CN211054599U - High-precision laminating alignment structure - Google Patents

Abstract

The utility model relates to the technical field of alignment structures, and discloses a high-precision laminating alignment structure, which comprises an upper cavity for placing an upper workpiece, a lower cavity for placing a lower workpiece, an alignment structure and a portal frame with a processing area, wherein the upper cavity is positioned above the lower cavity; when the upper cavity and the lower cavity move to the processing area, the alignment structure moves horizontally in the processing area, and simultaneously shoots an upper workpiece on the upper cavity and a lower workpiece on the lower cavity to realize alignment of the upper workpiece and the lower workpiece; go up the cavity and be in the top of cavity down, when last cavity and cavity removal to the machining area of portal frame down, counterpoint structure horizontal migration in the machining area simultaneously shoots work piece and lower work piece, realizes going up the counterpoint of work piece and lower work piece, and the counterpoint is accomplished the back to the counterpoint, moves away counterpoint structure, goes up the work piece and laminates with lower work piece, and the at utmost reduces to counterpoint back cavity and removes the precision loss that brings again, improves the precision of work piece laminating.

Description

High-precision laminating alignment structure

Technical Field

The patent of the utility model relates to a technical field of counterpoint structure particularly, relates to high accuracy laminating counterpoint structure.

Background

In manufacturing processes, many work products have special requirements on the processing environment, such as a vacuum environment. The air in the container is extracted, so that the air pressure in the container is reduced, a vacuum chamber is formed, the product is placed into the vacuum chamber for processing, the product meets the processing requirement, the product needs to be aligned in the processing process, and the processing precision is guaranteed.

At present, most of laminating industries align products through an alignment structure when the products are vacuum laminated, the products are placed on a cavity, and the cavity is moved to a laminating position to be laminated.

The existing product is vacuum-bonded, and after the alignment structure is aligned, the cavity is moved, so that precision loss can be caused in the movement of the cavity, and the error of bonding precision is large.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high accuracy laminating counterpoint structure, aim at solving prior art, counterpoint structure moves the problem that the cavity leads to the laminating precision low after counterpointing to the product.

The utility model is realized in such a way that the high-precision laminating alignment structure comprises an upper cavity for placing an upper workpiece, a lower cavity for placing a lower workpiece, an alignment structure and a portal frame with a processing area, wherein the upper cavity is positioned above the lower cavity; when the upper cavity and the lower cavity move to the processing area, the alignment structure horizontally moves in the processing area, and simultaneously shoots an upper workpiece on the upper cavity and a lower workpiece on the lower cavity, so that alignment of the upper workpiece and the lower workpiece is realized.

Further, counterpoint structure includes camera and lower camera, go up the camera and shoot last work piece on the last cavity, lower camera shoots down the lower work piece on the cavity.

Further, the upper camera and the lower camera are arranged in the same vertical line.

Furthermore, the upper camera and the lower camera are arranged at intervals in the vertical direction.

Furthermore, the portal frame is provided with a transverse beam which is transversely arranged, and the alignment structure is movably connected with the transverse beam and horizontally moves along the transverse beam.

Furthermore, the cross beam is provided with a guide rail arranged along the length direction of the cross beam, the alignment structure is provided with a sliding block, and the sliding block horizontally moves in the guide rail.

Further, the upper cavity is provided with a downward opening, and an upper workpiece is exposed out of the opening of the upper cavity; the lower cavity is provided with an upward opening, and the lower workpiece is exposed out of the opening of the lower cavity.

Furthermore, an upper cavity cylinder is arranged at the upper end of the upper cavity and drives the upper cavity to move downwards to the machining area; in the fitting process, the upper cavity cylinder drives the upper cavity to move towards the lower cavity.

Further, the lower cavity remains stationary during the fitting process.

Furthermore, an adjusting platform is arranged at the lower end of the lower cavity, and when an upper workpiece is aligned with the lower workpiece, the adjusting platform drives the lower cavity to move on the horizontal plane relative to the upper cavity, so that the lower workpiece is aligned with the upper workpiece accurately.

Compared with the prior art, the utility model provides a high accuracy laminating counterpoint structure, go up the cavity and placed the work piece, the work piece has been placed down to the cavity down, go up the top that the cavity is in cavity down, when last cavity and cavity down move to the machining region of portal frame, counterpoint structure horizontal migration in the machining region, shoot work piece and lower work piece simultaneously, realize going up the counterpoint of work piece and lower work piece, after the counterpoint is accomplished, put aside counterpoint structure, go up the work piece and laminate with lower work piece, the at utmost reduces counterpoint back cavity and removes the loss of precision that brings again, improve the precision of work piece laminating.

Drawings

Fig. 1 is the utility model provides a high accuracy laminating counterpoint structure's front view.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1, the preferred embodiment of the present invention is shown.

The high-precision bonding alignment structure provided by the embodiment can be applied to vacuum bonding, and certainly, can also be applied to manufacturing of other products, and is not limited to the application in the embodiment.

The high-precision laminating alignment structure comprises an upper cavity 11 for placing an upper workpiece, a lower cavity 12 for placing a lower workpiece, an alignment structure 13 and a portal frame 14 with a processing area, wherein the upper cavity 11 is positioned above the lower cavity 12; when the upper chamber 11 and the lower chamber 12 move to the processing area, the alignment structure 13 moves horizontally in the processing area, and simultaneously shoots the upper workpiece on the upper chamber 11 and the lower workpiece on the lower chamber 12, thereby realizing alignment of the upper workpiece and the lower workpiece.

