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Single component micro-propulsion module device based on additive manufacturing technology and supercharging method thereof

An additive manufacturing, single-group technology, applied in jet propulsion devices, aerospace vehicle propulsion system devices, rocket engine devices, etc., can solve problems such as being unfavorable for long-term storage, heavy weight, and large volume, and achieve high-efficiency space utilization. efficiency, increased loading, and high integration

Active Publication Date: 2018-04-10
BEIJING INST OF CONTROL ENG
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The current propulsion system is connected by conventional pipelines, which are heavy and bulky, and are not suitable for use on micro-nano satellites
At the same time, using high-pressure gas to pressurize the system is not conducive to shelf-type long-term storage

Method used

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  • Single component micro-propulsion module device based on additive manufacturing technology and supercharging method thereof
  • Single component micro-propulsion module device based on additive manufacturing technology and supercharging method thereof
  • Single component micro-propulsion module device based on additive manufacturing technology and supercharging method thereof

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Experimental program
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Embodiment Construction

[0026] Such as figure 1 As shown, a single-component micro-propulsion module device based on additive manufacturing technology, including 4 micro-thruster components, 1 gas addition and discharge valve, 1 liquid addition and discharge valve, multiple nitrogen generators, and a temperature sensor, a pressure sensor, burst disc safety device, storage tank components, control drive circuit, etc. The shell materials of the gas adding and discharging valve, liquid adding and discharging valve, bursting disc safety device and storage tank assembly are all made of titanium alloy. The mounting interfaces of the individual components are realized by additive manufacturing. The micro thruster assembly consists of micro valves and micro thrusters. The bursting disc safety device consists of a bursting disc and a mounting structure. The tank assembly consists of a tank diaphragm and a diaphragm skeleton. The propellants of the single-component micro-propulsion module device include an...

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PUM

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Abstract

The invention relates to a single component micro-propulsion module device based on additive manufacturing technology. The device is characterized by comprising a micro-thruster assembly, a gas addingand discharging valve, a liquid adding and discharging valve, a solid nitrogen generator, a temperature sensor, a pressure sensor, a bursting disc safety device, a tank assembly and a control drive circuit; the gas adding and discharging valve, the solid nitrogen generator, the temperature sensor, the pressure sensor, the tank assembly, the liquid adding and discharging valve, the bursting disc safety device and the micro-thruster assembly are installed in series in a module gas room. The invention provides a novel device and method for safety isolation of a propulsion system, the high integration is facilitated, the system complexity is reduced, the reliable operation of an entire system is guaranteed, and the work performance of the entire system is improved.

Description

technical field [0001] The invention relates to a single-component micro-propulsion module device and a supercharging method based on additive manufacturing technology. Background technique [0002] With the rapid development of micro-nano-satellite technology, the complexity of tasks undertaken by micro-nano-satellites has also increased. The formation of a network to build a distributed system has raised certain requirements for the service life, orbital mobility, and rapid response of micro-nano-satellites. Therefore, it is required that the micro-propulsion system has the ability of high total thrust and large thrust, and can be modularized and pre-packaged. The current propulsion system is connected by conventional pipelines, which are heavy and bulky, and are not suitable for use on micro-nano satellites. At the same time, using high-pressure gas to pressurize the system is not conducive to shelf-type long-term storage. Contents of the invention [0003] The techni...

Claims

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Application Information

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IPC IPC(8): B64G1/40F02K9/50F02K9/56
CPCB64G1/40B64G1/402F02K9/50F02K9/56
Inventor 刘旭辉沈岩陈君高晨光付拓取周怡秋席红敏龙军官长斌张伟刘瀛龙王梦臧孝华宋新河张志伟耿金越杨蕊白松张良赵立伟王焕春王文平王新慧于金盈武胜勇杨春雷刘国梁王建李长维
Owner BEIJING INST OF CONTROL ENG
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