configuration of a central control server in the facility control system of FIG. 1; FIG.
3 is a flowchart illustrating an operation method of a facility control system according to an embodiment of the present invention;
FIG. 4 is a flowchart illustrating a process of generating a control program using an object mapping table according to an embodiment of the present invention; FIG.
5 is a diagram illustrating a process of generating an object mapping table according to an embodiment of the present invention;
6A to 6C are diagrams illustrating a process of automatically registering point-by-point points using an object mapping table according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a plant control system and a method of operating the system according to the present invention will be described in detail with reference to the accompanying drawings.

A facility control system according to an embodiment of the present invention is a facility control system that controls one or more facilities using one or more control points, and generates a control program for controlling the facility and sends the generated control program And a facility control device that receives the control program and controls the facility based on the back-net protocol. Here, the central control server generates an object mapping table using the address of the facility and an ID of a predetermined object, and automatically registers a plurality of points corresponding to the facility by object type.

First, a schematic configuration of a facility control system according to the present invention will be described with reference to FIG. As shown in the figure, the facility control system includes a central control server 100 for generating the object mapping table and using the generated object mapping table to automatically register a plurality of control points, and a central control server 100 connected to the central control server 100 via a communication network, A facility control device 200, at least one facility 300 and at least one equipment 400 included in the facility 300. The central control server 100, the facility control device 200 and the respective facilities 300 are connected to each other through a communication network, for example, a BACnet (Building Automation & Control Network). That is, as the communication network, a white-net communication protocol, which is an international standard for a communication method related to building automation of a building management system, is used.

The facility 300 is a sub-system that constitutes the facility control system. For example, the facility 300 may include an air conditioner, a ventilator, an air conditioner, an air conditioner, a fan, a boiler, a cooling tower, a pump, a temperature / humidity sensor, Equipment, fire system, and so on. The apparatus 400 is a device included in the facility 300 and means, for example, a cooling tower, a pump, a temperature sensor, etc. when a cooling tower system is used as a facility.

The facility control system is generally based on a monitoring point for control or monitoring, referred to as a control point. That is, a user or the like sets a single or multiple control points on one facility 300 or the equipment 400, and performs monitoring and control on the facilities through the values of the control points. Here, the control point is a monitoring or control item used in a facility or equipment. For example, the control point includes a fan speed, a filter sign, a lock status, a monitoring, and an error when the indoor unit is installed.

The central control server 100 is an apparatus for collectively controlling or monitoring a situation of a building as a whole. The central control server 100 is a facility for controlling the facilities 300 such as a machine, a heating and cooling unit, an air conditioner, lighting, , Parking management, facility management, and the like. The central control server 100 communicates with the facility control apparatus 200 using, for example, a back-net communication protocol to share information with each other, and transmits the facility 300 and the equipment (400). The central control server 100 generates a control program for controlling the facility 300 or the equipment 400. [ In addition, the central control server 100 transmits the generated control program to the facility control device 200.

In the embodiment of the present invention, the central control server 100 generates an object mapping table using the address of the facility 300 and the ID of a predetermined object. The object mapping table indicates a common object corresponding to the monitoring and control items of the facility 300 installed in the building as a list of "address of the facility 300 + ID of the object". For example, when the indoor unit is the facility 300, the object mapping table stores the address value of the indoor unit and the ID value of an object common to the indoor units (only the ID value of the object may be displayed, or an ID value Can be displayed together).

In addition, the central control server 100 automatically registers a plurality of points corresponding to the facility 300 by object type using the value of the generated object mapping table. Here, the object type includes, for example, a binary input, a binary output, a binary value, an analog input, an analog output, an analog value, ), MO (Mulitistate Output), and MV (Mulitistate value).

A more detailed configuration of the central control server 100 is shown in FIG. 2, the central control server 100 includes an input unit 110, an output unit 120, a storage unit 130, a communication unit 140, and a control unit 150 .

