KR102311625B1 - Building Energy Management System Using Opening Platform Service and Method Thereof - Google Patents

Abstract

The present invention relates to a building energy management system and method using an open platform service, and a service module library including service module installation information for each of a plurality of service modules and a device library including device installation information for each of a plurality of devices Select and design at least one service module and at least one device to be installed for the library server and management target building including It includes a local server that checks the installation result of the device based on the installation report file according to the installation result, and can be applied to other embodiments.

Description

Building Energy Management System Using Opening Platform Service and Method Thereof

The present invention relates to a building energy management system and method using an open platform service.

Building Energy Management System (BEMS) is a computer-aided tool, and is used for monitoring equipment installed in a building, controlling equipment and optimizing equipment operation. Currently, most of the BEMS operations perform simple control and monitoring functions of overall equipment and energy management functions for energy saving. In order to perform these functions, a system for integrated management by connecting equipment such as a ventilation device, a cooling device, and a lighting device through a network is spreading.

However, since a plurality of conventional equipment operates differently depending on the type of product and manufacturer, it is difficult to systematically manage and control each of the plurality of equipment. In particular, equipment has a protocol related to a control method or a communication method for each product, and even if equipment performing the same function is manufactured by different manufacturers, it is difficult to integrate management because the protocols are different. In addition, even equipment manufactured by the same manufacturer may have different protocols depending on the version for each product, making it difficult to integrate management.

Korean Patent No. 10-1081990 (Registration Date 2011.11.03.)

Embodiments of the present invention for solving these conventional problems can more easily control a plurality of devices by installing a service module that operates in connection with the device regardless of the type and manufacturer of the plurality of devices installed in the building to be managed. It is to provide a building energy management system and method using an open platform service.

A building energy management system according to an embodiment of the present invention, a library server including a service module library including service module installation information for each of a plurality of service modules and a device library including device installation information for each of a plurality of devices; Select and design at least one service module and at least one device to be installed for a building to be managed, generate an installation instruction file according to the design completion, and when the installation of the device included in the installation instruction file is completed, according to the installation result It characterized in that it comprises a local server for checking the installation result of the device based on the installation report file.

In addition, the local server is characterized in that it executes the design manager according to the design start signal, and displays the drawing data for the management target building on the execution screen of the design manager.

In addition, the local server accesses the service module library through the design manager, downloads service module installation information for the at least one service module, and a device associated with the service module for the downloaded service module installation information. It is characterized in that the display information is set.

In addition, the local server accesses the device library through the design manager, selects at least one non-associated device not associated with the service module, downloads device installation information, and sets display information for the non-associated device characterized in that

In addition, the local server, when the driving state of the installed device is normal and the installation instruction file does not need to be modified, it is characterized in that the conversion of the installation instruction file and the installation report file.

In addition, the service module installation information is characterized in that it includes device installation information for the associated device.

In addition, in the building energy management method according to an embodiment of the present invention, the local server selects a design item to be installed in the management target building according to the design start signal and performs the design, and the local server instructs the installation when the design is completed generating a file, the local server calling the installation instruction file according to an installation start signal, the local server reporting an installation report when the installation of the design item in the management target building is completed based on the installation instruction file generating a file, the local server calling the installation report file according to the installation confirmation signal, and the local server confirming the installation result for the design item installed in the management target building. do.

In addition, the design item is characterized in that it includes at least one service module and at least one device.

In addition, performing the design includes the steps of: the local server executing the design manager according to the design start signal; and the local server displaying the drawing data for the management target building on the execution screen of the design manager. characterized by including.

In addition, after the step of displaying the drawing data, the step of the local server accessing the service module library to select the at least one service module, the step of the local server downloading the service module installation information for the selected service module and setting, by the local server, display information on at least one associated device associated with a service module for the downloaded service module installation information.

In addition, after the step of setting the display information, the local server accesses the device library and selects at least one non-associated device not associated with the service module, wherein the local server is a device for the selected non-associated device It characterized in that it further comprises the step of downloading installation information and the step of setting, by the local server, display information for the non-associated device.

