KR102064530B1 - SNS-based Peak Control Alert System in energy management system - Google Patents

Abstract

The present invention relates to a peak control alarm system applied to an EMS, comprising an EMS control center as a cloud control system, and whether there is an abnormality, such as the maximum power management device through the data comparison between the maximum power management device and KEPCO iSMART provided to the customer The present invention relates to an SNS-based peak control alarm system for EMS and a method for enabling alarm transmission using SNS.
SNS-based peak control alarm system for EMS of the present invention, the maximum power management device 110 for generating peak information by using the demand power and the demand time collected by the electronic meter 111 for each customer; A management terminal 120 provided in a user or an administrator to receive peak information through a wired or wireless network; And an EMS (Energy Management System) control center (130) configured as a cloud server for receiving peak information through a wired or wireless network, wherein the EMS control center (130) includes peak information transmitted from the maximum power management device (110). And iSMART provided information transmitted from KEPCO in real time, to generate an alarm when different from each other to transmit to the management terminal 120 using SNS (Social Network Service) or SMS (Short Message Service) There are technical features.

Description

SNS-based peak control alert system and method for EMS {SNS-based Peak Control Alert System in energy management system}

The present invention relates to a peak control alarm system applied to an EMS, comprising an EMS control center as a cloud control system, and whether there is an abnormality, such as the maximum power management device through the data comparison between the maximum power management device and KEPCO iSMART provided to the customer The present invention relates to an SNS-based peak control alarm system for EMS and a method for enabling alarm transmission using SNS.

As facilities including buildings are enlarged, the introduction of automation and intelligent systems is required, and the application of an energy management system (EMS), which is in line with the government's energy saving policy, is also required.

EMS stores the configuration information, performance information, operator information, failure information and various detailed information of all equipment in the facility such as a building that needs control, and checks whether there is a problem with the equipment and provides the operator with a message according to the equipment's failure. In particular, it is configured to detect energy loads of standby power, electric furnace, pump, air conditioner, air conditioner, lighting, etc. in various sites and to efficiently manage power usage according to peak control, so that energy saving operation can be implemented. do.

Prior art "Smart Energy Management System and its control method" of Patent Document 1 includes a weather sensor for sensing an outdoor weather condition including temperature and humidity; An indoor sensor configured to sense an indoor state including an amount of CO 2 and the temperature and humidity; A peak for controlling the supply of power supplied to the facility when the outdoor weather state and the indoor state is provided to provide a temperature and humidity set point to the facilities, and analyzing the power usage to exceed a preset suitable power usage. The configuration for performing the operation is posted.

The conventional peak control alarm system only informs the user or the power management manager of the peak condition of power by using the external contact output or communication of the peak demand power controller. There is a lack of coping with the situation.

Patent Document 1. Republic of Korea Patent Registration No. 10-1278638

In order to solve the problems of the prior art as described above, the present invention, the real-time monitoring and coping with the state of the maximum power management device through the EMS control center cloud management system (remote A / S), the power consumption collected in the cloud server Real-time analysis of data, remote monitoring of specialists to provide optimal energy usage guide, calculation of demand reduction according to customer standard demand, and maximum power management device through comparison of data between maximum power management device and KEPCO iSMART. The purpose of this is to identify the abnormality of the alarm and enable the transmission of alarms using SNS.

In addition, SNS function using the network such as Ethernet and Wifi is added to the maximum power management device provided to the customer, and the peak information and peak control alarms are transmitted in real time to the registered user or administrator by the SNS message function of the maximum power management device itself. There is another purpose to do this.

One aspect of the SNS-based peak control alarm system for the EMS of the present invention, the maximum power management device for generating peak information by using the demand power and demand time collected by the electronic meter for each customer; A management terminal provided in a user or an administrator and receiving the peak information through a wired or wireless network; And EMS (Energy Management System) control center consisting of a cloud server for receiving the peak information through a wired or wireless network; The EMS control center compares the peak information transmitted from the maximum power management device with the iSMART provided information transmitted from KEP in real time, and generates an abnormal alarm when they are different from each other to generate an SNS (Social Network Service). Or it characterized in that the transmission to the management terminal using a Short Message Service (SMS).

In addition, the EMS control center is characterized by comparing the 15-minute peak power value of the information transmitted from the maximum power management device and KEPCO, respectively.

