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Resonant tuning fork structure having strong self-coupling performance

A self-coupling and tuning fork technology, which is applied in the field of core sensitive components, can solve the problems of affecting the vibration effect of the tuning fork and unfavorable signal processing of the resonant tuning fork, and achieve the effects of strengthening vibration coupling, increasing equivalent stiffness, and good differential effect

Inactive Publication Date: 2007-12-05
BEIHANG UNIV
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AI Technical Summary

Problems solved by technology

This phenomenon is extremely unfavorable for the start-up of the resonant tuning fork and the signal processing of the subsequent circuit.
For common mode vibration, not only will it form a strong vibration coupling with the surrounding structure, but also when various external interference factors act on the two tuning forks at the same time, it will easily change the resonance state of the tuning fork, thus seriously affecting the vibration effect of the tuning fork
And because the root fixation cannot achieve a completely rigid connection, and the differential mode vibration has little dependence on the root fixation method, so the equivalent stiffness of the common mode vibration will be slightly smaller than the differential mode vibration, making the differential mode vibration easier to vibrate

Method used

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Embodiment Construction

[0011] As shown in Figure 1, the present invention includes a symmetrical upper triangular base 1 and a lower triangular base 2 that are used for tuning forks to be fixedly connected to the surrounding two triangles, and an upper vibration isolation hole 3 in the upper triangular base 1. It is symmetrical with the lower vibration isolation hole 4 located in the lower triangular base 2, the upper vibration isolation hole 3 and the lower vibration isolation hole 4; The left and right two symmetrical resonant beam support bases 7 and 8 are located at the upper end of the lower vibration isolation hole 4, and the left and right symmetrical resonant beams 9 and 10 are located in the middle of the entire tuning fork structure, forming a resonant tuning fork, and through the left and right upper resonant The beam support bases 5, 6 and the left and right lower resonant beam support bases 7, 8 are supported between the upper triangular base 1 and the lower triangular base 2, and are ri...

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Abstract

The invention relates to a resonance tuning fork structure which has the strong self-coupling characteristic, including the symmetrical up triangle base (1) of the two triangle relative laying aside which is used in fix-connecting the circumambience with the tuning fork and the below triangle base (2), the two symmetrical up vibration isolation hole (3) which on triangle base (1) and the below vibration isolation hole (4) which is located on the below triangle base (2), around two symmetrical up resonance girder support bases (5, 6) which is located at the lower extremity of the up vibration isolation hole (3), around two symmetrical below resonance girder support bases (7, 8) which is located at the superior extremity of the below vibration isolation hole (4), around two symmetrical resonance girders (9, 10) which is located on the middle of the entire tuning fork structure to compose the resonance tuning fork, and supports between the up triangle base (1) and the below triangle base (2) through the around two up resonance girder support bases (5, 6) and the around two below resonant girder support bases (7, 8). The invention has increased the equivalent stiffness of the tuning fork syntype vibration effectively, the different mold resonance frequency of the resonant tuning fork is smaller than the syntype resonance frequency, thus causes the resonant tuning fork work to be more stabler and reliable.

Description

technical field [0001] The invention relates to a resonant tuning fork structure, which is used in the field of force detection sensors including silicon microresonant accelerometers, quartz resonant tuning fork accelerometers, silicon micromechanical gyroscopes, etc., and becomes the core sensitive element of such sensors. Background technique [0002] The tuning fork structure is generally used in the field of measurement of mechanical quantities, and belongs to the secondary sensitive element in the sensor. Typical sensors made of resonant tuning forks include resonant accelerometers, resonant mechanical gyroscopes, and resonant air pressure sensors. These sensors convert the measured contact force into an elastic deformation form through a specific mechanism, and then transmit this contact force to the axial direction of the resonant tuning fork through the clamping mechanism to generate an axial force. By changing the magnitude of the axial force of the resonant tuning...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H03H9/21H03H9/02G01D5/00
Inventor 樊尚春庄海涵郭占社
Owner BEIHANG UNIV
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