WO2015099394A1 - Building management system for converting equipment in building into database and method for same - Google Patents

Abstract

Disclosed are a building control method using a network map and a system for same. From a network map, in which at least one connection path directly connected to a central control point or connected by passing through at least one neighboring control point is attributed with a weight value, a building control server identifies a control point which satisfies a relation level or a weighted value included in control object information, and transmits a control command, when the control object information for selecting the control object control point from the network map transmitted by a user has been received.

Description

Building Management System and Method for Databaseing Equipment in Building

The present invention relates to a building management system and method for generating a database for controlling and managing various equipment including an air conditioner in a building.

The building management system (BMS) is a plurality of controllers 110 and a plurality of controllers as shown in FIG. 1 to control various devices 120 such as air conditioners, air conditioners, and lights in a building from a central building management server. And point 100.

The equipment and the controller are connected in a relationship of n: m (n, m is an integer of 1 or more), and the controller includes k points (k is an integer of 1 or more). If the equipment is replaced or there is a change in the physical or logical location of the controller or points, the user must establish a mapping relationship between the points of the equipment, the controller and the points each time.

However, in the case of a large building, there are not one or two pieces of equipment to manage, and there are also many controllers and points of control for controlling them, so when the mapping relationship between them is changed, it is difficult for the user to accurately reflect the changes. Therefore, it is necessary to build a database that can easily reflect this change in mapping relationship due to a change in the physical location of the controller.

The technical problem to be achieved by the present invention is to provide a building management server and a method for building a database that can easily reflect when the mapping relationship of the control point is changed due to the physical location change of the controller, and the like. .

In order to achieve the above technical problem, an example of a building management server according to the present invention includes an equipment registration unit for receiving equipment information including a name for each type of equipment through a graphic interface; A control point registration unit which receives the control point information on the type of equipment selected by the user from the equipment type list displayed on the screen through the equipment registration unit through a graphic interface; And an equipment reference information database for mapping, storing, and managing the equipment information and the control point information received through the equipment registration unit and the control point registration unit.

Another example of a building management server according to the present invention for achieving the above technical problem, the equipment reference information database for storing the type of equipment in the building and the point information for each equipment; A display unit for displaying an equipment map composed of items representing equipment in a building; A mapping unit for setting types of equipment represented by each item of the equipment map by referring to the equipment reference information database; And a device map database for storing the device map.

In order to achieve the above technical problem, another example of the building management server according to the present invention includes: an equipment map display unit configured to display an equipment map displayed by grouping equipment in a building on a screen; A control point display unit for displaying a control point list on a screen selected by a user from the device map; A controller display unit for displaying a controller viewpoint interface on a screen; And a link unit for storing a mapping relationship between at least one control point selected through the control point list and a controller selected through the controller viewpoint interface in a database.

In order to achieve the above technical problem, an example of a building management method according to the present invention includes: displaying an equipment map formed by grouping each item representing equipment in a building on a screen; Displaying a list of equipment types on a screen by referring to a equipment reference information database storing types of equipment in a building and control point information for each equipment type; And storing a mapping relationship between an item selected through the device map and a device type selected through the device type list in a database.

According to the present invention, it is possible to easily determine which controller is mapped to a control point in terms of equipment. In addition, when it is necessary to remap the control point due to the change of the position of the controller, the control point can be easily re-mapped in the equipment viewpoint which can be easily recognized by the user. In addition, by using a standardized name in the point of view of the equipment point of view, the user can easily identify the point of control of the equipment by just the point name. In addition, even if there is a change in the position of the controller, it is not necessary to remap the points registered in the application such as the graphic interface, the control logic, and the scheduling. do.

