CN106709575A - Power transmission and distribution equipment whole life cycle management system and method based on waveguide technology - Google Patents

Abstract

The invention relates to a cycle management system, in particular to a life cycle management system and method for power transmission and distribution equipment based on guided wave technology. A life cycle management system for power transmission and distribution equipment based on guided wave technology, including a front-end intelligent data acquisition device, a back-end management system platform, and a life-cycle database; the front-end intelligent data acquisition device and the back-end management system platform , the back-end management system platform and the whole life cycle database are respectively connected through interactive protocols. A life cycle management system and method for power transmission and distribution equipment based on guided wave technology can systematically establish a guided wave data model library for overhead transmission lines, detect hidden dangers on overhead transmission lines quickly and accurately in real time, and is technically forward-looking.

Description

A life cycle management system and method for power transmission and distribution equipment based on guided wave technology

technical field

The invention relates to a cycle management system, in particular to a life cycle management system and method for power transmission and distribution equipment based on guided wave technology.

Background technique

Due to the long transmission distance, complex terrain along the way, changeable environmental and climatic conditions, and the large demand for electricity by the people, the power supply pressure increases during the operation of the power system, and the transmission and distribution line is responsible for the transmission and distribution of electric energy. Various malfunctions occurred. Once a power failure occurs, it will bring inconvenience to people's life, disrupt the normal production of the enterprise, and bring great losses to the country; and because the overhead transmission line has many branches and complex structure, it is difficult to use manual troubleshooting, which increases the staff's workload. Labor intensity, thus wasting a lot of manpower and material resources.

Due to the current defects such as faults that endanger the transmission line, it is mainly detected by means of inspections on the ground or on drones with the help of telescopes and infrared detectors. These methods are greatly affected by sunlight, cloud cover, complex natural environment, and distance, and the accuracy of detection is difficult to guarantee, especially the early prediction and real-time monitoring of damage.

Contents of the invention

The present invention mainly solves the deficiencies in the prior art, and provides an accurate, reliable, comprehensive, convenient, economical and efficient damage location and recognition method for transmission lines in order to ensure the stable and reliable transmission of long-distance and large-capacity power transmission lines. , and the guided wave detection technology has the advantages of long propagation distance, high detection sensitivity, etc., and has a good remote detection capability. A life cycle management system and method for power transmission and distribution equipment based on guided wave technology.

Above-mentioned technical problem of the present invention is mainly solved by following technical scheme:

A life cycle management system for power transmission and distribution equipment based on guided wave technology,

Including front-end intelligent data acquisition device, back-end management system platform and full life cycle database;

The front-end intelligent data acquisition device and the back-end management system platform, and the back-end management system platform and the full life cycle database are respectively connected through interactive protocols.

Preferably, the front-end intelligent data acquisition device includes a guided wave detection system and a mobile power supply system, the guided wave detection system is connected to the mobile power supply system, and the guided wave detection system includes a guided wave acquisition system and an operating system , the guided wave acquisition system is connected to the operating system through an interface call;

The guided wave acquisition system includes guided wave acquisition, data processing, hidden danger location and peripheral drive, and the guided wave acquisition, data processing, hidden danger location and peripheral drive are respectively set in the acquisition system framework;

The operating system includes a multitasking kernel and built-in device drivers.

As a preference, said back-end management system platform includes a peripheral system, an internal system and an extension interface;

The peripheral system includes a system display module, an IO control module and a system management module;

The internal system includes an arbitrary waveform generation module, a monitoring channel control module, a data preprocessing module, a damage monitoring and evaluation module, and a monitoring result display and comparison module.

A method for the life cycle management system of power transmission and distribution equipment based on guided wave technology, which is carried out according to the following steps:

Firstly, the sensor that sends and receives the guided wave signal through the guided wave acquisition module of the front-end intelligent data acquisition device installed on the overhead transmission line monitors the transmission line in real time. The wave is reflected and the return wave is received by another sensor;

The data processing module of the front-end intelligent data acquisition device extracts the damage characteristics of the reflected wave, which can locate the damage and judge the damage degree, and locate the location of the hidden danger through the hidden danger location module of the front-end intelligent data acquisition device. The received data is sent to the back-end management system platform;

The peripheral driver module of the front-end intelligent data acquisition device can drive the external display screen or mobile storage device; the built-in device driver module of the front-end intelligent data acquisition device can drive the built-in display screen or built-in storage device;

