阅读说明：本技术 一种涂胶覆膜装置 (Rubber coating tectorial membrane device ) 是由 叶茂权 于 2020-07-03 设计创作，主要内容包括：本发明公开了一种涂胶覆膜装置,包括用于承载产品A并且沿X向延伸的工作台,还包括：沿X向往复行走,并在放卷过程中将产品B贴覆于产品A上表面的放卷覆膜组件；设置于所述放卷覆膜组件上,并对产品A上表面进行涂胶的涂胶组件；沿X向往复行走,并在收卷过程中对产品B上表面的保护膜进行收卷的收卷组件,本申请具有生产效率高、结构紧凑、操作灵活、涂胶品质稳定的特点。(The invention discloses a gluing and laminating device, which comprises a workbench, a first guide rail, a second guide rail, a third guide rail, a fourth guide rail: the unwinding film coating assembly walks along the X direction repeatedly and coats the product B on the upper surface of the product A in the unwinding process; the gluing assembly is arranged on the unreeling film covering assembly and is used for gluing the upper surface of the product A; the rolling component walks along the X direction and rolls the protective film on the upper surface of the product B in the rolling process.)

1. A gluing and laminating device comprises a workbench which is used for bearing a product A and extends along the X direction, and is characterized by further comprising: the unwinding film coating assembly walks along the X direction repeatedly and coats the product B on the upper surface of the product A in the unwinding process; the gluing assembly is arranged on the unreeling film covering assembly and is used for gluing the upper surface of the product A; and the winding component repeatedly walks along the X direction and winds the protective film on the upper surface of the product B in the winding process.

2. The gluing and laminating device according to claim 1, wherein the unwinding laminating assembly comprises a first substrate which is mounted on a first Z-direction transplanting mechanism and is driven by the first Z-direction transplanting mechanism to move towards or away from the upper surface of the workbench along the Z direction, a vertical mounting plate extending along the Y direction is detachably and fixedly mounted on the first substrate, and the gluing assembly comprises a gluing device which is mounted on the vertical mounting plate and used for gluing and a glue supply device which is mounted on the vertical mounting plate and used for supplying glue to the gluing device.

3. The gluing and film-coating device as claimed in claim 2, wherein the unreeling and film-coating assembly further comprises a film-coating press roller mounted on the vertical mounting plate, and an unreeling roller and a plurality of tension wheels mounted on the first substrate, the film-coating press roller is mounted on a first lifting mechanism and driven by the first lifting mechanism to coat a film during unreeling, the product B is sleeved on the unreeling roller, and a traction end of the product B is sequentially wound around the plurality of tension wheels and is adhered to the product a after being tightly pressed by the film-coating press roller.

4. A glue spreading and film covering device as claimed in claim 3, wherein a first pressing assembly is further arranged on the first base plate and on the upper side of the tension wheel close to the lowermost end, the first pressing assembly comprises a pressing roller mounted on the first base plate and a movable pressing roller which is positioned on one side of the pressing roller, can rotate around a first rotating shaft and abuts against the surface of the pressing roller to arrange wrinkles of a product B, and the upper side and the lower side of the movable pressing roller are respectively abutted through limit screws to limit the rotation of the movable pressing roller.

5. The gluing and laminating device according to claim 1, wherein the winding assembly includes a second substrate mounted on a second Z-direction transplanting mechanism and driven by the second Z-direction transplanting mechanism to move toward or away from the upper surface of the worktable in the Z direction, the second substrate is provided with a winding driving roller and a winding roller for sequentially passing the protective film on the upper surface of the product B, the second substrate is further provided with a plurality of tension wheels, one of the tension wheels is located between the laminating pressing roller and the winding driving roller as a first transition wheel, at least two tension wheels are further provided between the winding driving roller and the winding roller, the winding roller is driven by a winding motor to rotate to wind the protective film, the winding driving roller is driven by a winding driving motor to rotate, one side of the winding driving roller is further provided with an auxiliary pressing roller arranged in parallel therewith, the auxiliary pressure roller can rotate around a second rotating shaft and is abutted with the surface of the rolling driving roller so as to be matched with the rolling driving roller to convey the protective film, and the upper side and the lower side of the auxiliary pressure roller are abutted through limit screws respectively so as to limit the rotation of the auxiliary pressure roller.