The control unit 150 includes an object creation module 152 and a point check point automatic registration module 155. The object generation module 152 generates an object mapping table including an address of the facility 300 and an ID of a common object to the facility 300 at the time of registering the facility 300. [ The object generation module 152 generates the object mapping table by automatically assigning the ID of the common object to the facility 300 when the address of the facility 300 is set, do. In addition, the point-to-point automatic registration module 155 automatically registers the point of view by object type using the value of the object mapping table generated by the object creation module 152.

When a new object is added to the object mapping table generated by the object creation module 152 or an existing object is deleted from the generated object mapping table, the control unit 150 controls the corresponding object point Change the data automatically. The data of the control point for each object type may include, for example, an ID or name for each object type, but it is not limited thereto, and may include all elements that affect an item to control the facility.

5, 6A, and 6B illustrate a process of generating an object mapping table according to an embodiment of the present invention and automatically registering point-by-type points using the generated object mapping table. Referring to FIG. 5, a process of creating an object mapping table will be described. In order to register a point-by-type point corresponding to a facility installed in a building during an installation operation of the facility control apparatus, Just set the address. In FIG. 5, for example, indoor unit addresses are set as # 0, # 1, # 2, ... for each indoor unit. Then, the central control server creates a common object for controlling the indoor unit and an object mapping table indicated by the address of the indoor unit for each indoor unit. Such an object mapping table can be automatically generated only by address setting for an indoor unit. To this end, the central control server may include predetermined storage means to store in advance object names and IDs common to the types of facilities. In the case where the facility is an indoor unit, for example, a filter sign, a lock state, a fan speed, a set temp, a damper control, ), Pump control, and the like. When the object mapping table for the indoor unit is created, the control point is automatically registered for each object type. For example, if the address of the indoor unit is # 0 and the ID of the filter sign is 001, the table having the object type BI (binary input) is indicated as 00001. That is, the first two digits '00' indicate the address of the indoor unit corresponding to the facility, and the next three digits '001' indicate the ID of the filter sign corresponding to the common object.

In this manner, an object mapping table is created by assigning a predetermined common object ID only by setting an address of the facility. From this, a plurality of points corresponding to the facility are calculated by object type It is automatically registered.

As described above, in the case of the conventional white-net-based facility control device, the type of control points, the number of control points, the names of control points, and the like have to be set for each individual input / output port at the time of installation work or removal of an existing apparatus . That is, a unique ID (ID) consisting of the object type and number must be assigned to each control point that controls the facility, so that an object conforming to the white net standard can be defined, thereby enabling communication in the white net network. For example, when registering the indoor unit 300 of the air conditioner, there is an inconvenience that each indoor unit must be given the type and number of the control point to be the control and / or monitoring item for each indoor unit. In the case of the facility control system according to the embodiment of the present invention, an object mapping table composed of an ID of a common object and an address of a facility is generated when an address for the facility is set, and a plurality of control points The time for registering all control points for each object type is reduced and at the same time, user convenience is provided.

Next, with reference to FIGS. 6A to 6C, a process of automatically registering point-of-control points for the facility by object type using the object mapping table will be described in detail. First, as shown in FIG. 6A, the address of the facility and the type of the facility are input through, for example, user input. For example, AC type facilities have address values of '120', '121', and '127'. At this time, since the type of the facility may be omitted, it is desirable that the address value of the facility be inputted as a unique value. FIG. 6B shows an object mapping table using the names of the common objects and the ID values, which are determined in advance, together with the address of the equipment input in FIG. 6A. The name and type of the common object included in the object mapping table can be set in advance. In this way, the control point for the facility is automatically created and registered for each object type using the values of the object mapping table configured for each facility. This result is shown in Fig. 6C. Referring to FIG. 6C, it is optimally reduced to the time spent setting and registering 15 control points for each AC address, 13 control points for each VENT address, and 43 control points for each AHU. Able to know.

In addition, the control unit 150 may set an address of the facility 300, generate the object mapping table, or register the control points according to the object type through graphic objects of the user screen. For example, the control unit 150 may receive an address of the indoor unit through a user's screen, for example, by applying a touch input to a graphic object included in the screen. In addition, the object mapping table may be embodied to include a plurality of independent graphics objects for the sake of convenience of the user. In addition, the registration of the control point for each object type may be performed in such a manner that a plurality of object type tables independent of each other from the generated object mapping table are automatically generated by including graphic objects.

