KR20110056171A - Integrated controlling method for energy reduction - Google Patents

Abstract

PURPOSE: An integrated controlling method for energy reduction is provided to collectively managing energy without constructing a special communication line by using a power line communication technology. CONSTITUTION: An integration management server collects data depending on the use of energy of an energy use device through a power line communication network(S101), and monitors and controls the failure generation state, an operating state and fault information, data analysis based on the collected data(S102-S105). The server processes the collected and analyzed data in report of various graphic or document formats(S201-S203).

Description

Integrated controlling method for Energy reduction

The present invention relates to an integrated energy management method for reducing energy in buildings and intensive use facilities, and in particular, the information of the output power input and branched through the distribution panel or switchgear, the operation information of the motor for operating the elevator or automatic doors, etc. In addition, by collecting the real-time temperature and air conditioning status information of each area in the building and facility, and by analyzing it, by providing an integrated management server that can reduce the power use efficiently manage the power use of the building and power intensive use facilities It provides an integrated energy management method that can reduce the energy used in buildings and power intensive facilities.

Efficient use of energy is an important national task in accordance with high oil prices and the necessity of GHG reduction, and the reduction of electric energy has become the most important task along with energy efficiency of transportation equipment such as automobiles.

In addition, in terms of building management, each company uses electric energy-efficient lighting equipment, electric motors, air conditioners, etc., mainly to reduce electric energy and reduce costs.

As another energy saving method, partial technology development is being performed in the technology fields related to power system and air conditioner, and technology development such as energy efficient lighting facility and high efficiency electric motor is being performed in power field, and high efficiency air conditioner and solar power in the air conditioner field. Technological developments such as shielding of radiant heat through light shielding are predominant.

In addition, in the field of electric power, the technology of measuring electric power use and electric motor use is already making significant progress, but it is mainly developed to prevent accidents and disasters, and to ensure the stability of equipment. I'm not on track.

In addition, in order to install energy-efficient lighting fixtures, electric motors, air conditioners, and the like, existing equipments such as lighting fixtures, electric motors, and air conditioners that have been installed in buildings or electric power concentration facilities must be replaced one by one. For this reason, there was a problem that replacement cost may be consumed more than energy saving cost.

In addition, as described above, the technology is developed for each individual device, so that the existing equipment is replaced, such as efficient distribution of the total power used in the building or electric power concentration facility, reduction of wasted power, efficient operation of the air conditioning facility itself, and efficient operation of the energy used by the motor. However, there is a problem that the technology for saving the overall energy by efficiently managing the operator is not yet developed.

Accordingly, the present invention provides an integrated energy management method that can efficiently manage and control the power used as a whole without replacing the existing facilities in buildings and power intensive use facilities to solve the above-mentioned problems, The purpose is to improve the efficiency, the efficiency of using the motor.

In addition, by measuring and monitoring the voltage, current, power factor, frequency, harmonics, leakage current, potential difference, etc. input and output through the switchboard or distribution panel in real time to reduce the use of inefficient power, to reduce the power consumption through the efficient arrangement of power For other purposes.

In addition, it is another object to reduce the energy used for air conditioning of buildings or facilities by providing a dynamic regional air conditioning method that provides air conditioning only to the areas requiring air conditioning by measuring and analyzing the air conditioning demand in each building in real time. .

In addition, the use of efficient motors is avoided by avoiding inefficient use of motors by measuring and monitoring in real time operating conditions such as the frequency of operation, operating time, vibration, noise, and power consumption of electric motors used in electric doors, elevators and escalators in buildings or facilities. Another aim is to ensure that the room and optimal maintenance replacement are possible.

In addition, the energy management can be used to manage energy in real time anytime, anywhere by enabling the use of UNS sensors (Ubiquitous Network Sensors) and measurement monitoring devices based on ubiquitous technology, and supporting mobile devices. It is another purpose to make it possible.

In order to achieve the above object, the present invention provides an integrated energy management method of a building or a power intensive use facility having a plurality of temperature sensors installed inside a building and an energy using device including a distribution board and a distribution board, an electric motor, and an air conditioner. Operated by an integrated management server via a gateway, (a) the integrated management server collects data according to energy usage of the energy using device through a power line communication network, and analyzes data and troubles based on the collected data. Monitoring and controlling the judgment, operation status and failure situation; And (b) the integrated management server supporting a user module for processing the data collected and analyzed through the monitoring and control step into a report in the form of graphics or documents to a user or providing the terminal to a mobile device. Discuss energy management method.

