System and method for testing ignition of electric explosion device under radio frequency continuous wave

A technology of electric explosion device and test system, which is applied in the direction of electric device, measuring device, electric vehicle, etc., and can solve the problem of unable to ignite the temperature and so on

Pending Publication Date: 2019-11-15
ARMY ENG UNIV OF PLA
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The performance of the electric explosive device has a large dispersion and is a one-time action product, and its ignition temperature cannot be accurately measured through the test; the effect test evaluation method of the 50% ignition excitation of the electric explosive device under the action of radio frequency continuous wave is an urgent problem to be solved The key issue

Method used

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  • System and method for testing ignition of electric explosion device under radio frequency continuous wave
  • System and method for testing ignition of electric explosion device under radio frequency continuous wave
  • System and method for testing ignition of electric explosion device under radio frequency continuous wave

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Experimental program
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Effect test

Embodiment Construction

[0033] Such as figure 1 The shown electric explosive device firing test system under the radio frequency continuous wave is composed of the tested electric explosive device 7 that is detachably installed on the fixed platform 6 of the tested electric explosive device, and the field near the fixed platform 6 for testing the tested electric explosive device. Strong electromagnetic field strength tester (not shown), and be used to send the radio frequency generating device of radio frequency continuous wave to form; Described radio frequency generating device comprises the radio frequency signal generator 1 that is used to send radio frequency signal, and is used to A broadband power amplifier 2 for amplifying the radio frequency signal sent by the generator 1, and a bidirectional coupler 3 for transmitting the amplified radio frequency signal to the stacked logarithmic periodic antenna 5, and for collecting the working voltage of the bidirectional coupler 3 The dual-channel micr...

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PUM

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Abstract

The invention discloses a system and method for testing the ignition of an electric explosion device under radio frequency continuous waves, and the system consists of a tested electric explosion device which is detachably arranged on a fixed platform of the tested electric explosion device, an electromagnetic field strength tester for testing the field strength near the fixed platform of the tested electric explosion device, and a radio frequency generating device for emitting radio frequency continuous waves; according to the system and the method for testing the ignition of the electric explosion device under the radio frequency continuous waves, a radio frequency signal sent by the radio frequency signal generating device is amplified through a broadband power amplifier, and the amplified radio frequency signal enters a stacked log periodic antenna through a bidirectional coupler, so that a 50% ignition excitation test of the electric explosion device under the radio frequency continuous waves is realized; and the 50% ignition excitation field strength of the electric explosion device under the radio frequency continuous waves is determined through a limited number of tests, and the ignition test of the electric explosion device under the radio frequency continuous waves is realized.

Description

technical field [0001] The invention relates to an ignition test system and method of an electric explosive device under radio frequency continuous wave, belonging to the technical field of military equipment. Background technique [0002] Electric explosive devices are often used to ignite gunpowder and detonate explosives. They can also be used as small driving devices to quickly open valves, release insurance, and separate rockets. They are used in military projects such as conventional weapon ammunition, missiles, nuclear weapons, and aerospace systems. It is widely used; it is the most sensitive starting energy for detonation and ignition. Its functional initiation and action sensitivity determine its position and role in weapon systems, and its safety and reliability directly affect the safety and security of weapon systems. reliability. [0003] The performance of the electric explosive device has a large dispersion and is a one-time action product, and its ignition ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F42B35/00G01R21/00G01R29/08
CPCF42B35/00G01R21/00G01R29/08
Inventor 孙永卫王彪魏光辉杨洁卢新福张希军
Owner ARMY ENG UNIV OF PLA
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