Foretell high accuracy laminating counterpoint structure 13, go up cavity 11 and placed the work piece, lower cavity 12 has placed lower work piece, it is in cavity 12's top down to go up cavity 11, when last cavity 11 and lower cavity 12 move to portal frame 14's machining area, counterpoint structure 13 horizontal migration in machining area, shoot work piece and lower work piece simultaneously, realize going up the counterpoint of work piece and lower work piece, after the counterpoint is accomplished, put aside counterpoint structure 13, go up the work piece and laminate with lower work piece, the at utmost reduces to counterpoint the back cavity and removes the precision loss that brings again, improve the precision of work piece laminating.

Counterpoint structure 13 includes camera 15 and lower camera 16, goes up camera 15 and shoots the last work piece on cavity 11, and lower camera 16 shoots the lower work piece on cavity 12 down, and two cameras shoot simultaneously, are convenient for counterpoint last work piece and lower work piece.

The upper camera 15 and the lower camera 16 are arranged in the same vertical line, so that the positions of the upper camera 15 and the lower camera 16 during shooting are kept in the same vertical line, and the upper workpiece and the lower workpiece are aligned and then are in the same vertical line.

The upper camera 15 and the lower camera 16 are arranged at intervals in the vertical direction and are respectively consistent with the heights of the upper workpiece and the lower workpiece, so that the cameras can shoot the workpieces conveniently.

The portal frame 14 is provided with a cross beam 17 which is transversely arranged, the aligning structure 13 is movably connected with the cross beam 17 and horizontally moves along the cross beam 17, and the cross beam 17 supports the aligning structure 13.

Be equipped with the guide rail of arranging along the length direction of crossbeam 17 on the crossbeam 17, counterpoint structure 13 has the slider, and the slider is horizontal migration in the guide rail, and the guide rail guarantees to counterpoint structure 13 and removes the in-process and remain the level all the time, and the level is unchangeable, avoids counterpointing the production error.

The upper cavity 11 is provided with a downward opening, and the upper workpiece is exposed outside the opening of the upper cavity 11; the lower cavity 12 has an opening facing upward, and the lower workpiece is exposed outside the opening of the lower cavity 12.

The upper workpiece is exposed outside the opening of the upper cavity 11, so that the upper camera 15 can shoot the upper workpiece conveniently; the lower workpiece is exposed outside the opening of the lower cavity 12, which facilitates the lower camera 16 to photograph the lower workpiece.

An upper cavity cylinder 18 is arranged at the upper end of the upper cavity 11, and the upper cavity cylinder 18 drives the upper cavity 11 to move downwards to a processing area; during the fitting process, upper cavity cylinder 18 drives upper cavity 11 to move towards lower cavity 12.

The lower cavity 12 remains stationary during the fitting process.

The lower end of the lower cavity 12 is provided with an adjusting platform 19, and when the upper workpiece and the lower workpiece are aligned, the adjusting platform 19 drives the lower cavity 12 to move on a horizontal plane relative to the upper cavity 11, so that the lower workpiece and the upper workpiece are aligned accurately.

The adjustment stage 19 is an XXY stage, and can adjust the horizontal position of the lower workpiece with respect to the upper workpiece with high accuracy.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The high-precision laminating alignment structure is characterized by comprising an upper cavity for placing an upper workpiece, a lower cavity for placing a lower workpiece, an alignment structure and a portal frame with a processing area, wherein the upper cavity is positioned above the lower cavity; the alignment structure comprises an upper camera and a lower camera, the upper camera shoots an upper workpiece on the upper cavity, and the lower camera shoots a lower workpiece on the lower cavity.

2. The high-precision attaching alignment structure according to claim 1, wherein the upper camera and the lower camera are arranged in a same vertical line.

3. The high-precision attaching alignment structure according to claim 2, wherein the upper camera and the lower camera are spaced apart from each other in a vertical direction.

4. The high-precision attaching alignment structure of any one of claims 1 to 3, wherein the gantry has a cross beam in a transverse arrangement, and the alignment structure is movably connected with the cross beam and moves horizontally along the cross beam.

5. The high-precision attaching alignment structure according to claim 4, wherein the cross beam is provided with a guide rail arranged along the length direction of the cross beam, and the alignment structure is provided with a slide block which horizontally moves in the guide rail.

6. The high-precision fit alignment structure of any one of claims 1 to 3, wherein the upper cavity has a downward opening, and the upper workpiece is exposed outside the opening of the upper cavity; the lower cavity is provided with an upward opening, and the lower workpiece is exposed out of the opening of the lower cavity.

7. The high-precision fitting alignment structure of claim 6, wherein an upper cavity cylinder is arranged at the upper end of the upper cavity and drives the upper cavity to move downwards to the processing area; in the fitting process, the upper cavity cylinder drives the upper cavity to move towards the lower cavity.

8. The high-precision attaching alignment structure of claim 7, wherein the lower cavity remains stationary during attaching.

9. The high-precision fit alignment structure of claim 8, wherein an adjustment platform is disposed at a lower end of the lower cavity, and when an upper workpiece is aligned with a lower workpiece, the adjustment platform drives the lower cavity to move on a horizontal plane relative to the upper cavity, so that the lower workpiece and the upper workpiece are aligned accurately.

Images