KR20100113686A - Demand-based real time energy monitoring and management system - Google Patents

Abstract

PURPOSE: A system for managing a real time energy through monitoring is provided to monitor energy which consumed in a building according to a user by synchronizing each sensor, thereby most effectively managing the energy. CONSTITUTION: An energy management system comprises next. A data processing server(110) receives data collected in a data collection device. The data processing server processes the received data as data requesting energy management. A web server(130) provides the processed data to a user through a predetermined web browser type.

Description

Demand-based real time energy monitoring and management system

The present invention relates to a real-time energy management system through monitoring, and more particularly, by synchronizing the sensors for electricity, water, gas, cooling, heating, etc. by monitoring the energy consumed in the building by use and data and analysis By supplying, the present invention relates to a real-time energy management system through monitoring that can manage energy most efficiently.

In recent years, with the modernization of the facilities of buildings, automatic control systems for automatically controlling sub-systems such as air conditioning, disaster prevention, and security facilities installed in buildings, power, lighting, and heating and cooling have been spreading. The development of a building management system that can integrate and manage the system is being actively developed.

However, the conventional building management system has many problems as follows.

First, the conventional building management system measures the electricity, gas, temperature, and flow rate used for each single building, and provides each manager with data. And as such data are limited to a single building, they cannot be understood even in the situation of integrated management of a group of buildings in an area or area.

Second, conventional building management systems produce and utilize renewable energy, such as recovering energy from used and discarded wastewater or raw water (unprocessed groundwater or tap water) because each system is operated and managed separately. Even if you want to combine the system is not possible.

Third, the conventional building management system has a problem in that the number and type of sensors are inevitably increased because the sensor is installed for each facility installed in the building, and unnecessary installation cost and maintenance cost are excessive.

Fourth, since sensors and various devices installed in the conventional building management system are intended for the maintenance of the equipment, not for the purpose of energy management, there are not only data differences in actual usage, but also the measured data are not stored. As a result, it is impossible to analyze past data and predict and manage future energy consumption.

The present invention has been made in order to solve the above problems, the object of the present invention, by synchronizing the respective sensors for electricity, water, gas, cooling, heating, etc. by monitoring the energy consumed in the building by use and data and analysis In order to provide a real-time energy management system through monitoring that can efficiently manage energy.

Another object of the present invention is to provide a real-time energy management system through monitoring that can reduce the sensor installation cost by installing the sensor by energy use, rather than by installing the sensor for each facility in the building.

Still another object of the present invention is to provide a real-time energy management system through monitoring, which can predict and manage future energy consumption by storing and analyzing measured data.

In order to solve the above problems, a real-time energy management system through monitoring according to the present invention is connected through a network to measure the amount of energy generated and consumed in a managed building including an energy regeneration facility, an energy measuring sensor, and a communication device. Applied to an energy management system, a building to be managed is provided with a data collection server for receiving data detected by the energy measuring sensor and transmitted through the communication device, and the energy management system is collected by the data collection device. A data processing server for receiving the processed data and processing the data into data required for energy management; And a web server for providing the processed data from the data processing server to the user through a predetermined web browser format.

The energy management system further includes a data analysis and diagnosis server for analyzing and diagnosing data processed from the data processing server, and information analyzed and diagnosed from the data analysis and diagnosis server is provided to the web server. .

Preferably, the data analysis and diagnostic server is configured to determine whether there is an abnormality with respect to the analyzed and diagnosed information, and further provide an alarm message to the web server when it is determined that the abnormality is detected, the energy recovery facility and the energy measurement sensor power line communication ( Connected to the communication device via a PLC), the energy measuring sensor comprises at least one of a meter, a flow meter, a thermometer and a gas flow meter, and the analysis and diagnostic server statistics the energy currently consumed in the building by synchronizing the measuring sensor. To provide it to the user.

Preferably, the analysis and diagnostic server analyzes the energy consumption by area, energy consumption by usage, energy consumption by type, energy consumption pattern, etc. for each target building based on the information of the target building input to the management system, and analyzes the result of the analysis. The energy management system is provided to the web server, and the energy management system is configured to store data generated from the data processing server and the analysis and diagnosis server in a database for use in predicting future energy demand.

The real-time energy management system through the monitoring according to the present invention having the above characteristics, not only can grasp the total energy consumed in the managed building, but also easily manages all the buildings managed in the building group of the region or region through a web browser. In this way, integrated energy management is possible by providing users with the energy and energy consumed from renewable energy facilities.

In addition, the real-time energy management system through the monitoring of the present invention can reduce the sensor installation cost by installing the sensor for each energy use, instead of installing the sensor for each facility installed in the building as in a conventional building management system, and measured data By analyzing and storing it in a database, data stored in the database can be used to predict and manage future energy consumption.

