CN210618729U - Automatic lens vision rubberizing machine - Google Patents

Abstract

The utility model discloses an automatic lens vision adhesive tape sticking machine, which comprises a feeding platform for conveying lenses and a sticking device for sticking the lenses and a double-sided adhesive tape, wherein a discharge port of the feeding platform is connected with a feed inlet of the sticking device, and a manipulator for transferring the lenses on the feeding platform to the sticking device is arranged at the joint; the laminating device comprises a laminating rack, a material rolling assembly, a material scraping assembly, a material pulling platform and a material cutting assembly, wherein the material rolling assembly, the material scraping assembly, the material pulling platform and the material cutting assembly are sequentially arranged on the laminating rack, and a material collecting assembly is arranged above the material scraping assembly. It has advantages such as laminating efficiency height, stability are good and the precision is high.

Description

Automatic lens vision rubberizing machine

Technical Field

The utility model belongs to the technical field of advance manufacturing and automation, concretely relates to automatic coating machine of lens vision.

Background

The existing lens attaching technology is basically the traditional manual attaching technology, the production efficiency is low, the requirements of high precision and good stability required by high-end products are difficult to meet, and the label attaching machine on the market at present cannot meet the process requirements of lens attaching. There is not a mechanism that is more suitable for the lens laminating in the market at present, because the lens gum process if the plane laminating, can the gassing, so require the laminating process must from top to bottom laminate and need roll extrusion once with the rubber roll, the effect of laminating just can satisfy the requirement, and owing to there is the existence of button above the general lens, often there is the button hole on the double faced adhesive tape, because the existence of button hole, can't peel off from type paper, and the lens laminating requires the precision high, foretell technological requirement can't be accomplished to traditional labeller.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems existing in the prior art, the utility model aims to provide an automatic adhesive tape pasting machine of lens vision efficient, stable good, that the precision is high.

The utility model discloses the technical scheme who adopts does: an automatic lens visual adhesive tape sticking machine comprises a feeding platform for conveying lenses and a sticking device for sticking the lenses and a double-sided adhesive tape, wherein a discharge port of the feeding platform is connected with a feed port of the sticking device, and a manipulator for transferring the lenses on the feeding platform to the sticking device is arranged at the connection position; the laminating device comprises a laminating rack, a material rolling assembly, a material scraping assembly, a material pulling platform and a material cutting assembly, wherein the material rolling assembly, the material scraping assembly, the material pulling platform and the material cutting assembly are sequentially arranged on the laminating rack, and a material collecting assembly is arranged above the material scraping assembly.

Optionally, the scraping assembly includes a scraping base plate, a first scraping guide rail and a scraping support base plate which are arranged on the scraping base plate, a rolling type attaching mechanism arranged on the first scraping guide rail, and a stripping roller set arranged on the scraping support base plate.

Optionally, the rolling type laminating mechanism comprises a first scraping sliding block arranged on the first scraping guide rail, a scraping pressing plate and a scraping side plate which are respectively fixed on the top surface and the side surface of the first scraping sliding block, a scraping motor which drives the scraping pressing plate to move through a scraping synchronous belt, a second scraping guide rail arranged on the scraping side plate, a second scraping sliding block arranged on the second scraping guide rail, a scraping shaft side plate fixed on the second scraping sliding block, a scraping silica gel roller arranged on the scraping shaft side plate in a rotating mode and a scraping adjusting bolt for adjusting the height of the scraping silica gel roller.

Optionally, the stripping roller set comprises a roller set mounting side plate fixed on the scraping support bottom plate and a plurality of stripping silicone rollers arranged on the roller set mounting side plate.

Optionally, the rolling type laminating mechanism further comprises a scraping support side plate fixed on the scraping bottom plate, a scraping platform support plate arranged on the scraping support side plate, scraping baffle plates positioned on two sides of the scraping platform support plate, and a first light source assembly arranged on the scraping baffle plates, wherein two ends of each scraping baffle plate are respectively fixed on the scraping support side plate and the roller set installation side plate; the first light source assembly comprises a light source supporting plate fixed on the scraping baffle, a light source connecting plate arranged on the light source supporting plate and a lamp arranged on the light source connecting plate, the light source connecting plate is slidably arranged on the light source supporting plate so as to adjust the height of the lamp, and light rays emitted by the lamp cover the range of the scraping platform supporting plate; and a jig plate extending towards the material pulling platform is arranged on the material scraping platform supporting plate.