In addition, the step of confirming the installation result is characterized in that the local server is a step of checking the operating state of the installed device according to the installation report file.

In addition, after confirming the installation result, if the driving state of the device is normal and the installation instruction file does not need to be modified, the method further includes converting and storing the installation instruction file and the installation report file. characterized in that

In addition, the service module installation information is characterized in that it includes device installation information for the associated device.

As described above, in the building energy management system and method using the open platform service according to the present invention, by installing a service module that operates in connection with the device regardless of the type and manufacturer of a plurality of devices installed in a building to be managed, a plurality of It is possible to control the device more easily, and there is an effect that the integrated management of a plurality of devices installed in the building to be managed is easy.

1 is a diagram of a building energy management system according to an embodiment of the present invention.
2 is a view showing a local server related to building energy management according to an embodiment of the present invention.
3 is a flowchart illustrating a method of designing a service module and a device in a building to be managed for building energy management according to an embodiment of the present invention.
4 is a flowchart illustrating a method of installing a service module and a device in a building to be managed for building energy management according to an embodiment of the present invention.
5 is a flowchart illustrating a method for confirming installation of a device installed in a management target building for building energy management according to an embodiment of the present invention.
6 is a graph showing the results of measuring the power consumption before and after the introduction of the building energy management system according to an embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION The detailed description set forth below in conjunction with the appended drawings is intended to describe exemplary embodiments of the present invention and is not intended to represent the only embodiments in which the present invention may be practiced. In order to clearly explain the present invention in the drawings, parts irrelevant to the description may be omitted, and the same reference numerals may be used for the same or similar components throughout the specification.

In an embodiment of the present invention, expressions such as “or” and “at least one” may indicate one of the words listed together, or a combination of two or more. For example, “A or B” or “at least one of A and B” may include only one of A or B, or both A and B.

1 is a diagram of a building energy management system according to an embodiment of the present invention.

Referring to FIG. 1 , the building energy management system 10 according to the present invention includes a library server 100 , a local server 200 , a DB server 300 , a data collection device 400 , and a service module operating device 500 . includes

The library server 100 is connected to a plurality of development devices (not shown) that develop service modules, and a service module library 110 for uploading service module installation information for service modules developed in the development device and a plurality of devices for manufacturing devices. of the manufacturer (not shown) includes a device library 120 for accessing and uploading device installation information for the device.

More specifically, the plurality of development devices is a device used by a developer who develops a service module that is a program capable of operating a device installed in a field such as a building, and may be a device such as a computer or a tablet PC (personal computer). In principle, a plurality of development devices develop service modules by observing the rules for service modules when developing service modules. In addition, a plurality of development devices can develop an operation service module that controls the operation of devices with operating rights for devices produced by a plurality of manufacturers as long as they comply with the rules for service modules, and can be acquired from devices installed in the field A monitoring service module that can provide monitoring functions such as noise monitoring between floors and power demand management can be developed based on the operation information.

The plurality of development devices transmits service module information about the developed service module to the service module library 110 . In this way, since the service module market (SM_market) can be formed by a plurality of development devices, there is an effect of providing an open environment in which more various types of service modules can be developed by breaking away from the conventional closed environment. .

The service module library 110 stores service module agreement information and service module information. The service module agreement information means information on the service module agreement that must be observed when creating a service module in a plurality of development devices forming the service module market. The service module information includes service module installation information for each service module developed in a plurality of development devices. The service module installation information is information including the service module installation file and the service module specification required to install the service module. In addition, when the service module is an operation service module, the service module information may additionally include device installation information for an associated device operating in connection with the service module. Conversely, when the service module is a monitoring service module, the service module information preferably does not include device installation information.

In addition, the service module library 110 checks whether the service module complies with the rules for the service module when receiving the service module information from the development device. The service module library 110 may store service module information on the service module in the service module library 110 by completing the authentication of the service module when the service module complies with the protocol.