1 is a diagram illustrating an example of a general structure for building management of a building management system;

2 illustrates an example of a controller perspective interface for management of equipment in a building;

3 is a diagram illustrating an example of mapping a control point between a controller and a device using a controller perspective interface;

4 illustrates an example of utilizing a control point mapped through a controller viewpoint interface;

5 is a diagram illustrating an example of a remapping process when changing a control point in a database based on a controller viewpoint interface;

6 is a diagram illustrating an example of a configuration of a building management server that constructs a database based on an equipment perspective interface;

7 illustrates a flow of an example of a method of building a database based on an equipment perspective interface;

8 is a diagram illustrating an example of a graphic interface screen for building a database based on a device perspective interface;

9 is a diagram illustrating an example of a configuration of a building management server that generates an equipment viewpoint interface based on an equipment reference information database.

10 is a diagram illustrating an example of a graphic interface screen for constructing an equipment map based on an equipment reference information database;

11 is a diagram illustrating an example flow of a method for constructing an equipment map based on an equipment reference information database;

12 is a diagram illustrating an example of a configuration of a building management server that maps a point and a controller using an equipment point of view interface.

FIG. 13 is a diagram illustrating an example of a graphic interface screen for mapping a control point and a controller using an equipment view interface. FIG.

14 is a diagram illustrating an example flow of a method of mapping a point of interest and a controller using an equipment point of view interface;

15 is a diagram illustrating an example of a method of generating a name of a control point mapped to a controller based on an equipment view interface;

FIG. 16 is a diagram illustrating an example of using a control point generated using an equipment view interface, and FIG.

FIG. 17 is a diagram illustrating an example of a method of changing a point of control when a point of control generated using an equipment point of view interface is changed.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but can be implemented in various forms. The embodiments of the present invention make the posting of the present invention complete and the general knowledge in the technical field to which the present invention belongs. It is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used in a sense that can be commonly understood by those skilled in the art. In addition, the terms defined in the commonly used dictionaries are not ideally or excessively interpreted unless they are specifically defined clearly. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase.

Hereinafter, with reference to the accompanying drawings will be described in detail a building control method and system using a network map according to the present invention.

First, the building management server according to the present invention is an input device such as a keyboard, a mouse, or a touch screen for receiving various commands or data from a user, a display device, a processor for performing various operations or data, and for storing data. The storage device such as a memory, etc., but for the convenience of description, in the following description of each component of the building management server in terms such as "equipment register" to better represent the features of the present invention, such configuration is a processor, It may be implemented through various hardware devices and software, such as a memory and an input / output device.

FIG. 2 is a diagram illustrating an example of a controller viewpoint interface for managing equipment in a building, and FIG. 3 is a diagram illustrating an example of mapping a control point of a controller and equipment using the controller viewpoint interface.

2 and 3 together, the controller perspective interface 300 represents a controller in a hierarchical structure. For example, the building management server groups the controllers in units of "COUNTRY"-"SITE GROUP"-"SITE"-"STATION GROUP"-"STATION" so that the user can easily search or view the controller viewpoint interface 300. To provide. Located at the bottom of the hierarchical structure of the controller view interface 300, "STATION", "DEVICE", "MODULE" represents a controller, and "SITE", "STATION-GROUP", etc., at the top represents a group grouping the controllers. Indicates. For example, the controllers may be grouped in units of floors of a building, each zone of each floor, and the like, and may be represented by the controller viewpoint interface 300.

The particular controller 310 of the controller viewpoint interface 300 maps to the points 350, 352, 254, 356, 358, 360 of the at least one or more devices 320. There are several ways in which the system can identify points. In the first method, the controller has a controller unique code and a point unique code mapped with the controller unique code included in the controller. For example, when the unique code of the controller 310 is 'A', the points 350, 352, 254, 356, 358 and 360 belonging to the controller 310 combine A-1, A-2, A by combining the controller unique code 'A'. Have a unique code such as -3 In this case, the point code is unique within the system, so the system that wants to use it points directly to the point code.