6. The gluing and laminating device according to claim 5, wherein a pressing block mounted on the second substrate is further arranged between the laminating pressing roller and the first transition wheel, the pressing block can press or release the protective film along the Z direction through a pressing air cylinder, and a buffer assembly is further arranged between the pressing block and the first transition wheel and comprises a buffer shaft which is wound by a traction end of the protective film and can slide along the X direction.

7. The gluing and laminating device according to claim 1, further comprising a frame, wherein the frame is provided with a mounting table, the workbench is mounted on the mounting table, an electric cabinet is arranged on the lower side of the mounting table, a Y-direction transplanting mechanism is further arranged on the mounting table, the unreeling laminating assembly and the reeling assembly are mounted on the Y-direction transplanting mechanism, and a heating assembly for heating the workbench to cure glue coated on the product A is further arranged on the lower side of the workbench.

8. A glue and film coating device as claimed in claim 7, wherein a flat covering component is mounted on the mounting table and straddles over the table substantially along the width direction of the table, the flat covering component comprises a flat covering roller straddling over the table and capable of walking back and forth along the X direction to cover and level a product A on the table, a driving component for driving the flat covering roller to move along the Z direction is mounted at one end of the flat covering roller, the driving component comprises a rotating shaft, a cam is detachably and fixedly mounted at one end of the rotating shaft close to the flat covering roller, and a roller in transmission connection with the cam is mounted at one end of the flat covering roller close to the driving component.

9. The adhesive coating device of claim 1, further comprising a pressing member spanning the table substantially in a width direction of the table, the pressing member including a pressing plate spanning the table for pressing and fixing an end of the product a placed on the table, the pressing member being movable in the Z-direction toward and away from the table surface to press or release the end of the product a.

10. The gluing and laminating device according to claim 7, wherein a control device is installed in the electric control box, the control device controls the unreeling laminating assembly, the gluing assembly and the reeling assembly to work, and a touch screen and an alarm indicator lamp are further arranged above the rack.

Technical Field

The invention relates to the technical field of gluing devices, in particular to a gluing and film laminating device

Background

Solar cell panel is through absorbing the sunlight, with the device that solar radiation energy directly or indirectly converts the electric energy into through photoelectric effect or photochemical reaction, most solar cell adopts glass backplate and apron, and is not easily crooked, inconvenient carrying. Therefore, flexible thin-film solar cells are produced at the same time, and need to be glued, pasted with packaging films and remove protective films on the surfaces of the packaging films in the manufacturing process.

Disclosure of Invention

The invention aims to provide a gluing and laminating device which has the characteristics of high production efficiency, compact structure, flexible operation and stable gluing quality.

In order to solve the above technical problem, the present invention provides a glue spreading and film covering apparatus, including a worktable for carrying a product a and extending along an X direction, further including: the unwinding film coating assembly walks along the X direction repeatedly and coats the product B on the upper surface of the product A in the unwinding process; the gluing assembly is arranged on the unreeling film covering assembly and is used for gluing the upper surface of the product A; and the winding component repeatedly walks along the X direction and winds the protective film on the upper surface of the product B in the winding process.

Further, unreel tectorial membrane subassembly including install in a Z to transplanting on the mechanism and quilt first Z is to transplanting the mechanism and drive along the Z to being close to or keeping away from the first base plate of workstation upper surface, detachable fixed mounting is followed Y to the vertical mounting panel that extends on the first base plate, the rubber coating subassembly including install on vertical mounting panel and be used for the rubber coated rubber coating device and install in be used for on the vertical mounting panel for the gluey confession mucilage binding device of rubber coating device confession is glued.

Further, unreel tectorial membrane subassembly still including install in tectorial membrane compression roller on the vertical mounting panel and install in unreeling roller and a plurality of tight pulley that rises on the first base plate, the tectorial membrane compression roller is installed on a first elevating system, and quilt first elevating system drives and unreels the in-process and carry out the tectorial membrane, product B cover is located on unreeling the roller, product B's traction end is in proper order around establishing a plurality of tight pulleys that rise and being sticis the back and bonding with product A by the tectorial membrane compression roller.

