KR20130044082A - Optimize energy management system using information concentrated - Google Patents

Abstract

PURPOSE: An optimum energy integrated management system using information concentrated is provided to increase energy management efficiency by managing energy usage amount target using real time monitoring of corresponding energy data of component companies of a vehicle company. CONSTITUTION: An optimum energy management system using information concentrated includes an energy metering equipment(10), a data concentration equipment(20) and a management control equipment(30). The energy metering equipment is installed on more than one energy consuming application and meters energy consumption in real time, stores the metered energy consumption as data, and transmits the stored data to a wireless communication network. The data concentration equipment requests data stored in energy metering equipment in an automatic period through the wireless communication network, and concentrates the transmitted data and then transmits the concentrated data through a wire communication network. The management control equipment stores and classifies the data transmitted from the data concentration equipment, and provides energy consumption status data including detailed target management data for energy consumption for a user. [Reference numerals] (A) Wireless communication(ZigBee/WiFi); (AA) Electricity or water or other energy; (B) Wired communication(Ethernet); (BB,CC) Energy

Description

Optimize Energy Management System using Information Concentrated}

The present invention relates to an integrated management system of energy, and in particular, after completing the real-time collection of the energy consumption information of the parts suppliers involved in the automobile complete by wireless communication and processing into statistical analysis data, through this, the energy consumption of the individual parts suppliers Is an optimal energy management system through information centralization that can be coordinated with all parts suppliers.

In general, the production activities of automobile manufacturers and their associated parts manufacturers inevitably generate a large amount of energy consumption and corresponding greenhouse gases.

As is widely known, GHG is a global problem as a leading cause of global warming, which is caused by extreme weather, sea level rise, desertification, crop damage, and food shortage.

For this reason, the United Nations Framework Convention on Climate Change (UNFCCC) includes carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), carbon fluoride (PFC), hydrogen fluoride carbon (HFC), and sulfur fluoride (SF6). A climate change agreement was proposed to take measures and measures to reduce greenhouse gas emissions. As a result of the Kyoto Protocol, which is a specific implementation plan, developed countries define GHG reduction targets while voluntary obligations to developing countries. On the other hand, institutional flexibility has been provided for the implementation of reductions by the Parties that comply with their obligations to reduce greenhouse gas emissions by introducing systems such as emission trading, joint implementation and clean development mechanisms (CDM).

In response to this, countries around the world, including Korea, are making efforts to contribute to the diffusion of low carbon consumption culture by calculating carbon emissions from product production and displaying the results on the products sold to consumers. .

In particular, since the excessive amount of carbon emissions is entirely caused by the excessive amount of energy consumption, the reduction of energy consumption through the efficient management of energy input to manufacture them, whether it is a finished car or various parts thereof, will result in a reduction of carbon emissions. .

Therefore, the most efficient management of energy is more important than ever, and one example is to regularly read, aggregate and analyze the company's energy use and, as a result, manage the company's overall energy use.

However, the energy consumption management method limited to the company as described above is inadequate to be applied to the automobile industry, which is composed of one automaker and a large number of parts makers.

An example of such efficient energy management in the automotive industry is a system in which a carmaker groups small or large groups of related parts makers and integrates and manages the entire energy used by specific groupers.

The integrated energy management system for this purpose periodically reads the energy consumption of individual companies belonging to a specific grouping company and accumulates it in the management database, and classifies the information into various management goals using Excel, which is a general office software. It is operated in such a way that it is made visible to the user.

In this case, by managing a large number of related parts companies in a specific minority group, the automaker's point of view not only manages individual difficulties but also makes it easier to manage energy targets for a specific minority group. .

However, the integrated energy management system as described above is very important how efficient, fast and low-cost data can be obtained for the energy consumption of the numerous component companies involved.

An example of the data acquisition of energy consumption is a wired communication meter reading using a digital instrument, which transmits automatically measured energy consumption data to wired communication (RS232 or 485) at regular intervals without any difficulty of analog methods. The way is.