A plurality of manufacturers means a producer who produces a device to be installed in the field, and may be a device such as a computer, a tablet PC (personal computer), or the like, in which the producer can input device installation information for the produced device. In principle, a plurality of manufacturers complies with device regulations when manufacturing devices. To this end, the device library 120 stores device agreement information about the device agreement. In this way, as long as the device manufacturer complies with the rules during device production, the service module operating apparatus 500 may control the operation of the device installed in the field using the service module. Accordingly, the present invention has the effect of forming and providing a more open device market (DEV_market) capable of producing various types of devices.

The device library 120 stores device installation information for each device produced by a plurality of manufacturers. The device installation information means information including the type, name, unique number, and specification of the device. In addition, the device library 120 checks whether the device produced based on the device agreement information complies with the device agreement according to the type of device upon receiving the device installation information from the manufacturer. The device library 120 may store device installation information for the device in the device library 120 by completing authentication of the device when the device complies with the protocol.

The local server 200 is used by a designer for designing a design item including at least one service module and at least one device to be installed in a building to be managed and an installer who installs at least one device in a building to be managed according to the design. As the device, it may be a device such as a computer or a tablet PC (personal computer). When the design of the design item is completed, the local server 200 generates an installation instruction file. In addition, the local server 200 generates an installation report file when the installation of the device is completed according to the installation instruction file. The local server 200 checks the installation result of the device based on the installation report file, and converts the installation instruction file and the installation report file to a standardized format based on the confirmation result and converts the generated design file to the DB server 300. send. A detailed description of the local server 200 will be described with reference to FIG. 2 below.

The DB server 300 receives the design file from the local server 200 . The DB server 300 communicates with the data collection apparatus 400 to communicate with the first device 410 to the third device 430, which is a device connected to the data collection apparatus 400 from the data collection apparatus 400. Receive and save installation information. The DB server 300 transmits service module installation information to the service module operating device 500 by communicating with the service module operating device 500 . In this case, the DB server 300 may transmit service module installation information for the service module included in the stored design file to the service module operating device 500 .

The DB server 300 receives information about the operation status, that is, the operation of the first device 410 to the third device 430 connected to the data collection apparatus 400 through communication with the data collection apparatus 400, This is transmitted to the service module operating device (500). Also, the DB server 300 receives a control signal for controlling the operation of the device from the service module operating device 500 and transmits it to the data collection device 400 .

The data collection device 400 is connected to a device installed in a management target building according to the design and installation of the local server 200, and is a device for checking the operating state of the device, such as a computer, a tablet PC (personal computer), a smart phone, etc. may be a device of In addition, the device may refer to devices such as sensors, measuring equipment, electronic products, and home appliances.

The first device 410 to the third device 430 installed in the management target building and connected to the data collection apparatus 400 are devices produced by a plurality of manufacturers in compliance with the regulations, and are related to the devices in the device library 120 . Device installation information may be stored. When the connection of the device is confirmed, the data collection apparatus 400 checks the device installation information stored in the device and transmits it to the DB server 300 . The data collection apparatus 400 checks the operation state of the device, that is, the operation in real time or periodically, and transmits information about the operation to the DB server 300 . In addition, the data collection apparatus 400 may control to change the operation state of the device based on the control signal generated by the service module operation apparatus 500 through the DB server 300 .

The service module operating device 500 is a device for receiving, installing and executing service module installation information for the service module from the service module library 110 or the DB server 300, a computer, a tablet PC (personal computer), a smart It may be a device such as a phone. The service module operating apparatus 500 generates a control signal for operation and management of the device based on the information on the operation of the device received from the DB server 300 and transmits it to the DB server 300 or for the operation of the device. You can monitor the information and display the monitoring results.

To this end, the service module operating device 500 may receive service module installation information for the service module included in the design file from the DB server 300 . In this way, the service module operating device 500 installs the service module using the design file stored in the DB server 300 . Therefore, the operator using the service module operating device 500 can effectively perform building energy management according to the design intention of the designer who designed the service module and device for building energy management in the local server 200 .