Hereinafter, a real-time energy management system through monitoring according to the present invention will be described with reference to the accompanying drawings.

1 is a view showing a schematic configuration of a real-time energy management system according to the present invention. As shown in FIG. 1, the real-time energy management system according to the present invention has a configuration in which a plurality of managed buildings 200a to 200d are connected to the management center 100 through a network or the like.

Each of the plurality of management target buildings 200a to 200d includes a plurality of energy regeneration facilities 214 and 234, energy measurement sensors 211 to 213, 221 to 223, and 231 to 233, as shown in FIG. 2. Communication devices (210, 220, 230, 240).

Specifically, the communication device (210, 220, 230) may be a router for routing to the data collection server 290 for collecting data output from the sensor, the first group of energy measuring sensor represented by PS in the figure Reference numerals 211, 212, and 213 are installed to measure and provide, for each purpose, energy required for lighting, mechanical equipment, electronic equipment, and heating / heating using electrical energy. For example, the measurement sensor 211 may be installed to measure the power used for lighting, the measurement sensor 212 may be installed to measure the power used for mechanical equipment, and the measurement sensor 213 may be cold Can be installed according to the energy flow to measure the power used for heating, etc.

In addition, the second group of energy measurement sensors 221, 222, and 223 indicated by GS in FIG. 2 are installed to measure and provide energy required for hot water supply, hot water, cooling and heating using gas energy, and the like. The third group of energy measurement sensors 231, 232, and 233, denoted by BS, may be installed to measure and provide for each thermal energy application required for hot water supply and hot water using thermal energy, and the like, as indicated by MS in the figure. 243 may be further included. In this case, current weather information such as temperature, humidity, and air volume measured from the weather sensor 243 may be acquired. Although not shown, a flow rate measuring sensor for acquiring the amount of use of the tap water may be further provided.

These energy measurement sensors 211 to 213, 221 to 223, 231 to 233, and the weather sensor 243 are connected to the communication devices 210, 220, 230, and 240 through dedicated line lines or power line lines. The detection values detected from the energy measuring sensors 211 to 213, 221 to 223, and 231 to 233 and the weather sensor 243 belonging to the first to third groups are communication devices 210 and 220 corresponding to the respective groups. It is transmitted to the data collection server 290 installed in the building to be managed through, 230, 240. In this case, the energy measuring sensors used are electronic flow meters, digital wattmeters, or energy meters capable of dedicated line communication or PLC communication, and transmit the data to the data collection server 290 through a communication device.

In the case of using a conventional analog sensor as it is, a converter for converting an analog signal into a data signal is provided on the output side of the sensor, and the data output from the converter is configured to be transmitted to the data collection server 290 through a network. It may be.

The data collection server 290 stores the raw data transmitted from the communication devices 210, 220, 230, and 240 in its own storage device and accesses it to a management center connected through the Internet based on the TCP / IP protocol. 100).

FIG. 3 illustrates an apparatus installed in the management center 100. The energy management system includes a data processing server for receiving data collected by the data collection server 290 and processing the data for each purpose into data required for energy management. 110, a data analysis and diagnostic server 120 for analyzing and diagnosing the processed data from the data processing server 110, and data acquired from the data processing server 110 and the data analysis and diagnostic server 120. It includes a web server 130 for providing to a user through a predetermined web browser format.

The data processing server 110 processes the raw data transmitted from the data collection server 290 into data in a form suitable for energy management of the present invention and provides the data analysis and diagnostic server 120 and / or the web server 130. do. In this case, the data processing server 110 subdivids and tabulates the raw data received from the data collection server 290 into usages, types, monthly, time zones, specific areas, and the like, and analyzes and tabulates the data. ), And may be configured to store the processed data in its own database (111).

The data analysis and diagnosis server 120 analyzes the energy consumption by area, energy consumption by use, energy consumption by type, energy consumption pattern, etc., for each building based on processed data or data tables transmitted from the data processing server 110. And provide the analyzed result to the web server 130. At this time, it is preferable to store the basic information about the area of the target building in advance in the data analysis and diagnosis server 120.

In addition, the data analysis and diagnosis server 120, in the analyzed and diagnosed information, the excessive amount of energy consumption provided by the use or type, etc. than usual, or abnormal events such as when exceeding a certain amount of use, the web server By notifying 130, a user connected to a web server can more easily manage energy in a target building and the like, and the data analysis and diagnosis server 120 further analyzes each of the target buildings. And a database 121 for storing the diagnosed information. Preferably, the database 121 may be configured to mail a report to an administrator or an expert group by creating a report on the analyzed result.

