CN214324518U - Bonding laminating equipment of multilayer toy - Google Patents

Abstract

The utility model provides a bonding laminating equipment of multilayer toy belongs to the technical field that the toy was made. A bonding film coating device of a multilayer toy comprises a bracket, a synthetic paper feeding mechanism, a magnetic sheet feeding mechanism, a protective film feeding mechanism and a pressing mechanism; the utility model discloses to send synthetic paper mechanism, send magnetic sheet mechanism, send protection film mechanism to set up on same support, the integration of structure has been realized, can realize the pay-off of PP synthetic paper and the getting rid of the notacoria above that, the pay-off of magnetic sheet and protection film has still been realized simultaneously, and directly send out the multilayer structure who comprises PP synthetic paper layer through hold-down mechanism, magnetic sheet layer and protection film layer, disposable processing has been realized, manpower and materials have been saved, machining efficiency is improved, manufacturing cost is reduced, the quantity of equipment has also been reduced simultaneously, the problem of occuping great space because of the equipment is too much has been avoided, the easy problem of polluting and damaging in the transportation of intermediate material has still been avoided, more do benefit to the manufacturing of multilayer toy.

Description

Bonding laminating equipment of multilayer toy

Technical Field

The utility model relates to a technical field that the toy was made specifically is a bonding laminating equipment that relates to a multilayer toy.

Background

The autonomic table is one of learning toys, and it is convenient for a user to write on the autonomic table to record events and create a learning plan, and thus it is popular among parents and children.

Existing autonomous watches typically include a PP synthetic paper layer, a magnetic film layer, and a protective film layer on the PP synthetic paper layer. And traditional processing equipment is because the restriction of structure, PP synthetic paper layer and magnetic film layer need suppress earlier the back together, shift to the equipment that covers the protection rete and suppress again, in addition, PP synthetic paper layer needs tear the notacoria on its top layer earlier before suppressing with the magnetic film layer, therefore, still need set up specific equipment before suppressing with the magnetic film layer and realize tearing the operation of notacoria, not only the equipment that needs is many, lead to high in manufacturing cost, still need a large amount of spaces to install these equipment, the waste in space has been caused, simultaneously, extravagant manpower and materials when shifting between many equipment, the work load has been increased, still there is the pollution, the risk of damage, be unfavorable for the manufacturing of multilayer toy.

Disclosure of Invention

To the above-mentioned problem that exists among the prior art, it aims at providing an adhesion tectorial membrane equipment of multilayer toy now, with the structure that sets up the integral type, synthetic paper mechanism has the send, send magnetic sheet mechanism and send protection film mechanism, the getting rid of PP synthetic paper pay-off and its notacoria has been realized respectively, the pay-off of magnetic sheet and protection film, and simultaneously, be provided with hold-down mechanism, PP synthetic paper after tearing the notacoria, magnetic sheet and protection film compress tightly, thereby obtain the multilayer toy that covers and have the protection film, only can accomplish whole operations through an equipment, the equipment number has been reduced, manufacturing cost is reduced, manpower and materials have been saved, and just can realize the installation in less space, the waste in space has been avoided, pollution, the damage risk that also has avoided the transportation in-process, more do benefit to the manufacturing of multilayer toy.

The specific technical scheme is as follows:

a device for adhesive lamination of a multi-layered toy, characterized in that it comprises:

the support comprises a base, and a magnetic sheet support frame, a synthetic paper support frame and a protective film support frame which are arranged on the base, wherein the synthetic paper support frame is positioned between the magnetic sheet support frame and the protective film support frame;

send synthetic paper mechanism, send synthetic paper mechanism to set up on synthetic paper support frame, including table surface, the mounting bracket, synthetic paper raw materials cylinder, receive notacoria cylinder and move the membrane cylinder, table surface's both sides are provided with the mounting bracket that upwards extends, synthetic paper raw materials cylinder, receive notacoria cylinder and move the membrane cylinder and set up and all rotate the connection on the mounting bracket parallel to each other and interval, and along vertical direction, synthetic paper raw materials cylinder is located and receives the below of notacoria cylinder, move the membrane cylinder and be located the below of synthetic paper raw materials cylinder, table surface is located the below that moves the membrane cylinder, and simultaneously, in following the horizontal direction, receive notacoria cylinder and move the membrane cylinder and all be located one side that synthetic paper raw materials cylinder is close to the magnetic sheet support frame;