For example, if the design file includes service module installation information for each of the first service module 510 and the second service module 520 , the service module operating device 500 receives the service module installation information from the DB server 300 . After receiving and installing the service module, at least one of the first service module 510 and the second service module 520 is executed. In this case, the first service module 510 may be an operation service module capable of operating the corresponding device in connection with the first device 410 , the second device 420 and the third device 430 , and the second service The module 520 may be a monitoring service module without a separate associated device.

When the service module operating apparatus 500 executes the first service module 510, the first device 410 to the third device 430 included in the service module information related to the first service module 510, respectively. Device installation information is automatically called. Through this, the service module operating apparatus 500 sends the first to third devices to the first service module 510 to control the first to third devices 410 to 430 using the first service module 510 . It is possible to provide the convenience of not having to separately designate the device installation information of (410 to 430). In addition, the service module operating device 500 may directly access the service module library 110 to install a service module not included in the design file to receive and install the service module installation information.

The service module operating device 500 receives, through the DB server 300 , information on the operation of the device obtained from the data collection device 400 after the service module is executed. For example, the service module operating apparatus 500 executes the first service module 510 to generate a control signal for controlling the first device 410 to the third device 430 and transmits the generated control signal to the DB server ( 300) to the first to third devices 410 to 430 connected to the data collection apparatus 400, and control the operation of the corresponding device. In addition, the service module operating apparatus 500 receives, through the DB server 300 , information on the operation of the device acquired by the data collection apparatus 400 after executing the second service module 520 . The service module operating apparatus 500 may display the monitoring result generated by monitoring information on the operation of the device using the service module. In this case, the information on the operation of the device that can be checked in the second service module 520 may be a device selected by the service module operating apparatus 500 from among the devices installed in the management target building.

In addition, the administrator of the service module operating apparatus 500 may change a device designed and installed by the local server 200 or add a separate device. In this way, when a variable device occurs, the data collection apparatus 400 checks the installation information for the variable device and transmits it to the DB server 300, and the DB server 300 changes based on the installation information for the variable device. Service module installation information related to the device may be transmitted to the service module operating apparatus 500 . For example, when the service module operating apparatus 500 can control the variable device using the first service module 510 , it may operate and manage the variable device using the first service module 510 .

Conversely, when it is impossible to control the variable device using the first service module 510 , the service module operating apparatus 500 provides service module installation information for the service module capable of controlling the variable device from the service module library 110 . receive The service module operating apparatus 500 may install and execute a service module capable of controlling a variable device by using the received service module installation information.

2 is a view showing a local server related to building energy management according to an embodiment of the present invention.

Referring to FIG. 2 , the local server 200 according to the present invention includes a communication unit 210 , an input unit 220 , a display unit 230 , a memory 240 and a control unit 250 , and the control unit 250 is designed It includes a management unit 251 , an installation management unit 252 , and a result confirmation unit 253 .

The communication unit 210 performs communication with the library server 100 and the DB server 300 . To this end, the server communication unit 210 may perform wireless communication such as 5G (5 ^th generation), LTE (long term evolution), LTE-A (long term evolution-advanced), Wi-Fi (wireless fidelity) .

The input unit 220 generates input data in response to input of a user of the local server 200, for example, a designer and an installer. To this end, the input unit 220 may include an input device such as a keyboard, a mouse, a keypad, a dome switch, a touch panel, a touch key, and a button.

The display unit 230 outputs output data according to the operation of the local server 200 . To this end, the display unit 230 includes a liquid crystal display (LCD), a light emitting diode (LED) display, an organic light emitting diode (OLED) display, and a micro electro mechanical system (MEMS). systems) displays and electronic paper displays. The display unit 230 may be combined with the input unit 220 to be implemented as a touch screen.

The memory 240 stores operation programs of the local server 200 . The memory 240 may design a management target building, store an installation result input and a design manager capable of confirming an installation result, and store drawing data for the management target building. The memory 240 stores an installation instruction file generated by the design manager, an installation report file, and a design file converted from the installation instruction file and the installation report file.

