CN116653403A - Full-automatic multi-layer laminating device and process thereof - Google Patents

Abstract

The invention relates to the technical field of laminating devices, in particular to a full-automatic multi-layer laminating device and a process thereof. According to the invention, the lifting mechanism and the extrusion mechanism are arranged, so that the extrusion fixing can be performed at the center of the sheet, the sheet is prevented from being deviated under the drive of the extrusion roller, the laminated multilayer plate is ensured to have higher uniformity, the problem that the edge of the multilayer plate is locally protruded or recessed is effectively avoided, and the processing efficiency and the qualification rate of the multilayer plate are improved.

Description

Full-automatic multi-layer laminating device and process thereof

Technical Field

The invention relates to the technical field of laminating devices, in particular to a full-automatic multi-layer laminating device and a process thereof.

Background

The multi-layer sheet material is generally a plate-like material formed by bonding a plurality of layers of sheet materials by using an adhesive, and when the multi-layer sheet material is manufactured, each sheet material needs to be bonded layer by using a bonding device in order to ensure bonding effect between the sheet materials.

In the prior art, the laminating device is required to carry out procedures such as dust removal, gluing, laminating and the like on the multi-layer sheet, the limiting and fixing effects on the sheet are poor, the sheet on the adjacent layer is easy to deviate to a certain extent under the combined action of pressure and colloid, the laminated multi-layer sheet is not tidy enough, the edges of the multi-layer sheet are enabled to have local protruding or sinking conditions, the use of the multi-layer sheet is affected, the laminated multi-layer sheet is required to be repeatedly trimmed or reworked, and the processing efficiency of the multi-layer sheet is reduced.

In view of this, we propose a fully automatic multi-layer bonding apparatus and process thereof.

Disclosure of Invention

The invention aims to provide a full-automatic multi-layer laminating device and a process thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a full-automatic multilayer laminating device, includes the processing platform, processing platform's top and be close to right side edge department and be provided with the laminating frame, the left side of laminating frame is provided with the material loading frame, on the material loading frame and be close to laminating frame department and be provided with conveying mechanism, conveying mechanism includes carriage and conveying roller, laminating frame's top and be close to left side edge department and be provided with the mounting bracket, be provided with glue spreading mechanism on the mounting bracket;

the top of processing platform and the right side that is located the mounting bracket are provided with the mount, the below of mount is provided with elevating system, elevating system includes lifter plate and pneumatic cylinder, the below of lifter plate is provided with extrusion mechanism, extrusion mechanism includes clamp plate and spring, the both sides of lifter plate all are provided with rolling mechanism, rolling mechanism includes movable frame and squeeze roll.

As the preferable technical scheme, the top of laminating frame just keeps away from material loading frame department and is provided with the baffle, baffle and laminating frame's edge integrated into one piece.

As the preferred technical scheme, the top of material loading frame just is provided with positioning mechanism near center department, positioning mechanism includes locating rack and locating plate, the locating rack sets up the top of material loading frame and is close to center department, the setting of locating plate mutual symmetry is on the locating rack, and with locating rack sliding connection, the locating rack is last and be provided with two-way screw rod near center department, two-way screw rod and locating plate threaded connection, the first motor is installed to the front side that just is located two-way screw rod on the material loading frame, first motor and two-way screw rod coaxial transmission.

As the preferred technical scheme, the bottom of material loading frame just is close to four corners department and all is provided with the telescopic link, the bottom and the processing platform fixed connection of telescopic link, the bottom of material loading frame just is close to center department and is provided with the threaded rod, the processing bench just is located the outside rotation of threaded rod and is connected with the thread bush, thread bush and threaded rod threaded connection, the second motor is installed to the bottom of processing platform just being located the below of thread bush, second motor and the coaxial transmission of thread bush.

As the preferable technical scheme, the conveyer frame is arranged on the right side of the feeding frame, the conveying rollers are symmetrically arranged on the inner side of the conveyer frame and are rotationally connected with the conveying rollers, gears are arranged on the front sides of the two groups of conveying rollers, the gears are meshed for transmission, a third motor is arranged on the feeding frame and positioned on the front side of the gears, and an output shaft of the third motor is coaxially transmitted with a rotating shaft of the conveying rollers.

