A kinematic mechanism locking device and locking method based on inverse flexoelectric effect

A technology of flexoelectric effect and motion mechanism, which is applied in the direction of fixing devices, transportation and packaging, motor vehicles, etc., can solve problems affecting normal use, inconvenient operation, cup deformation, etc. Simple, easy to assemble and disassemble

CN112145511BActive Publication Date: 2021-11-12CHANGAN UNIV

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Patent Information

Authority / Receiving Office: CN · China
Patent Type: Patents(China)
Current Assignee / Owner: CHANGAN UNIV
Publication Date: 2021-11-12

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Abstract

The invention discloses a moving mechanism locking device and a locking method based on the inverse flexoelectric effect. The locking device includes a support rod arranged on a base, a sensitive unit and a plurality of arc-shaped metal blocks; the support rod is vertical Set on the base, the sensitive unit is a ring structure, which is horizontally set on the top of the support rod; several metal blocks are evenly arranged on the outer ring of the sensitive unit; the outer rings of several metal blocks are provided with annular insulating strips; There is a gap between the ring and the cup inner shell of the rotating device; the sensitive unit is made of flexible dielectric material, and the inner and outer sides of the sensitive unit are respectively plated with inner metal electrodes and outer metal electrodes. The invention is based on the flexoelectric effect in the crystal electromechanical coupling effect, and realizes the position locking of the moving parts. Compared with traditional electromagnets, mechanical buckles or locking screws, it is simple to use, easy to disassemble and assemble, and does not require complicated mechanical structures.

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Description

technical field

[0001] The invention relates to the technical field of equipment manufacturing, in particular to a motion mechanism locking device and method based on an inverse flexoelectric effect. Background technique

[0002] In aerospace equipment, some rotating parts need to be positioned during lift-off, landing and work. Electromagnets, mechanical buckles or locking screws are often used to lock them with the base to maintain a high-precision positioning relationship. However, this locking method has some problems in use, such as inconvenient operation and the need for manual on-site intervention. Especially for thin-walled rotating cups, when electromagnets or locking screws are used to lock the local positions, the cup body is easily deformed due to external force, which may affect the normal use in the later stage. Contents of the invention

[0003] The object of the present invention is to provide a moving mechanism locking device and method based on the inver...

Claims

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