CN104795901A - Emergency production command management system for power grid - Google Patents

Abstract

The invention discloses an emergency production command management system for a power grid. The emergency production command management system for the power grid comprises a power-distributing automatic master station system, a power grid data collecting and monitoring system, a power-distributing geographic information system, a demand side distribution system and a temporary power supply system, wherein the power grid data collecting and monitoring system is connected with the power-distributing automatic master station system; the power-distributing geographic information system is connected with the power-distributing automatic master station system; the demand side distribution system is connected with the power-distributing automatic master station system; and the temporary power supply system is connected with the power-distributing automatic master station system. According to the emergency production command management system, when one power supply circuit is broken down or is damaged, a corresponding temporary power supply circuit is controlled to carry out emergency power supply for a user; and the problem of breakdown of power supply equipment, caused by increase of electrical loads, can be timely solved.

Description

A kind of electric network emergency produces Command Management System

Technical field

The present invention relates to a kind of Command Management System, specifically refer to a kind of Command Management System produced for electric network emergency, belong to the technical field of power supply.

Background technology

Along with improving constantly of socioeconomic development and people's living standard, the demand of entire society to electric power is increasing.Especially in summer and winter, the universalness of the equipment such as air-conditioning makes electrical network there is very large power supply breach.Due to rolling up of power load, be easy to the damage causing power supply unit, thus cause the paralysis of supply line, and supply line also can be subject to the destruction of extreme weather and natural calamity and cannot power.

Based on above-mentioned, the present invention proposes a kind of electric network emergency and produces Command Management System, in order to solve the problem and to limit.

Summary of the invention

The object of this invention is to provide a kind of electric network emergency and produce Command Management System, can when a certain road supply line breaks down or wrecks, control corresponding temporary power circuit and carry out emergency service for user, solve the problem of the power supply unit paralysis caused because power load increases in time.

For achieving the above object, technical scheme of the present invention is to provide a kind of electric network emergency and produces Command Management System, and it comprises: power distribution automation main station system; Electric network data gathers and surveillance, and it is connected with described power distribution automation main station system; Distribution GIS-Geographic Information System, it is connected with described power distribution automation main station system; Demand-side distribution system, it is connected with described power distribution automation main station system; Temporary power system, it is connected with described power distribution automation main station system.

Described power distribution automation main station system adopts synchronizing digital hierarchy equipment.

Described electric network data collection and surveillance comprise: the first distribution terminal unit, and it is connected with described power distribution automation main station system by optical fiber; Network load monitoring system, it is connected with the first described distribution terminal unit.

Described distribution GIS-Geographic Information System is connected by optical fiber with described power distribution automation main station system.

Described Demand-side distribution system comprises multiple Demand-side allocation units be connected with power distribution automation main station system respectively; Each described Demand-side allocation units comprise: the second distribution terminal unit, and it is connected with described power distribution automation main station system by optical fiber; Power distribution station, it is connected with the second described distribution terminal unit; Supply line, itself and described power distribution station are electrically connected.

Described temporary power system comprises multiple temporary power unit be connected with power distribution automation main station system respectively; Each described temporary power unit comprises: the 3rd distribution terminal unit, and it is connected with described power distribution automation main station system by optical fiber; Bypass load-switch, it is connected with the 3rd described distribution terminal unit; Temporary power circuit, itself and described bypass load-switch are electrically connected.

Described bypass load-switch adopts vacuum type high voltage load switch.

The quantity of described Demand-side allocation units is identical with the quantity of described temporary power unit, when the supply line of wherein some Demand-side allocation units breaks down, bypass load-switch in corresponding temporary power unit is opened, and makes temporary power circuit emergency service.

Electric network emergency provided by the present invention produces Command Management System, and when Demand-side distribution system Zhong Ge road supply line's normal power supply, power distribution automation main station system controls the Ge Lu supply line that each road power distribution station is correspondence and provides electric energy; When wherein a certain road supply line breaks down or wrecks and cannot power, the bypass load-switch that power distribution automation main station system controls in corresponding temporary power unit is opened, and temporary power circuit is obtained electric, realizes the emergency service to user.

In sum, electric network emergency provided by the present invention produces Command Management System, can when a certain road supply line breaks down or wrecks, control corresponding temporary power circuit and carry out emergency service for user, solve the problem of the power supply unit paralysis caused because power load increases in time.

Accompanying drawing explanation

Fig. 1 is the structural representation that electric network emergency provided by the invention produces Command Management System.

Embodiment

Below in conjunction with Fig. 1, describe a preferred embodiment of the present invention in detail.

As shown in Figure 1, for electric network emergency provided by the present invention produces Command Management System, it comprises: power distribution automation main station system 1; Electric network data gathers and surveillance 2, and it is connected with described power distribution automation main station system 1; Distribution GIS-Geographic Information System 3, it is connected with described power distribution automation main station system 1; Demand-side distribution system 4, it is connected with described power distribution automation main station system 1; Temporary power system 5, it is connected with described power distribution automation main station system 1.

In the present embodiment, described power distribution automation main station system 1 adopts SDH(Synchronous Digital Hierarchy, SDH (Synchronous Digital Hierarchy)) equipment realization.

Described electric network data collection and surveillance 2 comprise: the first distribution terminal unit (DTU) 22, and it is connected with described power distribution automation main station system 1 by optical fiber 6; Network load monitoring system 21, it is connected with the first described distribution terminal unit 22.