In addition, two aspects of the SNS-based peak control alarm system for EMS of the present invention is provided for each customer, the maximum power management to generate peak information and peak control alarm using the demand power and demand time collected by the electronic meter Device; A management terminal provided in a user or an administrator to receive the peak information and the peak control alert through a wired or wireless network; And EMS control center consisting of a cloud server for receiving the peak information and the peak control alarm via a wired or wireless network; The maximum power management device includes a built-in web server (OS), an OS (Operating System), and an embedded (Embedded) type capable of SNS function, to the management terminal using SNS or SMS. The peak information and the peak control alarm is characterized in that the transmission in real time.

In addition, the SNS-based peak control alarm method for EMS of the present invention, using the SNS-based peak control alarm system for the EMS of the first aspect, the maximum power management device collects the power usage information of the customer, Generating peak information according to the power usage information; Transmitting, by the maximum power management device, the peak information to an EMS control center; Receiving, by the EMS control center, iSMART provision information of KEPCO; Comparing, by the EMS control center, a 15 minute peak power value in the iSMART providing information transmitted from KEPCO with the 15 minute peak power value in the peak information transmitted from the maximum power management device; And if there is a difference in the peak power value of 15 minutes, the EMS control center generates an abnormal alert and transmits to the management terminal using the SNS.

Therefore, SNS-based peak control alarm system and method for EMS of the present invention, real-time monitoring and coping with the state of the maximum power management device through the EMS control center, a cloud control system (remote A / S), collected in the cloud server Real-time analysis of the power usage data, remote monitoring of experts to provide the best energy usage guide, calculation of demand reduction according to customer standard demand, as well as the maximum power by comparing the data between the maximum power management device and KEPCO iSMART It is possible to identify the abnormality of the management device and to transmit the alarm using SNS.

In addition, SNS function using the network such as Ethernet and Wifi is added to the maximum power management device provided to the customer, and the peak information and peak control alarms are transmitted in real time to the registered user or administrator by the SNS message function of the maximum power management device itself. It is effective.

1 is a block diagram of an SNS-based peak control alarm system for an EMS according to an embodiment of the present invention.
2 is a block diagram of an SNS-based peak control alarm system for an EMS according to an embodiment of the present invention.
3 is a flowchart illustrating a SNS-based peak control alarm method for an EMS according to an embodiment of the present invention.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

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

1 and 2 are diagrams showing the configuration of the SNS-based peak control alarm system for EMS according to an embodiment of the present invention.

1 and 2, the SNS-based peak control alarm system for EMS of the present invention, the maximum power management device 110, management terminal 120 and EMS (Energy Management System) control center 130 It is configured to include).

The maximum power management device 110 is provided for each customer, and collects demand power and demand time collected by the electronic meter 111, and generates peak information and peak control alarms from them.

The management terminal 120 is provided to a user or an administrator to receive the peak information and the peak control alert through a wired or wireless network. In this case, the management terminal 120 includes a PC, a mobile phone capable of mobile communication, and / or a smart device to enable the reception of the information using a social network service (SNS) and a short message service (SMS).

The EMS (Energy Management System) control center 130 is configured as a cloud server to receive the peak information and the peak control alert through a wired or wireless network.

The system shown in FIG. 1 integrates the maximum power management device 110 into iEMS, which is a cloud control system, to receive power usage data for each customer from the maximum power management device 110, and to be transmitted from KEPCO. Compared with the iSMART-provided information (transmitted using the API provided by KEPCO), if it finds a difference in peak power, such as 15 minutes, it informs the user or administrator of the abnormality and peak control alarm in real time using SNS or SMS Aim to

EMS control center 130, a cloud control system according to the present invention monitors and cope with the state of the maximum power management device 110 in real time (remote A / S), of the power usage data collected in the cloud server (not shown) Real-time analysis, suggesting optimal energy usage guide by remote monitoring of experts, calculating demand reduction according to customer standard demand, and identifying abnormality of device and transmitting alarm through data comparison between maximum power management device 110 and KEPCO iSMART Make it possible.

That is, the EMS control center 130 including the cloud server compares the peak information transmitted from the maximum power management device 110 with the iSMART provided information transmitted from KEP in real time, and an abnormal alarm when different from each other. To generate and transmit to the management terminal 120 using SNS or SMS (see arrow in Figure 1).

In particular, the EMS control center 130 is characterized by comparing the peak power value of 15 minutes among the information transmitted from the maximum power management device 110 and KEPCO, respectively.

The user or the manager takes follow-up actions according to the abnormality alarm transmitted to the management terminal 120, for example, the power usage information of the customer due to the failure of the equipment related to the maximum power management device 110 provided for each customer is properly There may be cases where it is not communicated, so take action.

