CN108501353A - Film aligns applying method with 3D glass bidirectionals - Google Patents

Abstract

The present invention provides a kind of films and 3D glass bidirectionals to align applying method, includes the following steps：Film on contraposition platform deck is driven to the left or to the right to bit platform module and is moved forward or rearward certain position, exposes the adjacent both sides of film and the adjacent both sides that glass is opposite with film；Camera is taken pictures；Two-way contraposition applying machine structure photographs to record the position on the adjacent both sides of film by camera and records the glass adjacent both sides position opposite with film；The position deviation of membrane and glass is calculated by the film side of cameras record, glass edge；Finally bit platform module is overlapped by film and center of glass, the beneficial effects of the present invention are：Film, glass are separately taken pictures non-interference when camera is taken pictures；Coordinate is integrated simply, and coordinate integration error is not present；Glass does not move during contraposition and after the completion of contraposition, reduces the mobile error brought；It is fairly simple when debugging, only it need to allow film and glass that can occur in the camera, aligning accuracy influences little after camera movement.

Description

Film aligns applying method with 3D glass bidirectionals

【Technical field】

The present invention relates to a kind of two-way contraposition applying methods more particularly to a kind of film to align the side of fitting with 3D glass bidirectionals Method.

【Background technology】

Patent No. 201721531442.4 discloses a kind of film and aligns bonding structure, including CCD with 3D glass bidirectionals Capture mechanism, to bit platform module, be equipped with to bit platform module below CCD captures mechanism, the two-way contraposition bonding structure is existing Contraposition applying method be：It finds the position of glass and membrane material respectively with two groups of cameras, then carries out the integration of coordinate system, mobile pair Bit platform is aligned by the center of film and glass, and detailed process is：CCD elder generations capture film is placed to bit platform, and 3D bend glasses are outstanding Empty capture feedback deviation position is moved to platform, is reached glass and is overlapped with film, and electronic module is controlled by power and pushes thermal-adhering, The two-way contraposition applying method has the disadvantage that：(1) coordinate system is integrated more complicated, replaces product or mobile camera every time It is required to do the integration of coordinate system afterwards；(2) integration error is had when coordinate system is integrated；(3) glass and film complete caudacoria taking pictures It is required for moving again with glass not ensureing precision；(4) one-time positioning can only be done, can not be confirmed.

【Invention content】

Present invention aims at solve current thin film compared with coordinate system is integrated in the method for 3D glass bidirectionals contraposition fitting Complexity is required to do the integration of coordinate system after replacing product or mobile camera every time；Coordinate system has integration error when integrating； Glass and film complete caudacoria and glass is required for moving again can not ensure precision taking pictures；One-time positioning can only be done, it can not The deficiency of confirmation and a kind of novel thin film for providing aligns applying method with 3D glass bidirectionals.

The present invention is achieved through the following technical solutions：A kind of film aligns applying method, packet with 3D glass bidirectionals Include following steps：

(1) it drives the film on contraposition platform deck to the left or to the right bit platform module and is moved forward or rearward a positioning It sets, exposes the adjacent both sides of film and the adjacent both sides that glass is opposite with film；

(2) camera is taken pictures；Two-way contraposition applying machine structure photographs to record position and the record glass on the adjacent both sides of film by camera The glass adjacent both sides position opposite with film；

(3) with step (1) on the contrary, drive the film on contraposition platform deck to the right or to the left and backward bit platform module or Certain position is moved forward, the other adjacent both sides of film and the other adjacent both sides that glass is opposite with film are exposed；

(4) camera is taken pictures；Two-way contraposition applying machine structure photographs to record the film in addition position on adjacent both sides and note by camera Record the glass other adjacent both sides position opposite with film；

(5) position deviation of membrane and glass is calculated by the film side of cameras record, glass edge；

(6) finally bit platform module is overlapped by film and center of glass.

Further, the film is film.

Further, the glass is 3D glass.

Further, the 3D glass is 3D bend glasses.

Further, described that film on contraposition platform deck is driven to the left or to the right and forward or backward to bit platform module Moving range is 1 to 3mm.

The beneficial effects of the present invention are：

(1) film, glass are separately taken pictures non-interference when camera is taken pictures；

(2) coordinate integrates simple (film side, glass edge appear in same camera), and coordinate integration error is not present；

(3) multiple contraposition can be done when film is bigger than glass, or is confirmed；

(4) glass does not move during aligning and after the completion of contraposition, reduces the mobile error brought；

(5) fairly simple when debugging, it only need to allow film and glass that can occur in the camera, essence is aligned after camera movement Degree influences little.

【Description of the drawings】

Fig. 1 is film of the present invention and 3D glass bidirectionals contraposition applying method film to the left and forward structural schematic diagram；

Fig. 2 is film of the present invention and 3D glass bidirectionals contraposition applying method film to the right and backward structural schematic diagram；

Reference numeral：1, film；2, glass.

