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Film and 3D glass two-way alignment lamination method

A glass and 3D technology, which is applied in the field of two-way alignment and lamination of film and 3D glass, can solve the problems of integration errors, positioning only once, and failure to confirm, and achieve the effect of simple coordinate integration

Active Publication Date: 2020-03-24
中能智能装备(深圳)有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The purpose of the present invention is to solve the complicated integration of the coordinate system in the current two-way alignment lamination method of film and 3D glass, which requires integration of the coordinate system every time a product is replaced or the camera is moved; there will be an integration error when the coordinate system is integrated; Both the film and the glass need to be moved again after the film is taken, and the accuracy cannot be guaranteed; only one positioning can be done, and the deficiency that cannot be confirmed provides a new type of two-way alignment lamination method for film and 3D glass

Method used

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  • Film and 3D glass two-way alignment lamination method
  • Film and 3D glass two-way alignment lamination method

Examples

Experimental program
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Effect test

Embodiment 1

[0026] Such as figure 1 As shown, a film and 3D glass two-way alignment bonding method includes the following steps:

[0027] (1) The alignment platform module drives the film 1 on the support plate of the alignment platform to move to the left and forward to a certain position, exposing the adjacent two sides of the film 1 and the adjacent two sides of the glass 2 opposite to the film 1;

[0028] (2) The camera takes pictures; the two-way alignment laminating mechanism records the position of the adjacent two sides of the film 1 and the position of the adjacent two sides of the recording glass 2 relative to the film 1 through the camera;

[0029] (3) Contrary to step (1), the alignment platform module drives the film 1 on the support plate of the alignment platform to move to the right and backward to a certain position, exposing the other two adjacent sides of the film 1 and the glass 2 opposite to the film 1. In addition, adjacent two sides;

[0030] (4) The camera takes ...

Embodiment 2

[0038] Such as figure 2 As shown, a film and 3D glass two-way alignment bonding method includes the following steps:

[0039] (1) The alignment platform module drives the film 1 on the support plate of the alignment platform to move to the right and backward to a certain position, exposing the adjacent two sides of the film 1 and the adjacent two sides of the glass 2 opposite to the film 1;

[0040] (2) The camera takes pictures; the two-way alignment laminating mechanism records the position of the adjacent two sides of the film 1 and the position of the adjacent two sides of the recording glass 2 relative to the film 1 through the camera;

[0041] (3) Contrary to step (1), the alignment platform module drives the film 1 on the support plate of the alignment platform to move to the left and forward to a certain position, exposing the other adjacent two sides of the film 1 and the glass 2 opposite to the film 1. In addition, adjacent two sides;

[0042] (4) The camera takes...

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Abstract

The invention provides a bidirectional alignment laminating method for film and 3D glass. The method comprises the following steps: an alignment platform module drives a film on an alignment platformsupporting plate to move to the left or the right or the front or the back for a certain distance to expose two adjacent edges of the film and the facing adjacent edges of the glass and the film; a camera photographs; a bidirectional alignment laminating mechanism records the positions of the adjacent two edges and the positions of the facing adjacent two edges of the glass and the film through the camera photographing; a position deviation between the film and the glass is calculated according to the film edge and the glass edge recorded by the camera; and the alignment platform module superposes the centers of the film and the glass. The method has the following advantages: the film and the glass are separately photographed during camera photographing, so mutual noninterference is achieved; coordinate integration is simple, and no coordinate integration error exists; the glass does not move in the alignment process and after the completion of the alignment, so errors brought by the movement are reduced; and debugging is simple, the appearance of the film and the glass in the camera is only needed, and camera movement has little influence on the alignment precision.

Description

【Technical field】 [0001] The invention relates to a two-way alignment bonding method, in particular to a two-way alignment bonding method for a film and 3D glass. 【Background technique】 [0002] Patent No. 201721531442.4 discloses a two-way alignment lamination structure for film and 3D glass, including a CCD imaging mechanism and an alignment platform module. The existing alignment and bonding method of the structure is: use two sets of cameras to find the positions of the glass and the film, and then integrate the coordinate system, and move the alignment platform to align the centers of the film and the glass. The specific process is: CCD first captures the image The film is placed on the alignment platform, and the 3D curved glass is suspended in the air and the offset position is fed back to the platform to move to achieve the coincidence of the glass and the film. The electric module is pressed and bonded by force control. This two-way alignment bonding method has the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B29C63/00
CPCB29C63/0004B29C63/0073
Inventor 甘伟生于向荣陈其斌
Owner 中能智能装备(深圳)有限公司