As a second identification method, the controller has a unique code of a control point only. For example, when the unique code of the controller 310 is 'A', the points 350, 352, 254, 356, 358, 360 belonging to the controller 310 have unique codes such as 1,2,3 and the like. In addition, when the unique code of another controller 310 is 'B', the points 350, 352, 254, 356, 358, 360 belonging to the controller 310 have the same unique code, such as 1,2,3. In this case, the point code is unique only in the controller, and the system that intends to use the point of reference first refers to the unique code of the controller 310 to which the point belongs, and then refers to the unique code of the point again.

However, no matter which method is used, the system can find the point of reference by referring to the unique code values of the controller and the point of control.

4 is a diagram illustrating an example of using a control point mapped through a controller viewpoint interface.

Referring to FIG. 4, the building management server is a graphic interface 400 representing various equipment in a building as an object, a control logic 410 for a specific operation, or scheduling 420 for automatically managing an operation time or schedule of equipment, and the like. Application). The building management server maps the point 350 to the object 402 of the graphical interface 400 for the implementation of each application, or the point 352 to the input / output target of the diagram 412 of the control logic 410. Mapping or mapping to the control target 422 of the schedule 420. For example, A-1, a unique code of control point 350, is mapped to object 402 of the graphical interface, and A-2, a unique code of control point 352, is mapped to diagram 412 of control logic. do.

The building management server determines the state of the equipment (eg, the temperature of the heating water) through the points mapped with the object 402 displayed in the graphical interface, or the on / off of the equipment through the controller mapped with the points. Control off, specific values and more.

5 is a diagram illustrating an example of a remapping process when changing a control point in a database based on a controller viewpoint interface.

Referring to FIG. 5, when the physical location of the controller is changed, the unique code of the control point must be remapped. For example, points Z-1 and Z-2 of a specific device Z were mapped to A-1 and A-2 of device A. As the controller physically moves, Z-1 and Z-2 are In case of remapping to B-1 and B-2, the diagram 412 of the control logic should also be remapped to the unique code B-2 of the mapped point.

The controller view interface has the advantage of easily identifying which point is mapped from the controller point of view, but if the mapping position of the point is changed due to the change of the position of the controller later, the mapping relationship for the point must be redone in the corresponding application. There is a hassle to do.

Hereinafter, an example of constructing a database using an equipment perspective interface that does not require remapping in each application even when a controller position change or the like occurs.

6 is a diagram illustrating a configuration of an example of a building management server that builds a database based on an equipment perspective interface.

Referring to FIG. 6, the building management server 600 includes an equipment register 610, a point register 620, and an equipment reference information database 630.

The equipment registration unit 610 receives equipment information including a name of each type of equipment from a user through a graphic interface. For example, as shown in FIG. 8, the equipment registration unit 610 displays the equipment type list 800 on one side of the screen, and adds, deletes, or corrects a new equipment type from the user through the equipment type list 800. Receive and process.

For example, when the equipment registration unit 610 receives an input of a new equipment type addition or correction command from the user, the equipment type profile screen 820 for registering or correcting equipment information on one side of the screen is displayed as shown in FIG. 8. And, through the equipment type profile screen 820, the user can receive various information such as equipment type name, manufacturer name, equipment model name, protocol type, data type, and the like.

The equipment registration unit 610 is not registered for all the equipment existing in the building, but is registered only once for the same type of equipment. For example, if there are five refrigerators of the same model of A company in a building, the equipment information of company A is not registered once rather than the equipment information of five times. Since equipment of the same type has the same point list, equipment with the same point list can be regarded as the same kind of equipment.

The control point registration unit 620 provides the user with a graphic interface for inputting control point information of the selected equipment type when the user selects a specific equipment type for the control point registration from the equipment type list displayed on the screen. For example, when the user selects the absorption chiller 802 from the equipment type list 800 as shown in FIG. 8, a graphic interface 810 for inputting control point information for the absorption chiller 802 is displayed to control from the user. Input point information.

