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Ultrahigh-energy single-detonation ignition device with energy capable of being adjusted within wide range and control method thereof

An ignition device and a wide range of technology, applied in the direction of ignition safety devices, spark ignition controllers, engine ignition, etc., can solve problems such as unsuitable detonation engines, solve sealing and ventilation problems, ensure personal safety, and improve The effect of running stability

Inactive Publication Date: 2016-12-07
NORTHWESTERN POLYTECHNICAL UNIV
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Problems solved by technology

In order to fill the gap in the field of detonation combustion with wide range, adjustable and ultra-high energy ignition, and to solve the problem that the traditional high-energy ignition device is not suitable for the field of detonation engines, the present invention designs a simple structure, economical and practical, safe and reliable The ultra-high-energy ignition device, and its safe use method is proposed for knock research

Method used

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  • Ultrahigh-energy single-detonation ignition device with energy capable of being adjusted within wide range and control method thereof
  • Ultrahigh-energy single-detonation ignition device with energy capable of being adjusted within wide range and control method thereof

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Embodiment Construction

[0024] Below in conjunction with specific example and accompanying drawing, the present invention will be further described:

[0025] Refer to attached figure 1 In this example, an ultra-high-energy single-knock ignition device with a wide range of adjustable energy includes an energy storage circuit and an ignition module, and the energy storage circuit is composed of a low-voltage charging circuit, an energy storage component, an ignition circuit, and a discharge and pressure measurement circuit. .

[0026] The low-voltage charging circuit includes a DC stabilized power supply 1-1, a DC boost module 1-2 and a protection resistor 1-3, wherein the voltage of the DC stabilized power supply 1-1 is continuously adjustable, and the range of voltage regulation is 0-15V. The DC boost module 1-2 adopts a double voltage boost design, which is easy to install, stable in output, small in size and high in safety. The protection resistor 1-3 is composed of multiple resistors with a tota...

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Abstract

The invention provides an ultrahigh-energy single-detonation ignition device with the energy capable of being adjusted within a wide range and a control method thereof. The ultrahigh-energy single-detonation ignition device comprises an energy storage capacitor set, a direct-current stabilized power source, a protective resistor, a direct-current boosting module, a voltage monitoring module, an ignition relay, a discharging relay and an ignition module. After sufficient energy is stored in the energy storage capacitor set of the device, breakdown of gaps between interval-adjustable ignition needles is achieved by conducting transient discharge, and thus high-energy ignition and direct detonation of detonating combustion are achieved. Compared with a traditional high-energy ignition system, the ultrahigh-energy single-detonation ignition device is simple in structure and high in safety, the ignition energy adjustment range is wide, the highest ignition energy can reach hundreds of Joules, and the ultrahigh-energy single-detonation ignition device can be applied to the field of micro-scale and ordinary-scale detonation study.

Description

technical field [0001] The invention relates to the technical field of detonation combustion and pulse detonation engines, in particular to an ultra-high energy single detonation ignition device with adjustable energy in a wide range and a control method thereof. Background technique [0002] Pulse Detonation Engine (PDE) is a new concept engine that uses intermittent detonation waves to generate thrust. As a new type of power device, PDE has broad application prospects in both civil and military fields due to its potential advantages such as simple structure, high cycle efficiency, wide working range and high thrust-to-weight ratio. The initiation of the detonation wave is one of the keys in PDE research. [0003] At present, the initiation of the detonation wave can be achieved through direct detonation and Deflagration to Detonation Transition (DDT for short). DDT is widely used in detonation research because it can initiate a delayed combustion wave with relatively low...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F02P5/152F02P11/00
CPCF02P5/152F02P11/00
Inventor 范玮何建男迟烨青
Owner NORTHWESTERN POLYTECHNICAL UNIV
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