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A detection device and control method for a c-lens assembly process

A technology of testing equipment and assembly process, which is applied in the direction of testing optical fiber/optical waveguide equipment, testing of machine/structural components, measuring devices, etc. It can solve the problems of low accuracy rate and strong subjective consciousness of visual inspection methods, and achieve convenient operation , improve the detection accuracy, the effect of simple structure

Active Publication Date: 2020-05-26
深圳市惠富康光通信有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a detection device and control method for the C-lens assembly process, through which the detection work before being solidified in the assembly process can be completed, and the problem of strong subjective consciousness and low accuracy of the visual detection method can be solved

Method used

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  • A detection device and control method for a c-lens assembly process
  • A detection device and control method for a c-lens assembly process
  • A detection device and control method for a c-lens assembly process

Examples

Experimental program
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Embodiment 1

[0029] Such as figure 1 , 3 The detection equipment for a C-lens assembly process shown includes a laser 1, a 3D position regulator 2, an assembly mechanism 3, a first aperture mechanism 4, and a second aperture mechanism 5, and the output end of the laser 1 is connected to the The 3D position regulator 2 is connected, the assembly mechanism 3 is provided with a positioning member 31, and the positioning member 31 is used to fix the optical fiber interface assembly 100 and the C-lens200, and the first aperture mechanism 4 includes a first aperture and a first fixed stage, the first aperture is installed on the first fixed stage, the second aperture mechanism 5 includes a second aperture and a second fixed stage, and the second aperture is installed on the second fixed stage ; adjust the positions of the 3D position regulator 2, the assembly mechanism 3, the first aperture mechanism 4 and the second aperture mechanism 5, so that the light of the laser 1 passes through the opti...

Embodiment 2

[0033] On the basis of Embodiment 1, the guide rail adjustment assembly includes an adjustment platform 61 and a slider 62, each of the sliders 62 is slidably connected to the guide rail 6, and each of the adjustment platforms 61 is connected to the 3D position regulator 2 and the assembly mechanism respectively. 3. The first aperture mechanism 4 is connected to the second aperture mechanism 5 .

[0034] The adjusting table 61 is provided with a first knob and a second knob. When adjusting the first knob, the adjusting table 61 moves along the vertical direction of the guide rail 6; The vertical direction is the axis of rotation.

[0035] The slider 62 is provided with a fixing piece (not shown in the figure), and the slider 62 is connected with the guide rail through the fixing piece.

[0036] The application of the adjustment table 61 and the slide block 62 makes the adjustment of the guide rail adjustment assembly more flexible.

Embodiment 3

[0038] On the basis of Embodiment 2, the 3D position adjuster 2 is arranged on the assembly mechanism 3, one end of the 3D position adjuster 2 is connected to the output end of the laser 1, and the 3D position adjuster 2 The other end is connected to the positioning member 31 .

[0039] Originally, it was necessary to connect the 3D position regulator 2, the assembly mechanism 3, the first aperture mechanism 4, and the second aperture mechanism 5 to the guide rail 6 through the guide rail adjustment assembly respectively, so four guide rail adjustment assemblies were required, with many parts and installation steps Complicated, if this technical solution is adopted, the number of guide rail adjustment components is reduced; in addition, since the 3D position adjuster 2 is connected to the positioning member 31, as long as the 3D position adjuster 2 is adjusted, the positioning member 31 will move accordingly , making the adjustment process easier and faster.

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Abstract

The invention relates to testing equipment of a C-lens assembly process and a control method thereof. The testing equipment comprises a laser, a 3D position adjuster, an assembling mechanism, a first diaphragm mechanism, and a second diaphragm mechanism. The output terminal of said laser is connected to the 3D position adjuster. The assembling mechanism is provided with a positioning member for fixing an optical fiber interface assembly and a C-lens unit. The first diaphragm mechanism includes a first diaphragm and the second diaphragm mechanism includes a second diaphragm. Light from the laser passes through the optical fiber interface assembly, the C-lens unit, the inner hole of the first diaphragm and the inner hole of the second diaphragm successively by adjusting the positions of the 3D position adjuster, the assembling mechanism, the first diaphragm mechanism and the second diaphragm mechanism. In addition, the invention also provides a control method of the testing equipment of a C-lens assembly process. Therefore, the subjectivity of visual inspection is reduced and the detection accuracy is improved; and because the assembling, testing and curing processes are completed at the same equipment, so that the production efficiency can be improved.

Description

technical field [0001] The invention relates to a lens assembly device, in particular to a detection device and a control method for a C-lens assembly process. Background technique [0002] The traditional C-lens (spherical fiber collimator) assembly process refers to the process of manually assembling and curing the optical fiber interface component and C-lens into a lens component, which also includes visual inspection steps. [0003] The general visual inspection step is carried out after the curing is completed. This method has the following disadvantages: Even if the deviated products are detected later, the cured lens components cannot be corrected, so a large number of unqualified products appear. finished product. Now it is also proposed that inspection should be performed after manual assembly and before curing, but the method it relies on is still visual inspection. [0004] The principle of the visual inspection method is to first measure the eccentric accuracy ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01M11/00
CPCG01M11/33
Inventor 成焕成刘远飞
Owner 深圳市惠富康光通信有限公司