CN117003043A

CN117003043A - Metal foil slicing and transferring device

Info

Publication number: CN117003043A
Application number: CN202311283249.3A
Authority: CN
Inventors: 陆迎春
Original assignee: Xinghua Jinkongque Industry Development Co ltd
Current assignee: Xinghua Jinkongque Industry Development Co ltd
Priority date: 2023-10-07
Filing date: 2023-10-07
Publication date: 2023-11-07
Anticipated expiration: 2043-10-07
Also published as: CN117003043B

Abstract

The invention belongs to the field of metal foils, in particular to a metal foil slicing and transferring device, which comprises a transport seat, wherein the middle part of the transport seat is connected with a conveyor belt, the top of one end of the transport seat is provided with a cutting table, the inner side of the cutting table is provided with a cutting knife, the top of the other end of the transport seat is provided with a driving seat, the outer side of the driving seat is attached with an attaching belt, when the metal foil contacts with the attaching belt, the metal foil just contacts with an attaching layer through the arrangement of the driving seat and the attaching belt, then, the metal foil moves to the lower part of the driving seat along with the continuing movement of the attaching belt, so that the attaching layer and the metal foil are fully pressed, then, the metal foil can be attached to the attaching belt along with the upward transportation of the attaching belt, and then, the fixed metal foil can be obtained only by cutting the attaching belt at the position.

Description

Metal foil slicing and transferring device

Technical Field

The invention belongs to the field of metal foils, and particularly relates to a metal foil slicing and transferring device.

Background

The metal foil is a thin metal sheet formed by stretching metal, and is generally manufactured by hammering or rolling. The metal foil is made of materials with good ductility, such as aluminum, copper, tin and gold, and the metal foil is made of gold, silver, copper foil and aluminum foil, wherein the gold foil is used for a plurality of times, the service time is longest, and some valuable books with preservation value are still hot stamped by the gold foil.

Along with the upgrade of the preparation process, the existing process can be used for preparing metal foils in batches, the metal raw materials are generally pressed into long strips through a cold rolling technology, two sides of the long strips are trimmed, and finally the long strips are cut at equal intervals, so that the metal foil is obtained.

The metallic foil is soft in texture and requires a piece to be transferred and stored after cutting, but the soft metallic foil is difficult to quickly transfer the cut metallic foil without damage, whether using a robotic arm or other means.

To this end, the present invention provides a foil slice transfer apparatus.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a metal foil slice transferring device, which comprises a transportation seat, wherein the middle part of the transportation seat is connected with a conveyor belt, a cutting table is arranged at the top of one end of the transportation seat, a cutting knife switch is arranged at the inner side of the cutting table, a driving seat is arranged at the top of the other end of the transportation seat, a laminating belt is laminated at the outer side of the driving seat, a driving assembly is arranged at the outer side of the driving seat and used for driving a laminating belt to move, the bottom surface of the laminating belt is laminated with the top surface of the conveyor belt, a laminating layer used for laminating metal foil is arranged on the surface of the laminating belt,

through the setting of drive seat and laminating area, the metal foil can contact with the laminating area, through the transportation speed of adjustment cutting speed and conveyer belt, let metal foil piece by piece transportation, when metal foil contacted with the laminating area, can just contact with the pasting layer, afterwards, along with the continuation motion of laminating area, the metal foil can remove the below of drive seat, let pasting layer and metal foil fully pressfitting, afterwards along with the laminating area upwards transport, just can paste the metal foil on the laminating area, the follow-up just needs to tailor this department laminating area just can obtain fixed metal foil, through this kind of setting, realized the function of shifting the metal foil piece by piece that will cut, and whole process can not cause damage or fish tail etc. to the metal foil.

Preferably, the both sides of drive seat all rigid coupling has a plurality of mounted frames that are used for suspension support, the both ends of drive seat all are slick and sly excessively set up, the both ends of drive seat all rotate and are connected with the drive roller, the one end rigid coupling of drive roller has the driving motor second that is used for driving the drive roller rotation, the bottom surface of drive seat is the level setting, through the mounted frame fixed drive seat, cooperates the slick and sly excessive setting at drive seat both ends, lets the laminating area when turning to, can have a smooth turning to, can not let the metal foil take place excessive bending, guarantees that the metal foil can not be by excessive deformation damage.