Furthermore, a first pressing assembly is arranged on the first substrate and close to the upper side of the tension wheel at the lowest end, the first pressing assembly comprises a pressing roller arranged on the first substrate and a movable pressing roller which is positioned on one side of the pressing roller, can rotate around a first rotating shaft and is abutted to the surface of the pressing roller to arrange the folds of the product A, and the upper side and the lower side of the movable pressing roller are abutted to limit the rotation of the movable pressing roller through limit screws respectively.

Further, the rolling assembly comprises a second substrate which is arranged on a second Z-direction transplanting mechanism and is driven by the second Z-direction transplanting mechanism to be close to or far away from the upper surface of the workbench along the Z direction, the second substrate is provided with a rolling driving roller and a rolling roller for a protective film on the upper surface of a product B to sequentially penetrate, the second substrate is further provided with a plurality of tension wheels, one tension wheel is positioned between the film covering pressing roller and the rolling driving roller as a first transition wheel, at least two tension wheels are further arranged between the rolling driving roller and the rolling roller, the rolling roller is driven to rotate by a rolling motor to roll the protective film, the rolling driving roller is driven to rotate by a rolling driving motor, one side of the rolling driving roller is further provided with an auxiliary pressing roller which is arranged in parallel with the rolling driving roller, the auxiliary pressing roller can rotate around a second rotating shaft and is abutted against the surface of the rolling driving roller to be matched with the rolling driving roller to convey the protective film, the upper side and the lower side of the auxiliary pressing roller are respectively abutted by a limiting screw to limit the rotation of the auxiliary pressing roller.

Furthermore, a pressing block arranged on the second substrate is further arranged between the film laminating pressing roller and the first transition wheel, the pressing block can press or release the protective film along the Z direction through a pressing cylinder, a buffering assembly is further arranged between the pressing block and the first transition wheel, and the buffering assembly comprises a buffering shaft which is used for the traction end of the protective film to bypass and can slide along the X direction.

Further, still include the frame, the frame has a mount table, the workstation install in on the mount table, the downside of mount table has the electric cabinet, still be equipped with Y on the mount table to transplanting the mechanism, unreel tectorial membrane subassembly and rolling component all install in Y is to transplanting on the mechanism, the downside of workstation still is equipped with right the workstation heats the heating element with the glue of solidification product A coating.

Further, install on the mount table and roughly follow workstation width direction is gone up to stride and is located the flat subassembly that covers of workstation top, cover flat subassembly including striding and locate cover the plain roller on the workstation, it can follow X to the reciprocal product A of walking on the workstation and cover the level, cover wherein one end of plain roller and install the drive cover the plain roller along the drive assembly of Z to the removal, drive assembly includes a rotation axis, the rotation axis is close to the detachable fixed mounting cam of the one end that covers the plain roller, cover the one end that the plain roller is close to drive assembly and install the gyro wheel of being connected with cam drive.

Further, the gluing and laminating device further comprises a pressing assembly which is arranged above the workbench in a striding mode approximately along the width direction of the workbench, the pressing assembly comprises a pressing plate which is arranged on the workbench in a striding mode, the pressing plate is used for pressing and fixing one end of a product A on the workbench, and the pressing plate can be close to or far away from the surface of the workbench along the Z direction so as to press or release the end of the product A.

Further, a control device is installed in the electric control box and controls the unreeling film covering assembly and the unreeling film covering assembly to control the gluing assembly and the reeling assembly to work, and a touch screen and an alarm indicator lamp are further arranged above the rack.

The invention has the beneficial effects that:

1. the application of rubber coating tectorial membrane device sets up to portable through unreeling tectorial membrane subassembly and rolling subassembly, treats the motionless mode of tectorial membrane product, promptly: the film coating mode of the product A moving to force the product B on the unwinding roller to move is modified as follows: product B's initiative is removed and is made product B paste cover on product A, because product A and product B all easily tear to draw and warp, this kind of mode of this application can effectively avoid tearing to draw and warp, guarantee the quality of tectorial membrane, and this application flexible operation is convenient, through setting up the rubber coating subassembly is integrated on unreeling the tectorial membrane subassembly, not only make whole equipment compact structure, and the rubber coating that can be automatic nimble, reduce the cost of equipment and reduce the area of equipment effectively, make the rubber coated quality can ensure.

