CN204231029U - Power remote communication on-line monitoring and Analysis on Fault Diagnosis device - Google Patents

Abstract

The utility model relates to Operation of Electric Systems system, specifically a kind of power remote communication on-line monitoring and Analysis on Fault Diagnosis device.The utility model solves the problem that existing Operation of Electric Systems system lacks rational network topology structure, lacks unified efficient transmission medium.Power remote communication on-line monitoring and Analysis on Fault Diagnosis device, comprise main RTU, subordinate RTU, transforming plant protecting device, transformer station measurement and control device, the first front server, the second front server, master server, standby server, monitor acquisition server, inventory analysis server, follow-up work station, maintenance work station, laser channel, optical fiber; N number of subordinate RTU and main RTU is interconnected to constitute fully connected topology between two by laser channel; Monitoring acquisition server, inventory analysis server, follow-up work station, maintenance work station are interconnected to constitute fully connected topology between two by optical fiber.The utility model is applicable to electric power system.

Description

Power remote communication on-line monitoring and Analysis on Fault Diagnosis device

Technical field

The utility model relates to Operation of Electric Systems system, specifically a kind of power remote communication on-line monitoring and Analysis on Fault Diagnosis device.

Background technology

Operation of Electric Systems refers to that application communication technology and computer technology gather real time data and the information of electric power system, carries out supervisory and control to the operation of power network and power plant, a distant place, transformer station etc.At present, Operation of Electric Systems mainly relies on Operation of Electric Systems system to realize.Under prior art conditions, Operation of Electric Systems system limit due to self structure, the following problem of ubiquity: one, existing Operation of Electric Systems system generally lacks rational network topology structure, cause it to there is the problem of transfer of data instability, directly affect reliability and the fail safe of power system operation thus.Its two, existing Operation of Electric Systems system generally lacks unified efficient transmission medium, and data transmission bauds is slow, the problem of data sharing difference to cause it to exist, and affects reliability and the fail safe of power system operation thus equally.Based on this, the problem of the unified efficient transmission medium that is necessary to invent a kind of brand-new Operation of Electric Systems system, lacks rational network topology structure to solve existing Operation of Electric Systems system, lacks.

Summary of the invention

The utility model lacking rational network topology structure to solve existing Operation of Electric Systems system, lacking the problem of unified efficient transmission medium, provides a kind of power remote communication on-line monitoring and Analysis on Fault Diagnosis device.

The utility model adopts following technical scheme to realize: power remote communication on-line monitoring and Analysis on Fault Diagnosis device, comprises main RTU, subordinate RTU, transforming plant protecting device, transformer station measurement and control device, the first front server, the second front server, master server, standby server, monitors acquisition server, inventory analysis server, follow-up work station, maintenance work station, laser channel, optical fiber; Wherein, the number of subordinate RTU, the number of transforming plant protecting device, the number of transformer station measurement and control device are N number of; N number of subordinate RTU and main RTU is interconnected to constitute fully connected topology between two by laser channel; N number of transforming plant protecting device is connected one to one by optical fiber and N number of subordinate RTU; N number of transformer station measurement and control device is connected one to one by optical fiber and N number of subordinate RTU; First front server, the second front server are all connected with main RTU by optical fiber; Master server is connected with the first front server, the second front server respectively by optical fiber; Standby server is connected with the first front server, the second front server respectively by optical fiber; Monitor acquisition server to be connected with main RTU by optical fiber; Monitoring acquisition server, inventory analysis server, follow-up work station, maintenance work station are interconnected to constitute fully connected topology between two by optical fiber; N is positive integer.