[Table 1] and [Table 2] shows the calculation formula of the energy instantaneous value and cumulative value in the buildings to be managed by applying the energy management system according to the present invention.

TABLE 1

TABLE 2

As described above, the data analysis and diagnosis server 120 stores data such as energy instantaneous values and cumulative values for each of the buildings to be managed in the database 121 as shown in [Table 1] and [Table 2]. It may be configured to calculate and store in real time and provide it to the web server 130.

4 to 6 illustrate embodiments of a screen interface provided when an administrator or a user accesses the web server 130 through a web browser. The web server 130 receives the necessary data from the data processing server 110 and / or the data analysis and diagnostic server 120 and provides the requested information when the user requests it through the web browser, as described above. do. The raw data received from the data collection server 290 in the data processing server 110 is divided into data by use, type, month, time zone, specific area, and the like to the data analysis and diagnosis server 120. As the processed data is stored in its own database 111 as well as transmitted, the administrator or user can monitor the energy used by usage, type, and area through a web browser, thereby increasing efficiency in energy management. have.

7 is a configuration for remotely controlling an energy facility within a specific management target building after a manager accesses a web server 130 using an external terminal 150 in a real-time energy management system through monitoring according to the present invention. As shown in the drawing, a control server 295 is installed in a building to be managed, and the control server 295 is coupled to a terminal to be controlled through a power line or a dedicated line. After the user is authorized through the normal authentication procedure (login) to the web server 130, the user can access the control server 295 through a control function provided on the web browser, and access the control server 295. Afterwards, the respective devices may be controlled through control software installed in the control server 295.

The above description is merely illustrative of the technical details of the present invention, and those skilled in the art to which the present invention pertains may various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1 is a view showing a schematic configuration of a real-time energy management system through monitoring according to the present invention.

FIG. 2 is a view schematically showing devices in a managed building of a real-time energy management system through monitoring according to the present invention.

3 is a view schematically showing devices installed in a management center in a real-time energy management system through monitoring according to the present invention.

4 is a diagram illustrating an embodiment of a user interface provided through a web browser.

5 is a diagram illustrating another embodiment of a user interface provided through a web browser.

6 is a diagram illustrating another embodiment of a user interface provided through a web browser.

FIG. 7 is a diagram schematically illustrating devices controlled by a control server and a control server in a management target building of a real-time energy management system through monitoring according to the present invention.

  ** Description of symbols for the main parts of the drawing **

100; Management Center

110: data processing server

120: data analysis and diagnostic server

130: web server

210, 220, 230, 240: communication device

214, 234: energy recovery facilities

290: Data Collection Server

Claims (9)

In a real-time energy management system through monitoring connected via a network to measure the production and consumption of energy in a managed building having an energy regeneration facility, an energy measuring sensor and a communication device, The management target building is provided with a data collection server for receiving data detected by the energy measuring sensor and transmitted through the communication device, The energy management system, A data processing server for receiving data collected by the data collection device and processing the data collected into data required for energy management; A web server for providing the processed data from the data processing server to a user through a predetermined web browser format; Including; The energy measurement sensor is a real-time energy management system through monitoring, characterized in that at least one of a meter, a flow meter, a thermometer, a gas flow meter. The method of claim 1, The energy management system further includes a data analysis and diagnostic server for analyzing and diagnosing data processed from the data processing server, The information analyzed and diagnosed from the data analysis and diagnosis server is provided to the web server, real-time energy management system through monitoring. The method of claim 2, The data analysis and diagnostic server, the real-time energy management system through the monitoring, characterized in that for determining the abnormality with respect to the analyzed and diagnosed information, and provides an alarm message to the web server when determined that the abnormality. The method of claim 3, The data analysis and diagnostic server, the real-time energy management system through monitoring, characterized in that it is determined that the analyzed and diagnosed energy consumption information is excessively high or exceeds a certain amount of usage. The method of claim 1, The energy recovery facility and the energy measurement sensor are connected to the communication device via power line communication (PLC). The method of claim 2, The analysis and diagnostic server, the real-time energy management system through the monitoring, characterized in that the statistic of the energy currently consumed in the building through the synchronization of the energy measurement sensor. The method of claim 2, The analysis and diagnosis server analyzes the energy consumption by area, energy consumption by usage, energy consumption by type, energy consumption pattern, etc. for each target building based on the information of the target building input to the management system, and compares the analyzed result with the web. Real-time energy management system through monitoring, characterized in that provided to the server. The method of claim 2, The energy management system further includes a database for storing data generated from the data processing server and the analysis and diagnosis server. The method of claim 1, The control target building is provided with a control server for controlling various electronic devices in the management target building, and the user is configured to access the control server by logging in to a web server, real-time energy management system through monitoring.

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