Porous transmission needle infiltration device and method

An infiltration device and a technology of launching needles, which are applied in the field of electric propulsion, can solve problems such as the infiltration of inapplicable porous launching needles, and achieve the effect of high efficiency and simple method of infiltration

Active Publication Date: 2020-08-25
INNOVATION ACAD FOR MICROSATELLITES OF CAS +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The object of the present invention is to provide a device and method for infiltration of porous emission needles to solve the problem that the existing external infiltration method is not suitable for the infiltration of porous emission needles

Method used

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  • Porous transmission needle infiltration device and method
  • Porous transmission needle infiltration device and method
  • Porous transmission needle infiltration device and method

Examples

Experimental program
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Effect test

Embodiment 1

[0042]This embodiment provides a porous emission needle infiltration device, such as Figure 1~2 As shown, the porous emitting needle infiltration device includes an infiltration module 10 and a heating device 20 arranged vertically opposite to each other, wherein: the infiltration module 10 is configured to be able to move up and down relative to the heating device 20 to be in the first infiltration state, the second wetting state, or the third wetting state; the wetting module 10 includes a storage chamber 11 and a porous emission needle 12 that are coaxial and sequentially connected from top to bottom, and a solid state that is accommodated in the storage chamber 11 propellant; the first wetted state is as figure 1 As shown, it includes: the wetting module 10 is completely suspended above the heating device 20, and the pores of the porous emitting needles 12 are penetrated; the second wetting state is as follows figure 2 As shown, it includes: the infiltration module 10 i...

Embodiment 2

[0048] This embodiment provides an infiltration method for porous emission needles, the method includes: arranging the infiltration module 10 and the heating device 20 vertically opposite each other; the infiltration module 10 moves up and down relative to the heating device 20, To be in the first wetting state, the second wetting state or the third wetting state; the storage chamber 11 and the porous emission needle 12 of the wetting module 10 are connected coaxially and sequentially from top to bottom, and the solid propellant is placed in In the storage chamber 11; the first wetting state includes: the wetting module 10 is completely suspended above the heating device 20, and the pores of the porous emitting needles 12 penetrate; the second wetting state includes: the The wetting module 10 is completely submerged in the heating device 20, the heating device 20 is turned on, the propellant melts and flows into the pores of the porous emission needle 12 through gravity and cap...

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Abstract

The invention provides a porous transmission needle infiltration device and method. The porous transmission needle infiltration device comprises an infiltration module and a heating device which are arranged perpendicularly and oppositely up and down. The infiltration module is configured to be capable of moving up and down relative to the heating device so as to be in a first infiltration state or a second infiltration state or a third infiltration state. The infiltration module comprises a storage chamber, a porous transmission needle and a solid-state propellant contained in the storage chamber, wherein the storage chamber and the porous transmission needle are coaxial and are sequentially connected from top to bottom. According to the first infiltration state, the infiltration module is completely suspended above the heating device, and pores of the porous transmission needle are through. According to the second infiltration state, the infiltration module is completely immersed inthe heating device, the heating device is started, and the propellant is molten and flows into the pores of the porous transmission needle under the gravity action and the capillary action. Accordingto the third infiltration state, the heating device is shut down, and the propellant in the porous transmission needle restores the solid state again so as to complete infiltration work of the poroustransmission needle before assembling.

Description

technical field [0001] The invention relates to the field of electric propulsion technology, in particular to a device and method for infiltrating a porous firing needle. Background technique [0002] The traditional needle-type field emission electric thruster is an electric thruster based on liquid metal ion source technology. The emission needle is usually solid tungsten. After the metal propellant is heated and melted, it moves along The emission needle flows to the needle tip, is ionized under the action of a strong electric field and accelerates the ejection to generate thrust. The porous needle-type field emission electric thruster is a new type of field emission electric thruster. The emission needle is a porous structure with a large number of micron-sized holes inside. After the metal propellant is heated and melted, the capillary in the micropores inside the emission needle Under the action, it flows to the needle tip, is ionized by a strong electric field and ac...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F03H1/00
CPCF03H1/0006F03H1/0087
Inventor 郭登帅张锐严玲玲余勇黄志伟李敏谢祥华康小明吴勤勤
Owner INNOVATION ACAD FOR MICROSATELLITES OF CAS
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