KR20160072412A - Energy saving system using energy consumption pattern - Google Patents

Abstract

The present invention relates to an energy saving system, and more specifically, to an energy saving system which extracts an energy pattern of energy used in a machine or a facility within a factory or a building and stores the same accumulatively in an intelligent database, compared to a typical energy monitoring system which collects usage data of energy used in a factory or a building, and monitors the same. In addition, the system derives a point where energy consumption is reduced and saved, from the accumulated energy consumption pattern stored in the intelligent database. The system comprises: an energy consumption measuring unit which measures energy consumption for each line of a factory; a signal converting unit which converts analog measurement signals provided by the energy consumption measuring unit into digital data and loads the digital data on a network; an energy management server which sorts out energy consumption for each line of the factory detected via the network by year, month, day, and time unit, stores and manages the same in the intelligent database, analyzes the energy consumption with a predetermined period and calculates an energy cost; and a manager terminal which is connected to the energy management server via the network, and displays the measured and managed energy consumption on a screen in a predetermined format.

Description

[0001] ENERGY SAVING SYSTEM USING ENERGY CONSUMPTION PATTERN [0002]

The present invention relates to an energy saving system, and more particularly, to an energy saving system that collects energy usage data used in a factory or a building and simply monitors the energy consumption system. Energy saving system using energy consumption pattern that extracts energy consumption pattern, cumulatively stores it in intelligent database, and can deduce points to save energy and energy from energy consumption pattern cumulatively stored in intelligent database will be.

Recently, with the enactment of the Low Carbon Green Growth Basic Law, each company is required to save energy and to develop technology and optimize its management to reduce carbon dioxide emissions.

Companies that have high energy consumption factories can not only lower the production cost of products through energy optimization management and saving, but also contribute to the government's low carbon green growth policy. Also, many companies can reduce unnecessary energy consumption Efforts are being made to find ways to minimize the consumption of energy, which is essential for the operation of factories.

In addition, companies involved in the secondary industry use a lot of energy, and the products produced by them have a very high cost due to energy consumption.

The energy management type of conventional companies has adopted the method of calculating the product cost by installing the meter of the whole factory and a number of lower meters per line and applying the energy meter to the monthly meter.

However, since various types of energy required to produce one product are consumed, it has been difficult to accurately apply all the energy consumption to the production cost of the product. In addition, there is no special comparison method to prevent unnecessary energy waste by grasping the energy efficiency by each line of the factory, and it was difficult to systematically and efficiently manage the energy.

Accordingly, the applicant of the present invention can monitor and analyze the subdivided data on the energy consumption per line of the plant as disclosed in Korean Patent No. 10-1452384, We have also proposed an energy management system that not only provides reliability and efficiency, but also enables productivity improvement through energy saving.

However, this energy management system also has a great importance for energy monitoring, and users have to find and implement measures to reduce energy based on the monitored results, so that they are consumed by factory, line, or facility It was not enough to deduce the consumption pattern of energy and the point that can save energy by using it.

Korean Patent Publication No. 10-2010-0113686 Korean Registered Patent No. 10-1452384

The present invention relates to an energy saving system, and more particularly, to an energy saving system that collects energy usage data used in a factory or a building and simply monitors the energy consumption system. Energy consumption patterns are extracted and stored in an intelligent database, and energy saving patterns are provided using energy consumption patterns that enable energy saving and saving points from energy consumption patterns accumulated in intelligent databases. .

An energy saving system using an energy consumption pattern for solving the above-

A signal converter for converting an analog measurement signal provided by the energy consumption measuring unit into digital data and loading the same into a network; An energy management server that stores and manages the energy usage amount per year / month / day / hour and stores and manages the energy usage amount in an intelligent database and calculates the energy cost by analyzing the energy use amount at regular intervals; An energy saving system including an administrator terminal for outputting a measured energy consumption amount in a predetermined format on a screen,

The energy management server divides the energy consumption amount of each line or equipment measured by the energy consumption measurement unit into a consumption amount in an actual use state, a consumption amount in a standby state, and a consumption amount in a code on state, And an energy consumption pattern extraction unit for extracting a consumption pattern in the state and storing it in an intelligent database.

