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A typical fault simulation and test method of insulation layer of ethylene-propylene rubber cable terminal

An ethylene propylene rubber insulation and cable termination technology, which is applied in the direction of detecting faults, fault locations, and testing dielectric strength according to conductor types, which can solve the problems of low recognition rate and limited recognition effect.

Active Publication Date: 2019-11-29
YUNNAN POWER GRID CO LTD ELECTRIC POWER RES INST
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, most of the detection of typical defects and faults of cable terminals are carried out based on relatively simple methods such as shaking meters, the recognition rate is low, and the recognition effect is limited. There is an urgent need for a method that can effectively detect and identify typical faults inside the terminal.

Method used

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  • A typical fault simulation and test method of insulation layer of ethylene-propylene rubber cable terminal
  • A typical fault simulation and test method of insulation layer of ethylene-propylene rubber cable terminal
  • A typical fault simulation and test method of insulation layer of ethylene-propylene rubber cable terminal

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Embodiment Construction

[0054] The present invention will be further described below in conjunction with embodiment.

[0055] figure 1 It is a schematic diagram of fault simulation of ethylene-propylene rubber cable terminals for high-speed trains, including cable core plugs (1), upper fastening rubber plugs (2), cold-shrinkable outer sheds (3), upper port insulation sleeves (4), The first U-shaped fastener (5), the first fastening bolt (6), the second U-shaped fastener (7), the second fastening bolt (8), the third U-shaped fastener (9) , the third fastening bolt (10), the inner copper core (11), the first semiconductive layer (12), the ethylene-propylene rubber insulating layer (13), the second semiconductive layer (14), the outer fastening sheath layer (15), outer copper mesh layer (16), lower side port insulation sleeve (17), lower side fastening rubber plug (18), metal shielding sleeve (19), copper grounding wire (20), pulse coupler ( 21), copper ground wire interface (22), waveform acquisition...

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Abstract

The invention discloses a typical fault simulation method for an ethylene-propylene rubber cable terminal insulation layer, wherein a fault simulation terminal of a simulator is packaged in a cold-shrinkable outer umbrella skirt, the ends of cable core plugs at both ends protrude from the cold-shrinkable outer umbrella skirt, one end of a copper grounding wire is connected to a metal shielding sleeve, and the other end is connected to a copper grounding wire interface, a waveform collecting device is connected to a pulse coupler, and the pulse coupler is sleeved on the copper grounding wire. The evaluation method comprises the steps of obtaining a standard discharge waveform of the ethylene-propylene rubber cable terminal, calculating a fitting curve model, calculating a waveform curve offset determining factor, then performing the evaluation analysis, and the like. The typical fault simulation method for an ethylene-propylene rubber cable terminal insulation layer has the beneficial effects that the typical defect fault of the ethylene-propylene rubber cable terminal insulation can be simulated realistically, effectively and conveniently, and the multi-type faults can be simulatedsimultaneously to realize multi-dimensional simulation; and the evaluation method can identify the types of faults and achieve a comprehensive and accurate assessment for the terminal state of insulation.

Description

technical field [0001] The invention belongs to the field of fault evaluation of high-speed railway train cable terminals, and in particular relates to a typical fault simulation and testing method for the insulation layer of an ethylene-propylene rubber cable terminal. Background technique [0002] With the continuous electrification of my country's railways and the rapid development of high-speed railways, electric locomotives and EMUs play an increasingly important role in railway transportation. Therefore, ensuring the safe and reliable operation of train power supply systems and transmission systems has become It is an important aspect to ensure the safe operation of railways. However, during the operation of the train, it is often affected by the harsh external environment, impact load overvoltage, small turning radius of the train, and large mechanical stress. There are various types of faults, and in addition, during the production process of the terminal, there are ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/12G01R31/08
CPCG01R31/003G01R31/083G01R31/1272
Inventor 白龙雷周利军余洋陈远虎李丽妮车雨轩郭蕾王伟敏
Owner YUNNAN POWER GRID CO LTD ELECTRIC POWER RES INST
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