There may be a preset point list of preset points for each type of equipment. In this case, if a user selects a specific type of equipment, the point registration unit 620 displays a list of previously registered points for the type of equipment on the screen. On the basis of the point list, the user may register the selection of the point or add the point.

The equipment reference information database 630 maps, stores, and manages the equipment information and the control point information received through the equipment register 610 and the control point register 620. Since the equipment reference information database 630 stores equipment information for each type of equipment, it is preferable not to store duplicated information about equipment of the same type having the same point list.

For example, if there is a building control system that manages ten acorns in a building, and all ten acorns are the same kind of acorns, the equipment reference information database 630 registers and stores the corresponding acorn information only once.

7 is a diagram illustrating an example flow of a method of building a database based on an equipment perspective interface.

Referring to FIG. 7, the building management server provides a graphic interface by driving a program for registering equipment information (S700). The graphic interface provides the equipment registration screens 800 and 820 and the point registration screen 810 as shown in FIG. 8. The building management server receives the equipment information including the name of each equipment type from the user through the equipment registration screen (S710). In addition, the building management server receives a control point of the type of equipment selected by the user through the control point registration screen (S720). The building management server stores the equipment information and the point information in the equipment reference information database (S730).

8 is a diagram illustrating an example of a graphic interface screen for building a database based on a device perspective interface.

Referring to FIG. 8, the building management server provides a graphic interface screen including an equipment type list 800, a control point list 810, and an equipment type profile 820. The equipment type list 800 displays various types of equipment registered by the user, and adds, deletes, and corrects equipment types through various icons or commands provided on the equipment type list screen 800. The input of equipment type information may be made through the equipment type profile screen 820.

When the user selects a specific equipment type from the equipment type list 800, for example, the absorption refrigerator 802, the building management server displays a point list 810 related to the absorption refrigerator through the graphical interface. The user may select a point to map or additionally register a point through the interface of the point list 810. Type, channel number, name, unit information, etc. may be registered as attribute information of the control point.

FIG. 9 is a diagram illustrating an example of a building management server that generates an equipment viewpoint interface based on an equipment reference information database.

Referring to FIG. 9, the building management server 900 includes an equipment map database 910, an equipment reference information database 920, a display unit 930, and a mapping unit 940.

The equipment map database 910 stores the equipment map composed of the items indicating the equipment in the building. The equipment map displays the entire equipment in the building by various display methods such as hierarchical structure and graphic structure. For example, the equipment map may classify buildings into physical spaces (for example, the first floor and the second floor) as shown in FIG. 10, and classify the equipment based on each physical space to display hierarchically. . Of course, various criteria may be used as criteria for classifying equipment. Users can easily identify the equipment in the building using the equipment perspective interface.

As described with reference to FIGS. 6 to 8, the equipment reference information database 920 is a database that stores and manages the types of equipment existing in the building and control point information for each type of equipment.

The display unit 930 reads a device map that is already built in the device map database 910 and displays it on the screen. If the equipment map constructed in the equipment map database 910 does not exist, the display unit provides a graphic interface for generating the equipment map. For example, the display unit 930 reads and displays the equipment map 1000 as shown in FIG. 10 in the equipment map database 910 or provides a user with a graphic interface for generating the equipment map. The user may add, delete, or correct a specific device in the device map.

The mapping unit 940 sets the type of equipment of each item of the equipment map by referring to the equipment reference information database. Specifically, when the user selects a specific item of the equipment map, the display unit 930 reads the equipment type list from the equipment reference database 920 and displays it on the screen. The user selects the equipment type mapped with the item of the equipment map from the equipment type list displayed on the screen by the display unit 930. The mapping unit 940 maps the equipment type selected by the user and the items of the equipment map and stores the equipment map database 910. Since the equipment reference information database 920 has control point information mapped to the equipment type, the item of the equipment map is also mapped to the control point information.