Korean Patent Laid-Open Publication No. 10-2003-0075857 (2003.09.26) relates to a remote meter reading device for an integrated power meter, which is referred to FIGS. 2 and 3. The patent document is an example of implementing the convenience of data acquisition for energy usage, and a method of using a transmission circuit that integrates a pulse signal generated according to the use of electrical energy into data, modulates the data, and transmits the data to a remote site. Indicates. In this way, by using the integrated power meter installed in the communication module to remotely check the electric energy consumption without a site visit, the manager is provided with the convenience of electricity consumption and the efficiency of management.

However, when data acquisition for energy usage modulates data and transmits it to wired communication, there are bound to be physical limitations that are difficult to solve such as hardware and wired communication network.

For example, when a manufacturer uses a variety of different hardware when constructing a management system, various hardware for each manufacturer must be replaced or repaired accordingly, causing difficulty in establishing a system system and increasing costs.

In addition, when establishing a wired communication network, the cost of the communication line for the hardware for system configuration is also increased.

Therefore, the integrated energy management system using the wired communication network as described above has a very insignificant effect compared to the various costs and time investments put into it. In the automotive industry with the necessity to solve a variety of causes and the development of technology has emerged.

Accordingly, the present invention in view of the above point is to collect and accumulate the corresponding energy data automatically measured by the parts makers related to the finished vehicle in real time by wireless communication network, and to monitor the accumulated data in real time by wire communication network and statistical analysis data After extracting it into management information and managing it according to the total energy consumption target management of all parts companies, the individual energy usage of the company is managed, which makes it difficult to collect and manage distributed meter reading information according to wired communication. It aims to provide an optimal energy management system through centralization of information that can greatly improve energy management efficiency through resolved and particularly detailed target management (energy usage statistics by manufacturing line and energy usage by major facilities).

Optimal energy management system through the information centralization of the present invention for achieving the above object is installed in each of at least one or more energy consuming devices to read the energy consumption in real time, and stores the measured energy consumption as data, stored An energy meter reading device for transmitting data to a wireless communication network;

And a data intensive device for requesting data stored in the plurality of energy metering devices installed in the one or more energy consuming devices to the wireless communication network at an automatic cycle, collecting and concentrating the transmitted data, and transmitting the data to the wired communication network. ;

Installed in a place to which the energy management function for the energy consuming device is given, the data transmitted from the data intensive equipment is received and stored in the wired communication network and classified, and includes a plurality of detailed target management data on energy consumption Management control equipment provided with the energy consumption status data of the user visualized;

And a control unit.

The wireless communication network is ZigBee or WIFI method is applied, the wired communication network is Ethernet.

The energy meter reading device is composed of a digital instrument that is installed directly in the energy consuming device to measure the energy consumed in real time, and a smart node for classifying and storing the data read from the digital instrument in the set criteria.

The smart node is provided with a communication application for communication of the wireless communication network, and a main application for reading and storing data to be transmitted to the data intensive device from the digital instrument.

The data intensive device includes a communication application and a main application for receiving data transmitted from the smart node to a wireless communication network and transmitting the data back to a wired communication network, and a data receiving unit receiving data to the wireless communication network, and the data to the wired communication network. A data transmitter for transmitting the data of the receiver is provided.

The management and control device is a middleware for processing and classifying the data obtained by the cable communication from the annoying data intensive equipment and generating information forms visible to at least one or more users, and stores the data processed and classified in the middleware and at least And a DB for generating a form of information visualized to one or more users, and a user terminal for generating and displaying another visualized information by inputting a specific condition input for processing the stored data. .

The middleware may include a data receiver for receiving transmission data of the data transmitter through the wired communication network, a memory for grouping and storing the data received by the data receiver, and visualized information for showing to the user as stored data of the memory. It consists of a statistics DB generator that generates the form.

The DB has an in-depth system linkage structure that creates a new visualized information type by bringing the visualized information type to be shown to the user stored in the statistics DB generation unit of the middleware.

The user terminal includes at least one button having a function that can be selected by the user, at least one middleware window which retrieves data information stored in the middleware in association with the pressing of the button and displays the information as visible information to the user; At least one management data is included in connection with the pressing of the button to retrieve and process data information stored in the middleware and the DB and display the visible information to the user.

