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Copper alloy handle rotating plate wheel clamping plate light ring auxiliary impact glass testing device

A technology of copper alloy and rotating plate, which is applied in the direction of testing the strength of materials, instruments, scientific instruments, etc. by using one-time impact force. It can solve the problems of not uniformly fixing the machine, the injury of the operator, and the collapse of the tape, so as to improve the labor intensity and increase the The effect of operating efficiency

Inactive Publication Date: 2016-08-24
张志雄
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Rectangular tempered glass quality inspection, in the past, there is no unified fixing machine, only use scotch tape paper or other methods to restrain the glass periphery, or cover a layer of film on the tempered glass to prevent glass fragments from splashing
At the same time, the adhesive tape is also likely to be broken by the force of the tempered glass explosion, causing the operator to be injured. Therefore, it is necessary to improve the tempered glass fragment test machine

Method used

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  • Copper alloy handle rotating plate wheel clamping plate light ring auxiliary impact glass testing device
  • Copper alloy handle rotating plate wheel clamping plate light ring auxiliary impact glass testing device
  • Copper alloy handle rotating plate wheel clamping plate light ring auxiliary impact glass testing device

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Embodiment Construction

[0066] Describe the present invention in detail below in conjunction with accompanying drawing and specific embodiment:

[0067] figure 1 Among them, the wheel slide rack splint assembly 500 is fixed on the test turntable 190, the square glass plate 600 is fixed on the wheel slide rack splint assembly 500, and the rotary impact assembly 590 is located directly above the square glass plate 600 and is in working condition.

[0068] Figure 6 , the rotary impact assembly 590 is moved out of the square glass plate 600 directly above and does not work, and the surrounding lighting member 800 is located directly above the square glass plate 600 and is in a working state.

[0069] Figure 7 The camera universal joint and the impact universal joint at both ends of the linkage connecting rod 222 in the middle are connected with the halo oblique handle 810 and the impact cross bar 256 respectively.

[0070] Figure 8 for Figure 7 The shank universal joint 475 and crossbar universa...

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Abstract

The invention relates to a tempered glass testing device, in particular to a copper alloy handle rotating plate wheel clamping plate light ring auxiliary impact glass testing device. As improvement, a wheel slideway rack clamping plate component is fixed to the upper plane of a testing rotating plate, a rotating plate handle is arranged on the vertical surface of the rear end of the testing rotating plate, and the two arched ends of the rotating plate handle serve as handle tips which are both fixed to the vertical surface of the rear end of the testing rotating plate; a longitudinal screw drives a longitudinal base nut to move forwards and backwards, a horizontal screw drives a horizontal base nut to move leftwards and rightwards, a camera motor drives a lifting rack to move up and down, a camera frame moves up and down accordingly, and finally three-dimensional free movement of an industrial camera is achieved; linkage between a cross rod universal joint on a rotation impact component and an oblique handle universal joint on a light ring component is achieved through a linkage connecting rod, and operation efficiency is improved; a wheel slideway rack clamping plate component is adopted, a cylindrical gear is meshed with a vertical face rack, and precise fine adjustment fixation of quadrilateral glass is achieved.

Description

technical field [0001] The invention relates to a tempered glass detection and testing device, in particular to a test and inspection system equipped with an industrial camera instead of a manually operated copper alloy handle turning plate wheel splint halo auxiliary shock glass testing device. Background technique [0002] Since Gordon Gaile G published the article "Automated Glass Fragmentation Analysis" in 1996, the detection algorithm of glass fragments has been discussed. This document involves two key technologies: (1) Image acquisition technology: in a piece of glass fragment imaging Under the photosensitive paper, light sources are applied from two different angles, and an original digital image of the shadow of the crack line of the debris is collected. In this way, due to the use of light sources at different angles, the two images collected must be different. In one of the images, the position of the inconspicuous seam line due to lighting may be more obvious in...

Claims

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Application Information

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IPC IPC(8): G01N3/06G01N3/04G01N3/30
CPCG01N3/04G01N3/068G01N3/30
Inventor 张志雄
Owner 张志雄
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