The present invention is the power quality, the efficiency of air conditioning, the efficiency of the use of the motor under the system established through the integrated energy management method that can efficiently manage and control the power used as a whole without replacing the existing equipment in buildings and intensive use facilities Can improve.

In addition, the present invention by using the power line communication technology to monitor the power distribution and distribution panel, the power distribution panel and distribution panel that distributes the electric power, the electric energy control system and the like, without the establishment of a separate communication line Implementation is possible.

In addition, the present invention measures and monitors the voltage, current, power factor, frequency, harmonics, leakage current, potential difference, etc. input and output through the switchboard or distribution panel in real time to reduce the use of inefficient power, the power consumption through the efficient arrangement of power Can be saved.

In addition, the present invention can reduce the energy used for air conditioning of buildings or facilities by building a dynamic regional air conditioning system that provides air conditioning only in the area that requires air conditioning by measuring and analyzing the air conditioning demand for each region in a building or facility in real time.

In addition, the present invention is to measure and monitor in real time the operating state of the operating frequency, operating time, vibration, noise, power consumption, etc. of the motor installed in the building or equipment, avoid inefficient use of the motor, efficient use of the motor and optimal maintenance replacement You can do

In addition, the present invention manages the integrated energy control system established by the ubiquitous technology based on the use of UNS sensors and measurement monitoring devices and mobile devices support system administrators can control the system anytime, anywhere in real time And analysis.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 shows an operation flowchart of the integrated energy management method according to an embodiment of the present invention, Figure 2 shows the configuration of an example energy integrated control system to which the integrated energy management method according to the present invention is applied, Figure 3 4 shows a configuration of energy management apparatuses applied as an example to the energy integrated control system of the present invention, and FIGS. 4 to 6 show a configuration of an integrated management server constituting the energy integrated control system of the present invention.

The present invention provides a building or power intensive use facility having an energy use device including a distribution board 11 and a switch board 12, an electric motor 21, an air conditioner 40 and a plurality of temperature sensors 31 installed inside a building. As a method for integrating and managing energy, it is managed by the integrated management server 100 via the power line communication gateway 500 as shown.

As shown in FIG. 1, the integrated energy management method according to the present invention includes a monitoring and control step of energy use (S100) and a user module support step (S200), and the monitoring and control step of the energy use (S100). ), The integrated management server 100 collects data according to the energy use of energy-using devices through the power line communication network, and monitors and controls data analysis, fault determination, operation status and fault occurrence status based on the collected data. do.

Here, the monitoring and control step (S100) of the energy use is a monitoring information collection step (S101), failure processing determination step (S102), data analysis step (S103), the situation notification support step (S104), the presenting a power efficiency improvement plan In step S105, the monitoring information collection step (S101) collects data according to energy usage through the power line communication gateway 500 connected to the energy using device.

The failure processing determination step (S102) determines whether the monitoring information collected in the monitoring information collection step (S101) has reached a preset threshold condition, and classifies the failure information according to the importance and severity according to whether the threshold condition is reached, Identify the location and location of the failure, and determine whether the failure has been repaired based on the identified information.

The data analysis step (S103) processes, classifies and stores the surveillance information collected in the surveillance information collection step (SS101) according to a set condition, and the situation notification support step (S104) is performed in the steps (S101 to S103). Information on failures such as operation status, fire, and overload, which are collected and analyzed, is notified to users located at a long distance by using e-mail or short message.

In addition, the step of presenting a power efficiency improvement plan (S105) is based on the collected data and the analyzed data to determine the current state of power usage by periods and points according to a predetermined power usage standard, and analyze and predict facility and building energy loads. Provide appropriate usage.

Next, the integrated management server 100 in the user module support step (S200) is a terminal 200 by processing the data collected and analyzed through the monitoring and control step (S100) into a report in the form of various graphics or documents to the user Or to the mobile device 300.