As the preferred technical scheme, go up on the work or material rest and be close to left side edge department and be provided with dust removal mechanism, dust removal mechanism includes dust removal frame, dust removal roller and electrostatic generator, the dust removal frame sets up in the top of last work or material rest and be close to left side edge department, the dust removal roller sets up the inboard at the dust removal frame, and rotates with the dust removal frame to be connected, electrostatic generator sets up the front side at the dust removal frame, and with dust removal roller electric connection, the dust removal roller the pivot of conveyer roll is in and be located the rear side of going up the work or material rest and all be provided with the belt pulley, two sets of through the belt cup joint transmission between the belt pulley, processing bench just be located the rear side of dust removal frame and be provided with the dust catcher, the top of dust catcher is provided with the hose that links to each other with the dust removal frame.

As the preferred technical scheme, rubber coating mechanism includes rubber coating head and conveyer pipe, the rubber coating head is the array form setting on the mounting bracket, the overhead just bottom department of being close to of rubber coating is provided with the solenoid valve, the conveyer pipe sets up in the top of mounting bracket, and links to each other with each rubber coating head, processing bench just is located the rear side of mounting bracket and is provided with the storage tank, just be located the inboard of storage tank on the conveyer pipe and be provided with the pump body.

As the preferred technical scheme, the lifter plate is in the top of laminating frame, both sides all are provided with a plurality of evenly distributed's connecting block around the lifter plate, the pneumatic cylinder sets up on the mount, and piston rod and lifter plate fixed connection, the top of lifter plate just is close to edge and is provided with the first guide arm that links to each other with the mount, the clamp plate sets up in the below of lifter plate, the top of clamp plate is provided with the second guide arm of mutual symmetry, second guide arm and lifter plate sliding connection, the spring sets up in the outside of second guide arm, and is located between lifter plate and the clamp plate.

As the preferable technical scheme, the movable frame is mutually symmetrical and is arranged on two sides of the lifting plate, the top end of the movable frame is rotationally connected with the connecting block, the squeeze roller is arranged on the inner side of the movable frame and is close to the bottom end of the movable frame, the movable frame is provided with a connecting rod which is close to the center of the movable frame, the connecting rod is provided with mutually symmetrical tension springs, and the other ends of the tension springs are connected with the lifting plate.

In another aspect, a process for a fully automatic multi-layer laminating device is provided, and the fully automatic multi-layer laminating device according to any one of the above steps is as follows:

s1: the sheet conveying method comprises the steps of (1) conveying a first sheet to an upper material frame, enabling a first motor to operate to drive a bidirectional screw rod to rotate, enabling a positioning plate to slide on the positioning frame and position the first sheet, enabling a third motor to operate to drive through gear meshing, and enabling a conveying roller to convey the first sheet rightwards until the first sheet contacts a baffle;

s2: when the material dust removal and conveying roller rotates, the belt pulley and the belt drive the dust removal roller to rotate, so that the electrostatic generator operates, the dust removal roller performs electrostatic adsorption on dust on the surface of the first layer of sheet material, and then the dust collector operates to drive air at the top end of the dust removal frame to flow through a hose, so that the dust attached to the surface of the dust removal roller is sucked;

s3: colloid coating, namely, the pump body is operated to convey the colloid in the storage tank to each gluing head, the electromagnetic valve is opened, and the colloid in the gluing heads is coated on the top of the first layer of sheet;

s4: adding the sheet, moving the second sheet to the upper material frame, repeating the steps S1-S2, moving the second sheet to the top of the first sheet, and coating the colloid on the top of the second sheet;