2. The application of rubber coating tectorial membrane device, the setting of first pressure tight subassembly can make the roughness of further ensureing the product B that conveys before the tectorial membrane.

3. This application rolling assembly's setting drives the wind-up roll through rolling motor and carries out the rolling, drives the rolling drive roller through rolling driving motor and carries out the ration, divides the worker cooperation, and the wind-up roll diameter of avoiding on the wind-up roll more and more causing is increasingly big, and in the uniform velocity pivoted of rolling motor, angular velocity is certain, and the linear velocity is increasingly big and is leaded to the lower extreme to receive the damage that membrane speed uncontrollable caused the product.

4. The rolling drive roller uses with the cooperation of auxiliary compression roller, and simple structure nevertheless adapts to extensively, realizes the adjustable of multi-angle, avoids machined part error to make the roughness of membrane unable assurance in the design, uses in a flexible way.

5. The setting of compact heap can effectively ensure that the protection film can not damage the deformation when beginning the rolling.

6. The setting of covering flat subassembly can effectively level and smooth product A, because the product is yielding, realizes covering the more stable and dynamics controllable of down action that the plain-barreled roll compressed tightly the product through cam mechanism.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a front view of the unwinding film assembly and the winding assembly of the present application;

FIG. 3 is another perspective view schematic of FIG. 2 of the present application;

FIG. 4 is a schematic view of the housing of the present application with the cover removed;

FIG. 5 is another perspective view schematic of FIG. 4 of the present application;

FIG. 6 is another perspective view schematic of FIG. 4 of the present application;

FIG. 7 is an enlarged schematic view of section B of FIG. 6 of the present application;

FIG. 8 is a partial schematic view of the present application;

fig. 9 is an enlarged schematic view of a portion a of fig. 8 of the present application.

Wherein:

1. a work table; 2. unwinding a film covering assembly; 201. a first substrate; 202. a vertical mounting plate; 203. laminating press rollers; 204. unwinding rollers; 205. a first tension wheel; 206. a second tension wheel; 207. a third tension wheel; 208. a first lifting mechanism;

3. a first Z-direction transplanting mechanism;

4. a gluing component; 401. a gluing device; 402. a glue supply device;

5. a winding component; 501. a second Z-direction transplanting mechanism; 502. a second substrate; 503. a winding driving roller; 504. a wind-up roll; 505. a fourth tension wheel; 506. a fifth tension wheel; 507. a sixth tension wheel; 508. a winding motor; 509. a winding driving motor; 510. an auxiliary press roll; 511. a second rotating shaft; 512. a limit screw;

6. a first hold-down assembly; 601. a pressure roller; 602. a movable press roller;

7. a compression block; 701. a pressing cylinder;

8. a buffer assembly; 801. a buffer shaft; 802. a fixed shaft; 803. an optical axis; 804. a spring; 805. a second step;

9. a frame; 901. an installation table; 902. an electric cabinet; 903. a Y-direction transplanting mechanism;

10. a flattening assembly; 1001. covering a flat roller; 1002. a rotating shaft; 1003. a cam; 1004. a roller; 1005. a mounting seat; 1006. a hand wheel;

11. a compression assembly; 1101. pressing a plate;

12. a touch screen; 13. alarm indicator light, 14, X-direction transplanting mechanism; 16. a first motor; 17. a second motor; 18. a third motor; 19. a fourth motor; 20. product B; 21. a protective film; 23. a connecting member.

Detailed Description

The present invention is further described below in conjunction with the following figures and specific examples so that those skilled in the art may better understand the present invention and practice it, but the examples are not intended to limit the present invention.

Referring to fig. 1 to 9, a glue coating apparatus according to a preferred embodiment of the present disclosure is a glue coating apparatus for coating a protective film (hereinafter referred to as product B20 for convenience of description) on a surface of a gallium arsenide solar cell substrate (hereinafter referred to as product a), and timely removing and winding a protective film 21 on an upper surface of the protective film, wherein the frame 9 has a mounting platform 901, an electric cabinet 902 is disposed on a lower side of the mounting platform 901, a touch screen 12 is disposed on an upper side of the mounting platform 901, the frame 9 on the upper side of the mounting platform 901 has a housing for protecting equipment on the mounting platform 901, a worktable 1 for carrying the product a and extending in an X direction is disposed on the mounting platform 901, and the apparatus further includes: the unwinding film covering assembly 2 is arranged on the X-direction transplanting mechanism 14 and travels along the X direction repeatedly, and is used for covering the product B on the upper surface of the product A in the unwinding process; the gluing component 4 is arranged on the unreeling film covering component 2 and is used for gluing the upper surface of the product A; and the winding component 5 is arranged on the X-direction transplanting mechanism 14 and walks back and forth along the X direction, and winds the protective film on the upper surface of the product B in the winding process.