the magnetic sheet feeding mechanism is arranged on the magnetic sheet supporting frame and comprises magnetic sheet feeding rollers which are arranged at intervals and parallel to the film moving roller;

the protective film feeding mechanism is arranged on the protective film supporting frame and comprises a film feeding roller, the film feeding roller is arranged on one side, away from the side provided with the film moving roller, of the synthetic paper raw material roller, and the film feeding rollers are arranged at intervals and parallel to the film moving roller;

and the pressing mechanism is arranged between the film moving roller and the film feeding roller and comprises an upper pressing roller and a lower pressing roller arranged below the upper pressing roller, the upper pressing roller and the lower pressing roller are arranged in parallel at intervals, and the two ends of the upper pressing roller and the lower pressing roller are rotatably arranged on the protective film supporting frame.

The above bonding and laminating device for the multilayer toy comprises a synthetic paper feeding mechanism and a separating roller, wherein the synthetic paper feeding mechanism further comprises a separating roller, and the separating roller is arranged between the synthetic paper raw material roller and the back film collecting roller.

The bonding laminating equipment of foretell multilayer toy, wherein, send the magnetic sheet cylinder and move and be provided with the pressure cylinder between the membrane cylinder, the both ends of pressure cylinder are rotated and are connected on the mounting bracket, and pressure cylinder is located table surface's below.

In the bonding and laminating device for the multilayer toy, the working table is positioned on the arc-shaped convex side of the pressing roller.

The utility model provides an foretell bonding laminating equipment of multilayer toy, wherein, send synthetic paper mechanism still includes supplementary compression roller, and the both ends of supplementary compression roller are all rotated and are installed on the mounting bracket and transversely arranged in table surface's top, and simultaneously, supplementary compression roller is located and moves between membrane cylinder and the hold-down mechanism.

Above-mentioned bonding laminating equipment of multilayer toy, wherein, move one end of membrane cylinder and be connected with and move the membrane driver, move the membrane driver and set up in the mounting bracket.

The bonding laminating equipment of foretell multilayer toy, wherein, the one end of synthetic paper raw materials cylinder is connected with synthetic paper raw materials driver, and synthetic paper raw materials driver sets up in the mounting bracket.

The bonding laminating equipment of foretell multilayer toy, wherein, the one end of receiving the notacoria cylinder is provided with driven gear, and the one end of synthetic paper raw materials cylinder is provided with the driving gear, and is provided with the chain between driving gear and the driven gear.

The bonding laminating equipment of foretell multilayer toy wherein, still includes tailors the equipment, tailors the equipment and sets up in hold-down mechanism and deviates from the one side of sending the synthetic paper mechanism.

The positive effects of the technical scheme are as follows:

the adhesion laminating equipment of foretell multilayer toy, through will sending synthetic paper mechanism, send magnetic sheet mechanism, send protection film mechanism and hold-down mechanism to set up on same support, the integration of equipment has been realized, can realize the pay-off of PP synthetic paper and the getting rid of the notacoria on it, the pay-off of magnetic sheet and protection film has still been realized simultaneously, make the machined part that sends out from hold-down mechanism promptly PP synthetic paper layer, the multilayer structure of magnetic sheet layer and protection film layer, through an equipment alright accomplish whole operations, thereby the quantity of equipment has been reduced, manufacturing cost is reduced, manpower and materials have been saved, simultaneously still make the installation that can realize equipment in less space, effectively avoided the waste of installation space, can also avoid the easy problem of polluting and damaging of intermediate material in the transportation, more do benefit to the manufacturing of multilayer toy.