The energy management server may further include an energy saving point deriving unit for deriving a point at which energy can be saved in each line or facility based on the energy consumption pattern extracted and generated by the energy consumption pattern extracting unit .

The present invention extracts consumption patterns of energy used in a factory or a building or a facility in a building, cumulatively stores them in an intelligent database, and easily stores energy saving and saving points from energy consumption patterns cumulatively stored in an intelligent database It is possible to realize a pattern of consumption of energy actually consumed by a factory or an enterprise in a form optimized for energy saving.

1 is a block diagram illustrating a system for energy monitoring;
2 is a block diagram of an energy saving system using an energy consumption pattern according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram of a system for energy monitoring, and FIG. 2 is a block diagram of an energy saving system using an energy consumption pattern according to the present invention.

1 and 2, an energy saving system using an energy consumption pattern according to the present invention includes an energy consumption measuring unit 100, a signal converter 200, a network 300, an energy management server 400, and an administrator terminal 500.

The energy management server 400 is an energy consumption pattern extracting unit that extracts an energy consumption pattern used in each line or facility beyond the measurement and monitoring of energy consumption consumed in each line or facility of a factory or an enterprise, And an energy saving point deriving unit 420 for deriving energy saving or saving points based on the energy consumption pattern.

The energy consumption measuring unit 100 measures various types of energy consumption used in a production line of a factory or an enterprise, calculates an energy consumption based on the measured values, and transmits the energy consumption to a network (not shown) 300 to the energy management server (400).

As shown in FIG. 1, the energy consumption measuring unit 100 includes a power meter 110 measuring a power consumption of each plant in a line and outputting information on the power consumption of each line as an electrical signal, A gas meter 130 for measuring the gas consumption of each line in the factory and outputting information about the gas consumption in the form of an electrical signal, A water meter 140 for outputting information about the steam meter 140 as an electrical signal, and a steam meter 150 for measuring the steam consumption of each factory line and outputting information on the steam meter 150 as an electrical signal. It is needless to say that the type and number of the measuring instruments constituting the energy consumption measuring unit can be variously changed according to the type of line or equipment provided in the factory.

1, the energy consumption measuring unit 100 is connected to the signal converter 200 through various communication methods including serial communication or wireless communication, such as RS-232 or RS-485 communication, The measured values from the various instruments constituting the energy consumption measuring unit 100 can be transmitted to the signal converter 200.

The signal converter 200 is configured to convert a measurement signal provided by analog communication in the energy consumption measuring unit 100 into digital communication and transmit the digital signal to the energy management server 400 through the network 300. Accordingly, in FIG. 1, the signal converter 200 receives the energy measurement signal provided by the RS-485 communication in the energy consumption measuring unit, converts the energy measurement signal into a digital signal for Ethernet communication, 400, respectively.

In this case, the network 300 for transmitting measurement signals from each of the meters converted by the signal converter 200 to the energy management server 400 is preferably composed of an Ethernet or a data bus. However, And may be configured by a wire / wireless communication method.

The energy management server 400 detects various types of energy such as power consumption, air consumption, gas consumption, water consumption, steam consumption, and the like used in each factory line through the network 300, D / B), and provides the measured result to the administrator terminal 500 and outputs the result through a screen.

The energy management server 400 receives the energy consumption, the air consumption, the gas consumption, the water consumption, and the steam consumption, which are the energy used in the lines of the respective plants, through the network after being measured by the energy consumption measuring unit , And is stored in an intelligent database (intelligent D / B) by dividing it into year / month / day / hour.

At this time, the energy management server (400) calculates the instantaneous change value, the event occurrence information of the equipment and the machines, the equipment and the machine used in the lines of each factory, the power consumed amount, the air consumption amount, the gas consumption amount, Information about operation / non-operation of the robot can be detected and stored in an intelligent database (intelligent D / B) and managed.

In addition, the energy management server 400 calculates the amount of energy consumed in each line or equipment measured by the energy consumption measuring unit from the consumed amount in the actual use state, the consumed amount in the standby state, and the consumed amount in the code on state An energy consumption pattern extracting unit 410 for extracting consumption patterns in each state and storing them in an intelligent database (intelligent D / B), and an energy consumption pattern extracting unit 410 for extracting energy consumption patterns And an energy saving point deriving unit 420 for deriving the points.