Optionally, the pulling platform comprises: pulling the base plate; the transverse material pulling guide rail is arranged on the material pulling base plate; the first material pulling sliding block and the second material pulling sliding block are arranged on the transverse material pulling guide rail in a sliding mode; the first pulling and supporting transverse plate and the second pulling and supporting transverse plate are respectively fixed on the first pulling slide block and the second pulling slide block; the first pulling supporting side plate and the second pulling supporting side plate are respectively fixed on the first pulling supporting transverse plate and the second pulling supporting transverse plate; the first longitudinal material pulling guide rail and the second longitudinal material pulling guide rail are respectively fixed on the first material pulling supporting side plate and the second material pulling supporting side plate; the first lifting assembly and the second lifting assembly are respectively arranged on the first longitudinal material pulling guide rail and the second longitudinal material pulling guide rail in a sliding manner; the compression roller supporting plate and the material clamping supporting plate are respectively fixed on the first lifting assembly and the second lifting assembly; the pressing roller and the material clamping plate are respectively fixed on the pressing roller supporting plate and the material clamping supporting plate; and the screw rod is arranged in parallel with the transverse pulling guide rail.

Optionally, the first lifting assembly comprises a first lifting slider arranged on the first longitudinal drawing guide rail, a first adjusting support plate arranged on the first lifting slider, a first adjusting cylinder arranged on the first drawing support side plate, a first lifting adjusting plate and a first lifting adjusting bolt, the first lifting adjusting plate is simultaneously connected with the first adjusting cylinder and the first adjusting support plate, a first adjusting bracket is fixed on the first drawing support side plate, the first lifting adjusting bolt is arranged on the first adjusting bracket, and one end of the first lifting adjusting bolt is in threaded connection with the first lifting adjusting plate; the compression roller supporting plate is fixed on the first lifting adjusting plate.

Optionally, the second lifting assembly comprises a second lifting slider arranged on the second longitudinal material pulling guide rail, a second adjusting support plate arranged on the second lifting slider, a second adjusting cylinder arranged on the second material pulling support side plate, a second lifting adjusting plate and a second lifting adjusting bolt, the second lifting adjusting plate is simultaneously connected with the second adjusting cylinder and the second adjusting support plate, a second adjusting bracket is fixed on the second material pulling support side plate, the second lifting adjusting bolt is arranged on the second adjusting bracket, and one end of the second lifting adjusting bolt is in threaded connection with the second lifting adjusting plate; the material clamping supporting plate is fixed on the second lifting adjusting plate.

Optionally, the blanking assembly comprises: a blanking guide rail; the cutting slide block is slidably arranged on the cutting guide rail; the cutting bottom plate is fixed on the cutting slide block; the cutting side plate is fixed on the cutting bottom plate; the transition plate supporting strip is fixed on the blanking side plate; the material cutting transition plate is fixed on the transition plate support strip, and one end of the material cutting transition plate extends to the material pulling platform; the blade longitudinal rail is fixed on the material cutting side plate; the blade longitudinal sliding block is arranged on the blade longitudinal rail in a sliding manner; the material cutting cylinder supporting plate is fixed on the longitudinal blade sliding block; one end of the material cutting cylinder is connected with the material cutting cylinder supporting plate; the blade cross rail is fixed on the support plate of the blanking cylinder; the blade transverse sliding block is arranged on the blade transverse rail in a sliding manner; and two ends of the blade are respectively hinged on the blade transverse sliding block and the transition plate supporting strip.

Optionally, a camera shooting support is arranged above the laminating rack, and a first camera and a second camera are arranged on the camera shooting support.

Optionally, the feeding platform comprises a workbench, a transmission belt arranged on the workbench, and a stepping motor driving the transmission belt to move, and the two sides of the transmission belt are provided with discharging flanges.

The utility model has the advantages that: the utility model provides an automatic adhesive tape sticking machine for lens vision, which adopts an independently innovative rolling type laminating mechanism to greatly reduce bubbles generated by laminating of the laminated lens; the adoption draws the material platform, ensures accurate pay-off, has solved the automatic difficult problem of laminating of present market lens coil stock, has realized the automatic laminating technology of lens, improves the precision and the stability of efficiency and laminating greatly.