The control unit 250 designs a design item to be installed in a management target building, and generates an installation instruction file when the design is completed. When the installation of the device is completed according to the installation instruction file, the control unit 250 generates an installation report file. The control unit 250 checks whether the device is properly installed in the building to be managed based on the installation report file and whether the installed device operates properly. The control unit 250 converts the installation instruction file and the installation report file according to the standardized format according to the confirmed installation result, and then transmits the converted design file to the DB server 300 . To this end, the control unit 250 includes a design management unit 251 , an installation management unit 252 , and a result confirmation unit 253 .

When an execution signal for the design manager is received from the input unit 220 , the controller 250 executes the design manager stored in the memory 240 . The control unit 250 calls the design management unit 251 when a designer for designing a design item in a management target building logs in to the design manager. The design management unit 251 calls the drawing data for the management target building stored in the memory 240 according to the signal received from the input unit 220 .

The design management unit 251 connects to the service module library 110 included in the library server 100 through the design manager according to the input of the input unit 220 . After accessing the service module library 110 , the design management unit 251 receives and displays a list of a plurality of service modules stored in the service module library 110 . The design management unit 251 selects a service module to be installed in the management target building from the service module list according to the input of the input unit 220 , and receives service module installation information for the selected service module from the service module library 110 . . In this case, the service module installation information may include a program name of the service module, and device installation information for an associated device that is operated in conjunction with the service module for normal operation of the service module when the service module is executed and can be operated in the service module. . In addition, the design management unit 251 arranges the associated device at a location selected in the drawing data according to the input of the input unit 220, and links when information provided by the associated device, for example, information such as temperature, humidity, illuminance, etc. to be displayed. You can set display information such as device name, display window type, display method, and standard of written characters.

The design management unit 251 accesses the device library 120 included in the library server 100 through the design manager according to the input of the input unit 220 . After accessing the device library 120 , the design management unit 251 receives and displays a plurality of device lists stored in the device library 120 . The design management unit 251 selects a device to be installed in the management target building from the device list according to the input of the input unit 220 , and receives device installation information for the selected device from the device library 120 . In this case, a device separately searched for in the device library 120 may be an unassociated device that is not associated with a service module. The design management unit 251 places the unassociated device at a location selected in the drawing data according to the input of the input unit 220 and displays information provided by the unassociated device, for example, temperature, humidity, illuminance, etc. You can set the display information such as the name of the connected device, the display window type, the display method, and the standard of the written characters. In this case, the device installation information means information including the type, name, unique number, and specification of the device.

When the design completion signal of the design item for the building to be managed is received from the input unit 220 , the design management unit 251 generates an installation instruction file for the design item and stores the generated installation instruction file in the memory 240 . In this case, the installation instruction file may include service module installation information and device installation information downloaded from the library server 100 .

When an execution signal for the design manager is received from the input unit 220 , the controller 250 executes the design manager stored in the memory 240 . The control unit 250 calls the installation management unit 252 when an installer for installing a device in a management target building logs in to the design manager. The installation management unit 252 calls and displays the installation instruction file. The installer installs the device in the management target building according to the installation instruction file, and inputs a signal for this to the input unit 220 .

When an installation completion signal is received from the input unit 220 indicating that the device has been installed in the same manner as the installation instruction file, the installation management unit 252 generates an installation report file and stores it in the memory 240 . At this time, the installation report file stores information according to the installation result of the device, and the information according to the installation result is a field photo including setting information for communication between the device and the data collection apparatus 400 after the device is installed and the installation location of the device. It may include information such as

Conversely, the installation management unit 252 generates an installation report file according to the installation prohibition signal when an installation disabling signal is received from the input unit 220 indicating that the device cannot be installed in the same manner as the installation instruction file. The installation management unit 252 may generate an installation report file including information about a case in which the on-site state of the management target building is different from the installation instruction file or the installation of the device is impossible according to the input of the input unit 220 . The installation management unit 252 may store the installation report file generated according to the installation disabling signal in the memory 240 so that the designer can check it, and the designer may modify the installation instruction file by checking the installation report file.

When an execution signal for the design manager is received from the input unit 220 , the controller 250 executes the design manager stored in the memory 240 . After the installation report file is generated by the installation management unit 252 , the controller 250 calls the result confirmation unit 253 when the designer logs in to the design manager to check the installation result of the device. The result check unit 253 calls the installation report file according to the designer's input, and confirms whether the device is properly installed at the correct location in the building to be managed, and whether the installed device operates properly.