Here, the user module support step (S200), as shown, the situation monitoring UI support step (S201), power efficiency analysis UI support step (S202), the report UI support step (S203), and the mobile UI support step ( S204), the situation monitoring UI support step (S201) serves to process and output the data information collected and analyzed from the energy using the device in the form of graphics, tables, 3D map.

The power efficiency analysis UI support step (S202) is to analyze the efficiency of power using the data collected from the energy using device and to display the power consumption of the individual facilities to output to the operator terminal 200 in graphic form. The report UI support step (S203) supports generation of a report file in MXTL, XML, MS Excel, or PDF format by period, facility, and energy source based on the data collected and analyzed by the energy using device. Play a role.

In addition, the mobile UI support step (S204) is a mobile device such as a PDA, a mobile phone and a portable device to output the data output from the situation monitoring UI support step (S201) according to the data collected from the energy using device and the analyzed data (S201). 300 to transmit over the wireless Internet to support the status monitoring and control from a distance.

At this time, the data collected according to the energy use of the energy using device is a voltage, current input and output from the distribution panel 11, the switchgear 12, the UPS 13 and the inverter / rectifier 14 Power monitoring data such as power factor, frequency, harmonics, leakage current, potential difference, motor monitoring data for monitoring the operation of motor 21 and motor control panel 22 for operating elevators, revolving doors and escalators, and Air conditioner operation data for appropriately maintaining and operating the operating temperature of the various devices installed in the use space or building, and a plurality of places according to the air flow of each living space or various installed equipment in which the temperature is controlled by the air conditioner 40 It includes air conditioning monitoring data collected from the temperature sensor 31 is installed.

In this case, the power monitoring data is connected to the distribution board 11, the switchgear 12, the UPS 13, the inverter / rectifier 14 and the power switch board / switchgear monitoring device 15 for collecting the power-related data input and output The integrated management server 100 is transmitted through power line communication.

The motor monitoring data is transmitted from the motor monitoring apparatus 23 to collect the operation data of the motor 21 and the motor control panel 22 through power line communication.

The air conditioning monitoring data is transmitted to the integrated management server 100 through the power line communication from the sensor concentrator 32 to collect the temperature data of the location from the wired or wireless temperature sensor 31 installed inside the building.

Hereinafter will be described an example system energy integrated control system that can be applied to the integrated energy management method according to the present invention.

Figure 2 is an energy integrated control system applied to the present invention as an example, voltage, current, power factor, frequency, harmonics, leakage current, potential difference, etc. input and output from the distribution panel, switchgear, UPS and inverter / rectifier installed in the building or power concentration facility, etc. A power monitoring unit 10 for collecting data of the; An electric motor monitoring unit 20 for monitoring an operating state of an electric motor for operating an elevator, a revolving door, an escalator, and the like; An air conditioner 40 capable of appropriately maintaining a temperature of a use space in a building or an operating temperature of various devices installed in the building and allowing data transmission and reception according to an operation; Energy-using devices consisting of air conditioning monitoring unit 30 for collecting information from the temperature sensor is installed in a number of places in accordance with the air flow of each living space or various devices installed in the room temperature controlled by the air conditioner 40 and ; It is possible to perform data communication with the energy-using devices, collect the power use situation of the energy-using device capable of data communication and the measurement information of the temperature sensor, and analyze the efficiency of power use by making the collected information into data. The integrated management server 100 provides the results in graphic form, outputs the analyzed information in various file formats, monitors and controls the current status in connection with the wireless Internet, and processes various failures in real time. )Wow; A terminal (200) for displaying a variety of information analyzed and outputted by the integrated management server (100) and including a monitor for controlling the various devices according to the displayed data; A mobile device 300 wirelessly connected to the integrated management server 100 to grasp a situation even at a distance and to control various devices connected to the integrated management server 100; It is composed of a database 400 for storing and managing the information collected and analyzed by the integrated management server 100.

In addition, a power line communication gateway 500 is installed in the middle of a line for power line communication between the monitoring units 10, 20, 30, and the air conditioner and the integrated management server 100.