In this embodiment, the preferable X-direction transplanting mechanism 14 includes an X-direction guide rail extending along the X direction, the X-direction guide rail has a mounting groove, the unwinding film covering assembly 2 is connected with the X-direction guide rail through a first L-shaped mounting plate, the winding assembly 5 is connected with the X-direction guide rail through a second L-shaped mounting plate, a vertical plate of the first L-shaped mounting plate is detachably connected with the unwinding film covering assembly 2, a horizontal plate of the first L-shaped mounting plate is connected with the X-direction guide rail, a first motor 16 is disposed on the horizontal plate of the first L-shaped mounting plate, an output shaft of the first motor 16 extends into the mounting groove and is connected with a gear, a rack meshed with the gear is disposed on one of groove walls of the grooves, a vertical plate of the second L-shaped mounting plate is detachably connected with the winding assembly 5, the horizontal plate of the second L-shaped mounting plate is connected with the X-direction guide rail, a second motor 17 is disposed, the output shaft of the second motor 17 extends into the mounting groove and is provided with a gear which is in meshing transmission with the rack in the mounting groove.

The unreeling film covering assembly 2 comprises a first substrate 201 which is arranged on a first Z-direction transplanting mechanism 3 and driven by the first Z-direction transplanting mechanism 3 to be close to or far away from the upper surface of the workbench 1 along the Z direction, the first Z-direction transplanting mechanism 3 comprises a first Z-direction guide rail which extends along the Z direction and is arranged in a hollow manner, the first Z-direction guide rail is connected with a vertical plate of the first L-shaped mounting plate, a third motor 18 is arranged at the top of the first substrate 201, a ball screw nut pair is arranged in the hollow first Z-direction guide rail, the third motor 18 is connected with a screw rod of the ball screw nut pair to drive the third motor to rotate, a slide block is arranged on the screw rod, the first substrate 201 is connected with the slide block through a connecting plate and driven by the slide block to move along the Z direction, and a vertical mounting plate 202 which extends along the Y direction is detachably and fixedly arranged on the first substrate 201, the gluing assembly 4 comprises a gluing device 401 mounted on the vertical mounting plate 202 and used for gluing, and a glue supply device 402 mounted on the vertical mounting plate 202 and used for supplying glue to the gluing device 401, and a positioning block for positioning the gluing device is further arranged on the workbench 1.

Specifically, the first substrate 201 further includes an extending plate extending upward, the unwinding film assembly 2 further includes a film pressing roller 203 mounted on the vertical mounting plate 202, an unwinding roller 204 mounted on the extending plate of the first substrate 201, and a plurality of tension wheels mounted on the first substrate 201, preferably, the number of the tension wheels on the first substrate 201 includes three tension wheels, from top to bottom, a first tension wheel 205, a second tension wheel 206, and a third tension wheel 207, axial lines of the three are parallel to the Y axis, axial centers of the three are arranged in a triangular manner, a first pressing assembly 6 is further disposed between the second tension wheel 206 and the third tension wheel 207, the first pressing assembly 6 includes a pressing roller 601 mounted on the first substrate 201, and a movable pressing roller 602 located on one side of the pressing roller 601, capable of rotating around a first rotating shaft, and abutting against a surface of the pressing roller 601 to arrange wrinkles of the product B, the upper side and the lower side of the movable pressing roller 602 are respectively abutted by the limit screws 512 to limit the rotation of the movable pressing roller 602, and the specific setting mode is as follows: the one end of first pivot is connected on first base plate 201 through rotating, and activity compression roller 602 is installed on vertical mounting panel 202, and the both ends of first pivot and activity compression roller 602 are connected through a set of connecting piece, and a pot head of connecting piece is established in first pivot, and the other pot head of connecting piece is established on activity compression roller 602, sets up a stopper respectively at upside and the downside of the connecting piece that is close to first base plate 201 department, have the screw hole that is used for connecting stop screw 512 on the stopper, the axis of screw hole roughly with Z axle parallel arrangement, stop screw 512 passes the screw hole and offsets in order to restrict its rotation with the upper and lower surface of its terminal and connecting piece.