s5: the sheet laminating makes the pneumatic cylinder operation drive lifter plate downwardly moving, makes the lifter plate drive the clamp plate downwardly moving, makes clamp plate and spring mutually support, extrudes at the top of second floor's sheet, later, the lifter plate continuously downwardly moving makes the fly frame rotate on the connecting block, makes the squeeze roller roll along the surface of second floor's sheet, extrudes second floor's sheet, makes second floor's sheet and even laminating of first layer's sheet.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the lifting mechanism and the extrusion mechanism are arranged, the lifting plate and the hydraulic cylinder are matched with each other, the pressing plate and the extrusion mechanism can be driven to move downwards, the pressing plate and the spring are matched with each other, extrusion fixation can be carried out at the center of the sheet, the sheet is prevented from being deviated under the drive of the extrusion roller, the laminated multilayer plate is ensured to have higher uniformity, the problem that the edge of the multilayer plate is locally protruded or recessed is effectively avoided, and the processing efficiency and the qualification rate of the multilayer plate are improved.

2. According to the invention, the rolling mechanism is arranged, the rolling mechanism can be driven to move through the lifting mechanism, the movable frame and the squeeze rollers are matched with each other, the sheets are rolled towards two sides by taking the pressing plate as the center, the uniformity of colloid distribution is improved, the multi-layer sheets are conveniently attached to each other, the thickness uniformity of the attached multi-layer sheets is ensured, and the multi-layer sheet is convenient to use.

3. According to the invention, the positioning mechanism and the conveying mechanism are arranged, when the first motor runs, the position of the positioning plate can be adjusted through the bidirectional screw, so that the positioning plate can be positioned according to the width of the sheet, the sheets with different widths can be conveniently conveyed, and meanwhile, the two groups of conveying rollers continuously convey the sheet rightwards through the mutual matching of the third motor and the gear, so that the sheet is prevented from shifting in the conveying process, and the higher uniformity among multiple layers of sheets is ensured.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a loading frame according to the present invention;

FIG. 3 is a second schematic view of a loading frame according to the present invention;

FIG. 4 is a schematic view of a carriage structure according to the present invention;

FIG. 5 is a schematic view of the dust removing frame of the present invention;

FIG. 6 is a schematic view of a fixing frame according to the present invention;

FIG. 7 is a schematic view of a mounting frame according to the present invention;

FIG. 8 is a schematic view of a lifter plate structure according to the present invention;

fig. 9 is a schematic view of a platen structure according to the present invention.

In the figure: 1. a processing table; 11. a laminating frame; 12. a baffle; 2. a feeding frame; 21. a positioning frame; 22. a positioning plate; 23. a bidirectional screw; 231. a first motor; 24. a telescopic rod; 25. a threaded rod; 26. a thread sleeve; 261. a second motor; 3. a carriage; 31. a conveying roller; 32. a gear; 33. a third motor; 4. a dust removal frame; 41. a dust removal roller; 42. an electrostatic generator; 43. a belt pulley; 44. a dust collector; 45. a hose; 5. a mounting frame; 51. a glue spreading head; 511. an electromagnetic valve; 52. a delivery tube; 521. a pump body; 53. a storage tank; 6. a fixing frame; 61. a lifting plate; 611. a connecting block; 62. a hydraulic cylinder; 63. a first guide bar; 64. a pressing plate; 641. a second guide bar; 642. a spring; 7. a movable frame; 71. a squeeze roll; 72. a connecting rod; 73. and a tension spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 9, the present invention provides a technical solution:

the utility model provides a full-automatic multilayer laminating device, includes processing platform 1, and processing platform 1's top and be close to right side edge department and be provided with laminating frame 11, and laminating frame 11's left side is provided with material loading frame 2, is provided with conveying mechanism on material loading frame 2 and be close to laminating frame 11 department, and conveying mechanism includes carriage 3 and conveying roller 31, and laminating frame 11's top and be provided with mounting bracket 5 near left side edge department, be provided with glue spreading mechanism on the mounting bracket 5;

the top of processing platform 1 and be located the right side of mounting bracket 5 and be provided with mount 6, the below of mount 6 is provided with elevating system, elevating system includes lifter plate 61 and pneumatic cylinder 62, and the below of lifter plate 61 is provided with extrusion mechanism, and extrusion mechanism includes clamp plate 64 and spring 642, and the both sides of lifter plate 61 all are provided with rolling mechanism, and rolling mechanism includes movable frame 7 and squeeze roll 71.