Drawings

Fig. 1 is a schematic structural view of an automatic lens vision adhesive applying machine.

Fig. 2 is a schematic structural view of the automatic lens vision rubberizing machine at another viewing angle.

Fig. 3 is a schematic structural view of the attaching device.

Fig. 4 is a front view of fig. 3.

Fig. 5 is a schematic structural view of the scraping assembly.

Fig. 6 is a schematic view of the scraper assembly from another perspective.

Fig. 7 is a front view of fig. 5.

Fig. 8 is a schematic structural diagram of the pulling platform.

Fig. 9 is a partial structural schematic view of fig. 8.

Fig. 10 is a partial structural schematic view of fig. 8.

Fig. 11 is a left side view of fig. 8.

Fig. 12 is a right side view of fig. 8.

Fig. 13 is a schematic structural view of the blanking assembly.

Fig. 14 is a schematic structural view of the blanking assembly from another perspective.

Fig. 15 is a front view of fig. 14.

Fig. 16 is a right side view of fig. 14.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "upper", "front", "rear", "left", "right", "bottom", "side", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present embodiments.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

Example 1:

as shown in fig. 1 and 2, an automatic lens vision adhesive tape sticking machine comprises a feeding platform 10 for conveying lenses and a sticking device for sticking the lenses 21 and a double-sided adhesive tape 22, wherein a discharge port of the feeding platform is connected with a feed port of the sticking device, and a manipulator 30 for transferring the lenses on the feeding platform to the sticking device is arranged at the connection position; as shown in fig. 3 and 4, the attaching device includes an attaching frame 40, and a material rolling assembly 50, a material scraping assembly 60, a material pulling platform 70 and a material cutting assembly 80 which are sequentially arranged on the attaching frame, and a material receiving assembly 90 is arranged above the material scraping assembly.

As shown in fig. 5-7, the scraping assembly 60 includes a scraping base plate 600, a first scraping guide 601 and a scraping support base plate 602 disposed on the scraping base plate, a rolling type attaching mechanism disposed on the first scraping guide, and a peeling roller set disposed on the scraping support base plate.

The rolling type attaching mechanism comprises a first scraping sliding block 603 arranged on the first scraping guide rail, a scraping pressing plate 604 and a scraping side plate 605 which are respectively fixed on the top surface and the side surface of the first scraping sliding block, a scraping motor 607 which drives the scraping pressing plate to move through a scraping synchronous belt 606, a second scraping guide rail 608 arranged on the scraping side plate, a second scraping sliding block arranged on the second scraping guide rail, a scraping shaft side plate 609 fixed on the second scraping sliding block, a scraping silica gel roller 610 rotatably arranged on the scraping shaft side plate and a scraping adjusting bolt 611 for adjusting the height of the scraping silica gel roller.

The stripping roller set comprises a roller set mounting side plate 612 fixed on the scraping support bottom plate and a plurality of stripping silica gel rollers arranged on the roller set mounting side plate.

The rolling type fitting mechanism further comprises a scraping supporting side plate 614 fixed on the scraping bottom plate, a scraping platform supporting plate 615 arranged on the scraping supporting side plate, scraping baffle plates 616 positioned on two sides of the scraping platform supporting plate and a first light source assembly 617 arranged on the scraping baffle plates, wherein two ends of each scraping baffle plate are respectively fixed on the scraping supporting side plate and the roller set mounting side plate; the first light source component comprises a light source supporting plate 618 fixed on the scraping baffle, a light source connecting plate 619 arranged on the light source supporting plate and a lamp 620 arranged on the light source connecting plate, the light source connecting plate is slidably arranged on the light source supporting plate so as to adjust the height of the lamp, and light rays emitted by the lamp cover the range of the scraping platform supporting plate; and a jig plate 621 extending towards the material pulling platform is arranged on the material scraping platform supporting plate.

When the double-faced adhesive tape laminating machine works, a double-faced adhesive tape 24 with a protective film on one side is wound on a material winding assembly, after a protective film 23 is peeled off by a peeling roller group, the double-faced adhesive tape 22 without the protective film is sent to a material scraping platform supporting plate, a lens 21 on a feeding platform 10 is moved to the material scraping platform supporting plate through a mechanical arm 30 and is laminated to the surface of the double-faced adhesive tape 22 without the protective film, and in the laminating process, a material scraping motor 607 drives a material scraping laminating silica gel roller 610 to move left and right to enable the laminating to be tight, and bubbles between; the stripped protective film 23 is wound on the material receiving assembly 90.

