KR101698997B1 - System and method for integrated energy management - Google Patents

Abstract

The present invention relates to an energy integrated management system that can integrally manage energy production and energy consumption, and large-scale complexes and small-scale complexes,
The energy integrated management system comprising: a data bridge for receiving raw data generated by an energy producing device or an energy consuming device and extracting and transmitting energy related data; A data collector for pre-processing data transmitted from the data bridge or the energy consuming device through a cache memory map and converting the data into monitoring information; A data collector for preprocessing through a cache memory map to convert the data into monitoring information and outputting the monitoring information; And an integrated monitoring device for remotely and integrally managing the energy production device and the energy consumption device, and integrally monitoring the energy production and consumption status based on the monitoring information transmitted through the data collector.

Description

[0001] SYSTEM AND METHOD FOR INTEGRATED ENERGY MANAGEMENT [0002]

The present invention relates to an energy management system, and more particularly, to an energy integrated management system that enables integrated management of energy production and energy consumption and large-scale complexes and small-scale complexes.

As natural energy resources such as oil and gas are gradually exhausted, the necessity of managing energy resources is gradually expanding. For this purpose, an energy management system (EMS) has been proposed.

EMS is a large-scale power system control system that performs power dispatch by efficient management of power system. It is divided into power supply automation system and building energy management system.

The feed automation system is installed in the power plant. It controls the operation of the power generation facilities linked to the system optimally by collecting the information on the whole power supply system and monitoring the load frequency. Scale power system control system.

On the other hand, the building energy management system is installed in buildings, small-scale housing complexes, and installs sensors and measuring devices in energy use equipment in buildings such as lighting, heating and cooling facilities and outlets, and links them to communication networks to automatically control power System.

However, such a power supply automation system is characterized in that it is installed in a large-scale complex, and the building energy management system is divided into small-scale complexes.

In addition, the power supply automation system and the building energy management system are divided into the energy producer side and the energy consumer side, but have a disadvantage that they can not be integratedly managed in terms of the energy producer side and the energy consumer side.

An object of the present invention is to provide an integrated energy management system capable of integrally managing energy production, energy consumption, and large-scale complexes and small-scale complexes.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a data bridge for receiving raw data generated by an energy producing device or an energy consuming device and extracting and transmitting energy related data; A data collector for pre-processing data transmitted from the data bridge or the energy consuming device through a cache memory map and converting the data into monitoring information; A data collector for preprocessing through a cache memory map to convert the data into monitoring information and outputting the monitoring information; And an integrated monitoring device for remotely and integrally managing the energy production device and the energy consumption device and capable of integrally monitoring the energy production and consumption status based on the monitoring information transmitted through the data collector, System.

Wherein the energy integration management system converts data output from the device into data according to a standard communication protocol when the data bridge or a device connected to the data collector does not transmit or receive data according to a standard communication protocol, And a data converter for providing the data to the data collector.

And the data bridge further performs a data correction operation if the received data is missing data or data of an error range or more.

The data collector includes a cache memory map; And a memory map processor for storing and managing received data through the cache memory map and providing information requested by the integrated monitoring device or a device connected to a lower end of the data collector.

Wherein the memory map processing unit includes at least one job queue object in which a list of jobs to be performed at the same time is recorded; A timer wheel for selecting and outputting the work queue object, the work queue objects being stored in time slots corresponding to the current time; And a job handler for calling and driving a function module corresponding to each job included in the job queue object output from the timer wheel.

The data collector may further include a load controller for monitoring a processing load of other data collectors and performing a load balancing operation and a message routing operation based on the monitoring result.

In addition, the data collector corrects missing data through data stored in the data bridge when a data omission due to a fault occurs, and provides data stored in the data bridge to the data bridge when a failure occurs in the data bridge And a data correction unit for correcting the data.

In the present invention, the energy management operation can be performed in a wide area by proposing a structure for integrally operating the energy production amount, the energy consumption amount, and each device that manages a large-scale complex and a small-scale complex.

By distributing the processing load of the integrated monitoring device through the data bridge and the data collector, and by introducing the data preprocessing operation using the cache memory map, the load balancing function and the message routing function, the processing load of the integrated monitoring device is minimized , So that a wide-area energy management operation can be stably performed.

1 is an overall block diagram of an energy integrated management system according to an embodiment of the present invention.
2 is a diagram showing a detailed configuration of a data collecting unit according to an embodiment of the present invention.
3 is a block diagram illustrating a memory map processing unit according to an embodiment of the present invention.
4 is a view for explaining an energy integration method according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art to which the present invention pertains. Only. Therefore, the definition should be based on the contents throughout this specification.

1 is an overall block diagram of an energy integrated management system according to an embodiment of the present invention.

1, the energy integrated management system of the present invention includes at least one power plant management apparatus 11 installed in a power plant and at least one housing management apparatus 12 installed in a small-sized housing group, And may include a data bridge 20, a data collector 30, a data converter 40, and an integrated monitoring device 50, for example.