2, the input unit 110 receives a control command for controlling a control program for controlling the facility 300. Also, the input unit 110 receives an address for the facility 300 through a user input. Meanwhile, in another embodiment, it is also possible to input an address of a facility from a user through an Internet network, configure an object mapping table therefrom, and provide the object mapping table to the central control server 100, for example.

The output unit 120 outputs a control command and a control program received through the input unit 110. Also, the output unit 120 outputs the address input through the input unit 110 together with the ID of the common object.

The storage unit 130 stores an object mapping table generated by the control unit 150. In addition, the storage unit 130 may store names and IDs of objects common to the facilities inputted through the input unit 110 according to the type of equipment and facilities. In addition, the storage unit 130 may further store a user screen graphic and / or a control program of the central control server 100. The storage unit 130 may be a storage unit in the form of a read only memory (ROM) or a random access memory (RAM) for storing temporary output data processed for transmission / reception or display, for example, Shaped storage portion.

The communication unit 140 transmits a control command for controlling the control program. Here, the control command includes an instruction input through the input unit 110 or an instruction transmitted from the facility control apparatus 200 according to a predetermined condition. Also, the communication unit 140 can receive the execution result of the control program and the execution result of the control command from the facility control device 200.

In an embodiment according to the present invention, the facility control apparatus 200 controls the facility 300 or the apparatus 400 included therein based on a white net protocol. Also, the facility control apparatus 200 may be connected to the central control server 100 through a white net gateway (not shown). Specifically, the facility control apparatus 200 is connected to the central control server 100 through each port provided in the white net gateway, and at this time, the facility control apparatus 200 and the central control server 100 An RS-485 communication network, for example, may be used to connect through the whitenet gateway.

The facility control apparatus 200 is located between the central control server 100 and the at least one facility 300 and executes a control program received from the central control server 100. [ That is, the facility control apparatus 200 is a direct digital controller that controls the facilities 300 and exchanges information by mutually communicating with the central control server 100 using a back-net communication protocol, And controls the facilities 300 or the devices 400 by receiving the control program and driving the driving logic included in the control programs. The facility control apparatus 200 may be a microcomputer that controls or monitors the facility 300 or the equipment 400 according to the operation logic in the control program. In other words, the facility control apparatus 200 is connected to the central control server 100 through a back-net-based communication network, and transmits and receives necessary information to each other. Accordingly, it is possible to monitor or control a plurality of control points for the air conditioner and other facilities installed in the building, and directly control the input / output signals of the facility 300 or the equipment 400 using the functions embedded in the control points .

FIG. 3 and FIG. 4 show the operation method of the facility control system and the process of generating the control program using the object mapping table generated according to the embodiment of the present invention.

Hereinafter, one embodiment of the operation method of the facility control system described above with reference to FIG. 3 will be described. First, the central control server creates an object mapping table composed of the address of the facility and the ID of the predetermined object (S10). Then, the central control server automatically registers the point by object type using the values of the object mapping table (S20). Then, the central control server creates a control program for controlling the facility using the registered control point (S30). The central control server transmits the generated control program to the facility control device based on the back-net protocol (S40). The facility control device executes the received control program to control one or more facilities (S50). In addition, the facility control device may provide the execution result of the control program to the central control server.

The process of generating the control program using the object mapping table will be described in more detail with reference to FIG. First, an object ID is automatically assigned when an address of the facility is set (S5). Then, the central control server creates an object mapping table composed of the address of the facility and the ID of the predetermined object (S10). Here, the object mapping table may be automatically generated. The step of generating an object mapping table may generate the object mapping table by automatically assigning an ID of a common object to the facility when an address for the facility is set. Then, the central control server automatically registers the point by object type using the values of the object mapping table (S20). At this time, it is determined whether there is a change in the object of the object mapping table (S21). If there is a change, the data of the control point of the corresponding object type is automatically changed (S22). Then, a control program for controlling the facility is created using the registered control point (S30). Specifically, in the step of automatically registering the control points by type, when a new object is added to the object mapping table, the data of the corresponding control point for each object type is automatically changed, The object data of the corresponding object type is automatically changed.