Preferably, a rotating roller is arranged between two suspension brackets, one end of the rotating roller is connected with a gear motor for driving the rotating roller to rotate, the gear motor is fixedly connected with the suspension brackets, one end of the rotating roller, which is far away from the gear motor, is rotationally connected with the suspension brackets, the rotating roller is arranged in parallel with the driving seat, the surface of the rotating roller is movably attached to the surface of the attaching band, the inside of the rotating roller is hollow, a transferring hole communicated with the inside is formed in the outer side of the rotating roller, a transferring component is arranged on the inner side of the rotating roller, the transferring component is used for attaching a bonding layer to the attaching band, if the bonding layer is firstly attached to the attaching band, the bonding layer is required to be attached to one side of the whole attaching band, the bonding layer is more and is easy to be attached to the conveyor belt, the later-stage attaching layer is inconvenient to separate, the bonding layer is firstly arranged on the transferring component through the setting of the rotating roller, the attaching band is of a simple strip structure, the transferring component can transfer the bonding layer to the attaching band when the attaching band passes through the rotating roller, and thus the attaching band can prepare the attaching band which is a PET material film suitable for attaching band.

Preferably, the transfer subassembly includes electric telescopic handle, electric telescopic handle's one end and rotor's inner wall rigid coupling, electric telescopic handle's the other end rigid coupling has the block frame, the inboard of block frame is provided with the laminating pad, the laminating pad is overlapped by the multilayer bonding layer and is constituteed, keeps apart through being stained with paper between the adjacent bonding layer, rotor's outside is provided with peels the subassembly, peels the subassembly and is used for peeling off the stained paper, and the bonding area is when transporting, and the rotor drives self rotation through the speed, and the speed is the same with the speed of conveyer belt also, at the in-process that the bonding area moved down gradually, and every time the rotor rotates a week, the laminating pad will combine with the bonding area, in extrusion process, the bonding area will take away one deck bonding layer, because the surface is smooth, so the bonding layer is taken away very easily, afterwards along with the continuation rotation of bonding pad, the bonding pad can rotate the opposite side to the bonding area, peels off the one deck of surface and is stained paper, lets next layer bonding layer expose, can repeat the transfer work.

Preferably, the stripping assembly comprises a stripping tube, the stripping tube is positioned on one side of the rotating roller, the stripping tube is attached to the surface of the rotating roller, a driving motor I for driving the stripping tube is fixedly connected with the stripping tube, the other end of the stripping tube is connected with a supporting frame, the supporting frame is annularly arranged and fixedly connected with the driving motor I, when the attaching pad rotates to one side close to the stripping tube, the attaching pad is contacted with the stripping tube from bottom to top, and the surface of the stripping tube is contacted with the attaching pad, so that the stripping paper is stripped, and the effect of stripping the paper is realized.

Preferably, the inside of peeling off the pipe is hollow setting, the middle part rigid coupling of support frame has the negative pressure machine, the inboard of support frame is hollow setting, the tip of support frame and the inboard intercommunication of peeling off the pipe to rotate with peeling off the pipe and be connected, a plurality of holes have been seted up to peeling off the outside of pipe, in order to guarantee peeling off the quality, produce the suction through the negative pressure machine, and transmit the suction to peeling off the intraductal, the suction can produce in the hole, under the effect of suction, the paper can adsorb at peeling off the surface of pipe, later can be peeled off the paper with the paper that will not be stained with in the rotatory in-process of peeling off the pipe, later closes the suction, just can let paper that will not be stained with normally drop.

Preferably, one end of the rotating roller is far away from the outside of the stripping tube, a recovery box is arranged at the top of the recovery box, a movable plate is connected to one end of the support frame, which is close to the cutting table, a hydraulic rod is connected between the movable plate and the cutting table, the movable plate is connected with the support frame through two first spring telescopic rods, paper which is not sticky to the surface of the stripping tube is contacted with the recovery box when the stripping tube rotates to the back of the rotating roller, the top edge of the recovery box is attached to the outer surface of the stripping tube, paper which is not sticky to the outside of the stripping tube is scraped, and accordingly the stripping tube falls into the recovery box, a negative pressure machine is not required to be closed, the operation steps are reduced, the first spring telescopic rods are arranged, elastic pressing force can be provided for the stripping tube, the surface attachment of the stripping tube and the rotating roller is guaranteed, and the distance between the stripping tube and the rotating roller can be adjusted through the hydraulic rod.

