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A Small Displacement Pre-thrust Mechanism

A small displacement and thrust technology, applied in the testing of machines/structural components, measuring devices, force/torque/power measuring instruments, etc., can solve the problem of small displacement of pressure sensors, insufficient thrust control accuracy, and inability to realize data measurement, etc. problems, to achieve precise control, high stability and reliability, and shorten the detection time

Active Publication Date: 2021-07-30
SUZHOU DINNAR TECH FOR AUTOMATION CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the existing pressure sensor has high precision, but the displacement is small, it cannot meet the requirements of the application.
At the same time, during the detection process of the device, the switching cycle between the execution units is relatively long, and data measurement cannot be realized in a short time
At the same time, the precision of thrust control is not in place, and it is easy to damage the product
[0004] Therefore, it is obviously of practical significance to develop a small displacement pre-thrust mechanism with better fixation and higher precision that can solve the problem of small displacement and low measurement accuracy of high-precision pressure sensors, so as to further improve the operation yield.

Method used

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  • A Small Displacement Pre-thrust Mechanism
  • A Small Displacement Pre-thrust Mechanism

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0046] see figure 1 and figure 2 , a small displacement pre-thrust mechanism, including a driving assembly 1, a measuring device 2, a product fixing assembly 3 and a moving device 4;

[0047] The moving device 4 includes an X-axis moving device 5, a push block 51 arranged on the X-axis moving device 5, a Z-axis moving device 6, and a reverse thrust block 61 arranged on the Z-axis moving device 6;

[0048] The push block 51 is provided with a first slope 511, and the reverse thrust block 61 is provided with a second slope 611 in contact with the first slope 511;

[0049] The Z-axis moving device 61 is provided with a pressure sensor 7;

[0050] The product fixing assembly 3 is arranged between the Z-axis moving device 6 and the measuring device 2;

[0051] The measuring device 2 includes a measuring probe 21, and a probe 22 for monitoring product displacement data is arranged at the bottom of the measuring probe 21.

[0052] Further, the drive assembly 1 includes a stop cy...

Embodiment 2

[0085] The small displacement pre-thrust mechanism described in this embodiment is used to measure the displacement between the first product: metal sheet and the second product: glass sheet.

[0086] This embodiment is carried out on the basis of the above embodiments, and the similarities with the above embodiments will not be repeated.

[0087] In this embodiment, the accuracy of the linear motor 12 is ±0.005 mm, the accuracy of the X-axis moving device 5 and the Z-axis moving device 6 is ±0.02 mm, and the pressure sensor 7 is within a displacement of 0.001 mm. The corresponding pressure is 17g.

[0088] Further, the included angle formed between the first inclined surface 511 on the push block 51 and the horizontal plane is 15°, and the included angle formed by the second inclined surface 611 on the reverse thrust block 61 and the horizontal plane is 75°.

[0089] First, the anti-thrust block 61 in the device is removed, the linear motor 12 pushes the buffer spring 8 to m...

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Abstract

The invention discloses a small displacement pre-thrust mechanism, which includes a driving assembly, a measuring device, a product fixing assembly and a moving device; the moving device includes an X-axis moving device, a push block arranged on the X-axis moving device, a Z-axis The moving device and the anti-thrust block arranged on the Z-axis moving device; the first slope is provided on the push block, and the second slope in contact with the first slope is provided on the reverse push block; the Z-axis movement A pressure sensor is arranged on the device; the measuring device includes a measuring probe and a probe. The small displacement pre-thrust mechanism disclosed in the present invention increases the vertical displacement through the mutual movement between the push block and the reverse push block, and solves the problem that the small displacement of the high-precision pressure sensor cannot meet the application; The sliding device is set to realize the automatic falling and measurement of the measuring probe, which greatly shortens the detection time and improves the measurement efficiency.

Description

technical field [0001] The invention relates to the technical field of mechanical measurement, in particular to a small displacement pre-thrust mechanism. Background technique [0002] At present, there are metal sheets and glass lenses on the periphery of the mobile phone camera. After the metal and glass lenses are assembled, the firmness and displacement of the assembled products need to be tested. The traditional detection method is to manually detect on the detection machine one by one, and the detection efficiency is low; and the product is small in size, it needs to apply a force of 5000±30g during the test, the control displacement is 0.02mm, and the pre-thrust force cannot be too strong , and it is impossible to exceed the specified displacement, the requirements for personnel are high, and there are large errors in manual detection. [0003] In the current product displacement detection operation, sensors have been widely used to assist product detection, which ca...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01M11/08G01B21/02G01L5/00
CPCG01B21/02G01L5/0038G01M11/08
Inventor 吴旭东姚亮亮杜义祥
Owner SUZHOU DINNAR TECH FOR AUTOMATION CO LTD
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