Drawings

FIG. 1 is a block diagram of an embodiment of a multi-layered toy adhesive film-coating apparatus according to the present invention;

FIG. 2 is a structural diagram of a synthetic paper feeding mechanism according to a preferred embodiment of the present invention;

FIG. 3 is a structural diagram of a magnetic sheet feeding mechanism according to a preferred embodiment of the present invention;

fig. 4 is a structural diagram of a protective film feeding mechanism according to a preferred embodiment of the present invention;

fig. 5 is a structural diagram of a pressing mechanism according to a preferred embodiment of the present invention.

In the drawings: 1. a support; 11. a base; 12. a magnetic sheet support frame; 13. a synthetic paper support frame; 14. a protective film support frame; 2. a synthetic paper feeding mechanism; 21. a work table; 22. a mounting frame; 23. a synthetic paper raw material roller; 24. a back film collecting roller; 25. a film transferring roller; 26. a separation drum; 27. an auxiliary press roll; 231. a driving gear; 241. a driven gear; 242. a chain; 3. a magnetic sheet feeding mechanism; 31. a magnetic sheet feeding roller; 32. a compacting drum; 4. a protective film feeding mechanism; 41. a film feeding roller; 5. a hold-down mechanism; 51. an upper press roll; 52. a lower press roll; 6. and (5) cutting equipment.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the following embodiments are specifically described with reference to fig. 1 to 5, but the following contents are not intended to limit the present invention.

FIG. 1 is a block diagram of an embodiment of the present invention, showing a multi-layer toy adhesive film-coating device. As shown in fig. 1, the present embodiment provides a bonding film device for a multi-layered toy, including: support 1 with set up send synthetic paper mechanism 2 on support 1, send magnetic sheet mechanism 3, send protection film mechanism 4 and hold-down mechanism 5, the integration setting of each mechanism has been realized, disposable processing has been realized, need not to carry out middle transportation, not only lightened work burden, time saving and labor saving, still avoided being easy in the transportation problem of polluting and damaging, and simultaneously, still make a equipment can accomplish processing, the quantity of equipment has been reduced, manufacturing cost is reduced, also avoided the too big and extravagant problem in space that leads to of equipment occupation space, more do benefit to the manufacturing of multilayer toy.

Specifically, the support 1 further includes a base 11, a magnetic sheet support frame 12, a synthetic paper support frame 13, and a protective film support frame 14, and at this time, the magnetic sheet support frame 12, the synthetic paper support frame 13, and the protective film support frame 14 are all disposed on the base 11, and the synthetic paper support frame 13 is located between the magnetic sheet support frame 12 and the protective film support frame 14, that is, the magnetic sheet support frame and the protective film support frame 14 are respectively located at two ends of the synthetic paper support frame 13, so that conditions are provided for subsequent adhesion and film coating.