Then, as a result of the confirmation of the result confirmation unit 253, if there is no need to modify the design of the installed device, the installation instruction file and the installation report file are converted according to a prescribed format to generate a design file. The result check unit 253 stores the generated design file in the memory 240 and transmits it to the DB server 300 .

Conversely, if the result confirmation unit 253 requires design modification of the device, the result confirmation unit 253 corrects the installation instruction file according to the design correction signal input from the input unit 220 . The result confirmation unit 253 generates a design file by converting the modified installation instruction file and the modified installation report file according to the modified installation instruction file. The result check unit 253 may store the design file in the memory 240 and transmit it to the DB server 300 .

3 is a flowchart illustrating a method of designing a service module and a device in a management target building for building energy management according to an embodiment of the present invention.

Referring to FIG. 3 , when a design start signal for a design item to be installed in a management target building is received from the input unit 220 in step 301, the design management unit 251 of the control unit 250 performs step 303, and the design start signal is If it is not received, it waits for the reception of the design start signal. In this case, the design start signal may be a signal for executing the design manager stored in the memory 240 , and the design item may include at least one service module and at least one device. Also, the design management unit 251 may be configured to be called when a designer for designing a design item in a management target building logs in to the design manager.

In step 303 , the design management unit 251 executes the design manager according to the design start signal and performs step 305 . In step 305 , the design management unit 251 calls the drawing data for the management target building according to the signal received from the input unit 220 . To this end, the drawing data may be stored in the memory 240 .

Next, in step 307, the design management unit 251 searches for and selects a service module to be installed in the management target building based on the drawing data, and then performs step 309. In step 309, the design management unit 251 downloads service module installation information for the selected service module. More specifically, the design management unit 251 accesses the service module library 110 included in the library server 100 through the design manager. After accessing the service module library 110 , the design management unit 251 checks and displays a list of a plurality of service modules stored in the service module library 110 . The design management unit 251 selects a service module to be installed in the management target building from the service module list, and receives service module installation information for the selected service module from the service module library 110 . At this time, if the service module is an operating service module, the design management unit 251 operates in conjunction with the service module for normal operation of the service module and receives device installation information for a connected device that can be operated in the service module together with the service module installation information. can do. In addition, the design management unit 251 arranges the associated device at a location selected in the drawing data according to the input of the input unit 220, and links when information provided by the associated device, for example, information such as temperature, humidity, illuminance, etc. to be displayed. You can set display information such as device name, display window type, display method, and standard of written characters.

In step 311, the design management unit 251 searches for and selects a device to be installed in the management target building based on the drawing data, and then performs step 313. In step 313, the design management unit 251 downloads device installation information for the selected device. More specifically, the design management unit 251 accesses the device library 120 included in the library server 100 through the design manager. After accessing the device library 120 , the design management unit 251 checks and displays a plurality of device lists stored in the device library 120 . The design management unit 251 selects a device to be installed in the management target building from the device list, and receives device installation information for the selected device from the device library 120 . In this case, the device searched for in step 311 may be an unassociated device that is not associated with the service module installed in step 309 . The design management unit 251 sets display information such as the name of the non-associated device, the display window shape, the display method, and the standard of the displayed characters when displaying information provided by the non-associated device, for example, temperature, humidity, illuminance, etc. can In this case, the device installation information means information including a device type, name, unique number, specification, and the like.

In step 315, the design management unit 251 performs step 317 when it is confirmed from the input unit 220 that the design of the design item for the building to be managed is complete, and returns to step 307 when design completion is not confirmed, and steps 307 to 313 The steps can be redone. In step 317, the design management unit 251 checks whether a design start signal is received for a building other than the management target building. As a result of checking in step 317, if a design start signal for another building is received, the process returns to step 305, and if a design start signal for another building is not received, step 319 is performed. In step 319 , the design management unit 251 checks that the design is complete, generates an installation instruction file for the design item, and stores the generated installation instruction file in the memory 240 . In this case, the installation instruction file may include service module installation information and device installation information downloaded from the library server 100 .

