CN205647020U - Power scheduling backstage monitored control system - Google Patents

Abstract

The utility model discloses a power scheduling backstage monitored control system, including the intranet partial sum according to the wet end branch, dispatching work station and maintenance work station are connected to the intranet part, the intranet part includes still that two at least interior network switches, historical server disk array and service implementation ware organize, historical server farm carries out data interchange through interior network switches with dispatching work station and maintenance work station respectively with real -time server farm, historical server farm passes through array switch and disk array communication, carry out data sharing according to the wet end branch through the data acquisition server with the intranet partial sum, the intranet part links to each other with dispatching work station and maintenance work station, and accessible dispatching work stands internal netting index according to carrying out direct control to through the sharing of data acquisition server, the data acquisition server passes through the outer net and communication device will monitor remote data transmission, simplifies monitoring system structure, and the control of being convenient for improves data transmission efficiency, ensures that power system fault can in time handle.

Description

Power scheduling background monitoring system

Technical field

This utility model relates to electric power dispatching system technical field, particularly relates to power scheduling background monitoring system.

Background technology

Electric power is the energy using electric energy as power, it is widely used in commercial production and daily life, it it is the indispensable part of human society, especially at nearly 20 years, along with mechanical automation, developing rapidly of the Internet and electronic technology, people form the dependency to electric energy gradually, very difficult adaptation does not has the life of electric power, electrical network is then the carrier of electric power, it transfers electrical energy into the place of needs, electric energy is provided for local productive life, but electrical network once breaks down and may result in subregion power failure, so electrical network power supply reliability is particularly important, power supply management department is the power supply reliability improving electrical network, power scheduling monitoring system is used to monitor grid operating conditions, even if so that finding electric network fault, and carry out remote scheduling process, ensure reliable power supply.

Power scheduling monitoring system is exactly the system that grid operating conditions carries out supervisory control and data acquisition, it is the pith of energy management, mainly complete subordinate's substation equipment is carried out real-time data acquisition, process, monitor, the work such as control and calculating, it it is the interface between dispatcher and substation equipment, the monitoring personnel helping power scheduling red heart at different levels correctly grasp operation of power networks state, accelerate decision-making and be diagnosed to be rapidly electric network fault and process, it it is the indispensable instrument of operation of power networks, but existing dispatching of power netwoks monitoring system structure is complicated, it is not easy to background monitoring, data transmission efficiency is low, affect electric network fault treatment effeciency.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of power scheduling background monitoring system, internal network part and data mesh portions are carried out data sharing by data acquisition server, internal network part is connected with dispatching workstations and maintenance work station, by dispatching workstations, intranet data directly can be monitored, and shared by data acquisition server, data acquisition server will monitor data remote transmission by outer net and communicator, simplify monitoring system structure, it is easy to monitoring, improve data transmission efficiency, it is ensured that electric network fault can process in time.

For solving above-mentioned technical problem, technical solution adopted in the utility model is: a kind of power scheduling background monitoring system, including internal network part and data mesh portions, internal network part connects dispatching workstations and maintenance work station, internal network part also includes at least two Intra-Network switch, history server disk array and service implementation device group, described history server group and real-time server group carry out data exchange by Intra-Network switch with dispatching workstations and maintenance work station respectively, described history server group is by array switch and disk array communication, described data network part includes data network switch and communicator, described internal network part and data mesh portions realize data sharing by data acquisition server.

Described history server group includes that two history servers, two history servers communicate two-by-two with two array row switches respectively, and two set array switches all can connect with disk array, it is achieved digital independent and storage.

Described data acquisition server is set up in parallel two sets, and described real-time server group includes at least two real-time servers.

Described internal network part passes through internet GPS module and external device communication.

Use and have the beneficial effects that produced by technique scheme: internal network part and data mesh portions are carried out data sharing by data acquisition server, internal network part is connected with dispatching workstations and maintenance work station, by dispatching workstations, intranet data directly can be monitored, and shared by data acquisition server, data acquisition server will monitor data remote transmission by outer net and communicator, simplify monitoring system structure, it is easy to monitoring, improve data transmission efficiency, it is ensured that electric network fault can process in time.

Accompanying drawing explanation

Fig. 1 is native system structural representation.

Detailed description of the invention

With detailed description of the invention, this utility model is described in further detail below in conjunction with the accompanying drawings.

Complicated for solving existing electric power dispatching system structure, the problem that data transmission efficiency is low, this utility model provides a kind of power scheduling background monitoring system as shown in Figure 1, including internal network part and data mesh portions, internal network part connects dispatching workstations and maintenance work station, internal network part also includes at least two Intra-Network switch, history server disk array and service implementation device group, described history server group and real-time server group carry out data exchange by Intra-Network switch with dispatching workstations and maintenance work station respectively, described history server group is by array switch and disk array communication, described data network part includes data network switch and communicator, described internal network part and data mesh portions realize data sharing by data acquisition server.

Described history server group includes that two history servers, two history servers communicate two-by-two with two array row switches respectively, and two set array switches all can connect with disk array, it is achieved digital independent and storage.

Described data acquisition server is set up in parallel two sets, and described real-time server group includes at least two real-time servers.

Described internal network part passes through internet GPS module and external device communication.

In concrete application process, internal network part and data mesh portions are carried out data sharing by data acquisition server by this utility model, internal network part is connected with dispatching workstations and maintenance work station, can directly be monitored intranet data by dispatching workstations, and be shared by data acquisition server, data acquisition server will monitor data remote transmission by outer net and communicator, simplify monitoring system structure, it is easy to monitoring, improves data transmission efficiency, it is ensured that electric network fault can process in time.

Claims (4)

1. a power scheduling background monitoring system, it is characterized in that: include internal network part and data mesh portions, internal network part connects dispatching workstations and maintenance work station, internal network part also includes at least two Intra-Network switch, history server disk array and service implementation device group, described history server group and real-time server group carry out data exchange by Intra-Network switch with dispatching workstations and maintenance work station respectively, described history server group is by array switch and disk array communication, described data network part includes data network switch and communicator, described internal network part and data mesh portions realize data sharing by data acquisition server.

Power scheduling background monitoring system the most according to claim 1, it is characterized in that: described history server group includes two history servers, two history servers communicate two-by-two with two array row switches respectively, two set array switches all can connect with disk array, it is achieved digital independent and storage.

Power scheduling background monitoring system the most according to claim 2, it is characterised in that: described data acquisition server is set up in parallel two sets, and described real-time server group includes at least two real-time servers.

Power scheduling background monitoring system the most according to claim 3, other are characterised by: described internal network part passes through internet GPS module and external device communication.