As shown in fig. 8 to 12, the pulling platform 70 includes: a pulling substrate 701; the transverse pulling guide rail 702 is arranged on the pulling substrate; the first material pulling slide block 703 and the second material pulling slide block 704 are arranged on the transverse material pulling guide rail in a sliding manner; the first pulling and supporting transverse plate 705 and the second pulling and supporting transverse plate 706 are respectively fixed on the first pulling slide block and the second pulling slide block; the first pulling supporting side plate 707 and the second pulling supporting side plate 708 are respectively fixed on the first pulling supporting transverse plate and the second pulling supporting transverse plate; the first longitudinal pulling guide rail 709 and the second longitudinal pulling guide rail 710 are respectively fixed on the first pulling supporting side plate and the second pulling supporting side plate; the first lifting component 711 and the second lifting component 712 are respectively arranged on the first longitudinal material pulling guide rail and the second longitudinal material pulling guide rail in a sliding manner; the pressing roller supporting plate 713 and the material clamping supporting plate 714 are respectively fixed on the first lifting assembly and the second lifting assembly; the pressing roller 715 and the material clamping plate 716 are respectively fixed on the pressing roller supporting plate and the material clamping supporting plate; and a fixing bolt 717 for fixing the first material pulling and supporting transverse plate, a screw rod 718 for driving the second material pulling and supporting transverse plate to move and a screw rod motor 719, wherein the screw rod is arranged in parallel with the transverse material pulling guide rail.

As shown in fig. 9 and 11, the first lifting assembly 711 includes a first lifting slider 720 disposed on the first longitudinal material pulling guide rail, a first adjusting support plate 721 disposed on the first lifting slider, a first adjusting cylinder 722 disposed on the first material pulling support side plate, a first lifting adjusting plate 723 and a first lifting adjusting bolt 724, the first lifting adjusting plate is connected to the first adjusting cylinder and the first adjusting support plate, a first adjusting bracket 725 is fixed on the first material pulling support side plate, the first lifting adjusting bolt is disposed on the first adjusting bracket, and one end of the first lifting adjusting bolt is in threaded connection with the first lifting adjusting plate; the compression roller supporting plate is fixed on the first lifting adjusting plate.

As shown in fig. 10 and 12, the second lifting assembly 712 includes a second lifting slider 726 disposed on the second longitudinal material pulling guide rail, a second adjusting support plate 727 disposed on the second lifting slider, a second adjusting cylinder 728 disposed on the second material pulling support side plate, a second lifting adjusting plate 729, and a second lifting adjusting bolt 730, the second lifting adjusting plate is connected to the second adjusting cylinder and the second adjusting support plate, a second adjusting bracket 731 is fixed on the second material pulling support side plate, the second lifting adjusting bolt is disposed on the second adjusting bracket, and one end of the second lifting adjusting bolt is in threaded connection with the second lifting adjusting plate; the material clamping supporting plate is fixed on the second lifting adjusting plate.

In operation, the heights of the press roller 715 and the material clamping plate 716 can be adjusted by the first lifting assembly 711 and the second lifting assembly 712 respectively; specifically, the height of the first elevation adjusting plate 723 is adjusted by the first adjusting cylinder 722, and the pressing roller 715 is fixed on the first elevation adjusting plate 723, i.e., the height can be adjusted together; the height of the second elevation adjustment plate 729 is adjusted by the second adjustment cylinder 728, and the retainer plate 716 is fixed to the second elevation adjustment plate 729, so that the height can be adjusted together.

The first pulling material supporting horizontal plate 705 and the second pulling material supporting horizontal plate 706 can slide on the transverse pulling material guide rail 702; the first pulling material supporting horizontal plate 705 slides to drive the pressing roller 715 to move left and right, and the second pulling material supporting horizontal plate 706 slides to drive the material clamping plate 716 to move left and right. The material clamping plate 716 is provided with a downward protrusion 732, after the height is adjusted, the protrusion 732 is clamped between the two lenses 21, specifically, the second material pulling supporting transverse plate 706 is driven by the rotation of the screw rod 718 to move, and the screw rod motor 719 can accurately control the number of rotation turns of the screw rod 718, so as to accurately control the moving distance of the second material pulling supporting transverse plate 706.