The laminating compression roller 203 is installed on a first lifting mechanism 208, and is driven by the first lifting mechanism 208 to carry out laminating in the unreeling process, the product B is sleeved on the unreeling roller 204, and the laminating compression roller is specific: after coming out of the unwinding roller 204, the traction end of the product B is wrapped on the second tension wheel 206 from bottom to top and then wrapped on the first tension wheel 205 from top to bottom, passes through the space between the pressing roller 601 and the movable pressing roller 602 from top to bottom after coming out of the first tension wheel 205, and finally passes through the third tension wheel 207, is tightly pressed by the film covering pressing roller 203 and is bonded with the product a.

The winding assembly 5 comprises a second substrate 502 which is arranged on a second Z-direction transplanting mechanism 501 and is driven by the second Z-direction transplanting mechanism 501 to be close to or far away from the upper surface of the workbench 1 along the Z direction, the second Z-direction transplanting mechanism 501 comprises a second Z-direction guide rail which extends along the Z direction and is arranged in a hollow manner, the second Z-direction guide rail is connected with a vertical plate of the second L-shaped mounting plate, a fourth motor 19 is arranged at the top of the second substrate 502, a ball screw nut pair is arranged in the hollow second Z-direction guide rail, the fourth motor 19 is connected with a screw rod of the ball screw nut pair to drive the screw rod to rotate, a sliding block is arranged on the screw rod, the second substrate 502 is connected with the sliding block through a connecting plate and is driven by the sliding block to move along the Z direction, and a winding driving roller 503 which is sequentially penetrated by a protective film 503 on the upper surface of a product B is arranged on the second substrate 502, A winding roller 504, wherein a plurality of tension wheels, preferably three tension wheels, are further disposed on the second substrate 502, a fourth tension wheel 505, a fifth tension wheel 506, and a sixth tension wheel 507 are sequentially disposed from top to bottom, axial leads of the three tension wheels are parallel to the Y axis, and axial centers of the three tension wheels are substantially arranged in a triangular manner, wherein the sixth tension wheel 507 is disposed between the film covering pressing roller 203 and the winding driving roller as a first transition wheel, the winding roller is driven by a winding motor 508 to wind the protective film, the winding driving roller is driven by a winding driving motor 509 to rotate, specifically, the winding driving motor 509 is disposed on the second substrate 502, an output shaft of the winding driving motor is connected with a first belt pulley, a second belt pulley is disposed at an end of the winding driving roller, the first belt pulley and the second belt pulley are connected by a belt, an auxiliary pressing roller 510 disposed parallel to the winding driving roller is further disposed on one side of the winding driving, the auxiliary pressure roller 510 can rotate around a second rotating shaft 511 and abut against the surface of the winding driving roller to be matched with the winding driving roller to convey the protective film, the upper side and the lower side of the auxiliary pressure roller 510 abut against through a limit screw 512 respectively to limit the rotation of the auxiliary pressure roller 510, and the arrangement of the limit screw 512 is the same as that of the first pressing assembly 6.

The laminating compression roller 203 with still be equipped with between the first ferryboat of crossing install in compact heap 7 on the second base plate 502, compact heap 7 can compress tightly or release the protection film along the Z direction through a pressure cylinder 701, compact heap 7 with still be equipped with between the first ferryboat of crossing buffering subassembly 8, buffering subassembly 8 is including installing the fixed axle 802 on the second base member, wears to be equipped with optical axis 803 on the fixed axle, and the optical axis passes fixed axle, buffering axle 801 in proper order and is provided with the first step that prevents that the optical axis from breaking away from the fixed axle at its end, the optical axis deviates from the one end of first step and is provided with the second step, the second step with the cover is equipped with a spring between the fixed axle, and the one end of spring acts on the second step 805, and the other end of spring 804 acts on the fixed axle, the buffering axle supplies the protection film to pull the end to walk.