Fig. 2 is a structural diagram of a synthetic paper feeding mechanism according to a preferred embodiment of the present invention. As shown in fig. 1 and fig. 2, the synthetic paper feeding mechanism 2 is disposed on the synthetic paper support frame 13, that is, the synthetic paper support frame 13 provides a support base for the synthetic paper feeding mechanism 2. Moreover, the synthetic paper feeding mechanism 2 further comprises a working table 21, an installation frame 22, a synthetic paper raw material roller 23, a back film collecting roller 24 and a film transferring roller 25, wherein the installation frame 22 extending upwards is arranged on two sides of the working table 21, and an installation foundation is provided for subsequently arranging the synthetic paper raw material roller 23, the back film collecting roller 24 and the film transferring roller 25 above the working table 21 through the installation frame 22. In addition, the synthetic paper raw material roller 23, the back film collecting roller 24 and the film moving roller 25 are arranged in parallel and at intervals and are connected to the mounting frame 22 in a rotating mode, so that the synthetic paper raw material roller 23, the back film collecting roller 24 and the film moving roller 25 can rotate relative to the mounting frame 22, the synthetic paper raw material roller 23 can be used for sleeving the PP synthetic paper roll with the back film, the PP synthetic paper roll with the back film can rotate along with the synthetic paper raw material roller 23, and the PP synthetic paper with the back film is gradually sent out. And, in the vertical direction, the synthetic paper raw material roller 23 is located below the back film collecting roller 24, so that the back film of the PP synthetic paper with the back film fed out by the synthetic paper raw material roller 23 can be wound on the back film collecting roller 24 after being torn, and the back film is wound by the rotation of the back film collecting roller 24, thereby realizing the collection of the back film. In addition, the film transferring roller 25 is positioned below the synthetic paper raw material roller 23, meanwhile, the working table 21 is positioned below the film transferring roller 25, so that the PP synthetic paper which is sent out by the synthetic paper raw material roller 23 and is subjected to back film removal can pass through a gap between the film transferring roller 25 and the working table 21, and the film transferring roller 25 presses the PP synthetic paper subjected to back film removal on the working table 21, so that when the film transferring roller 25 rotates, the film transferring roller 25 can drive the PP synthetic paper subjected to back film removal to move on the working table 21, and feeding operation of the PP synthetic paper subjected to back film removal is achieved. Meanwhile, in the horizontal direction, the back film collecting roller 24 and the film moving roller 25 are both positioned on one side of the synthetic paper raw material roller 23 close to the magnetic sheet support frame 12, so that the separation of the back film is carried out on one side of the synthetic paper raw material roller 23, the collection of the back film can be carried out in the first time after the separation, and the PP synthetic paper with the back film removed is sent out through the film moving roller 25, therefore, the working efficiency is improved, the structure is more compact, and the space waste is reduced.

FIG. 3 is a structural diagram of a magnetic sheet feeding mechanism according to a preferred embodiment of the present invention. As shown in fig. 1, 2 and 3, the magnetic sheet feeding mechanism 3 is disposed on the magnetic sheet supporting frame 12, and at this time, the magnetic sheet feeding mechanism 3 further includes a magnetic sheet feeding roller 31, moreover, the magnetic sheet feeding roller 31 is arranged at intervals and parallel to the film moving roller 25, the magnetic sheet roll is sleeved by the magnetic sheet feeding roller 31, so that the magnetic sheet roll can rotate on the magnetic sheet feeding roller 31, thereby sending out the magnetic sheets in the magnetic sheet roll, and in addition, the magnetic sheets sent out by the magnetic sheet sending roller 31 can pass through the interval between the film moving roller 25 and the working table surface 21 for the first time, the magnetic sheet is pressed on the PP synthetic paper with the back film removed through the film moving roller 25, so that the first pressing of the magnetic sheet and the PP synthetic paper with the back film removed is realized, and the magnetic sheet and the PP synthetic paper with the back film removed are conveyed out simultaneously by the rotation of the film moving roller 25, so that conditions are provided for the subsequent second pressing of the magnetic sheet and the PP synthetic paper by the pressing mechanism 5.

Fig. 4 is a structural diagram of a protective film feeding mechanism according to a preferred embodiment of the present invention. As shown in fig. 1 to 4, the protective film feeding mechanism 4 is disposed on the protective film support frame 14, that is, the protective film feeding mechanism 4 and the magnetic sheet feeding mechanism 3 are respectively disposed at two sides of the synthetic paper feeding mechanism 2, so that the magnetic sheet and the intermediate material formed by the PP synthetic paper after removing the back film after the first pressing can be coated by the protective film feeding mechanism 4 after being fed out. The protective film feeding mechanism 4 comprises a film feeding roller 41, the film feeding roller 41 is arranged on one side, away from the synthetic paper raw material roller 23, of the synthetic paper raw material roller 25, so that the magnetic sheet fed out by the film feeding roller 41 and the intermediate material formed by the PP synthetic paper with the back film removed after being pressed for the first time can pass through the film feeding roller 41, at the moment, the protective film roll is sleeved by the film feeding roller 41, the protective film roll can rotate on the film feeding roller 41, the protective film is fed out, and the protective film can cover the intermediate material formed by the magnetic sheet and the PP synthetic paper with the back film removed after being pressed for the first time, so that the film covering operation is realized. In addition, the film feeding rollers 41 are arranged at intervals and in parallel with the film moving roller 25, so that a sufficient operation space is provided for film covering, the interference of the film feeding rollers 41 on the film moving roller 25, magnetic sheets sent out by the film moving roller 25 and intermediate materials formed after first-time compression of PP synthetic paper with a back film removed is avoided, and the structural design is more reasonable.