As shown in fig. 13 to 16, the blanking assembly 80 includes: a blanking guide 801; a material cutting slide block 802 slidably disposed on the material cutting guide rail; the blanking bottom plate 803 is fixed on the blanking sliding block; the cutting side plate 804 is fixed on the cutting bottom plate; a transition plate support bar 805 fixed on the blanking side plate; the material cutting transition plate 806 is fixed on the transition plate support bar, and one end of the material cutting transition plate extends towards the material pulling platform; a blade longitudinal rail 807 fixed on the blanking side plate; a blade longitudinal slide block 808 slidably disposed on the blade longitudinal rail; the material cutting cylinder supporting plate 809 is fixed on the blade longitudinal sliding block; a material cutting cylinder 810, one end of which is connected with the material cutting cylinder supporting plate; the blade cross rail 811 is fixed on the support plate of the blanking cylinder; a blade cross slide 812 slidably disposed on the blade cross rail; the two ends of the blade 813 are respectively hinged on the blade transverse sliding block and the transition plate supporting strip; and the material receiving hopper 814 is fixed on the transition plate supporting bar.

During operation, blank cylinder 810 promotes blank cylinder backup pad 809 and reciprocates, can drive the motion of the one end round its other end circular arc of blade 813, accomplishes the blank.

A camera bracket is arranged above the laminating machine frame, and a first camera 25 and a second camera 26 are arranged on the camera bracket.

The feeding platform 10 comprises a workbench, a transmission belt 11 arranged on the workbench and a stepping motor driving the transmission belt to move, and two sides of the transmission belt are provided with discharging flanges 12.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic coating machine of lens vision which characterized in that: the laminating machine comprises a feeding platform for conveying lenses and a laminating device for laminating the lenses and a double-faced adhesive tape, wherein a discharge port of the feeding platform is connected with a feed port of the laminating device, and a manipulator for transferring the lenses on the feeding platform to the laminating device is arranged at the connection position; the laminating device comprises a laminating rack, a material rolling assembly, a material scraping assembly, a material pulling platform and a material cutting assembly, wherein the material rolling assembly, the material scraping assembly, the material pulling platform and the material cutting assembly are sequentially arranged on the laminating rack, and a material collecting assembly is arranged above the material scraping assembly.

2. The lens vision automatic adhesive tape sticking machine according to claim 1, characterized in that: scrape the material subassembly including scraping the material bottom plate, locate and scrape the first material guide rail and scrape the material supporting baseplate on the material bottom plate, locate the first rolling formula laminating mechanism of scraping on the material guide rail and locate and scrape the stripping roller group on the material supporting baseplate.

3. The lens vision automatic adhesive tape sticking machine according to claim 2, characterized in that: the rolling type laminating mechanism comprises a first scraping sliding block arranged on the first scraping guide rail, a scraping pressing plate and a scraping side plate which are respectively fixed on the top surface and the side surface of the first scraping sliding block, a scraping motor which drives the scraping pressing plate to move through a scraping synchronous belt, a second scraping guide rail arranged on the scraping side plate, a second scraping sliding block arranged on the second scraping guide rail, a scraping shaft side plate fixed on the second scraping sliding block, a scraping silica gel roller arranged on the scraping shaft side plate in a rotating mode and a scraping adjusting bolt for adjusting the height of the scraping silica gel roller.

4. The lens vision automatic adhesive tape sticking machine according to claim 2, characterized in that: the stripping roller group comprises a roller group installation side plate fixed on the scraping support bottom plate and a plurality of stripping silica gel rollers arranged on the roller group installation side plate.

5. The lens vision automatic adhesive tape sticking machine according to claim 4, characterized in that: the rolling type laminating mechanism further comprises a scraping supporting side plate fixed on the scraping bottom plate, a scraping platform supporting plate arranged on the scraping supporting side plate, scraping baffle plates positioned on two sides of the scraping platform supporting plate and a first light source assembly arranged on the scraping baffle plates, wherein two ends of each scraping baffle plate are respectively fixed on the scraping supporting side plate and the roller set mounting side plate; the first light source assembly comprises a light source supporting plate fixed on the scraping baffle, a light source connecting plate arranged on the light source supporting plate and a lamp arranged on the light source connecting plate, the light source connecting plate is slidably arranged on the light source supporting plate so as to adjust the height of the lamp, and light rays emitted by the lamp cover the range of the scraping platform supporting plate; and a jig plate extending towards the material pulling platform is arranged on the material scraping platform supporting plate.