【Specific implementation mode】

Below in conjunction with the accompanying drawings and specific implementation mode is described further the present invention：

Embodiment 1：

As shown in Figure 1, a kind of film aligns applying method with 3D glass bidirectionals, include the following steps：

(1) film 1 on contraposition platform deck is driven to the left to bit platform module and moves forward certain position, expose film 1 Adjacent both sides and the adjacent both sides opposite with film 1 of glass 2；

(2) camera is taken pictures；Two-way contraposition applying machine structure photographs to record position and the record glass on 1 adjacent both sides of film by camera The adjacent both sides position opposite with film 1 of glass 2；

(3) with step (1) on the contrary, driving the film 1 on contraposition platform deck to the right to bit platform module and moving backward one Positioning is set, and the other adjacent both sides of film 1 and the other adjacent both sides that glass 2 is opposite with film 1 are exposed；

(4) camera is taken pictures；Two-way contraposition applying machine structure photographs to record the film 1 in addition position on adjacent both sides and note by camera Record the other adjacent both sides position opposite with film 1 of glass 2；

(5) position deviation of membrane 1 and glass 2 is calculated in, glass 2 by the film of cameras record 1；

(6) finally bit platform module is overlapped by film 1 and 2 center of glass.

Preferably, the film 1 is film.

Preferably, the glass 2 is 3D glass.

Preferably, the 3D glass is 3D bend glasses.

Preferably, it is described to bit platform module drive contraposition platform deck on film to the left and move forward ranging from 1 to 3mm。

Embodiment 2

As shown in Fig. 2, a kind of film aligns applying method with 3D glass bidirectionals, include the following steps：

(1) film 1 on contraposition platform deck is driven to the right to bit platform module and moves backward certain position, expose film 1 Adjacent both sides and the adjacent both sides opposite with film 1 of glass 2；

(2) camera is taken pictures；Two-way contraposition applying machine structure photographs to record position and the record glass on 1 adjacent both sides of film by camera The adjacent both sides position opposite with film 1 of glass 2；

(3) with step (1) on the contrary, driving the film 1 on contraposition platform deck to the left and forward movement one bit platform module Positioning is set, and the other adjacent both sides of film 1 and the other adjacent both sides that glass 2 is opposite with film 1 are exposed；

(4) camera is taken pictures；Two-way contraposition applying machine structure photographs to record the film 1 in addition position on adjacent both sides and note by camera Record the other adjacent both sides position opposite with film 1 of glass 2；

(5) position deviation of membrane 1 and glass 2 is calculated in, glass 2 by the film of cameras record 1；

(6) finally bit platform module is overlapped by film 1 and 2 center of glass.

Preferably, it is described to bit platform module drive contraposition platform deck on film to the right and range of rearward movement be 1 to 3mm。

According to the disclosure and teachings of the above specification, those skilled in the art in the invention can also be to above-mentioned embodiment party Formula carries out change and modification appropriate.Therefore, the invention is not limited in specific implementation modes disclosed and described above, to this Some modifications and changes of invention should also be as falling into the scope of the claims of the present invention.In addition, although this specification In used some specific terms, these terms are merely for convenience of description, does not limit the present invention in any way.

Claims (5)

1. a kind of film aligns applying method with 3D glass bidirectionals, which is characterized in that include the following steps：

(1) it drives the film on contraposition platform deck to the left or to the right bit platform module and is moved forward or rearward certain position, Expose the adjacent both sides of film and the adjacent both sides that glass is opposite with film；

(2) camera is taken pictures；Two-way contraposition applying machine structure by camera photograph to record the adjacent both sides of film position and record glass with The opposite adjacent both sides position of film；

(3) with step (1) on the contrary, driving the film on contraposition platform deck to the right or to the left and posteriorly or anteriorly to bit platform module Mobile certain position, exposes the other adjacent both sides of film and the other adjacent both sides that glass is opposite with film；

(4) camera is taken pictures；Two-way contraposition applying machine structure photographs to record the film in addition position on adjacent both sides and record glass by camera The glass other adjacent both sides position opposite with film；

(5) position deviation of membrane and glass is calculated by the film side of cameras record, glass edge；

(6) finally bit platform module is overlapped by film and center of glass.

2. film according to claim 1 aligns applying method with 3D glass bidirectionals, it is characterised in that：The film is thin Film.

3. film according to claim 1 aligns applying method with 3D glass bidirectionals, it is characterised in that：The glass is 3D Glass.

4. film according to claim 3 aligns applying method with 3D glass bidirectionals, it is characterised in that：The 3D glass is 3D bend glasses.

5. film according to claim 1 aligns applying method with 3D glass bidirectionals, it is characterised in that：It is described to bit platform Module drives the film on contraposition platform deck to the left or to the right and is moved forward or rearward ranging from 1 to 3mm.