In the present embodiment, described network load monitoring system 21 adopt model be CTR-LMB1 load monitor realize.

Described distribution GIS-Geographic Information System 3 is connected by optical fiber 6 with described power distribution automation main station system 1.In the present embodiment, described distribution GIS-Geographic Information System 3 adopts GIS(Geographic Information System or Geo-Information system, GIS-Geographic Information System) technology realization.

Described Demand-side distribution system 4 comprises multiple Demand-side allocation units be connected with power distribution automation main station system 1 respectively; Each described Demand-side allocation units comprise: the second distribution terminal unit 43, and it is connected with described power distribution automation main station system 1 by optical fiber 6; Power distribution station 41, it is connected with the second described distribution terminal unit 43; Supply line 42, itself and described power distribution station 41 are electrically connected.

Described temporary power system 5 comprises multiple temporary power unit be connected with power distribution automation main station system 1 respectively; Each described temporary power unit comprises: the 3rd distribution terminal unit 53, and it is connected with described power distribution automation main station system 1 by optical fiber 6; Bypass load-switch 51, it is connected with the 3rd described distribution terminal unit 53; Temporary power circuit 52, itself and described bypass load-switch 51 are electrically connected.

In the present embodiment, described bypass load-switch 51 adopts vacuum type high voltage load switch to realize.

The quantity of described Demand-side allocation units is identical with the quantity of described temporary power unit, when the supply line 42 of wherein some Demand-side allocation units breaks down, bypass load-switch 51 in corresponding temporary power unit is opened, temporary power circuit 52 is obtained electric, realize emergency service.

Electric network emergency provided by the present invention produces Command Management System, operationally, realizes the control to electric network data collection and surveillance 2, distribution GIS-Geographic Information System 3, Demand-side distribution system 4 and temporary power system 5 by power distribution automation main station system 1.Wherein, the network load monitoring system 21 of electric network data collection and surveillance 2 is for monitoring the supply load of multiple power distribution station 41.Distribution GIS-Geographic Information System 3 for describing the geographic profile information of electric power administrative mechanism, to facilitate inquiry.When Demand-side distribution system 4 Zhong Ge road supply line's normal power supply, power distribution automation main station system 1 controls the Ge Lu supply line 42 that each road power distribution station 41 is correspondence and provides electric energy.When wherein a certain road supply line 42 breaks down or wrecks and cannot power, the bypass load-switch 51 that power distribution automation main station system 1 controls in corresponding temporary power unit is opened, temporary power circuit 52 is obtained electric, realize the emergency service to user.

In sum, electric network emergency provided by the present invention produces Command Management System, can when a certain road supply line breaks down or wrecks, control corresponding temporary power circuit and carry out emergency service for user, solve the problem of the power supply unit paralysis caused because power load increases in time.

Although content of the present invention has done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to limitation of the present invention.After those skilled in the art have read foregoing, for multiple amendment of the present invention and substitute will be all apparent.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (8)

1. electric network emergency produces a Command Management System, it is characterized in that, comprises:

Power distribution automation main station system (1);

Electric network data gathers and surveillance (2), and it is connected with described power distribution automation main station system (1);

Distribution GIS-Geographic Information System (3), it is connected with described power distribution automation main station system (1);

Demand-side distribution system (4), it is connected with described power distribution automation main station system (1);

Temporary power system (5), it is connected with described power distribution automation main station system (1).

2. electric network emergency as claimed in claim 1 produces Command Management System, it is characterized in that, described power distribution automation main station system (1) adopts synchronizing digital hierarchy equipment.

3. electric network emergency as claimed in claim 1 produces Command Management System, and it is characterized in that, described electric network data collection and surveillance (2) comprise:

First distribution terminal unit (22), it is connected with described power distribution automation main station system (1) by optical fiber;

Network load monitoring system (21), it is connected with the first described distribution terminal unit (22).

4. electric network emergency as claimed in claim 1 produces Command Management System, and it is characterized in that, described distribution GIS-Geographic Information System (3) is connected by optical fiber with described power distribution automation main station system (1).

5. electric network emergency as claimed in claim 1 produces Command Management System, and it is characterized in that, described Demand-side distribution system (4) comprises multiple Demand-side allocation units be connected with power distribution automation main station system (1) respectively; Each described Demand-side allocation units comprise:

Second distribution terminal unit (43), it is connected with described power distribution automation main station system (1) by optical fiber;

Power distribution station (41), it is connected with the second described distribution terminal unit (43);

Supply line (42), itself and described power distribution station (41) are electrically connected.

6. electric network emergency as claimed in claim 5 produces Command Management System, and it is characterized in that, described temporary power system (5) comprises multiple temporary power unit be connected with power distribution automation main station system (1) respectively; Each described temporary power unit comprises:

3rd distribution terminal unit (53), it is connected with described power distribution automation main station system (1) by optical fiber;

Bypass load-switch (51), it is connected with the 3rd described distribution terminal unit (53);

Temporary power circuit (52), itself and described bypass load-switch (51) are electrically connected.

7. electric network emergency as claimed in claim 6 produces Command Management System, it is characterized in that, described bypass load-switch (51) adopts vacuum type high voltage load switch.

8. electric network emergency as claimed in claim 6 produces Command Management System, it is characterized in that, the quantity of described Demand-side allocation units is identical with the quantity of described temporary power unit, when the supply line (42) of wherein some Demand-side allocation units breaks down, bypass load-switch (51) in corresponding temporary power unit is opened, and makes temporary power circuit (52) emergency service.