It is to be added that the top of the laminating frame 11 and the position far away from the feeding frame 2 are provided with baffle plates 12, and the baffle plates 12 and the edge of the laminating frame 11 are integrally formed.

As the preference of this embodiment, the top of material loading frame 2 and be close to center department and be provided with positioning mechanism, positioning mechanism includes locating rack 21 and locating plate 22, locating rack 21 sets up the top of material loading frame 2 and be close to center department, locating plate 22 mutual symmetry sets up on locating rack 21, and with locating rack 21 sliding connection, locating rack 21 is last and be provided with two-way screw 23 near center department, two-way screw 23 and locating plate 22 threaded connection, and the first motor 231 is installed to the front side that just is located two-way screw 23 on material loading frame 2, first motor 231 and the coaxial transmission of two-way screw 23, when first motor 231 operates, can drive locating plate 22 through two-way screw 23 and slide on locating rack 21, make locating plate 22 carry out the location to the sheet, prevent that the sheet from taking place the skew.

It is worth noting that telescopic rods 24 are arranged at the bottoms of the feeding frames 2 and close to four corners, the bottoms of the telescopic rods 24 are fixedly connected with the processing table 1, threaded rods 25 are arranged at the bottoms of the feeding frames 2 and close to the center, threaded sleeves 26 are rotatably connected to the outer sides of the threaded rods 25 on the processing table 1, the threaded sleeves 26 are in threaded connection with the threaded rods 25, a second motor 261 is arranged at the bottoms of the processing table 1 and below the threaded sleeves 26, the second motor 261 and the threaded sleeves 26 are coaxially driven, when the second motor 261 runs, the threaded sleeves 26 and the threaded rods 25 move relatively, the telescopic rods 24 are made to stretch and retract, and the heights of the feeding frames 2, the positioning mechanism, the conveying mechanism and the dust removing mechanism can be adjusted, so that sheets can be added layer by layer conveniently.

As a preferable mode of this embodiment, the conveying frame 3 is disposed on the right side of the upper material frame 2, the conveying rollers 31 are symmetrically disposed on the inner side of the conveying frame 3 and are rotatably connected with the conveying rollers 31, the front sides of the two groups of conveying rollers 31 are respectively provided with a gear 32, the two groups of gears 32 are in meshed transmission, a third motor 33 is mounted on the upper material frame 2 and positioned on the front side of the gears 32, an output shaft of the third motor 33 is coaxially transmitted with a rotating shaft of the conveying rollers 31, and when the third motor 33 operates, the two groups of conveying rollers 31 can be made to move relatively through the meshed transmission of the gears 32, so that sheets can be continuously conveyed rightward.

As a preference of this embodiment, the dust removing mechanism is disposed on the feeding frame 2 and near the left side edge, the dust removing mechanism includes a dust removing frame 4, a dust removing roller 41 and an electrostatic generator 42, the dust removing frame 4 is disposed above the feeding frame 2 and near the left side edge, the dust removing roller 41 is disposed at the inner side of the dust removing frame 4 and rotationally connected with the dust removing frame 4, the electrostatic generator 42 is disposed at the front side of the dust removing frame 4 and electrically connected with the dust removing roller 41, pulleys 43 are disposed on the rotation shafts of the dust removing roller 41 and the conveying roller 31 and at the rear side of the feeding frame 2, a transmission is sleeved between the two groups of pulleys 43 through a belt, a hose 45 connected with the dust removing frame 4 is disposed at the rear side of the processing table 1, and a transmission is disposed at the top of the dust collector 44 through the pulley 43 and a belt, when a sheet is conveyed on the feeding frame 2, the dust removing roller 41 and the conveying roller 31 can be synchronously driven, and simultaneously, the dust collecting roller 41 can be made to electrostatically adsorb dust on the surface of the sheet under the action of the electrostatic generator 42, and then the dust collector 44 and the hose 45 are mutually matched with the hose 4, so that dust can be effectively removed from the top of the sheet.