The present invention is a real-time monitoring of the relevant energy data of the auto parts makers related to the finished vehicle companies by using a wireless communication network and manages the energy consumption target using this, the difficulty of collecting and managing the distributed metering information according to wire communication The effect is resolved.

In addition, the present invention by processing the energy usage data of the parts manufacturers related to the finished vehicle company collected by wireless communication network to the target company by processing the granular target management (energy usage statistics by manufacturing line and energy usage by major facilities) As a result, the efficiency of energy management systems can be greatly improved.

1 is a configuration diagram of an optimal energy management system through information centralization according to the present invention, FIG. 2 is an example of a wireless communication network construction of an optimal energy management system according to the present invention, and FIGS. 3 and 4 are wired and wireless communication networks according to the present invention. 5 to 7 are examples of user information provided in the optimal energy management system through the information centralization according to the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Since the exemplary embodiments of the present invention may be embodied in various different forms, one of ordinary skill in the art to which the present invention pertains may be described herein. It is not limited to the Example to make.

1 shows an example of construction of an optimal energy management system through information centralization according to the present embodiment.

As shown, the Optimal Energy Management System (OEMS) is an energy meter reading device that is installed directly in the energy consumption source (1) that consumes energy to read the energy consumed in real time and store it as data. 10) and the data intensive device 20 which automatically reads the stored meter data of the energy metering equipment 10 at regular intervals through the wireless communication network A, and an energy management function for the energy consumption source 1 is provided. Installed in the place is constructed as a management control equipment 30 to store and classify the metering data sent from the data intensive equipment 20 to the wired communication network (B) and present the granular target management to the user.

The energy consumed by the energy consumption source (1) is electricity, and the energy consumption source (1) means a manufacturer, or a manufacturing and production line installed in the company, or an equipment installed in the manufacturing and production line. do.

Therefore, in actual field application, the Optimized Energy Management System (OEMS) is defined according to the management object to be managed.

The energy meter reading equipment 10 is installed directly in the energy consumption source (1) to measure the energy consumed in real time and the digital meter 11, and the data read from the digital meter (11) is classified into a set reference and stored It consists of a smart node (12).

In the present embodiment, the energy meter reading equipment 10 is installed at the place where the energy consumption source 1 is located, for example, the case of a finished car company and a related supplier, the partner is installed.

The data intensive device 20 reads the meter reading data from the smart node 12 of the energy reading device 10 into the wireless communication network A, and sends it to the management control device 30 through the wired communication network B again. The Lord acts like a repeater.

In this embodiment, the data intensive equipment 20 is installed in the place where the energy management function for the energy consumption source (1) is given, for example, in the case of a finished car company and its associated companies are installed in the finished car company.

The management control device 30 is a middleware 31 for processing and classifying meter reading data transmitted from the data intensive equipment 20 by mounting an internal program, and data processed and classified by the middleware 31 with an internal program mounted thereon. DB (32, Data Base) with ERD built to store and provide it as visible information, and retrieve the data of DB 32, process the data under the specified conditions and show it to the user as visualized information. It consists of a user terminal 33.

In this embodiment, the management control equipment 30 is installed in the place where the energy management function for the energy consumption source (1) is provided, for example, in the case of a finished car company and its associated companies are installed in the finished car company.

2 shows an example of establishing a wireless communication network of an optimal energy management system according to the present embodiment.

As shown, the smart node 12 and the data intensive device 20 of the energy meter reading equipment 10 is connected to a wireless communication network (A), for this purpose, the smart node 12 is a communication application (12-1) And a main application 12-2, and a communication application 20-1 and a main application 20-2 are mounted on the data intensive equipment 20.

The communication applications 12-1 and 20-1 and the main applications 12-2 and 20-2 implement the same function.

The wireless communication network (A) is applied to the ZigBee or WIFI method, but any communication network may be applied as long as the communication method can satisfy the unique function for the purpose.