The power plant management apparatus 11 is a device for overall management and monitoring of the operation of the power plant, and collects and provides various data related to the operation and energy production of the power plant.

The home management apparatus 12 is a device for integrally managing a small-scale complex such as a housing complex or a building. Particularly, the housing management apparatus 12 of the present invention is a device for managing the energy consumption , And performs a linkage management operation with the system.

The data bridge 20 is a device installed mainly at a place where a local monitoring facility is constructed such as a power plant and is a device (for example, a plant management apparatus 11 or a home network system 13) And provides the collected data to the integrated monitoring device 40. [0050]

In particular, the data bridge 20 extracts and collects only the energy-related data among the received data and provides the extracted data to the integrated monitoring device 40 so that the integrated monitoring device 40 does not need to perform a separate data classification operation. In other words, it reduces the processing load of the integrated monitoring apparatus 40.

The data bridge 20 performs a data transmission / reception operation according to a standard communication protocol such as TCP / IP, UDP, or the like. If missing data or data exceeding the error range is found during the data transmission / reception, the data correction operation is performed to secure the operational safety of the system. For example, missing data can be processed by simulating current values based on previous values and then providing simulation results instead of missing data. Data beyond the error range can be omitted or simulated based on previous values. The present value may be handled in place of the data over the error range.

The data collector 30 may be installed in a location where a local monitoring facility is not established, such as a small housing complex, an integrated monitoring device 50, and the like. The data collector 30 installed in the small-scale housing complexes the raw data provided by the housing management device 12 and the data collector 30 provided in the integrated monitoring device 50 stores the raw data supplied from the data bridge 20, Data is collected and preprocessed so as to be provided to the integrated monitoring apparatus 50.

In particular, in the present invention, when a large amount of raw data is directly input to a DB (DataBase) server of the integrated monitoring device 50, the storage capacity of the integrated monitoring device 50 must increase exponentially, The data collector 30 performs the preprocessing operation of the row data using the cache memory map.

That is, in the data collector 30 of the present invention, data requiring real-time transmission is directly transmitted to the integrated monitoring device 50, while data not requiring real-time transmission is processed through a cache memory map And then transmitted to the integrated monitoring device 50. At this time, the data collector 30 simultaneously supports real-time data collection and control operation processing through a multi-channel holding method for bidirectional communication.

Also, the data collector 30 may store the data requested by a device (for example, the data bridge 20 or the housing management device 12) existing in its lower part based on the data stored in the cache memory map So that the work can be processed in place of the integrated monitoring device 50. [

In the present invention, the data collector 30 may be configured in a serial and parallel manner to expand the system, and the data collector 30 may support a parallel system expansion through a load balancing function. In addition, by actively changing the message transmission path through the message routing function, it is possible to prevent the message processing load from being prevalent in a specific device.

The data converter 40 is an apparatus for integrating devices having different specifications. If there is a device that can not perform data transmission / reception operations according to the standard communication protocol in front of the data bridge 20 or the data collector 30, The data output from these devices is converted according to a standard communication protocol and then provided to the data bridge 20 or the data collector 30. [

The integrated monitoring device 50 may be configured to correspond to a small group of houses or may be implemented to cover both small groups of houses and power plants. This system includes a DB (DataBase) server and a cache server, stores and manages data or history data transmitted from the data bridge 20 and the data collector 30 through the DB server, Thereby allowing the bridge 20 and the data collector 30 to store and manage data transmitted in real time. That is, the integrated monitoring device 50 of the present invention stores real-time data having a high access frequency separately in the cache server, thereby enabling to provide data with high access frequency more quickly.

And a manager manager tool for managing and managing the data bridge 20 and the data collector 30 remotely while managing the data bridge 20 and the data collector 30 remotely and integrally managing the data bridge 20 and the data collector 30, So that the user can monitor various situations related to the user.

2 is a diagram showing a detailed configuration of a data collecting unit according to an embodiment of the present invention.

2, the data collecting unit 30 of the present invention includes a communication unit 31, a memory map 32, a memory map processing unit 33, a load distributing unit 34, a data correcting unit 35, .

The communication unit 31 transmits and receives data according to standard communication protocols such as TCP / IP and UDP.

The cache memory map 32 temporarily stores raw data transmitted from the data bridge 20 or the housing management apparatus 12 in real time.

The memory map processing unit 33 stores the raw data transmitted from the data bridge 20 or the home network system 13 in real time through the memory map 32 and controls the integrated monitoring device 50 or the data collector 30, (E.g., the data bridge 20, the home management apparatus 12, etc.) connected to the lower end of the network.

3, the memory map processing unit 33 includes a job queue object 110 in which a job list to be performed at the same time is recorded, a plurality of job queue objects 110 to which a job queue object can be stored A timer wheel 120 for selecting and outputting a job queue object stored in a time slot corresponding to the current time, And a job handler 130 for calling and driving a function module corresponding to each job included in the job queue object.