As a preference of this embodiment, the gluing mechanism includes gluing heads 51 and conveying pipes 52, the gluing heads 51 are arranged on the mounting frame 5 in an array, electromagnetic valves 511 are arranged on the gluing heads 51 and near the bottom ends, the conveying pipes 52 are arranged above the mounting frame 5 and connected with the gluing heads 51, a storage tank 53 is arranged on the processing table 1 and on the rear side of the mounting frame 5, a pump body 521 is arranged on the conveying pipes 52 and on the inner side of the storage tank 53, and when the pump body 521 runs, colloid can be conveyed to the gluing heads 51 through the conveying pipes 52 and coated on the surfaces of sheets, and in the colloid adding process, the gluing heads 51 can be controlled through the electromagnetic valves 511, so that different gluing heads 51 can conveniently carry out gluing.

As a preference of this embodiment, the lifting plate 61 is above the attaching frame 11, the front and rear sides of the lifting plate 61 are provided with a plurality of evenly distributed connecting blocks 611, the hydraulic cylinder 62 is arranged on the fixed frame 6, the piston rod is fixedly connected with the lifting plate 61, the top of the lifting plate 61 is provided with a first guide rod 63 connected with the fixed frame 6 near the edge, the pressing plate 64 is arranged below the lifting plate 61, the top of the pressing plate 64 is provided with a second guide rod 641 which is symmetrical with each other, the second guide rod 641 is slidably connected with the lifting plate 61, the spring 642 is arranged outside the second guide rod 641 and between the lifting plate 61 and the pressing plate 64, and the pressing positioning can be performed at the center of the sheet by the mutual cooperation of the pressing plate 64 and the spring 642, so as to prevent the sheet from shifting under the driving of the pressing roller 71.

As a preference of this embodiment, the movable frame 7 is symmetrically disposed on two sides of the lifting plate 61, and the top end is rotationally connected with the connecting block 611, the squeeze roller 71 is disposed on the inner side of the movable frame 7 and near the bottom end, the connecting rod 72 is disposed on the movable frame 7 and near the center, the tension spring 73 is disposed on the connecting rod 72, the other end of the tension spring 73 is connected with the lifting plate 61, when the lifting plate 61 continuously moves downwards, the squeeze roller 71 can be pushed to two sides through the movable frame 7 and squeeze the sheets, so that the multi-layer sheets are mutually attached, and when the lifting plate 61 moves upwards, the squeeze roller 71 is conveniently reset under the elastic action of the tension spring 73.

In another aspect, a process for a fully automatic multi-layer bonding device is provided, according to any one of the above-mentioned steps of operation are as follows:

s1: the sheet conveying, the first layer of sheet is moved to the upper material frame 2, the first motor 231 is operated to drive the bidirectional screw 23 to rotate, the positioning plate 22 slides on the positioning frame 21 and positions the first layer of sheet, then the third motor 33 is operated to drive through the gear 32 in a meshing manner, and the conveying roller 31 conveys the first layer of sheet rightwards until the first layer of sheet contacts the baffle 12;

s2: when the material is dedusted and the conveying roller 31 rotates, the dedusting roller 41 is driven to rotate through the belt pulley 43 and belt transmission, the static generator 42 is operated, the dedusting roller 41 is used for carrying out static adsorption on dust on the surface of the first layer of sheet material, and then the dust collector 44 is operated to drive air at the top end of the dedusting frame 4 to flow through the hose 45, so that the dust attached to the surface of the dedusting roller 41 is sucked;

s3: colloid coating, namely, operating the pump body 521 to convey the colloid in the storage tank 53 to each gluing head 51, opening the electromagnetic valve 511, and coating the colloid in the gluing heads 51 on the top of the first layer of sheet;

s4: sheet adding, namely moving a second layer of sheet to the upper material frame 2, repeating the steps S1-S2, enabling the second layer of sheet to move to the top of the first layer of sheet, and enabling the colloid to be coated on the top of the second layer of sheet;