In the present embodiment, for convenience of description, the equipment map database and the equipment reference information database are separately displayed. However, as another embodiment, the two databases may be implemented as one.

FIG. 10 is a diagram illustrating an example of a graphic interface screen for constructing a device map based on a device reference information database.

Referring to FIG. 10, the building management server displays the equipment map 1000 and the equipment type list 1010 on a screen, and provides a graphic interface for processing and receiving various commands and inputs from a user.

The user may select the equipment item and the equipment type from the equipment map 1000 and the equipment type list 1010 through the graphical interface, respectively, and easily set the mapping relationship therebetween. For example, when the user selects the refrigerator # 1-1 1002 of the equipment map, the building management server displays the equipment type list 1010 on the screen. When the user selects the refrigerator 1012 from the equipment type list 1010, the building management server maps the refrigerator # 1-1 1002 and the refrigerator 1010 to the equipment map database.

11 is a flowchart illustrating an example of a method for constructing an equipment map based on the equipment reference information database.

Referring to FIG. 11, the building management server provides a graphic interface for editing each item of the equipment map (S1100). The building management server receives various commands such as adding, deleting, and correcting equipment map items from a user through a graphic interface. In the case of the delete command, the building management server removes the corresponding item from the equipment map, and in the case of the add command, adds a new item to the equipment map and receives the name of the item from the user.

When the equipment type is to be mapped to the equipment map item, the building management server receives the selected equipment map item from the user (S1110). The building management server then provides the user with a graphical interface for equipment type selection, and the user selects the equipment type from the equipment type list displayed on the screen (S1120). The building management server maps and stores the items of the equipment map and the type of equipment (S1130, S1140).

FIG. 12 is a diagram illustrating an example of a building management server that maps a point and a controller using an equipment point of view interface.

Referring to FIG. 12, the building management server includes the equipment map database 1200, the equipment map display unit 1210, the control point display unit 1220, the controller database 1230, the controller display unit 1240, the link unit 1250, and the control unit. The point name setting unit 1260, the channel setting unit 1265, and the control point mapping database 1270 are included.

In the present embodiment, the equipment map database 1200, the controller database 1230, and the control point mapping database 1270 are separately displayed for convenience of description, but in another embodiment, they may be constructed as one database.

The equipment map database 1200 is the same as the equipment map database described with reference to FIG. 9. The controller database 1230 is a database that stores a list of controllers in a building as shown in FIG. 2.

The equipment map display unit 1210 reads the equipment map from the equipment map database 1200 and displays it on the screen. When the user selects a specific item of the equipment map through the equipment map displayed on the screen, the control point display unit 1220 displays a list of control points mapped to the item. For example, the control point display unit 1220 searches for the equipment reference information database (920 of FIG. 9) based on the selected equipment map item and the equipment type mapped to find and display a control point list.

The controller display unit 1240 displays a list of controllers in the building on the screen with reference to the controller database 1230.

The link unit 1250 maps the control point selected by the user from the point list displayed by the point display unit 1220 and the controller selected by the user in the controller display unit 1240 and stores the mapped point in the point mapping database 1270.

The control point name setting unit 1260 generates and provides names of the control points mapped to the controller based on the unique code of the equipment to which the control point belongs. In the case of the controller perspective interface shown in FIG. 4, the control point name is generated based on the unique code of the controller, whereas the control point name setting unit 1260 according to the present embodiment has a unique code of equipment related to the control point regardless of the controller. It is generated based on. An example of generating a point name will be described with reference to FIG. 15.

The channel setting unit 1265 sets a unique channel to the control points mapped to the controller. The channel setting unit 1265 may automatically allocate a unique channel that is not duplicated for each control point or receive a channel for each control point from the user. It is desirable not to overlap.

FIG. 13 is a diagram illustrating an example of a graphic interface screen for mapping a control point and a controller using an equipment view interface.