Fig. 5 is a structural diagram of a pressing mechanism according to a preferred embodiment of the present invention. As shown in fig. 1 to 5, the pressing mechanism 5 is disposed between the film moving roller 25 and the film feeding roller 41, and the pressing mechanism 5 further includes an upper pressing roller 51 and a lower pressing roller 52 disposed below the upper pressing roller 51, the upper pressing roller 51 and the lower pressing roller 52 are parallel and spaced apart from each other, such that an intermediate material and a protective film formed by first pressing the magnetic sheet and the PP synthetic paper without the back film are left between the upper pressing roller 51 and the lower pressing roller 52, and both ends of the upper pressing roller 51 and the lower pressing roller 52 are rotatably mounted on the protective film support frame 14, such that the magnetic sheet passing therebetween and the intermediate material and the protective film formed by first pressing the PP synthetic paper without the back film are pressed by rotation of the upper pressing roller 51 and the lower pressing roller 52, thereby implementing a second pressing operation, i.e. forming a pressing operation having three layers, three layers of which are respectively a magnetic sheet, a protective film, PP synthetic paper and protective film, and realizes one-time processing and forming. It is noted that one of the upper press roll 51 and the lower press roll 52 of the pressing mechanism 5 is connected with a pressing driver, preferably, the pressing driver is a driving motor, and the power output of the pressing mechanism 5 is realized.

More specifically, the synthetic paper feeding mechanism 2 further comprises a separating roller 26, the separating roller 26 is arranged between the synthetic paper raw material roller 23 and the synthetic paper backing film collecting roller 24, at this time, two ends of the separating roller 26 are rotatably connected to the mounting frame 22, and a gap is arranged between the separating roller 26 and the synthetic paper raw material roller 23, so that the PP synthetic paper with the backing film fed out from the synthetic paper raw material roller 23 needs to be wound below the separating roller 26 first, and after passing through the separating roller 26, the backing film is torn and wound on the synthetic paper backing film collecting roller 24, the problem that the backing film is removed from the end of the PP synthetic paper with the backing film at the first time when the PP synthetic paper is fed out from the PP synthetic paper roll with the backing film is avoided, the problem that the torn backing film rubs against the PP synthetic paper roll with the backing film to cause damage is avoided, and the structural design is more reasonable.

More specifically, send synthetic paper mechanism 2 and send and still be provided with between magnetic sheet mechanism 3 and compress tightly cylinder 32, at this moment, compress tightly cylinder 32 and set up and send magnetic sheet cylinder 31 and move between the membrane cylinder 25, the both ends that compress tightly cylinder 32 rotate to be connected on mounting bracket 22, make to compress tightly cylinder 32 self rotatable, and, it is located table surface 21's below to compress tightly cylinder 32, make the magnetic sheet of sending out on sending magnetic sheet cylinder 31 reach again and send membrane cylinder 41 after compressing tightly cylinder 32 earlier, thereby realize the tensioning to the magnetic sheet through compressing tightly cylinder 32, guarantee the planarization of magnetic sheet, structural design is more reasonable.

More specifically, the side that just is located and is provided with compressing roller 32 on table surface 21 is convex setting of evagination, i.e. makes table surface 21 be provided with compressing roller 32 one side be circular arc transition structure to make through compressing roller 32 and the magnetic sheet of seeing off can enter into table surface 21 through the side of this circular arc transition, thereby avoided the damage of magnetic sheet, guaranteed the quality of product.