s5: the sheet laminating, make the pneumatic cylinder 62 operation drive lifter plate 61 move downwards, make lifter plate 61 drive clamp plate 64 move downwards, make clamp plate 64 and spring 642 mutually support, extrude at the top of second floor's sheet, afterwards, lifter plate 61 continuously moves downwards, make movable frame 7 rotate on connecting block 611, make squeeze roller 71 roll along the surface of second floor's sheet, extrude the second floor's sheet, make second floor's sheet and first layer's sheet even laminating.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a full-automatic multilayer laminating device, includes processing platform (1), its characterized in that: the automatic gluing device is characterized in that a laminating frame (11) is arranged at the top of the machining table (1) and close to the right side edge, a feeding frame (2) is arranged on the left side of the laminating frame (11), a conveying mechanism is arranged on the feeding frame (2) and close to the laminating frame (11), the conveying mechanism comprises a conveying frame (3) and a conveying roller (31), a mounting frame (5) is arranged above the laminating frame (11) and close to the left side edge, and a gluing mechanism is arranged on the mounting frame (5); the machining bench is characterized in that a fixing frame (6) is arranged above the machining bench (1) and located on the right side of the mounting frame (5), a lifting mechanism is arranged below the fixing frame (6), the lifting mechanism comprises a lifting plate (61) and a hydraulic cylinder (62), an extrusion mechanism is arranged below the lifting plate (61), the extrusion mechanism comprises a pressing plate (64) and a spring (642), rolling mechanisms are arranged on two sides of the lifting plate (61), and the rolling mechanisms comprise a movable frame (7) and extrusion rollers (71); lifting plate (61) is in the top of laminating frame (11), both sides all are provided with a plurality of evenly distributed connecting block (611) around lifting plate (61), pneumatic cylinder (62) set up on mount (6), and piston rod and lifting plate (61) fixed connection, the top of lifting plate (61) just is close to edge and is provided with first guide arm (63) that link to each other with mount (6), clamp plate (64) set up in the below of lifting plate (61), the top of clamp plate (64) is provided with second guide arm (641) of mutual symmetry, second guide arm (641) and lifting plate (61) sliding connection, spring (642) set up in the outside of second guide arm (641), and are located between lifting plate (61) and clamp plate (64).

2. The fully automated multi-layer bonding apparatus of claim 1, wherein: the top of laminating frame (11) and keep away from material loading frame (2) department is provided with baffle (12), baffle (12) and the edge integrated into one piece of laminating frame (11).

3. The fully automated multi-layer bonding apparatus of claim 1, wherein: the utility model discloses a feeding frame, including material loading frame (2), locating mechanism is provided with at the top of material loading frame (2) and near center department, locating mechanism includes locating rack (21) and locating plate (22), locating rack (21) set up the top of material loading frame (2) and near center department, locating plate (22) mutually symmetrical set up on locating rack (21), and with locating rack (21) sliding connection, locating rack (21) are last and be provided with bi-directional screw (23) near center department, bi-directional screw (23) and locating plate (22) threaded connection, first motor (231) are installed to the front side that just is located bi-directional screw (23) on material loading frame (2), first motor (231) and bi-directional screw (23) coaxial transmission.

4. The fully automated multi-layer bonding apparatus of claim 1, wherein: the bottom of material loading frame (2) and be close to four corners department and all be provided with telescopic link (24), the bottom and the processing platform (1) fixed connection of telescopic link (24), the bottom of material loading frame (2) just is provided with threaded rod (25) near center department, the outside rotation that just is located threaded rod (25) on processing platform (1) is connected with thread bush (26), thread bush (26) and threaded rod (25) threaded connection, second motor (261) are installed to the bottom of processing platform (1) and the below that is located thread bush (26), second motor (261) and thread bush (26) coaxial transmission.

5. The fully automated multi-layer bonding apparatus of claim 1, wherein: the conveying frame (3) is arranged on the right side of the feeding frame (2), the conveying rollers (31) are symmetrically arranged on the inner side of the conveying frame (3) and are rotationally connected with the conveying rollers (31), gears (32) are arranged on the front sides of the conveying rollers (31) in two groups, the gears (32) are meshed for transmission, a third motor (33) is arranged on the feeding frame (2) and located on the front side of the gears (32), and an output shaft of the third motor (33) is coaxially transmitted with a rotating shaft of the conveying rollers (31).