For power line communication, as shown in FIG. 3, the power monitoring unit 10 is connected to the distribution panel 11, the distribution panel 12, the UPS 13, the inverter / rectifier 14, and the like, and outputs power related data. And a power switchboard / switchboard monitor 15 for collecting and transmitting the power through the power line communication, and the motor monitor 20 collects operation data of the motor 21 and the motor control panel 22 through power line communication. It consists of a motor monitoring device 23 for transmitting, the air conditioning monitoring unit 30 is a sensor concentrator that collects the temperature data of the location from the wired or wireless temperature sensor 31 installed in the building and transmits through power line communication 32, the air conditioner 40 is operated to adjust the temperature inside the building, and comprises a function for transmitting the data according to the operation through power line communication.

As described above, data collected through each of the monitoring units 10, 20, and 30 and the air conditioner is transmitted through the power line, and the data transmitted on the power line is transmitted through the power line communication gateway 500 through the TCP / IP module 600. Is transmitted to the integrated management server (100). At this time, by establishing a separate communication line in the TCP / IP module 600 may install a video monitoring means 700, such as a camera in various places throughout the room may be carried out mobile personnel, resident personnel, fire monitoring and the like.

Figure 4 shows the configuration of the integrated management server constituting the energy integrated control system according to the present invention, the power panel / switchboard monitoring device 15 and the electric motor monitoring unit of the power monitoring unit 10 installed in the building or power concentration facility Collects data according to energy usage from an energy use device such as the electric motor monitoring device 23 of 20, the air conditioner 40, and the sensor concentrator 32 of the air conditioner monitoring unit 30 by using a power line communication network, Based on the analyzed data, an efficient method of reducing power consumption is proposed, and whether or not a predetermined threshold condition is reached is determined to determine whether there is a failure, and control of the device having the failure is performed. And energy use device monitoring and control means (110) for notifying of a failure situation through an e-mail or a text message; It is composed of a user support means 120 for processing the data collected and analyzed through the energy use device monitoring and control means 110 to a terminal or mobile device by processing the report in the form of various graphics or documents.

In addition, the energy using device monitoring and control means 110, as shown in Figure 5, the power panel / switchboard monitoring device for monitoring the energy using device 15, the electric motor monitoring device 23, the air conditioner ( 40 and a monitoring information collection module 111 for collecting data according to energy usage from the sensor concentrator 32 through a power line communication gateway; Based on the collected monitoring information, it monitors whether a predetermined threshold condition has been reached, classifies it as a fault according to importance and severity according to whether the threshold condition is reached, identifies the point of occurrence and location of the fault, and identifies the fault according to the identified information. A failure processing module 112 for determining whether to repair the; A data analysis module 113 for processing, classifying, and storing the information collected by the monitoring information collecting module 111 according to a set condition; The situation notification support module 114 for notifying a remotely located user by using an e-mail or a short message when a failure situation such as a fire or an overload occurs together with an operation situation in which the modules 111, 112 and 113 collect and analyze data. and; Based on the collected data and the analyzed data, it is possible to identify the power usage status by period and point according to a predetermined power usage standard, and to present a proper power efficiency suggestion module for suggesting proper usage through facility and building energy load analysis and prediction. It consists of 115.

In this case, the monitoring information collection module 111 may support various protocols such as TCP / IP in addition to power line communication in order to collect data for obtaining the state of the energy using devices, through which the separate collection for each energy using device You can set the frequency or collect continuously in real time. The collected data includes incoming / quarterly short-circuit status, incoming / quarterly voltage / current, instantaneous change of voltage / current, breaker status, etc. in the case of UPS, input / output voltage / current, load ratio, battery output. Voltage, operation status, etc. In case of motor, it is operation status, power consumption, emergency stop, low voltage, over current, over voltage, over speed.

In addition, the failure processing module 112 monitors whether the collected information reaches a preset threshold condition among the information collected through the monitoring information collection module 111, and when the monitoring information exceeds the threshold condition, Analyze the importance and severity to determine whether you have a disability. If it is determined that the failure in the analysis, a pop-up window, sound playback, banner window output, E-mail, problem message can be generated on the monitor and sent to the terminal 200 or the status notification support module 114 to inform the operator. Make sure In this case, in the case of a failure generated on the power or air conditioning system diagram, the point and location of the failure may be displayed to enable rapid determination and processing, and the history of the failure situation may be stored and checked later.