More specifically, the synthetic paper feeding mechanism 2 is further provided with an auxiliary pressure roller 27, at this time, both ends of the auxiliary pressure roller 27 are rotatably mounted on the mounting frame 22 and transversely arranged above the working table 21, so that the auxiliary pressure roller 27 can freely rotate, and meanwhile, the auxiliary pressure roller is positioned between the film moving roller 25 and the pressing mechanism 5, so that the magnetic sheet fed out by the film moving roller 25 and the intermediate material formed by the PP synthetic paper without the back film after being pressed for the first time can pass through the interval between the auxiliary pressure roller 27 and the working table 21, the auxiliary pressure roller 27 guides the magnetic sheet and the intermediate material formed by the PP synthetic paper without the back film after being pressed for the first time, the stability of the movement direction of the magnetic sheet and the intermediate material formed by the PP synthetic paper without the back film after being pressed for the first time is ensured, thereby ensuring the accuracy of the subsequent film covering operation for the protective film, further improving the product quality.

More specifically, move the one end of membrane cylinder 25 and be connected with and move the membrane driver, it is preferred, move the membrane driver and be driving motor, at this moment, move the membrane driver and set up in mounting bracket 22, move membrane cylinder 25 through moving the drive of membrane driver promptly and rotate to send out the automation of the middle material that forms after compressing tightly the back membrane with the magnetic sheet and the PP synthetic paper of getting rid of the notacoria for the first time, labour saving and time saving.

More specifically, the one end of synthetic paper raw materials cylinder 23 is connected with synthetic paper raw materials driver, and is preferred, synthetic paper raw materials cylinder 23 is driving motor, and at this moment, synthetic paper raw materials driver sets up in mounting bracket 22, can drive synthetic paper raw materials cylinder 23 through synthetic paper raw materials driver promptly and rotate to make the synthetic paper raw materials cylinder 23 go up the synthetic paper roll of the PP of suit that has the notacoria can rotate automatically, realize the seeing off of the PP synthetic paper that has the notacoria, has saved manpower and materials equally.

More specifically, one end of the back film collecting roller 24 is provided with a driven gear 241, meanwhile, one end of the synthetic paper raw material roller 23 is provided with a driving gear 231, the driving gear 231 and the driven gear 241 are located on the same side of the synthetic paper conveying mechanism 2, a chain 242 is arranged between the driving gear 231 and the driven gear 241, the synthetic paper raw material roller 23 can drive the back film collecting roller 24 to rotate through the chain 242 when rotating, collection of the back film is more timely, and the structural design is more reasonable.

More specifically, still including cutting out equipment 6, cutting out equipment 6 sets up in hold-down mechanism 5 and deviates from the one side of sending synthetic paper mechanism 2, compresses tightly and fashioned product can enter into cutting out equipment 6 through hold-down mechanism 5 the second time promptly and cuts out, cuts out to the size of demand. It is worth pointing out, tailor equipment 6 including the support bed body that the level set up with set up the removal cutting head on the support bed body, the removal cutting head is including the horizontal subassembly that slides again, the vertical subassembly that slides, vertical lifting unit and cutter, the horizontal subassembly that slides sets up on supporting the bed, the vertical subassembly that slides sets up on the horizontal subassembly that slides, vertical lifting unit sets up on the vertical subassembly that slides, the cutter sets up on vertical lifting unit, through the horizontal subassembly that slides promptly, vertical subassembly and vertical lifting unit that slides form the structure of triaxial linkage, and adopt traditional triaxial linkage structure on the market, make the cutter can satisfy the removal demand in the three orientation in the three-dimensional space, realize the cutting to the product of tiling on supporting the bed.

