CN202906579U

CN202906579U - Power distribution network real-time monitoring and control system based on internet of things

Info

Publication number: CN202906579U
Application number: CN 201220638863
Authority: CN
Inventors: 薛云灿; 张建强; 杨启文; 朱元元
Original assignee: Hohai University HHU
Current assignee: Hohai University HHU
Priority date: 2012-11-28
Filing date: 2012-11-28
Publication date: 2013-04-24
Anticipated expiration: 2022-11-28

Abstract

The utility model relates to the power distribution network monitoring technology field, particularly to a power distribution network real-time monitoring and control system based on internet of things. The power distribution network real-time monitoring and control system based on internet of things comprises a data acquisition module, a real-time analysis and control module, a fault locating module, and a communication network module, wherein the data acquisition module and the fault locating module are connected with the real-time analysis and control module via the communication network module; the data acquisition module comprises a wireless sensor, a wireless pick-up head, an intelligent socket, and an inspection tour terminal; the real-time analysis and control module is formed by a monitoring and control center; the fault locating module comprises a fault position indicator and a power distribution network geography information system; and the communication network module comprises a wireless sensing network, a mobile communication network, and an internet. The power distribution network real-time monitoring and control system of the utility model is capable of monitoring and recording the operating state of a power distribution network in a real-time manner. The power distribution network real-time monitoring and control system of the utility model is capable of rapidly locating the fault point, accelerating the processing speed, increasing benefits, and reducing the loss.

Description

A kind of power distribution network Real-Time Monitoring and control system based on Internet of Things

Technical field

The utility model relates to the power distribution network monitoring technical field, particularly a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things.

Background technology

Power distribution network is that electric power system realizes optimizing power supply, reasonable distribution electric energy, the important step of control and guarantee user power utilization quality.Power distribution network moves safely and reliably for realizing optimizing power supply, and the reasonable distribution electric energy is controlled and guarantee user power utilization quality has very important meaning.The Real-Time Monitoring of power distribution network can be understood the operation conditions of power distribution network in real time, and this is very crucial to the power distribution network safe and reliable operation.

Along with the development of society, the load of power distribution network is growing, and the user is more and more higher to power supply quality and reliability requirement.But existing Monitoring System for Power Distribution Network can not be monitored a series of information on the power distribution network real-time and accurately, so that power distribution network can not be found and be processed when breaking down timely and accurately, has affected people's productive life, has brought thus great economic loss.

Summary of the invention

In order to overcome the deficiencies in the prior art, the utility model provides a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things, this system is conducive to power department Real-Time Monitoring power distribution network information, can locate rapidly for the reasonable distribution electric energy with when power distribution network breaks down and keep in repair and offer help and ensure.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things, it is characterized in that: comprise data acquisition module, fault location module, communication network module, real-time analysis and control module, described data acquisition module is connected with control module with real-time analysis by communication network module with the fault location module.

Further technical scheme is:

Described communication network module comprises wireless sense network, mobile radio communication and internet.

Described data acquisition module comprises wireless senser, wireless camera, smart jack and patrols and examines terminal, described wireless senser adopts wireless sense network and mobile radio communication transmission, described wireless camera and patrol and examine terminal and adopt respectively mobile radio communication transmission, described smart jack adopts ZigBee to transmit, and described wireless sense network, mobile radio communication and ZigBee are connected with the internet by gateway.

Described fault location module comprises fault locating instrument and Distribution Power Network GIS, and described fault locating instrument adopts the mobile radio communication transmission.

Described real-time analysis and control module are made of MC centre, and described MC centre is connected with the internet by fire compartment wall.

Described MC centre is comprised of security server, WEB server, database server, Distribution Power Network GIS, monitoring and control terminal.

Described wireless senser comprises radio pressure sensor, radio flow sensor, radio temperature sensor, wireless humidity sensor and wireless pressure sensor.

The beneficial effects of the utility model are: the parameter such as electric current, voltage, electrical power, switch, disconnecting link on can the Real-Time Monitoring power distribution network, emphasis facility that can the Real-Time Monitoring power distribution network and environment on every side, electricity consumption situation that can the Real-Time Monitoring user side, can also locate rapidly trouble location, and the distribution network failure district is isolated rapidly and process by the relevant control instruction, cut loss recovers power distribution network and normally moves.

Description of drawings

Fig. 1 is that the utility model is a kind of based on the power distribution network Real-Time Monitoring of Internet of Things and the overall structure block diagram of control system;

Fig. 2 is the composition diagram of MC centre in the utility model.