Specific works process is as follows: the data collected by the internal data of optical fiber one_to_one corresponding Real-time Collection N number of transforming plant protecting device and the internal data of N number of transformer station measurement and control device, and are sent to main RTU by laser channel by N number of subordinate RTU in real time.The data received are sent to the first front server and the second front server by optical fiber by main RTU in real time.The data received are sent to master server and standby server by optical fiber by the first front server in real time.The data received are sent to master server and standby server by optical fiber by the second front server in real time.Monitor the data that acquisition server is received by the main RTU of optical fiber Real-time Collection, and by optical fiber, the data collected are sent to inventory analysis server, follow-up work station, maintenance work station in real time.Based on said process, compared with existing Operation of Electric Systems system, power remote communication on-line monitoring described in the utility model and Analysis on Fault Diagnosis device are by adopting brand new, possesses following advantage: one, power remote communication on-line monitoring described in the utility model and Analysis on Fault Diagnosis device adopt subordinate RTU and main RTU to constitute first fully connected topology, adopt and monitor acquisition server, inventory analysis server, follow-up work station, maintenance work station constitutes second fully connected topology, it is by utilizing fully connected topology reliability high, various type shape can be set up into, net interior nodes shared resource is easy, the information flow-rate that can improve circuit distributes, optimal path can be selected, the advantage that transmission delay is little, possesses rational network topology structure, therefore its transfer of data is more stable.They are two years old, power remote communication on-line monitoring described in the utility model and Analysis on Fault Diagnosis device adopt laser channel and optical fiber as transmission medium, on the one hand by utilizing, laser channel frequency is single for it, good directionality, can the advantage of large, the good confidentiality of carry information amount, on the other hand by utilizing optical fiber bandwidth, loss is low, lightweight, antijamming capability is strong, fidelity is high, the advantage of dependable performance, possessed unified efficient transmission medium, therefore its data transmission bauds is faster, data sharing is higher.In sum, power remote communication on-line monitoring described in the utility model and Analysis on Fault Diagnosis device are by adopting brand new, efficiently solve the problem that existing Operation of Electric Systems system lacks rational network topology structure, lacks unified efficient transmission medium, effectively ensure that reliability and the fail safe of power system operation thus.

The utility model efficiently solves the problem that existing Operation of Electric Systems system lacks rational network topology structure, lacks unified efficient transmission medium, is applicable to electric power system.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Embodiment

Power remote communication on-line monitoring and Analysis on Fault Diagnosis device, comprise main RTU, subordinate RTU, transforming plant protecting device, transformer station measurement and control device, the first front server, the second front server, master server, standby server, monitor acquisition server, inventory analysis server, follow-up work station, maintenance work station, laser channel, optical fiber;

Wherein, the number of subordinate RTU, the number of transforming plant protecting device, the number of transformer station measurement and control device are N number of;

N number of subordinate RTU and main RTU is interconnected to constitute fully connected topology between two by laser channel;

N number of transforming plant protecting device is connected one to one by optical fiber and N number of subordinate RTU;

N number of transformer station measurement and control device is connected one to one by optical fiber and N number of subordinate RTU;

First front server, the second front server are all connected with main RTU by optical fiber;

Master server is connected with the first front server, the second front server respectively by optical fiber;

Standby server is connected with the first front server, the second front server respectively by optical fiber;

Monitor acquisition server to be connected with main RTU by optical fiber;

Monitoring acquisition server, inventory analysis server, follow-up work station, maintenance work station are interconnected to constitute fully connected topology between two by optical fiber;

N is positive integer.

During concrete enforcement, described main RTU, subordinate RTU all adopt JY-RTU6640 type RTU; Described first front server, the second front server, master server, standby server, monitoring acquisition server, inventory analysis server all adopt IBM x3650 M4 type server; Described follow-up work station, maintenance work station all adopt UltraLAB Alpha600 type work station.

Claims (2)

1. power remote communication on-line monitoring and an Analysis on Fault Diagnosis device, is characterized in that: comprise main RTU, subordinate RTU, transforming plant protecting device, transformer station measurement and control device, the first front server, the second front server, master server, standby server, monitor acquisition server, inventory analysis server, follow-up work station, maintenance work station, laser channel, optical fiber;

Wherein, the number of subordinate RTU, the number of transforming plant protecting device, the number of transformer station measurement and control device are N number of;

N number of subordinate RTU and main RTU is interconnected to constitute fully connected topology between two by laser channel;

N number of transforming plant protecting device is connected one to one by optical fiber and N number of subordinate RTU;

N number of transformer station measurement and control device is connected one to one by optical fiber and N number of subordinate RTU;

First front server, the second front server are all connected with main RTU by optical fiber;

Master server is connected with the first front server, the second front server respectively by optical fiber;

Standby server is connected with the first front server, the second front server respectively by optical fiber;

Monitor acquisition server to be connected with main RTU by optical fiber;

Monitoring acquisition server, inventory analysis server, follow-up work station, maintenance work station are interconnected to constitute fully connected topology between two by optical fiber;

N is positive integer.

2. power remote communication on-line monitoring according to claim 1 and Analysis on Fault Diagnosis device, is characterized in that: described main RTU, subordinate RTU all adopt JY-RTU6640 type RTU; Described first front server, the second front server, master server, standby server, monitoring acquisition server, inventory analysis server all adopt IBM x3650 M4 type server; Described follow-up work station, maintenance work station all adopt UltraLAB Alpha600 type work station.