The adhesive film-coating device of the multilayer toy provided by the embodiment comprises a support 1, a synthetic paper feeding mechanism 2, a magnetic sheet feeding mechanism 3, a protective film feeding mechanism 4 and a pressing mechanism 5, wherein the synthetic paper feeding mechanism 2, the magnetic sheet feeding mechanism 3 and the protective film feeding mechanism 4 are arranged on the same support 1, so that the integration of multiple structures is realized, the structure is compact, the feeding of PP synthetic paper and the removal of a back film on the PP synthetic paper can be realized, the feeding of magnetic sheets and protective films can be realized, the multilayer structure consisting of a PP synthetic paper layer, a magnetic sheet layer and a protective film layer can be directly fed out through the pressing mechanism 5, the one-time processing is realized, the manpower and material resources are saved, the processing efficiency is improved, the manufacturing cost is reduced, the number of devices is reduced, the problem that a large space is occupied due to excessive devices is avoided, and the problem that intermediate materials are easily polluted and damaged in the transferring process is also avoided, is more beneficial to the production and the manufacture of the multilayer toy.

The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.

Claims (9)

1. An adhesive film coating apparatus for a multi-layered toy, comprising:

the support comprises a base, and a magnetic sheet support frame, a synthetic paper support frame and a protective film support frame which are arranged on the base, wherein the synthetic paper support frame is positioned between the magnetic sheet support frame and the protective film support frame;

the synthetic paper feeding mechanism is arranged on the synthetic paper support frame and comprises a working table top, a mounting frame, a synthetic paper raw material roller, a back film collecting roller and a film moving roller, the mounting frame extending upwards is arranged on two sides of the working table top, the synthetic paper raw material roller, the back film collecting roller and the film moving roller are parallel to each other, arranged at intervals and rotationally connected to the mounting frame, and are vertically arranged, the synthetic paper raw material roller is positioned below the back film collecting roller, the film moving roller is positioned below the synthetic paper raw material roller, the working table top is positioned below the film moving roller, and meanwhile, the back film collecting roller and the film moving roller are positioned on one side, close to the magnetic sheet support frame, of the synthetic paper raw material roller in the horizontal direction;

the magnetic sheet feeding mechanism is arranged on the magnetic sheet supporting frame and comprises magnetic sheet feeding rollers which are arranged at intervals and parallel to the film moving roller;

the protective film feeding mechanism is arranged on the protective film supporting frame and comprises a film feeding roller, the film feeding roller is arranged on one side, away from the film moving roller, of the synthetic paper raw material roller, and the film feeding rollers are arranged at intervals and parallel to the film moving roller;

the pressing mechanism is arranged between the film moving roller and the film feeding roller and comprises an upper pressing roller and a lower pressing roller arranged below the upper pressing roller, the upper pressing roller and the lower pressing roller are arranged in parallel at intervals, and two ends of the upper pressing roller and two ends of the lower pressing roller are rotatably arranged on the protective film supporting frame.

2. The apparatus of claim 1, wherein the synthetic paper feeding mechanism further comprises a separation roller disposed between the synthetic paper material roller and the film collecting roller.

3. The bonding laminating device of multi-layer toy as claimed in claim 1, wherein a pressing roller is arranged between the magnetic sheet feeding roller and the film moving roller, two ends of the pressing roller are rotatably connected to the mounting frame, and the pressing roller is located below the working table.

4. The laminating machine of claim 3, wherein the working table is positioned in a convex arc shape at a side where the pressing roller is positioned.

5. The apparatus of claim 1, wherein the synthetic paper feeding mechanism further comprises an auxiliary roller, both ends of the auxiliary roller are rotatably mounted on the mounting frame and transversely disposed above the working table, and the auxiliary roller is located between the film moving roller and the pressing mechanism.

6. The apparatus of claim 1, wherein a film transfer drive is connected to one end of the film transfer drum, and the film transfer drive is disposed in the mounting rack.

7. The apparatus of claim 1, wherein a synthetic paper material driver is connected to one end of the synthetic paper material drum, and the synthetic paper material driver is disposed in the mounting frame.

8. The apparatus of claim 1, wherein a driven gear is disposed at one end of the film-receiving drum, a driving gear is disposed at one end of the synthetic paper material drum, and a chain is disposed between the driving gear and the driven gear.

9. The device for laminating and adhering a multi-layered toy according to claim 1, further comprising a cutting device disposed on a side of said pressing mechanism facing away from said synthetic paper feeding mechanism.

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