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Magnetostriction type double-stage displacement regulating mechanism for multiple spliced mirror surfaces

A magnetostrictive, displacement adjustment technology, applied in the direction of piezoelectric effect/electrostrictive or magnetostrictive motors, generators/motors, electrical components, etc.

Pending Publication Date: 2018-04-13
SHENYANG POLYTECHNIC UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The present invention aims at the deficiencies of the existing micro-displacement adjustment mechanism technology for splicing mirrors, and designs a magnetostrictive splicing multi-mirror double-sided motor with electric cylinder as the first-level fast drive and giant magnetostrictive actuator as the second-level precision drive. The level displacement adjustment mechanism solves the problem that the spliced ​​sub-mirror cannot be adjusted quickly and in a large range and precisely positioned at the same time

Method used

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  • Magnetostriction type double-stage displacement regulating mechanism for multiple spliced mirror surfaces
  • Magnetostriction type double-stage displacement regulating mechanism for multiple spliced mirror surfaces
  • Magnetostriction type double-stage displacement regulating mechanism for multiple spliced mirror surfaces

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Embodiment 1

[0047] As shown in Figure 1, when working, the electric cylinder 12 is energized, and the giant magnetostrictive actuator 14 performs a fast linear motion under the drive of the electric cylinder 12. When reaching a suitable position, the electric cylinder 12 is powered off and stops working; When the giant magnetostrictive actuator 14 works, an alternating current is passed into the drive coil 21, and the current generates an alternating magnetic field inside the drive coil 21, and the giant magnetostrictive rod 22 moves along the axial direction under the action of the alternating magnetic field. Generate magnetostrictive deformation, and then push the output shaft 25 in the giant magnetostrictive actuator 14 to produce axial displacement; the lower surface of the reflector 6 is connected with the upper surface of the flexible rubber block 5 by gluing, and the upper end of the flexible rubber block 5 The external thread of part b and the through hole at the edge of the elasti...

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Abstract

The invention belongs to the field of magnetostriction double-stage precise driving, and particularly relates to a magnetostriction type double-stage displacement regulating mechanism for multiple spliced mirror surfaces by taking a magnetostriction material as a core element. The mechanism comprises three same groups of a double-stage displacement regulating mechanism, elastic steel, a flexible rubber block, a central supporting seat, a central supporting rod and a supporting substrate; and each double-stage displacement regulating mechanism comprises an electric cylinder, a supporting plateand a magnetostriction actuator. Most of mirror surface regulating mechanisms developed by using a magnetostrictive effect principle in the prior art can only realize one-stage regulation for displacement; however, the magnetostriction type double-stage displacement regulating mechanism for multiple spliced mirror surfaces by taking the electric cylinders as one-stage rapid driving and the magnetostriction actuators as two-stage precision driving is designed for the disadvantages of an existing spliced mirror surface micro displacement regulating mechanism, so that the problem that quick large-scale regulation and precision positioning cannot be carried out simultaneously when sub-mirrors are spliced is solved.

Description

technical field [0001] The invention belongs to the field of magnetostrictive two-stage precision drive, in particular to a magnetostrictive double-stage displacement adjustment mechanism with spliced ​​multi-mirror surfaces with giant magnetostrictive material as the core component. Background technique [0002] Since the 1980s, with the continuous development of science and technology related to space and military fields, countries have been committed to space exploration, and at the same time, space telescopes have been continuously improved. The continuous increase in the aperture of telescopes used for space exploration has brought inconvenience to the design and manufacture, so active optical technology was born. As a branch of active optical technology, splicing technology can effectively solve the problem of mirror design and manufacture of large-aperture telescopes. The splicing mirror optical technology is to splice multiple small-caliber sub-mirrors into a large-...

Claims

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Application Information

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IPC IPC(8): H02N2/04
CPCH02N2/043
Inventor 刘慧芳刘成龙赵俊杰张靖
Owner SHENYANG POLYTECHNIC UNIV
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