In order to reduce the curing time after the glue application, it is preferable that a heating unit for heating the work table 1 to cure the glue applied to the product a is further provided at the lower side of the work table 1. Still be equipped with Y on the mount table to transplanting the mechanism, unreel tectorial membrane subassembly and rolling component all install in Y is to transplanting on the mechanism, X all installs on Y is to transplanting mechanism 15 to the both ends of guide rail.

The mounting table 901 is provided with a flat covering assembly 10 approximately arranged above the workbench 1 along the width direction of the workbench 1 in a crossing manner, the flat covering assembly 10 comprises a fixed seat and a flat covering roller 1001 arranged on the workbench 1 in a crossing manner, two ends of the flat covering roller 1001 are respectively provided with a vertical mounting plate, the vertical mounting plates are connected with the corresponding fixed seats in a sliding manner, one end of each vertical mounting plate is provided with a rotating shaft 1002, one end of each rotating shaft 1002 is connected with a hand wheel 1006, the other end of each rotating shaft 1002 is connected with a cam 1003, and the vertical mounting plate of the corresponding end is provided with a roller 1004 which is in fit transmission with the cam 1003. An X-direction slide rail is arranged on the mounting table 901, a slider adapted to the X-direction slide rail is arranged on the mounting base 1005, and a locking screw for locking the mounting base 1005 to the X-direction slide rail is arranged on the mounting base 1005.

The gluing and laminating device further comprises a pressing assembly 11 which is arranged above the workbench 1 in a spanning mode approximately along the width direction of the workbench 1, wherein the pressing assembly 11 comprises a pressing plate 1101 arranged on the workbench 1 in a spanning mode, the pressing plate 1101 is used for pressing and fixing one end of a product A placed on the workbench 1, and the pressing plate 1101 can be close to or far away from the surface of the workbench 1 in the Z direction to press or release the end of the product A.

Install controlling means in the electric cabinet 902, controlling means control unreel tectorial membrane subassembly 2, control rubber coating subassembly 4 and control rolling subassembly 5 work, the top of frame 9 still is equipped with touch-sensitive screen 12 and alarm indicator 13.

A positioning block for positioning the product A is also arranged on the workbench 1.

The working process is as follows:

product A places on workstation 1, the clamp plate 1101 that compresses tightly subassembly 11 pushes down fixed product A's one end, then cover flat roller 1001 that covers of flat subassembly 10 and begin to deviate from the direction of clamp plate 1101 and cover flat processing to product A, cover flat processing back, rubber coating subassembly 4 begins to carry out rubber coating to product A and handles, unreel tectorial membrane subassembly 2 after the rubber coating, rolling subassembly 5 all removes the right-hand member to workstation 1, rolling subassembly 5 is fixed motionless, it begins to remove left to unreel tectorial membrane subassembly 2 and pastes and cover product B, equipment cooperation is artifical according to product B in initial state: after the traction end of the product B comes out from the unreeling roller 204, the product B is wrapped on the second tension roller 206 from bottom to top and then wrapped on the first tension roller 205 from top to bottom, passes through the space between the pressing roller 601 and the movable pressing roller 602 from top to bottom after coming out from the first tension roller 205, and finally passes through the third tension roller 207, and the protective film of the product B behind the film covering pressing roller 203 (near one end of the winding assembly 5) sequentially passes through the buffer shaft 801 of the buffer assembly 8, the sixth tension roller 507, the space between the winding driving roller and the auxiliary pressing roller 510, the fifth tension roller 506, the sixth tension roller 507 and the winding roller, and is penetrated through. Because the winding assembly 5 is fixed and the unwinding film assembly 2 moves to the left, the product B on the unwinding roller 204 is released at the tail end and then is pasted on the glued product A by the film laminating pressing roller 203, after the film lamination is completed, the heating mode is started by the workbench 1, the time for the heating assembly to work is set to wait for glue solidification, after the solidification is completed, the unwinding film assembly 2 is fixed and fixed, the winding assembly 5 starts to move the winding driving motor 509 to the left to drive the winding driving roller to quantitatively wind the protective film on the product B, the winding motor 508 starts to drive the winding roller to wind the transmitted protective film, and after the protective film on the workbench 1 is peeled off, the winding assembly 5 and the unwinding film assembly 2 reset respectively to wait for the next start.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.