On the other hand, the data intensive device 20 is a data receiver 21 for reading the metering data of the smart node 12 through the wireless communication network (A), and the data of the data receiver 21 to the wired communication network (B) It consists of a data transmitter 22 for transmission.

The data transmission unit 22 transmits data to the wired communication network connected to the management control equipment 30, the wired communication network (B) is applied to the Ethernet, but any method if the communication method that can meet the unique function according to the purpose All networks can be applied.

3 shows a state in which the smart node 12 of the energy meter reading device 10 according to the present embodiment reads the meter data from the digital meter 11.

As shown, the smart node 12 is provided with a data request unit 12a for giving a command using the mounted communication application 12-1 and the main application 12-2, and in the data request unit 12a. The transmitted signal is transmitted to the digital measuring instrument 11 so that the meter reading data is transmitted in the digital measuring instrument 11.

The meter reading data transmitted from the digital measuring instrument 11 is transmitted to the memory 12c via the data receiver 12b provided in the smart node 12, and the memory 12c groups and stores the meter reading data. After the response to the request of the data intensive device 20.

As an example of metering data grouped and classified, the current time +1 minute data based on time, and the current time + N minute (1 + 1, ..., n) data method may be applied based on the time. .

On the other hand, Figure 4 shows the internal operation of the management control equipment 30 according to this embodiment.

As shown, the management control equipment 30 is composed of a middleware 31, a DB 32 and a user terminal 33, the middleware 31 is provided with a data receiving unit 31a therein, the data intensive equipment Receive meter reading data sent from the data transmitter 22 to the wired communication network (B) connected to the (20).

The meter reading data received by the data receiver 31a is transferred to the memory 31b, and the memory 31b groups and stores the meter reading data.

In addition, the middleware 31 further includes a statistics DB generator 31c for generating meter reading data of the memory 31b as specific information, thereby implementing fast response to the request of the DB 32. It becomes possible.

In the present embodiment, the data information generated and stored by the DB 32 includes time analysis data (for example, 15 minutes and 1 hour), day analysis data (for example, 1 day), and month. Analysis data (for example, one month) and Year (Year) analysis data (for example, one year), and the data information generated by the DB 32 is called at the request of the user terminal 33 and the user. The information visualized on the terminal 33 is provided to the user.

5 shows an example of the ERD built in the DB 32 according to the present embodiment.

As shown, it can be seen that the ERD of the DB 32 can be constructed in a deep system-based structure in which the metering data is classified into a specific type and the classified data are linked to each other.

By using the deep system-based linkage structure of the ERD as described above, the DB 32 can be processed into granular management targets (energy usage statistics for each production line and energy usage for each major facility).

6 shows an example of a state in which a window implemented through the user terminal 33 according to the present embodiment is connected to the middleware 31.

As shown, the middleware window 40 provided by the user terminal 33 includes at least one button 41 having a function that can be selected by the user, and the middleware 31 in association with the pressing of the button 41. At least one middleware data (41, 42) for retrieving the data information stored in the information provided to the user as visible information is included.

In the present embodiment, the middleware data 41 and 42 are represented in various formats. For example, the metering data of each of the plurality of smart nodes 12 constructed may be read from the data display information 41 of the individual smart nodes 12 and the data. For example, the data display information 42 according to the reading period of the smart node 12 is an example.

In addition, FIG. 7 shows an example of a state in which a window implemented through the user terminal 33 according to the present embodiment is connected to the middleware 31.

As shown, the DB window 50 provided by the user terminal 33 has at least one button 51 having a function selectable by the user, and the middleware 31 in association with the pressing of the button 51. And at least one management data 52, 53, 54, 55 for retrieving and processing data information stored in the DB 32 and providing the user with visible information.

In this embodiment, the management data (52, 53, 54, 55) is represented in a variety of formats using a diagram and graphics, for example, the daily energy (power) consumption information 52 of the company and the smart node 12 For example, the daily energy (power) monitoring information 53, the monthly energy (power) consumption information 54 of the company and the monthly energy (power) consumption information 55 of all the relevant companies.