In addition, the data analysis module 113 analyzes and processes various data collected through the monitoring information collection module 111 by applying a plurality of conditional expressions such as collection time, period, device, voltage, and current. As a module, the data analyzed according to the classification of power, air conditioning, environment, etc. is used as reference data for suggesting a plan for improving power efficiency.

In addition, the status notification support module 114 is a module for transmitting an e-mail or a short message transmitted from the failure handling module 112 to an operator located at a remote location, and classifying the grades according to the frequency and duration of failure, respectively. The notification can be made differently or repeatedly, and the notification details can be stored and managed for later checking.

In addition, the power efficiency improvement proposal module 115 performs a period, point, and power usage status by applying a predetermined power usage standard, and presents the appropriate energy consumption based on the identified data, and uses energy. It automatically controls the operation of cooling / heating, lighting, and air-conditioning-related devices by analyzing basic collected data such as temperature, humidity, tides (level rise caused by tides), and air volume inside / outside the unit where the device is installed.

And, as shown in Figure 6, the user support means 120 processes the information collected and analyzed by the energy use device monitoring and control means 110 in the form of a graphic, table, 3D map, etc. Situation monitoring UI support module 121 to output to (200); Power efficiency analysis UI support module for analyzing the efficiency of the power use using the data collected by the energy use device monitoring and control means 110 and displaying the power consumption of the individual facilities to output to the operator terminal in graphic form ( 122); A report UI support module 123 for generating data collected and analyzed by the energy use device monitoring and control means as report files in various formats such as MXTL, XML, MS Excel, and PDF for each period, facility, and energy source; According to the collected data and the analyzed data, the data output from the situation monitoring UI support module 121 is transmitted to a mobile device such as a PDA, a mobile phone, a portable device, and the like by using the wireless Internet for monitoring and controlling the situation at a distance. It is composed of a mobile UI support module 124 to perform.

In addition, the situation monitoring UI support module intuitively displays the location and current situation of the monitoring target device by using a 3D due diligence map, and checks the occurrence history in real time when the main situation occurs, and can query the processing history, Various options are provided to check the energy usage using graphs and gauges. At this time, the situation monitoring UI support module is installed in the integrated management server to output through a large display of the control center or in some cases installed in the terminal 200 to be output to the terminal monitor.

In addition, the power efficiency analysis UI support module is a module for analyzing the power efficiency using the energy usage data collected by the situation monitoring and control means 110, and outputs it to the terminal, switchgear, motor, air conditioner, UPS, It displays the power consumption of rectifiers and the like, determines whether excessive use occurs based on pre-specified power demand, and outputs the power distribution status and usage status using the power distribution / system diagram.

According to the integrated management method of the energy integrated control system configured as described above, it can be used to efficiently manage and supervise the energy use of buildings that are distributed nationwide using wired or wireless networks as well as single buildings.

As described above, the integrated energy management method according to the present invention can monitor the current state of power used in existing buildings and facilities, and can be easily constructed in existing buildings using power lines without additionally installing communication lines. Considering the demand power, it is possible to propose a plan for the efficient use of power.

While the present invention has been described with reference to the embodiments shown in the drawings, it is only for the purpose of illustrating the invention, and those skilled in the art to which the present invention pertains various modifications or equivalents from the detailed description of the invention. It will be appreciated that one embodiment is possible. Accordingly, the true scope of the present invention should be determined by the technical idea of the claims.

1 is a flowchart illustrating an integrated energy management method according to an embodiment of the present invention;

2 is a configuration diagram of an example energy integrated control system to which the integrated energy management method according to the present invention is applied;

3 is a configuration diagram of energy use devices applied as an example to the energy integrated control system of the present invention;

4 to 6 is a configuration diagram of the integrated management server constituting the energy integrated control system of the present invention.