Embodiment

For further disclosing the technical solution of the utility model, describe execution mode of the present utility model in detail below in conjunction with accompanying drawing: as shown in Figure 1, a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things, comprise data acquisition module, fault location module, communication network module, real-time analysis and control module, described data acquisition module is connected with control module with real-time analysis by communication network module with the fault location module.Data acquisition module comprises wireless senser, wireless camera, smart jack and patrols and examines terminal; The fault location module comprises fault locating instrument and Distribution Power Network GIS; Communication network module comprises wireless sense network, mobile radio communication and internet; Real-time analysis and control module are made of MC centre.

Wireless senser mainly contains radio pressure sensor, radio flow sensor, radio temperature sensor, wireless humidity sensor, wireless pressure sensor etc., adopt the transmission of wireless sense network and mobile radio communication, link to each other with gateway, mainly to the information of the power distribution network surrounding environment such as the information on the power distribution networks such as voltage, electric current, switch, disconnecting link and temperature, humidity, wind speed; Wireless camera adopts the mobile radio communication transmission, links to each other with gateway, and power distribution network is carried out visualizing monitor; Smart jack adopts ZigBee to transmit, and links to each other with gateway, mainly gathers the power information of user's side; Patrol and examine terminal and adopt mobile radio communication, link to each other with gateway, be mainly used in Distribution Network Equipment is regularly gone on patrol maintenance; Fault locating instrument adopts mobile radio communication, links to each other with gateway, is mainly used in the fault point is located rapidly.

The other end of gateway links to each other with the internet, and the information exchange of wireless senser, wireless camera, smart jack, the data of patrolling and examining terminal, fault locating instrument collection and issue is crossed the internet and passed to MC centre.

As shown in Figure 2, MC centre is made of security server, WEB server, database server, Distribution Power Network GIS and monitoring and control terminal.Security server is used for ensureing the information security of MC centre, limits users' at different levels access rights and operating right; The WEB server is that the access for users at different levels provides the network information browsing service; Database server is used for record and storage data, and the services such as inquiry, management are provided for the user; Distribution Power Network GIS is used for distributed intelligence and the running status of record Distribution Network Equipment (comprising transformer, distribution substation, shaft tower, distribution line, switch and disconnecting link etc.), and when distribution network failure occured, the fault point can show in system rapidly; Monitoring and control terminal are used for power distribution network information is monitored, and send control command.Control command passes to by internet, mobile radio communication and ZigBee and patrols and examines terminal, smart jack and intelligent power distribution institute, carries out remote control operation.

More than by description of listed embodiment, basic conception of the present utility model and basic principle have been set forth.But the utility model never is limited to above-mentioned listed execution mode, and every equivalent variations, improvement and deliberately of inferior quality behavior of change of doing based on the technical solution of the utility model all should belong to protection range of the present utility model.

Claims

1. power distribution network Real-Time Monitoring and control system based on an Internet of Things, it is characterized in that: comprise data acquisition module, fault location module, communication network module, real-time analysis and control module, described data acquisition module is connected with control module with real-time analysis by communication network module with the fault location module.

2. a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things according to claim 1, it is characterized in that: described communication network module comprises wireless sense network, mobile radio communication and internet.

3. a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things according to claim 2, it is characterized in that: described data acquisition module comprises wireless senser, wireless camera, smart jack and patrols and examines terminal, described wireless senser adopts wireless sense network and mobile radio communication transmission, described wireless camera and patrol and examine terminal and adopt respectively mobile radio communication transmission, described smart jack adopts ZigBee to transmit, and described wireless sense network, mobile radio communication and ZigBee are connected with the internet by gateway.

4. a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things according to claim 2, it is characterized in that: described fault location module comprises fault locating instrument and Distribution Power Network GIS, described fault locating instrument adopts the mobile radio communication transmission.

5. a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things according to claim 2, it is characterized in that: described real-time analysis and control module are made of MC centre, and described MC centre is connected with the internet by fire compartment wall.

6. a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things according to claim 5, it is characterized in that: described MC centre is comprised of security server, WEB server, database server, Distribution Power Network GIS, monitoring and control terminal.

7. a kind of power distribution network Real-Time Monitoring and control system based on Internet of Things according to claim 3, it is characterized in that: described wireless senser comprises radio pressure sensor, radio flow sensor, radio temperature sensor, wireless humidity sensor and wireless pressure sensor.