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Four-shaft pedestal excitation device used for dynamic characteristics test of MEMS microstructure

A technology of dynamic characteristics and excitation device, applied in the direction of microstructure device, microstructure technology, etc., can solve the problems of inaccurate preload or piezoelectric ceramic output force, inflexibility, increase in measurement result error, etc., to avoid pressure Interference of sensors, smooth adjustment process, effect of reducing shear force

Inactive Publication Date: 2018-06-29
BOHAI UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0005] 2. There is no direct connection between the upper connection block and the lower connection block and the sleeve, but are installed in the sleeve in turn by means of clearance fit. If the parallelism error of the two working surfaces of the stacked piezoelectric ceramics is large , there is not enough space to adjust the movable base structure;
[0006] 3. The pressure sensor is installed at the bottom of the lower connecting block. Since the movable base structure is self-adjusted, there is a certain inclination between the bottom of the lower connecting block and the working surface of the piezoelectric ceramic, so the pre-tightening force measured by the pressure sensor Or the output force of piezoelectric ceramics is not accurate; in addition, if the movable base structure causes the upper coupling block or the lower coupling block to contact the sleeve after adjustment, the error of the measurement result will further increase;
[0008] 5. In this device, gaskets of different thicknesses are used to change the magnitude of the pre-tightening force applied to the stacked piezoelectric ceramics, which leads to a complicated adjustment process and is not flexible enough

Method used

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  • Four-shaft pedestal excitation device used for dynamic characteristics test of MEMS microstructure
  • Four-shaft pedestal excitation device used for dynamic characteristics test of MEMS microstructure
  • Four-shaft pedestal excitation device used for dynamic characteristics test of MEMS microstructure

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Embodiment Construction

[0041] like Figure 1 to Figure 8 As shown, the present invention relates to a three-axis base excitation device for testing the dynamic characteristics of MEMS microstructures, comprising a hollow sleeve 1, in which a stacked piezoelectric ceramic 10, a pressure sensor 11 and A movable base composed of an upper coupling block 13 , a steel ball 14 and a lower coupling block 15 is provided with an elastic support 6 and a MEMS microstructure 4 on the sleeve 1 .

[0042] An annular top plate 2 and a bottom plate 3 are respectively fixed by bolts on the top and bottom of the sleeve 1, and the MEMS microstructure 4 is installed on the annular top plate 2 through elastic supports 6; the elastic supports include a square substrate 602 and four The support arms 601 uniformly distributed on the circumference, each support arm 601 is composed of the first connecting arm 6011, the second connecting arm 6012, the third connecting arm 6013 and the fourth connecting arm 6014 which are verti...

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Abstract

The invention discloses a four-shaft pedestal excitation device used for dynamic characteristics test of a MEMS microstructure. The four-shaft pedestal excitation device comprises a sleeve, a stackedpiezoelectric ceramic, a pressure sensor, an upper linkage block, a lower linkage block, a steel ball and the MEMS microstructure; a support plate and an electric lead screw transmission mechanism arearranged in the sleeve; the upper linkage block and the lower linkage block are respectively provided with a spherical groove and a conical groove for clamping the steel ball; the stacked piezoelectric ceramic is clamped between the pressure sensor and an elastic support; spring plungers are evenly distributed and connected on the upper linkage block, and an external end steel bead of the springplunger is respectively supported into a rectangular groove of an internal wall of the sleeve. The device can flexibly apply a pretightening force of different size on the stacked piezoelectric ceramic, and simultaneously makes an obtained pretightening force measurement value more accurately, makes an adjusting process for compensating parallelism error of two work surfaces of the stacked piezoelectric ceramic more unhindered and smooth, greatly reduces a shear force among each layer of the stacked piezoelectric ceramic, can avoid falling off of micro devices for test and is convenient for testing dynamic characteristics parameters of the MEMS microstructure.

Description

technical field [0001] The invention belongs to the technical field of micromechanical electronic systems, and in particular relates to a four-axis base excitation device for testing the dynamic characteristics of MEMS microstructures. Background technique [0002] Due to the advantages of low cost, small size and light weight, MEMS microdevices have broad application prospects in many fields such as automobile, aerospace, information communication, biochemistry, medical treatment, automatic control and national defense. For many MEMS devices, the micro-displacement and micro-deformation of their internal microstructures are the basis for the realization of device functions. Therefore, accurate testing of dynamic characteristic parameters such as the amplitude, natural frequency, and damping ratio of these microstructures has become the key to developing MEMS products. important content. [0003] In order to test the dynamic characteristic parameters of the microstructure, ...

Claims

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Application Information

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IPC IPC(8): B81C99/00
CPCB81C99/005
Inventor 佘东生王巍魏洪峰周建壮韩建群刘闯
Owner BOHAI UNIV
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