6. The lens vision automatic taping machine of claim 1, wherein the pulling platform comprises: pulling the base plate; the transverse material pulling guide rail is arranged on the material pulling base plate; the first material pulling sliding block and the second material pulling sliding block are arranged on the transverse material pulling guide rail in a sliding mode; the first pulling and supporting transverse plate and the second pulling and supporting transverse plate are respectively fixed on the first pulling slide block and the second pulling slide block; the first pulling supporting side plate and the second pulling supporting side plate are respectively fixed on the first pulling supporting transverse plate and the second pulling supporting transverse plate; the first longitudinal material pulling guide rail and the second longitudinal material pulling guide rail are respectively fixed on the first material pulling supporting side plate and the second material pulling supporting side plate; the first lifting assembly and the second lifting assembly are respectively arranged on the first longitudinal material pulling guide rail and the second longitudinal material pulling guide rail in a sliding manner; the compression roller supporting plate and the material clamping supporting plate are respectively fixed on the first lifting assembly and the second lifting assembly; the pressing roller and the material clamping plate are respectively fixed on the pressing roller supporting plate and the material clamping supporting plate; and the screw rod is arranged in parallel with the transverse pulling guide rail.

7. The lens vision automatic adhesive tape sticking machine according to claim 6, characterized in that: the first lifting assembly comprises a first lifting slide block arranged on the first longitudinal drawing guide rail, a first adjusting support plate arranged on the first lifting slide block, a first adjusting cylinder arranged on the first drawing support side plate, a first lifting adjusting plate and a first lifting adjusting bolt, wherein the first lifting adjusting plate is simultaneously connected with the first adjusting cylinder and the first adjusting support plate, a first adjusting bracket is fixed on the first drawing support side plate, the first lifting adjusting bolt is arranged on the first adjusting bracket, and one end of the first lifting adjusting bolt is in threaded connection with the first lifting adjusting plate; the compression roller supporting plate is fixed on the first lifting adjusting plate.

8. The lens vision automatic adhesive tape sticking machine according to claim 6, characterized in that: the second lifting assembly comprises a second lifting slide block arranged on the second longitudinal material pulling guide rail, a second adjusting support plate arranged on the second lifting slide block, a second adjusting cylinder arranged on the second material pulling support side plate, a second lifting adjusting plate and a second lifting adjusting bolt, the second lifting adjusting plate is simultaneously connected with the second adjusting cylinder and the second adjusting support plate, a second adjusting support is fixed on the second material pulling support side plate, the second lifting adjusting bolt is arranged on the second adjusting support, and one end of the second lifting adjusting bolt is in threaded connection with the second lifting adjusting plate; the material clamping supporting plate is fixed on the second lifting adjusting plate.

9. The lens vision automatic taping machine of claim 1, wherein the blanking assembly comprises: a blanking guide rail; the cutting slide block is slidably arranged on the cutting guide rail; the cutting bottom plate is fixed on the cutting slide block; the cutting side plate is fixed on the cutting bottom plate; the transition plate supporting strip is fixed on the blanking side plate; the material cutting transition plate is fixed on the transition plate support strip, and one end of the material cutting transition plate extends to the material pulling platform; the blade longitudinal rail is fixed on the material cutting side plate; the blade longitudinal sliding block is arranged on the blade longitudinal rail in a sliding manner; the material cutting cylinder supporting plate is fixed on the longitudinal blade sliding block; one end of the material cutting cylinder is connected with the material cutting cylinder supporting plate; the blade cross rail is fixed on the support plate of the blanking cylinder; the blade transverse sliding block is arranged on the blade transverse rail in a sliding manner; and two ends of the blade are respectively hinged on the blade transverse sliding block and the transition plate supporting strip.

10. The lens vision automatic adhesive tape sticking machine according to claim 1, characterized in that: the laminating frame's top is equipped with the support of making a video recording, be equipped with first camera and second camera on the support of making a video recording.

Images