As described above, the OEMS (Optimize Energy Management System), which is an optimal energy management system through information concentration according to the present embodiment, reads and stores energy consumption in real time and transmits the energy to the wireless communication network (A), and Receive the data of the energy meter reading equipment 10 to the wireless communication network (A) and the data intensive equipment 20 for transmitting it back to the wired communication network (B), and receives the data of the data intensive equipment 20 to the wired communication network (B) It is built with the management control equipment 30 that provides the user in a visible state after storing and sorting, and solves all the problems caused by the wired communication of energy management. Its efficiency will be greatly improved by the targeted management of energy consumption (energy consumption statistics by production line and energy usage by major facilities).

1: Energy consumption center 10: Energy meter reading equipment
11: digital measuring instrument 12: smart node
12-1,20-1: Communication application
12-2,20-2: Main application
12a: Data request unit 12b, 21, 31a: Data receiver
12c, 31b: memory 20: data intensive equipment
22: data transmission unit 30: management control equipment
31: middleware 31c: statistics DB generation unit
32: DB (Data Base) 32-1: DB ERD
32a: Data information 33: User terminal
40: middleware Windows 41, 51: button
41,42: middleware data 50: DB window
52,53,54,55: management data

Claims (9)

An energy metering device installed in at least one energy consuming device each to read energy consumption in real time, to store the measured energy consumption as data, and to transmit the stored data to a wireless communication network;
And a data intensive device for requesting data stored in the plurality of energy metering devices installed in the one or more energy consuming devices to the wireless communication network at an automatic cycle, collecting and concentrating the transmitted data, and transmitting the data to the wired communication network. ;
Installed in a place to which the energy management function for the energy consuming device is given, the data transmitted from the data intensive equipment is received and stored in the wired communication network and classified, and includes a plurality of detailed target management data on energy consumption Management control equipment provided with the energy consumption status data of the user visualized;
Optimal energy management system through information centralization, characterized in that configured to include.
The system of claim 1, wherein the wireless communication network is ZigBee or WIFI, and the wired communication network is Ethernet. The method of claim 1, wherein the energy reading device is a digital instrument that is installed directly in the energy consuming device to measure the energy consumed in real time, and a smart node for classifying and storing the data read from the digital instrument on a predetermined basis Optimal energy management system through information centralization, characterized in that.
The method of claim 3, wherein the smart node is provided with a communication application for communication of the wireless communication network, and a main application for reading and storing the data to be sent to the data concentrator in the digital instrument is provided with information centralization, characterized in that Optimal energy management system.
The apparatus of claim 1, wherein the data intensive device includes a communication application and a main application for receiving data transmitted from the smart node to a wireless communication network and transmitting the data back to a wired communication network, and a data receiving unit for receiving data through the wireless communication network; Optimal energy management system through information centralization, characterized in that provided with a data transmission unit for transmitting the data of the data receiving unit to a wired communication network.

The method of claim 1, wherein the management control equipment is middleware for processing and classifying data obtained by the wired communication from the annoying data centralized equipment and generating information forms visible to at least one or more users, and processed and classified in the middleware A DB for storing data and generating a form of information visualized to at least one user, and generating and displaying another visualized information by inputting a specific condition input for processing the stored data. Optimal energy management system through information centralization, characterized in that configured as a user terminal.
The method of claim 6, wherein the middleware is shown to the user as a data receiver for receiving the transmission data of the data transmitter to the wired communication network, a memory for grouping and storing the data received by the data receiver, and the stored data of the memory; Optimal energy management system through information centralization, characterized in that it comprises a statistics DB generation unit for generating a visible information type for giving.
The information centralization method according to claim 6, wherein the DB has an in-depth system linkage structure in which a visualized information type to be shown to a user stored in the statistical DB generation unit of the middleware is created to generate a new visualized information type. Optimal energy management system.
The method of claim 6, wherein the user terminal has at least one button having a function that can be selected by the user, and at least one associated with the pressing of the button to retrieve the data information stored in the middleware to display the visible information to the user Through the above-mentioned middleware window, at least one management data is linked to the pressing of the button and at least one management data to retrieve and process the data information stored in the middleware and the DB to represent the visible information to the user Optimal Energy Management System.

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