In an embodiment, the operation method of the facility control system described above may further include a step of storing the generated object mapping table. In addition, if there is a change in the object, the changed object mapping table can be automatically updated and stored.

Herein, the method of operating the facility control system according to the embodiment of the present invention as described above may be implemented as a program and executed by a computer-readable recording medium such as a CD-ROM, a RAM, a ROM, a floppy disk, a hard disk, ). ≪ / RTI > Such a process can be easily carried out by those skilled in the art and will not be described in detail.

As described above, in the facility control system and the operation method thereof according to the present invention, an object mapping table composed of the address and the ID of a predetermined object can be generated only by setting an address for the facility, A plurality of points corresponding to the facility are automatically registered for each object type, thereby optimally reducing the time required to set a plurality of points for each object type and providing user convenience.

100 - central control server 110 - input unit
120 - output unit 130 - storage unit
140 - communication unit 150 - control unit
152 - Object creation module 155 - Control point automatic registration module
200 - Equipment control 300 - Equipment
400 - Equipment

Claims (14)

1. A facility control system for controlling one or more facilities using one or more control points,
A central control server for generating a control program for controlling the facility and transmitting the generated control program; And
A facility control device that receives the control program and controls the facility based on a back-net protocol; Lt; / RTI >
The central control server,
An object mapping table is generated using an address of the facility and an ID of a predetermined object, and a plurality of points corresponding to the facility are automatically registered for each object type.
Facility control system. The method according to claim 1,
The central control server,
An object generation module for generating an object mapping table including an address of the facility and an ID of a common object for the facility upon registration of the facility;
And a control point automatic registration module for automatically registering the control point by object type using the value of the object mapping table.
Facility control system. 3. The method of claim 2,
Wherein the control unit comprises:
Wherein the control unit automatically changes the data of the control point for each corresponding object type when a new object is added to the object mapping table or an existing object is deleted.
Facility control system. 3. The method of claim 2,
The control unit
Wherein the address of the facility is set or the object mapping table is created through the graphic object of the user screen or the control point is registered for each object type.
Facility control system. 3. The method of claim 2,
Wherein the object generation module comprises:
Wherein when the address is set for the facility, the object mapping table is generated by automatically assigning the ID of the common object to the facility.
Facility control system. The method according to claim 1,
The central control server,
And a storage unit for storing the generated object mapping table.
Facility control system. The method according to claim 6,
Wherein the storage unit comprises:
Wherein the object mapping table is automatically updated and stored every predetermined time period.
Facility control system. The method according to claim 1,
The central control server,
An input unit for receiving a control command for controlling the control program;
And an output unit for outputting the control command and the control program.
Facility control system. 9. The method of claim 8,
Wherein the input unit receives an address of the facility through a user input, and the output unit outputs the received address together with the ID of the common object.
Facility control system. The method according to claim 1,
The central control server,
And a communication unit that transmits a control command for controlling the control program and receives the control program and the execution result of the control command from the facility control apparatus.
Facility control system. A method of operating a facility control system for controlling one or more facilities using one or more control points,
Generating an object mapping table in which a central control server comprises an address of the facility and an ID of a predetermined object;
The central control server automatically registers the point-of-control points for each object type using the value of the object mapping table;
Wherein the central control server generates the control program by using the registered control point
The central control server transmitting the generated control program to the facility control device based on a back-net protocol; And
And executing the received control program by the facility control device.
Operation method of facility control system. 12. The method of claim 11,
Wherein the automatically registering step comprises:
And automatically changing data of the corresponding object point by object type when a new object is added to the object mapping table or an existing object is deleted.
Operation method of facility control system. 12. The method of claim 11,
Wherein the step of generating the object mapping table comprises:
And generating the object mapping table by automatically assigning an ID of a common object to the facility when an address of the facility is set.
Operation method of facility control system. 12. The method of claim 11,
And storing the generated object mapping table. ≪ RTI ID = 0.0 >
Operation method of facility control system.

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