CN205231848U - Distribution network automated management system - Google Patents

Abstract

The utility model relates to a power systems technology field, concretely relates to distribution network automated management system. The service management of netting the flowization is joined in marriage in the realization, promotes to join in marriage net dispatching management level, realizes managing scientificly to improve economic benefits. The utility model discloses a following technical scheme: a distribution network automated management system which characterized in that: including safety zone I and safety zone II, safety zone I includes commercial data base server, SCADA server, management server, DPAS server, data acquisition and communication subsystem and a plurality of workstation of connecting on a network main line, safety zone II is including GIS system, connection the WEB server on no. Three network main line of connection on no. Two network main lines, no. Two network main lines and no. Three network main lines are connected with a network main line through physics isolating device respectively.

Description

A kind of distribution network automated management system

Technical field

The utility model relates to technical field of power systems, is specifically related to a kind of distribution network automated management system.

Background technology

Electrical power distribution automatization system development & construction have the history of nearly 10 years in power supply enterprise of China.From the electrical power distribution automatization system that current China has built, basic function construction mode by initial control on the spot (automatic circuit, coincidence sectionalizer, reclosing ten automatic distribution switch) develop into gradually communication and main website centralized monitor and troubleshooting (distribution SCADA ten DA) DA, based on several functions patterns such as the off-line distribution management DMS of GIS, DA is mutually integrated with the distribution management based on GIS in real time DA/DMS.Improving and development of electrical power distribution automatization system, in promoting enterprise safety in production, quality supply, advanced management, customer service etc., achieves good effect.

Although DMS system has played positive effect to China's power distribution automation, but concerning most enterprises, but still advance in exploration, the result that power distribution automation is implemented is generally that input-output ratio is not obvious, the economic and technical norms relating to distribution are not improved, and labour intensity and the operational environment of relevant management and running personnel do not obtain large improvement.Wherein chief reason is technology realization approach problem and does not have applicable product.Must be pointed out: Distribution Management System Functional Design is key factor wherein.The implementation process of Distribution Management System has following defect:

(1) limitation of conventional electrical distribution management system functional mode (SCADA+DA);

SCADA and DA function is the basic function of DMS system.SCADA function comprises: the condition real time data collection statistics that distribution net equipment runs, the real time data of monitoring load and voltage on a large scale and analysis, Operation Mode Optimization, control adjust quality of voltage, remote operation project etc., guarantee distribution safety and economic operation.DA troubleshooting function, is mainly reflected in the automatic recovery of power supply of automatism isolation to line fault section and non-faulting section, to reduce the network equipment and user break period when fault.Although the function that the DA most fundamental sum that is DMS system is the most practical, cause primary equipment to invest the restriction of the factor such as not in place due to fund reason, DA function can not cover whole distribution.

At present, the user of China's power distribution network have a power failure 80% even more than 90% all planned power failure cause, but not fault outage, wherein urban construction, electric network reconstruction and overhaul of the equipments account for sizable ratio.The routine work major part of corresponding distribution is all have a power failure around scheduled overhaul to launch, therefore, DA function only actually covers a little part for distribution routine work, the effect play raising power supply reliability is also little, also be just difficult to see higher output/input ratio, on the labour intensity and working automation degree that alleviate related personnel improve, meaning is limited accordingly.

(2) bottleneck of generalized information system;

Power distribution network is intricate, operational mode is changeable, only rely on drawing that experience engineer grasps, data and individual memory power carries out managing and be difficult to run well, the operational management being applied as power distribution network of GIS-Geographic Information System (GIS) provides a network model with geographical environment information, effectively manages the aspect such as assets, planning, design, construction, maintenance of Distribution Network Equipment.

Domesticly in GIS application, done larger effort, a lot of enterprise has all built the generalized information system of oneself, but is develop very uneven in functional localization, and practical case is little, and concentrates on figure and provide management aspect; Because GIS and SCADA information interchange is not smooth, the role of electric power system production and administration also can't be fully demonstrated at present.

(3) blank of management function;

Existing GIS and SCADA system all do not contain the routine work of distribution completely, especially account for the scheduled overhaul part of distribution work more than 80%.

Also do not start to walk towards the Distribution Management System of distribution Real-Time Scheduling and production run at present, also do not have a set of distribution real-time management system truly can start with from the final application of distribution scheduling management, realize the automation that distribution scheduler routine work all-the-way tracking, resource information are shared and managed.

(4) problem of information island;

The DMS system of broad sense contains distribution to be produced, runs and service overall process, and therefore this system relates to all real time information, all distribution net equipment information and the user profile of distribution, and above information source is distributed in the different system of different department.Wherein real time information derives from the distribution real-time monitoring system of each branch office, and facility information derives from the Power Distribution GIS system of information centre, user profile then derive from electricity consumption department customer information system, in addition also may with mis system exchange message.