That is, the jobs to be performed at the same time are registered in one queue to generate the work queue object 110, and then the work queue object 110 is stored in the time slot of the timer wheel 120 corresponding to the target time. If the slot cursor of the timer wheel 120 indicates the corresponding time slot after the target time, the timer wheel 120 acquires and outputs the work queue object 110 stored in the corresponding time slot, 130 calls and executes a function module corresponding to each job registered in the work queue object (J110).

At this time, the job may be a real-time data transfer job, a data batch transfer job, a history data creation job, and a data correction job. For example, when the real-time data transfer job is registered in the work queue object 110, the real-time data stored in the memory map 32 is directly transferred to the integrated monitoring device 50. When the data batch transfer job is registered All of the data stored in the memory map 32 is transferred to the integrated monitoring device 50 in a lump, and when the history information creating job is registered, the history information is stored on the basis of the row data stored in the memory map 32 And transmits it to the integrated monitoring device 50. Also, when the data correction job is registered on the same principle, the device that requested the data correction job and the necessary data are grasped, and then the data requested to be corrected is provided to the device.

In the present invention, a plurality of jobs are concurrently registered in the work queue object 110 so that a plurality of jobs can be simultaneously performed at the same time. For example, a real-time data transfer job and a data batch transfer job can be performed simultaneously, a data batch transfer job and a history data creation job can be performed simultaneously, a real-time data transfer job, a data batch transfer job, and a history data creation job.

The load control unit 34 interacts with other data collectors connected to the data collector 30 having it, and monitors the processing load of each of the other data collectors. If there is a data collector with a smaller processing load than the data collector 30 having the data collector 30, it is possible to provide a part of the work to be processed by the load balancing operation to the data collector, The message transmission path should be changed actively.

The data corrector 35 monitors whether the data collector 30 having its own is faulty and if the data collector 30 fails or some data is missing, Connect the stored data to it and re-receive the data.

On the contrary, when the data bridge 20 existing in the lower part of the data bridge 20 fails, data necessary for missing data correction can be acquired and provided.

4 is a view for explaining an energy integration method according to an embodiment of the present invention.

First, each of the power plant management apparatuses 11 collects and transmits various data related to the energy production of the power plant that it manages, and each of the housing management apparatuses 12 acquires various data related to the energy consumption amount of the housing group Collect and transmit.

The system of the present invention can acquire the row data of the power plant management apparatus 11 through the data bridge 20 and the row data of the housing management apparatus 12 through the data collector 30 at S1.

Then, the data collector 30 and the data bridge 30 located at the upper end of the data bridge 30 collect it through the cache memory map 32 (S2).

At the same time, a list of tasks to be performed at the current time is confirmed, and a real-time data transfer job, a data batch transfer job, and a history data creation job are performed based on the list.

If the real-time data transfer job is called and executed, the data collector 30 provides the real-time raw data transmitted from its lower end to the cache server 120 of the integrated monitoring device 50, (S4).

The data collector 30 preprocesses the row data stored in the cache memory map 32 and provides the preprocess result to the DB server 110 of the integrated monitoring device 50 So that the administrator can additionally perform various monitoring and alarm operations based on the DB stored in the DB server 110 (S5).

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (7)

A data bridge for receiving raw data generated by an energy producing device or an energy consuming device and for extracting and transmitting energy related data;
A data collector which preprocesses data transmitted from the data bridge or the energy consuming device to convert the data into monitoring information and outputs the monitoring information; And
And an integrated monitoring device for remotely and integrally managing the energy production device and the energy consumption device, and capable of integrally monitoring the energy production and consumption status based on the monitoring information transmitted through the data collector,
The data collector
A cache memory map for pre-processing data transmitted from the data bridge or the energy consuming device; And
And a memory map processing unit for storing and managing received data through the cache memory map and providing information requested by the integrated monitoring device or a device connected to a lower end of the data collector,
The memory map processing unit
A plurality of job queue objects in which a plurality of job lists to be performed at the same time are recorded, respectively;
A timer wheel for selecting and outputting the task queue object, the task wheel object having a plurality of time slots in which each of the plurality of task queue objects is stored, the task wheel objects being stored in a time slot corresponding to a current time; And
And a job handler for calling and driving a function module corresponding to each job included in the job queue object output from the timer wheel. The method according to claim 1,
Wherein the data bridge converts the data output from the device into data according to a standard communication protocol and transmits the data to the data bridge or the data collector when the device connected to the data bridge or the data collector does not transmit or receive data according to the standard communication protocol Further comprising a converter for converting the energy of the energy to energy. 2. The apparatus of claim 1, wherein the data bridge
And the data correction operation is additionally performed if the received data is missing data or data having an error range or more. delete delete 2. The apparatus of claim 1, wherein the data collector
Further comprising a load controller for monitoring a processing load of the other data collectors and performing a load balancing operation and a message routing operation based on the monitoring result. 2. The apparatus of claim 1, wherein the data collector
And a data correction unit for correcting the missing data through the data stored in the data bridge when a data omission due to the failure occurs and for providing the data stored in the data bridge to the data bridge in the event of a failure in the data bridge Features integrated energy management system.

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