The data sent to the back-end management system platform is shunted through the monitoring channel control module of the back-end management system platform; pre-processed through the data pre-processing module of the back-end management system platform, mainly to filter out interference data; and then through the back-end management system The arbitrary waveform generation module of the platform generates data waveform diagrams available for analysis; then the detection results are formed through the damage monitoring and evaluation module of the back-end management system platform; finally, the detection results of the back-end management system platform are displayed and compared with the whole life of the module The data models in the cycle database are compared; in the acceptance period, it is determined whether the overhead transmission line of the power transmission and distribution equipment has passed the acceptance; in the trial operation period and stable operation period, it is determined whether the overhead transmission line of the power transmission and distribution equipment needs to be maintained; The replacement period is required to determine whether the overhead transmission line of the power transmission and distribution equipment needs to be replaced;

At the same time, by maintaining the hidden dangers of the overhead power lines of the power transmission and distribution equipment, the stable operation period of the overhead power lines of the power transmission and distribution equipment can be extended, and the use efficiency of the power transmission and distribution steel strands can be improved;

The whole life cycle database is to store the data model of the acceptance period, trial operation period, stable operation period, or replacement period of the transmission steel strand.

Therefore, a life cycle management system and method for power transmission and distribution equipment based on guided wave technology of the present invention can systematically establish a guided wave data model library for overhead transmission lines, and detect hidden dangers on overhead transmission lines quickly and accurately in real time. forward-looking.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Figure 2 is a lifecycle management and continuation diagram of the present invention.

The solid line in Figure 2 represents the normal full life cycle curve of the overhead power line of the power transmission and distribution equipment after the system is used; the dotted line represents the normal full life cycle curve of the normal overhead power line without the system.

detailed description

The technical solution of the present invention will be further specifically described below through the embodiments and in conjunction with the accompanying drawings.

Embodiment 1: As shown in Figure 1 and Figure 2, a life cycle management system for power transmission and distribution equipment based on guided wave technology, including a front-end intelligent data acquisition device, a back-end management system platform and a life cycle database;

The front-end intelligent data acquisition device and the back-end management system platform, and the back-end management system platform and the full life cycle database are respectively connected through interactive protocols.

The front-end intelligent data acquisition device includes a guided wave detection system and a mobile power supply system, the guided wave detection system is connected to the mobile power supply system, the guided wave detection system includes a guided wave acquisition system and an operating system, the The guided wave acquisition system is connected with the operating system through interface calls;

The guided wave acquisition system includes guided wave acquisition, data processing, hidden danger location and peripheral drive, and the guided wave acquisition, data processing, hidden danger location and peripheral drive are respectively set in the acquisition system framework;

The operating system includes a multitasking kernel and built-in device drivers.

The back-end management system platform includes a peripheral system, an internal system and an expansion interface;

The peripheral system includes a system display module, an IO control module and a system management module;

The internal system includes an arbitrary waveform generation module, a monitoring channel control module, a data preprocessing module, a damage monitoring and evaluation module, and a monitoring result display and comparison module.

A method for the life cycle management system of power transmission and distribution equipment based on guided wave technology, which is carried out according to the following steps:

Firstly, the sensor that sends and receives the guided wave signal through the guided wave acquisition module of the front-end intelligent data acquisition device installed on the overhead transmission line monitors the transmission line in real time. The wave is reflected and the return wave is received by another sensor;

The data processing module of the front-end intelligent data acquisition device extracts the damage characteristics of the reflected wave, which can locate the damage and judge the damage degree, and locate the location of the hidden danger through the hidden danger location module of the front-end intelligent data acquisition device. The received data is sent to the back-end management system platform;

The peripheral driver module of the front-end intelligent data acquisition device can drive the external display screen or mobile storage device; the built-in device driver module of the front-end intelligent data acquisition device can drive the built-in display screen or built-in storage device;

The data sent to the back-end management system platform is shunted through the monitoring channel control module of the back-end management system platform; pre-processed through the data pre-processing module of the back-end management system platform, mainly to filter out interference data; and then through the back-end management system The arbitrary waveform generation module of the platform generates data waveform diagrams available for analysis; then the detection results are formed through the damage monitoring and evaluation module of the back-end management system platform; finally, the detection results of the back-end management system platform are displayed and compared with the whole life of the module The data models in the cycle database are compared; in the acceptance period, it is determined whether the overhead transmission line of the power transmission and distribution equipment has passed the acceptance; in the trial operation period and stable operation period, it is determined whether the overhead transmission line of the power transmission and distribution equipment needs to be maintained; The replacement period is required to determine whether the overhead transmission line of the power transmission and distribution equipment needs to be replaced;