Preferably, the transfer hole on the surface of the rotating roller is in a bent rectangular arrangement, a stable frame is fixedly connected in the transfer hole, the stable frame is fixedly connected with the inner wall of the rotating roller, the stable frame is used for limiting the clamping frame in the inner part, so that the moving stability of the clamping frame is ensured, and the transfer hole on the surface of the rotating roller is in a rectangular state and is integrally attached to the attaching belt.

Preferably, the laminating area is flexible material, the surface of laminating area is the roughness setting, the length and the width of pasting the layer are all less than the length and the width of metal foil, the surface of conveyer belt is smooth setting, because the roughness setting on laminating area surface, can be when contacting the pasting layer with one deck pasting layer transfer the laminating area on, and because the length and the width of pasting layer are all less than metal foil, and pasting layer is covered by metal foil completely, pasting layer just can not contact with the conveyer belt like this.

Preferably, the bottom surface middle part of drive seat is the indent setting, the recess is provided with the extrusion seat in the bottom of drive seat, the extrusion seat comprises three steel roll parallel arrangement, and the joint has the constraint frame all to rotate at the both ends of steel roll, and the outside rigid coupling of constraint frame has spring telescopic link two, and the rigid coupling has lifting module between the top of two spring telescopic links two, and after the metal foil moved under the drive seat, the top surface to the laminating area was oppressed to the start lifting module drive three steel roll subsidence, because the steel roll can rotate, so the laminating area need not to stop down, improves the pasting comprehensiveness of pasting layer and metal foil in the oppression in-process, has reduced the problem that drops after pasting.

The beneficial effects of the invention are as follows:

1. according to the metal foil slice transferring device, the driving seat and the laminating belt are arranged, the metal foil is just contacted with the adhesive layer when contacted with the laminating belt, then, the metal foil moves to the lower part of the driving seat along with the continuous movement of the laminating belt, the adhesive layer and the metal foil are fully pressed, then, the metal foil can be adhered on the laminating belt along with the upward transportation of the laminating belt, and the fixed metal foil can be obtained only by cutting the laminating belt at the position.

2. According to the metal foil slice transfer device, the driving seat is fixed through the hanging frame, and smooth transition is achieved at the two ends of the driving seat in a matched mode, so that the joint belt can smoothly turn when turning, excessive bending of the metal foil can not occur, and the metal foil can not be excessively deformed and damaged.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of the transport and drive bases of the present invention;

FIG. 3 is a perspective view of a rotatable roller and stripper tube of the present invention;

FIG. 4 is a perspective view of the drive base and conformable strip of the present invention;

FIG. 5 is a front view of the present closure strip;

FIG. 6 is a cross-sectional view of a turning roll of the present invention;

FIG. 7 is a side view of the squeeze seat of the present invention;

in the figure: 1. a transport base; 2. a conveyor belt; 3. attaching a belt; 4. a driving seat; 5. a rotating roller; 6. a moving plate; 7. a cutting table; 8. a bonding pad; 9. driving a first motor; 10. stripping the tube; 11. a support frame; 12. a recovery box; 13. a hanging frame; 14. a second driving motor; 15. extruding a base; 16. an adhesive layer; 17. a clamping frame; 18. an electric telescopic rod; 19. a stabilizing frame; 20. a negative pressure machine; 21. a steel roller; 22. and a second spring telescopic rod.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Embodiment one: as shown in fig. 1 to 5, the metal foil slice transferring device according to the embodiment of the invention comprises a transport seat 1, wherein the middle part of the transport seat 1 is connected with a conveyor belt 2, a cutting table 7 is arranged at the top of one end of the transport seat 1, a cutting knife is arranged at the inner side of the cutting table 7, a driving seat 4 is arranged at the top of the other end of the transport seat 1, a laminating belt 3 is laminated at the outer side of the driving seat 4, a driving assembly is arranged at the outer side of the driving seat 4 and is used for driving the laminating belt 3 to move, the bottom surface of the laminating belt 3 is laminated with the top surface of the conveyor belt 2, and a laminating layer 16 for laminating metal foils is arranged on the surface of the laminating belt 3;