4 is a flowchart illustrating a method of installing a service module and a device in a building to be managed for building energy management according to an embodiment of the present invention.

Referring to FIG. 4 , in step 401 , the installation management unit 252 of the control unit 250 checks whether an installation start signal for installing a device in a management target building is received from the input unit 220 . In this case, the design start signal may be a signal for executing the design manager stored in the memory 240 .

In step 403 , the installation management unit 252 executes the design manager according to the installation start signal and performs step 405 . In step 405, the installation management unit 252 calls the installation instruction file generated in FIG. In this case, the design manager called by the design management unit 251 as shown in FIG. 3 and the design manager called by the installation management unit 252 as shown in FIG. 4 are the same design manager. However, the installation management unit 252 is a configuration that is called when an installer who installs a device in a building to be managed logs in to the design manager, and the installer cannot modify the installation instruction file designed by the designer.

In step 407, the installation management unit 252 performs step 411 when an installation disabling signal notifying that the installation of the device is impossible is received from the input unit 220 in the same way as the installation instruction file, and when the installation disabling signal is not received, step 409 carry out In this case, the installation impossible signal may be input by the installer when the site state of the management target building is different from the installation instruction file or the installation of the device is impossible. In step 411, the installation management unit 252 generates an installation report file according to the installation impossible signal.

Conversely, if the installation prohibition signal is not received, the installation management unit 252 checks whether the installation completion signal is received through the input unit 220 in step 409 . In step 409, when the installation completion signal is received, the installation management unit 252 performs step 411, and if the installation completion signal is not received, waits for the reception of the installation completion signal. In step 411, the installation management unit 252 generates and stores the installation report file according to the installation completion signal. At this time, the installation report file stores information according to the installation result of the device, and the information according to the installation result is a field photo including setting information for communication between the device and the data collection apparatus 400 after the device is installed and the installation location of the device. including information such as

5 is a flowchart illustrating a method for confirming installation of a device installed in a management target building for building energy management according to an embodiment of the present invention.

Referring to FIG. 5 , in step 501 , the result check unit 253 of the control unit 250 performs step 503 when an installation confirmation signal is received from the input unit 220 . In this case, the installation confirmation signal may be a signal for executing the design manager to confirm whether the device is properly installed in the building to be managed and whether the installed device operates properly.

In step 503, the result confirmation unit 253 executes the design manager according to the installation confirmation signal and performs step 505. In step 505, the result check unit 253 calls the installation report file generated in FIG. In step 507 , the result check unit 253 performs step 511 when a signal indicating that the device needs design modification is received from the input unit 220 , and performs step 509 when a signal indicating that design modification of the device is not received is not received do. In step 511, the result check unit 253 converts the installation instruction file and the installation report file and performs step 513. In step 513 , the result check unit 253 may store the converted design file in the memory 240 and transmit it to the DB server 300 .

In addition, the result check unit 253 may be a configuration that is called when the designer logs in to the design manager. More specifically, the designer calls the installation report file by executing the design manager. The designer checks the information according to the installation result included in the installation report file, and if there is a problem with the device installation or if it is determined that the design of the design item needs to be modified, a signal indicating the need for design modification is input through the input unit 220. can

Subsequently, in step 509 , the result confirmation unit 253 revises the installation instruction file according to the design correction signal input through the input unit 220 , and performs step 511 . In step 511, the result confirmation unit 253 converts the modified installation instruction file and the modified installation report file according to the modified installation instruction file, and performs step 513. In step 513 , the result check unit 253 may store the modified installation instruction file and the converted design file in the installation report file in the memory 240 and transmit it to the DB server 300 . At this time, the result confirmation unit 253 may convert the installation instruction file and the installation report file according to a prescribed format. In addition, in the exemplary embodiment of the present invention, the local server 200 and the DB server 300 are described as separate configurations, but the local server 200 and the DB server 300 may be configured as one configuration.