At the same time, by maintaining the hidden dangers of the overhead power lines of the power transmission and distribution equipment, the stable operation period of the overhead power lines of the power transmission and distribution equipment can be extended, and the use efficiency of the power transmission and distribution steel strands can be improved;

The whole life cycle database is to store the data model of the acceptance period, trial operation period, stable operation period, or replacement period of the transmission steel strand.

Claims (4)

1. a kind of equipment for power transmission and distribution whole-life cycle fee system based on guided wave technology, it is characterised in that：

Including front end Intelligent data acquisition device, rear end management system platform and life cycle management database；

Between described front end Intelligent data acquisition device and rear end management system platform, rear end management system platform and the life-cycle week It is connected by interaction protocol respectively between phase database.

2. a kind of equipment for power transmission and distribution whole-life cycle fee system based on guided wave technology according to claim 1, it is special Levy and be：Described front end Intelligent data acquisition device includes Guided waves system and mobile electric power system, described guided wave inspection Examining system is connected with mobile electric power system, and described Guided waves system includes guided wave acquisition system and operating system, described Guided wave acquisition system be connected by interface interchange with operating system；

Described guided wave acquisition system includes that guided wave collection, data processing, hidden danger positioning and peripheral hardware drive, and described guided wave is adopted Collection, data processing, hidden danger positioning and peripheral hardware drive and are respectively provided in acquisition system framework；

Described operating system includes that multitasking kernel and built-in device drive.

3. a kind of equipment for power transmission and distribution whole-life cycle fee system based on guided wave technology according to claim 1, it is special Levy and be：Described rear end management system platform includes peripheral system, built-in system and expansion interface；

Described peripheral system includes system display module, I/O control module and system management module；

Described built-in system includes random waveform generation module, monitoring channel control module, data preprocessing module, damage prison Survey and shown and contrast module with evaluation module and monitoring result.

4. a kind of equipment for power transmission and distribution whole-life cycle fee system based on guided wave technology according to claim 1 or 2 or 3 Method, it is characterised in that carry out according to the following steps：

Send and connect by the guided wave acquisition module of the front end Intelligent data acquisition device on overhead transmission line first The sensor of Guided wave signal is monitored in real time to transmission line of electricity, when guided wave runs into damage, such as broken stock, stranded, portion's ripple meeting Reflection, close echo is received by another sensor；

Damage characteristic is extracted to back wave by the data processing module of front end Intelligent data acquisition device, damage can be determined Position and degree of injury judgement, and pass through the position that the hidden danger locating module of front end Intelligent data acquisition device positions hidden danger, to pass through The data is activation that multitasking kernel will be collected is to rear end management system platform；

The peripheral hardware drive module of front end Intelligent data acquisition device can drive external display screen or movable storage device；Front end The built-in device drive module of Intelligent data acquisition device can drive built-in display screen or built in memory device；

The data for being sent to rear end management system platform are shunted by the monitoring channel control module of rear end management system platform；It is logical Later the data preprocessing module of end management system platform is just pre-processed, and mainly filters interference data；Pass through rear end pipe again The random waveform generation module generation for managing system platform is available for the data waveform figure of analysis；Again by rear end management system platform Damage monitoring forms testing result with evaluation module；Shown finally by the testing result of rear end management system platform and compare mould Block is contrasted with the data model in life cycle management database；The overhead transmission line of the equipment for power transmission and distribution is determined in the examination phase In the test operation phase and stablize the operation phase and determine whether the overhead transmission line of the equipment for power transmission and distribution will be carried out whether by checking and accepting in road Safeguard, needing the stage of replacement to determine whether the overhead transmission line of the equipment for power transmission and distribution will be changed；

Meanwhile, the hidden danger on the trolley wire road by safeguarding the equipment for power transmission and distribution can extend the built on stilts electricity of the equipment for power transmission and distribution The stable operation phase of circuit, improve the service efficiency of power transmission and distribution steel strand wires；

Life cycle management database is to deposit transmission of electricity examination phase of steel strand wires, test operation phase, the stabilization operation phase, need for more Change the data model of phase.