when the metal foil cutting machine works, the texture of the metal foil is softer, and after the metal foil is cut, one piece of metal foil is required to be transferred and stored, but the softer metal foil is difficult to quickly transfer the cut metal foil without damage no matter whether a mechanical arm or other methods are used;

through the arrangement of the driving seat 4 and the laminating belt 3, the metal foil before being cut is generally coiled, the metal foil is firstly transported into the cutting table 7, the cutting knife in the cutting table 7 cuts the transported metal foil into a piece of foil with the same length, the metal foil is transported by the conveyor belt 2 to move to the lower part of the driving seat 4, both ends of the laminating belt 3 are positioned above the driving seat 4, one end of the laminating belt 3 close to the cutting table 7 is connected with a winding roller, the other end extends outwards, the unused laminating belt 3 is coiled on the winding roller in a coiled form, the part attached to the bottom of the driving seat 4 is always kept straight, the driving assembly drives the laminating belt 3 to move, the moving speed of the laminating belt 3 is the same as that of the conveyor belt 2, when the cut metal foil moves to the lower part of the driving seat 4, the metal foil can be contacted with the laminating belt 3, the metal foil is transported piece by adjusting the cutting speed and the transportation speed of the conveyor belt 2, the metal foil can just contact with the pasting layer 16 when being contacted with the laminating belt 3, then, along with the continuous movement of the laminating belt 3, the metal foil can move to the lower part of the driving seat 4, the pasting layer 16 and the metal foil are fully pressed together, then, along with the upward transportation of the laminating belt 3, the metal foil can be pasted on the laminating belt 3, and the fixed metal foil can be obtained only by cutting the laminating belt 3 at the position.

As shown in fig. 1 to fig. 4, a plurality of suspension brackets 13 for suspension support are fixedly connected to two sides of the driving seat 4, two ends of the driving seat 4 are smoothly and excessively arranged, two ends of the driving seat 4 are rotatably connected with driving rollers, one end of each driving roller is fixedly connected with a driving motor II 14 for driving the driving rollers to rotate, and the bottom surface of the driving seat 4 is horizontally arranged;

during operation, the driving seat 4 is fixed through the hanging frame 13, and smooth transition at two ends of the driving seat 4 is matched, so that the joint belt 3 can smoothly turn when turning, the metal foil is not excessively bent, and the metal foil is not excessively deformed and damaged.

As shown in fig. 1 to 3, a rotating roller 5 is arranged between two suspension brackets 13, one end of the rotating roller 5 is connected with a gear motor for driving the rotating roller 5 to rotate, the gear motor is fixedly connected with the suspension brackets 13, one end of the rotating roller 5 far away from the gear motor is rotationally connected with the suspension brackets 13, the rotating roller 5 and a driving seat 4 are arranged in parallel, the surface of the rotating roller 5 is movably attached to the surface of an attaching belt 3, the inside of the rotating roller 5 is hollow, the outside of the rotating roller 5 is provided with a transfer hole communicated with the inside, the inside of the rotating roller 5 is provided with a transfer assembly, and the transfer assembly is used for attaching a layer 16 onto the attaching belt 3;

when the laminating belt 3 is in operation, if the adhesive layer 16 is attached to the laminating belt 3 at the beginning, the adhesive layer 16 is required to be attached to one side of the whole laminating belt 3, so that the laminating belt 3 suitable for laminating metal foil can be prepared, the laminating belt 3 can be made of PET film, and the laminating belt 3 is inconvenient to separate from the conveyor belt 2 due to the fact that the adhesive layer 16 is firstly placed on a transfer component through the arrangement of the rotating roller 5, and the laminating belt 3 is of a simple strip structure.