The system shown in FIG. 2 adds an SNS function using a network such as Ethernet and Wifi to the maximum power management device 110 to provide the peak information and the peak control alarm with the SNS message function of the maximum power management device 110 itself. It aims to inform registered users or administrators.

In other words, the maximum power management device 110 has a built-in web server (Web Server), the operating system (OS) such as Linux, Android, iOS, etc., SNS (KakaoTalk, Facebook, Twitter, etc.) built-in It is provided in the embedded (Embedded) type, to transmit the peak control alarm to the management terminal 120 in real time by using the SNS (see the arrow in Figure 2), the peak information and peak control received by the management terminal 120 Alerts give administrators control of the peaks.

On the other hand, SNS-based peak control alarm method for the EMS of the present invention, using the SNS-based peak control alarm system for EMS shown in Figure 1, the maximum power management device 110 to the power usage information of the customer Collecting in real time and generating peak information according to the power usage information; Transmitting, by the maximum power management apparatus, the peak information to the EMS control center 130; Receiving, by the EMS control center 130, iSMART provision information from KEPCO; An EMS control center 130 comparing the 15-minute peak power value in the iSMART provided information transmitted from KEPCO with the 15-minute peak power value in the peak information transmitted from the maximum power management device 110; And if the difference between the 15-minute peak power value exceeds a predetermined range, the EMS control center 130 generates an abnormal alarm and transmitting to the management terminal 120 using the SNS.

3 is a flowchart illustrating a SNS-based peak control alarm method for an EMS according to an embodiment of the present invention. As shown in FIG. 3, in the SNS-based peak control alarm method for the EMS, the maximum power management apparatus 110 collects power usage information of the customer (S10), and causes a power peak situation according to the power usage information. When the peak information is generated (S20), the peak information is transmitted to the EMS control center 130 (S30). Next, the EMS control center 130 receives the information provided by the iSMART using an API (Application Programming Interface) provided from KEPCO (S40). Here, (S30) and (S40) is not determined in the order, each step is performed in real time continuously.

ISMART provided by KEPCO is a power portal service that integrates the existing power consumption consulting (PCCS) and the continuous demand management system to support efficient power usage and maximize the demand management effect.

The cloud-based EMS control center 130 compares the 15-minute peak power value of the iSMART provided information transmitted from KEPCO and the 15-minute peak power value of the peak information transmitted from the maximum power management device 110 to each other ( S50), if the difference exceeds a predetermined range, generates an abnormal alarm (S60), and transmits to the management terminal 120 using SNS or SMS (S70) to notify the administrator to follow up according to the abnormal alarm To be taken.

Although the present invention has been shown and described with reference to the preferred embodiments as described above, it is not limited to the above embodiments and those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

110: maximum power management device
111: electronic meter
120: management terminal
130: EMS Control Center

Claims (4)

delete delete A maximum power management device 110 that is provided for each customer and generates peak information by using demand power and demand time collected by the electronic meter 111;
A management terminal 120 provided in a user or an administrator and receiving the peak information through a wired or wireless network; And
An EMS (Energy Management System) control center 130 configured as a cloud server that receives the peak information through a wired or wireless network;
Including;
The EMS control center 130 compares a peak power value of 15 minutes in real time among the peak information transmitted from the maximum power management device 110 and iSMART provided information transmitted in real time from KEPCO, and when different from each other, SNS-based peak control for EMS using an SNS-based peak control alarm system for EMS to generate an abnormal alert and transmit to the management terminal 120 using SNS (Social Network Service) or SMS (Short Message Service) As an alarm method,
The maximum power management device 110 is provided for each customer to collect demand power and demand time collected by the electronic meter 111, and generate peak information and peak control alarms from them;
The maximum power management device 110 transmits the peak information and the peak control alarm to the EMS control center 130 through a wired or wireless network, and is configured as an embedded type to have its own social network service (SNS) or SMS ( Transmitting the peak information and the peak control alert to a management terminal (120) using a Short Message Service;
The EMS control center 130 receives the iSMART provided information using an API (Application Programming Interface) provided by KEPCO;
The EMS control center 130 comparing the 15-minute peak power value in the iSMART provided information transmitted from KEPCO with the 15-minute peak power value in the peak information transmitted from the maximum power management device 110; And
If the difference of the 15-minute peak power value exceeds a predetermined range, the EMS control center 130 generates an abnormal alarm and transmits to the management terminal 120 using the SNS;
Including;
The peak power management device 110 transmits the peak information and the peak control alarm to the EMS control center 130 and receives the iSMART providing information from the Korea Electric Power in the EMS control center 130 in real time. SNS-based peak control alarm method for the EMS, characterized in that carried out continuously. delete

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