Referring to FIG. 13, the building management server provides an equipment viewpoint interface 1300, that is, an equipment map and a controller viewpoint interface 1370, and a mapping screen 1380 for mapping a control point and a controller.

When the user selects a specific item of the equipment map 1300, the building management server displays the control point list 1310 belonging to the item on one side of the mapping screen 1380. The point list 1310 may include information such as a name, a time, a unit of each point.

In the next column of the point list 1310, there is a link column 1320. The user may select a controller to map with a point in the controller viewpoint interface 1370 and then select a link cell.

When the link box selection is completed, the building management server maps the selected point and the controller through the link box and displays the point name 1330, the controller name 1360, and the like on the mapping screen. The point name 1330 may be automatically generated and displayed or received from a user. Point name 1330 may also be standardized according to the method shown in FIG. 15.

In the mapping screen 1380, there is a channel column 1350 for setting a channel for communication between the control point and the controller. Point information to which a specific channel is allocated to a controller of the controller viewpoint interface 1370 may be mapped in advance. When the user inputs a specific channel number in the channel field 1350, the building management server searches for the channels assigned to the controller in the controller database (1230 of FIG. 12) and the same channel number as the channel number input by the user already exists. Whether it is registered in the column 1340.

14 is a diagram illustrating an example flow of a method of mapping a point of interest and a controller using an equipment point of view interface.

Referring to FIG. 14, the building management server reads the equipment map stored in the equipment map database and displays it on the screen according to a user's request (S1400). When the user selects an item representing a specific device in the device map displayed on the screen, the building management server displays a list of points mapped to the item, and selects a point to be mapped to the controller from the user through the point list. (S1410).

When the building management server receives the controller selection from the user (S1420), the controller maps the selected control point to the controller (S1430), sets the name of the mapped control point (S1440), and then maps the mapping information of the control point to the database. Save (S1450).

FIG. 15 is a diagram illustrating an example of a method of generating a name of a control point mapped to a controller based on an equipment view interface.

Referring to FIG. 15, when the user clicks the “standardized” icon on the mapping screen of FIG. 13, the building management server is standardized by using unique identification information of a corresponding control point and unique identification information of equipment belonging to the control point. Create a name.

For example, the equipment name belonging to the control point that has clicked the "Standardization" button is "air conditioner No. 1", the equipment unique code is "2", the control point code "3", the channel number is "5", If the equipment name for equipment unique code '2' stored in the information table is 'AHU' and the control point name for control point '3' is 'DAMPER_OPEN', the building management server is set to "AHU (air conditioning unit 1) _DAMPER_OPEN_AI_5" Create a standardized name for and assign it to the appropriate point.

The method of generating a standardized name is not limited to the method described in FIG. 15, but may be any name that is generated in a standardized manner based on the name of the control point so that the user can easily identify which equipment the control point belongs to. There may be a method.

FIG. 16 is a diagram illustrating an example of using a control point generated using an equipment viewpoint interface, and FIG. 17 is a view illustrating an example of a method of changing a control point when a control point generated using the equipment viewpoint interface is changed. Drawing.

Referring to FIG. 16, the control point is registered as an object of the graphic interface, an input / output of control logic, a control target of a schedule, and the like, and is mapped to all targets that are monitored and controlled as described in FIG. 4. In case of the equipment point of view interface, a unique point code is generated based on the unique code of the equipment to which the control point belongs.

For example, a point of view code of an equipment consists of a combination of a device unique code and a point of unique code of a device. For example, if the equipment unique code is '111', the codes of the control points belonging to the equipment is set as 111-1, 111-2, the control point unique codes 111-1, 111-2 is shown in FIG. Mapped to objects of various applications.

Therefore, as shown in FIG. 17, when the mapping relationship of the control points is changed due to a change in the physical location of the controller, the user only needs to newly set the mapping relationship of the control points through the equipment view interface as shown in FIG. 13, and controls the object of the application. There is no need to modify the mapping relationship of the points again. In other words, the unique code of the mapped point at the application stage is not changed.

