Tuning fork type micromechanical gyroscope capable of resisting high-strength impact

A micro-machined gyro, tuning fork technology, applied in the direction of speed/acceleration/shock measurement, gyro effect for speed measurement, gyroscope/steering sensing device, etc., to achieve strong shock resistance, easy batch production, and light weight.

Inactive Publication Date: 2013-09-11
TONGJI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Up to now, there are no relevant documents, patents or reports on the successful development of high-impact micro-gyroscopes in China, and foreign countries have adopted strict technical blockade policies against China in terms of high-impact micro-gyroscopes

Method used

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  • Tuning fork type micromechanical gyroscope capable of resisting high-strength impact
  • Tuning fork type micromechanical gyroscope capable of resisting high-strength impact
  • Tuning fork type micromechanical gyroscope capable of resisting high-strength impact

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Embodiment Construction

[0027] The present invention will be further described below in conjunction with the embodiments shown in the accompanying drawings.

[0028] Such as Figure 1 to Figure 4 As shown, a new type of tuning fork anti-high-impact micro-mechanical gyro, including two single-frame structures symmetrically arranged left and right, the two single-frame structures are connected via the middle coupling beam 5, and each single-frame structure includes a driving mass Frame 1, the detection mass frame 2 set inside the driving mass frame 1, the detection elastic beam structure, the driving elastic beam structure, and the horizontal direction (X direction in the figure) and the vertical direction (Y direction in the figure) are arranged in pairs The elastic limit structure 7, the detection elastic beam structure connects the driving mass frame 1 and the detection mass frame 2, the driving mass frame 1 is connected to the anchor point 6 via the driving elastic beam 4 structure, and the elastic...

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Abstract

The invention discloses a tuning fork type micromechanical gyroscope capable of resisting a high-strength impact. The tuning fork type micromechanical gyroscope comprises two single-frame type structures in a bilateral symmetry manner, wherein the two single-frame type structures are connected through an intermediate coupling beam; each single-frame type structure comprises a driving mass frame, a detection mass frame which is arranged in the driving mass frame, a detection elastic beam structure, a driving elastic beam structure, and elastic limiting structures which are paired in the single direction of the horizontal and vertical directions; the detection elastic beam structure is connected with the driving mass frame and the detection mass frame; the driving mass frame is connected with an anchor point through the driving elastic beam structure; each elastic limiting structure comprises elastic limiting comb teeth which are connected to the anchor point, and a limiting stop block which is connected to the driving mass frame or the detection mass frame. By respectively designing the elastic limiting structures in the horizontal and vertical directions, when a main body structure is subjected to the high-strength impact, the elastic limiting structures limit the displacement of the main body structure in the horizontal and vertical directions, and structural damage caused after an elastic beam exceeds an elastic deformation limit during the displacement of the main body structure is avoided.

Description

technical field [0001] The invention belongs to the field of micro-electro-mechanical systems, and relates to a tuning-fork micro-mechanical gyroscope structure. Background technique [0002] The micromechanical gyroscope is an inertial sensor that uses the Coriolis effect to detect the angular velocity of a rotating object. Micromechanical gyroscopes are prepared by microelectronic processing equipment. They have the characteristics of small size, light weight, low cost, and easy batch production. They have extremely broad application prospects in the fields of weapon guidance, aerospace, automobiles, biomedical equipment, and consumer electronics. [0003] Since the MEMS gyroscope will be affected by various external forces and accelerations during the working process, there will inevitably be shocks during the handling and storage process, and the micromechanical gyroscope may be damaged. When the device is used in occasions with high impact such as aerospace and weapon ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C19/5621
Inventor 姜涛周健魏云
Owner TONGJI UNIV
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