<Description of the symbols for the main parts of the drawings>

10: power monitoring unit 11: distribution board

12: switchboard 13: UPS

14: Inverter / Rectifier 15: Power board / switchboard monitor

20: electric motor monitoring unit 21: electric motor

22: electric motor control board 23: electric motor monitoring device

30: air conditioning monitor 31: temperature sensor

32: sensor concentrator 40: air conditioner

100: Integrated Management Server

110: monitoring and control means for energy use devices

111: monitoring information collection module 112: failure handling module

113: data analysis module 114: situation notification support module

115: module for improving power efficiency 120: user support means

121: situation monitoring UI support module 122: power efficiency analysis UI support module

123: UI support module for reports 124: Mobile UI support module

200: terminal 300: mobile device

400: database 500: power line communication gateway

600: TCP / IP 700: Video monitoring means

Claims (8)

An integrated energy management method for buildings or power intensive facilities with energy use devices including distribution boards, distribution boards, electric motors, and air conditioners and a plurality of temperature sensors installed inside the building. Is operated, (a) The integrated management server collects data according to energy use of the energy using device through a power line communication network, and monitors and controls data analysis, fault determination, operation status and fault occurrence status based on the collected data. step; And (b) the integrated management server supports a user module for processing the data collected and analyzed through the monitoring and control step into a report in the form of graphics or documents to the user and provide the terminal or mobile device; Integrated management method. The method of claim 1, The monitoring and control step (a) of the energy use, (a-1) monitoring information collecting step of collecting data according to energy usage through a power line communication gateway connected to the energy using apparatus; (a-2) It is determined whether the surveillance information collected in the surveillance information collection step (a-1) has reached a preset threshold condition, and is classified into a fault according to the importance and severity according to whether the threshold condition is reached, and occurs. A failure processing determination step of determining the point and location of the failure and determining whether the failure is repaired according to the identified information; (a-3) a data analysis step of processing, classifying and storing the surveillance information collected in the surveillance information collection step (a-1) according to a set condition; And (a-4) Providing information on the occurrence of failures such as operation, fire, and overload by collecting and analyzing the data in the steps (a1 to a3) through notification to a remotely located user through e-mail or a short message. Integrated status management method comprising; a situation notification support step. The method of claim 2, The monitoring and control step (a) of the energy use, (a-5) Based on the collected data and the analyzed data, identify the current use status by period and branch according to a predetermined power usage standard, and use the facility and building energy load analysis and prediction to present the appropriate power consumption. Integrated energy management method further comprising; The method of claim 1, The user module support step (b), (b-1) a situation monitoring UI supporting step of processing and outputting data information collected and analyzed from the energy using apparatus into a graphic, table, and 3D map; (b-2) a power efficiency analysis UI supporting step of analyzing power efficiency using data collected from the energy usage device and displaying power consumption of individual facilities and outputting them in graphic form to a terminal of an operator; (b-3) a UI support step for generating a report file in MXTL, XML, MS Excel, or PDF format for each period, facility, and energy source based on the data collected and analyzed by the energy using device; And (b-4) The data output from the situation monitoring UI support step (b-1) according to the data collected from the energy using device and the analyzed data is transferred to a mobile device such as a PDA, a mobile phone, and a portable device through the wireless Internet. A mobile UI support step of transmitting and monitoring the current status from a remote location; Integrated energy management method comprising at least one of. The method according to any one of claims 1 to 4, Data collected according to the energy usage of the energy using device, Power monitoring data such as voltage, current, power factor, frequency, harmonics, leakage current, and potential difference input and output from the distribution panel, the distribution panel, the UPS, and the inverter / rectifier; Motor monitoring data for monitoring an operating state of an electric motor for operating an elevator, a revolving door, an escalator, and an electric motor control panel; Air conditioner operation data for appropriately maintaining and operating the operating temperature of various devices installed in the space or inside the building; And Air conditioning monitoring data collected from temperature sensors installed in a plurality of places in accordance with the air flow of each living space or various devices installed in the room where the temperature is controlled by the air conditioner; Integrated energy management method, characterized in that at least one or more. The method of claim 5, The power monitoring data, Integrated energy management method characterized in that the integrated management server is transmitted through the power line communication from the switchgear / switchgear monitoring device that collects the power-related data connected to the distribution panel, switchgear, UPS, inverter / rectifier. The method of claim 5, The motor monitoring data, The integrated energy management method characterized in that the integrated management server is transmitted through the power line communication from the motor monitoring device for collecting the operation data of the motor and the motor control panel. The method of claim 5, The air conditioning monitoring data, Integrated energy management method characterized in that the integrated management server is transmitted through the power line communication from the sensor concentrator collecting the temperature data of the location from the wired or wireless temperature sensor installed inside the building.

Images