From current product both domestic and external; not yet there is the product that above types of functionality and information can be intactly provided; the informationalized construction of power supply enterprise is also iterative method simultaneously; therefore; how many products carry out the longitudinal direction of information and the information integerated of transverse direction; be the problem of pendulum in face of us, be also the needs of protection customer investment simultaneously.But due to many, products application location is different, demand is different, how to get through current each " information island ", waits to solve.

Utility model content

The purpose of this utility model solves Problems existing in above-mentioned background technology, provides a kind of distribution network automated management system, realize the service management of distribution procedure, promotes distribution scheduling managerial skills, realize managing scientificly, thus increase economic efficiency.

The utility model have employed following technical scheme: a kind of distribution network automated management system, it is characterized in that: comprise place of safety I and place of safety II, described place of safety I comprises the commercial data base server be connected on a network backbone, SCADA server, management server, DPAS server, data gathering and communication subsystem and some work stations, described place of safety II comprises the generalized information system be connected on No. two network backbones, be connected to the WEB server on No. three network backbones, described No. two network backbones and No. three network backbones are connected with a network backbone respectively by physical isolation apparatus.

As preferably, described data gathering and communication subsystem comprises number and adopts communication server, serial communication equipment and router, number is adopted communication server and is connected with a described network backbone, and serial communication equipment and router are adopted communication server by network branch line with number and be connected.

As preferably, described work station comprises dispatcher workstation, scheduled overhaul work station and maintenance work station.

The beneficial effects of the utility model are: the distribution network automated management system that the utility model provides, each distribution net equipment can be got through by network, administrative staff can know the situation of each equipment at any time, the Appropriate application of resource is realized by scheduling, make management system can realize the service management of distribution procedure, improve distribution scheduling managerial skills, realize managing scientificly, thus increase economic efficiency.

Accompanying drawing explanation

Fig. 1 is the system construction drawing in the utility model.

Embodiment

Below in conjunction with Figure of description, the utility model is described in further detail, but the utility model is not limited to following examples.

As shown in Figure 1, main system of the present utility model mainly comprises server, work station, the network equipment and collecting device.According to different functions, server can be divided into front server, commercial data base server and application server, front server both can gather designated lane can adopt network channel (such as No. one, No. two, No. three network backbones and network branch line), play the double action of traditional front end processor and the communication server simultaneously, commercial data base server is used for the management of the static data such as historical data and electric network model, and application server can configure the servers such as SCADA, DPAS, management server as required respectively.Work station is the window of use, maintenance system, can need configuration, as dispatcher workstation, scheduled overhaul work station, maintenance work station etc. according to operation.

The utility model also comprises subsystem except above-mentioned main system, as data acquisition and communication subsystem, generalized information system and WEB server etc.All devices requires to be distributed in different places of safety according to security protection, and main system and data gathering and communication subsystem are included in place of safety I, and generalized information system and WEB server are arranged in place of safety II.

Described commercial data base server, SCADA server, management server, DPAS server, data gathering and communication subsystem and each work station are connected on a network backbone, generalized information system is connected on No. two network backbones, WEB server is connected on No. three network backbones, and described No. two network backbones and No. three network backbones are connected with a network backbone respectively by fire compartment wall or physical isolation apparatus.

Described data gathering and communication subsystem comprises number and adopts communication server, serial communication equipment and router, number is adopted communication server and is connected with a described network backbone, and serial communication equipment and router are adopted communication server by network branch line with number and be connected.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment; but can't depart from spirit of the present utility model or surmount the scope that appended claims defines, these changes also should be considered as protection range of the present utility model.

Claims (3)

1. a distribution network automated management system, it is characterized in that: comprise place of safety I and place of safety II, described place of safety I comprises the commercial data base server be connected on a network backbone, SCADA server, management server, DPAS server, data gathering and communication subsystem and some work stations, described place of safety II comprises the generalized information system be connected on No. two network backbones, the WEB server be connected on No. three network backbones, and described No. two network backbones and No. three network backbones are connected with a network backbone respectively by physical isolation apparatus.

2. the distribution network automated management system of one according to claim 1, it is characterized in that: described data gathering and communication subsystem comprises number and adopts communication server, serial communication equipment and router, number is adopted communication server and is connected with a described network backbone, and serial communication equipment and router are adopted communication server by network branch line with number and be connected.

3. the distribution network automated management system of one according to claim 1 and 2, is characterized in that: described work station comprises dispatcher workstation, scheduled overhaul work station and maintenance work station.