6. The fully automated multi-layer bonding apparatus of claim 1, wherein: the dust removing mechanism comprises a dust removing frame (4), dust removing rollers (41) and an electrostatic generator (42), the dust removing frame (4) is arranged above the dust removing frame (2) and is close to the left side edge, the dust removing rollers (41) are arranged on the inner side of the dust removing frame (4) and are rotationally connected with the dust removing frame (4), the electrostatic generator (42) is arranged on the front side of the dust removing frame (4) and is electrically connected with the dust removing rollers (41), the dust removing rollers (41) are respectively arranged on the rotating shafts of the conveying rollers (31) and are located on the rear side of the dust removing frame (2), belt pulleys (43) are in sleeved transmission through belts, dust collectors (44) are arranged on the rear side of the processing table (1) and are arranged on the rear side of the dust removing frame (4), and hoses (45) connected with the dust collectors (44) are arranged on the tops of the dust collectors.

7. The fully automated multi-layer bonding apparatus of claim 1, wherein: the gluing mechanism comprises gluing heads (51) and conveying pipes (52), the gluing heads (51) are arranged on the mounting frame (5) in an array mode, electromagnetic valves (511) are arranged on the gluing heads (51) and close to the bottom ends, the conveying pipes (52) are arranged above the mounting frame (5) and connected with the gluing heads (51), storage tanks (53) are arranged on the processing table (1) and located at the rear sides of the mounting frame (5), and pump bodies (521) are arranged on the conveying pipes (52) and located at the inner sides of the storage tanks (53).

8. The fully automated multi-layer bonding apparatus of claim 1, wherein: the movable frame (7) is symmetrically arranged on two sides of the lifting plate (61), the top end of the movable frame is rotationally connected with the connecting block (611), the squeeze roller (71) is arranged on the inner side of the movable frame (7) and is close to the bottom end of the movable frame, the connecting rod (72) is arranged on the movable frame (7) and is close to the center of the movable frame, the tension springs (73) are symmetrically arranged on the connecting rod (72), and the other ends of the tension springs (73) are connected with the lifting plate (61).

9. A process for a fully automatic multi-layer bonding apparatus according to any one of claims 1-8, characterized in that:

s1: the sheet conveying method comprises the steps of moving a first layer of sheet to an upper material frame (2), enabling a first motor (231) to operate to drive a bidirectional screw rod (23) to rotate, enabling a positioning plate (22) to slide on a positioning frame (21) and position the first layer of sheet, enabling a third motor (33) to operate to engage and drive through a gear (32), and enabling a conveying roller (31) to convey the first layer of sheet rightwards until the first layer of sheet is in contact with a baffle plate (12);

s2: when the material is dedusted, the conveying roller (31) drives the dedusting roller (41) to rotate through a belt pulley (43) and belt transmission, so that the static generator (42) operates, the dedusting roller (41) performs static adsorption on dust on the surface of the first layer of material, and then the dust collector (44) operates to drive air at the top end of the dedusting frame (4) to flow through a hose (45), so as to absorb the dust attached to the surface of the dedusting roller (41);

s3: colloid coating, namely, operating a pump body (521) to convey colloid in a storage tank (53) to each gluing head (51), opening an electromagnetic valve (511), and coating the colloid in the gluing heads (51) on the top of the first layer of sheet;

s4: sheet adding, namely moving a second layer of sheet to an upper material frame (2), repeating the steps S1-S2, enabling the second layer of sheet to move to the top of the first layer of sheet, and enabling the colloid to be coated on the top of the second layer of sheet;

s5: the sheet laminating, make pneumatic cylinder (62) operation drive lifter plate (61) move downwards, make lifter plate (61) drive clamp plate (64) move downwards, make clamp plate (64) and spring (642) mutually support, extrude at the top of second floor's sheet, afterwards, lifter plate (61) continuously move downwards, make movable frame (7) rotate on connecting block (611), make squeeze roll (71) roll along the surface of second floor's sheet, extrude the second floor's sheet, make second floor's sheet and even laminating of first layer's sheet.