The invention may also be practiced by the execution of a computer program implemented in computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

The computer program recorded on the computer-readable recording medium may be transmitted to and installed in the second computing device from the first computing device via a network such as the Internet, thereby installing the second computing device. Can be used in The first computing device and the second computing device include both a server device, a stationary computing device such as a desktop PC, a mobile computing device such as a laptop, a smartphone, a tablet PC, and a wearable computing device such as a smart watch and smart glasses. do.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

Claims (13)

1. An equipment registration unit for receiving equipment information including a name of each equipment type through a graphic interface;

   A control point registration unit which receives the control point information on the type of equipment selected by the user from the equipment type list displayed on the screen through the equipment registration unit through a graphic interface; And

   It includes a equipment reference information database for mapping and storing the equipment information and the control point information received through the equipment registration unit and the control point registration unit,

   Building management server.
2. The method of claim 1,

   The equipment reference information database,

   To prevent duplication of registration for equipment containing the same point information by considering equipment including the same point information as the same kind of equipment,

   Building management server.
3. The method of claim 1,

   The point registration unit,

   Display the preset point list according to the type of equipment registered by the equipment registration unit on the screen through a graphical interface, and receive the user's selection of the cooking points or addition of the control points displayed on the point list from the user. To generate,

   Building management server.
4. An equipment reference information database for storing types of equipment in the building and control point information for each equipment;

   A display unit for displaying an equipment map composed of items representing equipment in a building;

   A mapping unit for setting types of equipment represented by each item of the equipment map by referring to the equipment reference information database; And

   Including a device map database for storing the device map,

   Building management server.
5. The method of claim 4, wherein

   A display unit for displaying a list of equipment types on the screen with reference to the equipment reference information database, and displaying an item of the equipment map on the screen;

   The mapping unit,

   Map the selected item and equipment type through the equipment map and equipment type list displayed on the screen.

   Building management server.
6. The method of claim 5,

   The display unit,

   Dividing a building into at least one physical space, and displaying an equipment map grouping items of equipment located in each physical space,

   Building management server.
7. A device map display unit for displaying a device map displayed by grouping devices in a building on a screen;

   A control point display unit for displaying a control point list on a screen selected by a user from the device map;

   A controller display unit for displaying a controller viewpoint interface on a screen; And

   And a link unit configured to store a mapping relationship between at least one control point selected through the control point list and a controller selected through the controller viewpoint interface in a database.

   Building management server.
8. The method of claim 7, wherein

   Further comprising a control point name generation unit for generating the selected at least one name of the control point in combination of the identification information of the equipment and the identification information of the control point,

   Building management server.
9. The method of claim 7, wherein

   Further comprising a channel input unit for receiving the channel information between the control point and the controller in a database,

   Building management server.
10. Displaying a device map formed by grouping each item representing devices in a building on a screen;

    Displaying a list of equipment types on a screen by referring to a equipment reference information database storing types of equipment in a building and control point information for each equipment type; And

    And storing the mapping relationship between the item selected through the device map and the device type selected through the device type list in a database.

    How to care for your building.
11. The method of claim 10,

    Displaying a list of control points mapped to the items of the equipment map; And

    The method may further include mapping and storing at least one or more points selected through the point list and a controller selected through a controller view interface.

    How to care for your building.
12. The method of claim 11,

    Generating a name of the control point mapped with the controller as a combination of identification information and control point identification information of the equipment to which the control point belongs,

    How to care for your building.
13. Displaying a device map formed by grouping each item representing devices in a building on a screen;

    Displaying a list of equipment types on a screen by referring to a equipment reference information database storing types of equipment in a building and control point information for each equipment type; And

    A computer-readable recording medium having recorded thereon a program for performing a step of storing, in a database, a mapping relationship between an item selected through the device map and a device type selected through the device type list.

Images