6 is a graph showing the results of measuring power consumption before and after the introduction of the building energy management system according to an embodiment of the present invention. The results of measuring the power consumption before and after the introduction of the building energy management system using the open platform service as shown in FIG. 1 can be shown in FIG. 6 .

As shown in FIG. 6, in the case of January to April and October to December, it can be seen that the electricity consumption was reduced by 40% to 60% through the introduction of the building energy management system, and in May, June, and September In this case, it can be seen that the power consumption decreased by 20% to 40%, and in July and August, it can be confirmed that the power consumption decreased by 0% to 20%. As described above, there is an effect that can significantly reduce the power consumption used in the management target building through the introduction of the building energy management system according to the present invention.

Embodiments of the present invention disclosed in the present specification and drawings are merely provided for specific examples in order to easily explain the technical contents of the present invention and help the understanding of the present invention, and are not intended to limit the scope of the present invention. Therefore, the scope of the present invention should be construed as including all changes or modifications derived based on the technical spirit of the present invention in addition to the embodiments disclosed herein are included in the scope of the present invention.

Claims (14)

a library server including a service module library including service module installation information for each of a plurality of service modules and a device library including device installation information for each of a plurality of devices; and
At least one service module and at least one device to be installed in the management target building are selected and designed, an installation instruction file is generated according to the design completion, and when the installation of the device included in the installation instruction file is completed, installation according to the installation result a local server that generates a report file and checks whether the device is installed and a driving state of the device according to the installation report file;
Building energy management system comprising a. According to claim 1,
The local server is
A building energy management system, characterized in that the design manager is executed according to the design start signal, and the drawing data for the management target building is displayed on the execution screen of the design manager. 3. The method of claim 2,
The local server is
Access the service module library through the design manager to download service module installation information for the at least one service module, and set display information for a device linked to a service module for the downloaded service module installation information Building energy management system, characterized in that. 4. The method of claim 3,
The local server is
A building, characterized in that by accessing the device library through the design manager, selecting at least one non-associated device not linked to the service module, downloading device installation information, and setting display information for the non-associated device energy management system. 5. The method of claim 4,
The local server is
If the driving state is normal and the installation instruction file does not need to be modified, the design file is generated by converting the installation instruction file and the installation report file. 4. The method of claim 3,
The service module installation information is
Building energy management system, characterized in that it includes device installation information for the associated device. performing a design by selecting, by a local server, a design item including at least one service module and at least one device to be installed in a management target building according to a design start signal;
generating, by the local server, an installation instruction file when the design is completed;
calling the installation instruction file according to the installation start signal by the local server;
generating, by the local server, an installation report file when the installation of the at least one device included in the installation instruction file is completed;
calling the installation report file according to the installation confirmation signal by the local server; and
checking, by the local server, a driving state of the at least one device installed in the management target building according to the installation report file;
Building energy management method comprising a. 8. The method of claim 7,
The design item is
A building energy management method comprising at least one service module and at least one device. 9. The method of claim 8,
Performing the design step is,
executing, by the local server, a design manager according to the design start signal; and
displaying, by the local server, drawing data for the management target building on the execution screen of the design manager;
Building energy management method comprising a. 10. The method of claim 9,
After displaying the drawing data,
selecting, by the local server, the at least one service module by accessing the service module library;
downloading, by the local server, service module installation information for the selected service module; and
setting, by the local server, display information on at least one associated device associated with a service module for the downloaded service module installation information;
Building energy management method, characterized in that it further comprises. 11. The method of claim 10,
After the step of setting the display information,
selecting, by the local server, at least one non-associated device not associated with the service module by accessing the device library;
downloading, by the local server, device installation information for the selected non-associated device; and
setting, by the local server, display information for the non-associated device;
Building energy management method, characterized in that it further comprises. delete 8. The method of claim 7,
After confirming the driving state of the at least one device,
generating a design file by converting the installation instruction file and the installation report file when the driving state is normal and the installation instruction file does not need to be modified;
Building energy management method, characterized in that it further comprises. 11. The method of claim 10,
The service module installation information is
Building energy management method comprising device installation information for the associated device.

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