The energy consumption pattern extracting unit 410 and the energy saving point deriving unit 420 can calculate points by which energy can be saved through comparison with energy consumption consumed in other lines or other facilities, It is possible to extract a pattern of energy consumption in the corresponding line or equipment itself measured by the energy consumption measuring unit and then to avoid a pattern in which a lot of energy is consumed, do.

In addition, the energy management server 400 monitors energy consumption, air consumption, gas consumption, water consumption, steam consumption, and the like, which are the energy of each plant and each line, in cooperation with the administrator terminal 500, Efficiency and production efficiency of equipment to analyze and optimize the state of production equipment and machinery.

For example, by monitoring the voltage and current (R, S, T phase) of each load in real time as a measure of power consumption, it is possible to check the state of electric power and quality of equipment and machine, To be managed optimally.

In addition, the energy management server 400 can analyze and manage the actual energy consumption pattern by measuring the energy consumption of the production facility or each line load, and the energy management server 400 can measure the total amount of energy use in more detail It analyzes the energy consumption of the product by analyzing the energy used per production area based on the accurate history and accurately grasping the energy consumption by dividing it into the energy used in actual production, the atmospheric energy and the operating energy during 24 hours a day. In addition to this, it is possible to perform energy management and to optimize the production line by analyzing the unnecessary facilities among the various facilities of the line, thereby increasing the energy consumption efficiency.

The manager terminal 500 is connected to the energy management server 400 through a network and operates in cooperation with the energy management server 400 to collect information on the energy consumption of the respective lines of the entire plant and information on the operating and non- Provides a main screen that can be viewed in real time.

Accordingly, the manager can use the manager terminal 500 to provide the energy consumption including the power, air, steam, water, gas, carbon emission amount, etc. for each line of the entire plant as the daily consumption amount and the weekly consumption amount And it is possible to provide the result of comparing the energy consumption of the whole day with the energy consumption of the day, the energy consumption of the week, and the energy consumption of the pole through the main screen in a predetermined format, for example, numerals and graphs.

In addition, the manager terminal 500 can provide the entire plant, the power consumption of each line (factory), the carbon emission amount per line (factory) in a predetermined format in a predetermined format, Can be provided on the screen in a predetermined format in real time.

In addition, the administrator terminal 500 may inquire past trend histories of the facilities of each line for a predetermined period and provide the trend histories in a predetermined format on the screen.

As described above, the energy saving system using the energy consumption pattern according to the present invention continuously monitors the values measured by various instruments to prevent unnecessary energy from being consumed, and the measured values are transmitted to an intuitive interface The energy consumption pattern extracting unit provided in the energy management server extracts the energy consumption pattern of each line or the equipment itself and saves energy through the energy saving point deriving unit based on the extracted energy consumption pattern And thus can be used to realize substantial energy savings.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100 - Energy consumption measuring part 110 - Electricity measuring instrument
120 - Air Meter 130 - Gas Meter
140 - Water meter 150 - Steam meter
200 - Signal converter 300 - Network network
400 - Energy management server 410 - Energy consumption pattern extraction unit
420 - Energy saving point deriving part 500 - Administrator terminal

Claims (2)

A signal converter for converting an analog measurement signal provided by the energy consumption measuring unit into digital data and loading the same into a network; An energy management server that stores and manages the energy usage amount per year / month / day / hour and stores and manages the energy usage amount in an intelligent database and calculates the energy cost by analyzing the energy use amount at regular intervals; An energy saving system including an administrator terminal for outputting a measured energy consumption amount in a predetermined format on a screen,
Wherein the energy management server comprises:
An energy consumption amount in each line or equipment measured by the energy consumption amount measuring unit is divided into a consumption amount in an actual use state, a consumption amount in a standby state, and a consumption amount in a code on state, And an energy consumption pattern extracting unit for extracting the energy consumption pattern and storing it in an intelligent database. The method according to claim 1,
Wherein the energy management server comprises:
And an energy saving point deriving unit for deriving a point at which energy can be saved in each line or facility based on the energy consumption pattern extracted and generated by the energy consumption pattern extracting unit Energy saving system.

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