As shown in fig. 3 to 6, the transfer assembly comprises an electric telescopic rod 18, one end of the electric telescopic rod 18 is fixedly connected with the inner wall of the rotating roller 5, the other end of the electric telescopic rod 18 is fixedly connected with a clamping frame 17, the inner side of the clamping frame 17 is provided with a bonding pad 8, the bonding pad 8 is formed by overlapping a plurality of bonding layers 16, the adjacent bonding layers 16 are separated by non-sticky paper, the outer side of the rotating roller 5 is provided with a stripping assembly, and the stripping assembly is used for stripping the non-sticky paper;

during operation, when the laminating area 3 is transported, the rotating roller 5 drives the rotating roller to rotate through speed reduction, the speed is the same as that of the conveyor belt 2, in the process that the laminating area 3 gradually moves downwards, every time the rotating roller 5 rotates for a circle, the laminating pad 8 is combined with the laminating area 3, in the extrusion process, the laminating area 3 takes away one layer of the adhesive layer 16, the adhesive layer 16 is taken away easily because the surface of the adhesive layer is smooth, then the laminating pad 8 rotates to the other side of the laminating area 3 along with the continuing rotation of the laminating pad 8, the stripping component can strip one layer of the adhesive layer 16 on the surface, the next layer of the adhesive layer 16 is exposed, and the transfer operation can be repeated.

As shown in fig. 3 to 4, the stripping assembly comprises a stripping tube 10, the stripping tube 10 is positioned at one side of the rotating roller 5, the stripping tube 10 is attached to the surface of the rotating roller 5, a driving motor one 9 for driving the stripping tube 10 is fixedly connected to the stripping tube 10, a supporting frame 11 is connected to the other end of the stripping tube 10, and the supporting frame 11 is annularly arranged and fixedly connected with the driving motor one 9;

when the laminating pad 8 rotates to one side close to the stripping tube 10 in operation, the laminating pad 8 contacts with the stripping tube 10 from bottom to top, and the surface of the stripping tube 10 contacts with the laminating pad 8, so that the non-sticky paper is stripped, and the effect of stripping the non-sticky paper is realized.

As shown in fig. 3, the inside of the peeling pipe 10 is hollow, the middle part of the supporting frame 11 is fixedly connected with a negative pressure machine 20, the inside of the supporting frame 11 is hollow, the end part of the supporting frame 11 is communicated with the inside of the peeling pipe 10 and is rotationally connected with the peeling pipe 10, and a plurality of holes are formed in the outside of the peeling pipe 10;

in order to ensure the stripping quality, the negative pressure machine 20 generates a suction force and transmits the suction force to the inside of the stripping tube 10, the suction force is generated from the hole, the non-stick paper is adsorbed on the surface of the stripping tube 10 under the action of the suction force, the non-stick paper is stripped in the rotating process of the stripping tube 10, and then the suction force is closed, so that the non-stick paper can normally fall off.

As shown in fig. 1 to 3, a recovery box 12 is arranged at one end, far away from the rotating roller 5, of the outer side of the stripping tube 10, the top of the recovery box 12 is provided with an opening, one end, close to the cutting table 7, of the supporting frame 11 is connected with a moving plate 6, a hydraulic rod is connected between the moving plate 6 and the cutting table 7, and the moving plate 6 is connected with the supporting frame 11 through two spring telescopic rods;

during operation, the non-sticky paper absorbed on the surface of the stripping tube 10 can contact with the recovery box 12 when rotating to the back of the rotating roller 5, the top edge of the recovery box 12 is attached to the outer surface of the stripping tube 10, and the non-sticky paper absorbed on the outer side of the stripping tube 10 can be scraped off, so that the paper falls into the recovery box 12, the negative pressure machine 20 is not required to be closed, the operation steps are reduced, the first spring telescopic rod is arranged, elastic pressing force can be provided for the stripping tube 10, the stripping tube 10 is guaranteed to be attached to the surface of the rotating roller 5 all the time, and the distance between the stripping tube 10 and the rotating roller 5 can be adjusted through the hydraulic rod.

As shown in fig. 6, the transfer hole on the surface of the rotating roller 5 is in a curved rectangular configuration, the stabilizing frame 19 is fixedly connected in the transfer hole, the stabilizing frame 19 is fixedly connected with the inner wall of the rotating roller 5, and in operation, the setting of the stabilizing frame 19 is used for limiting the clamping frame 17 in the interior, ensuring the movement stability of the clamping frame 17, and the transfer hole on the surface of the rotating roller 5 is in a rectangular shape in a flattened state and is integrally attached to the attaching belt 3.

As shown in fig. 5, the laminating belt 3 is made of a flexible material, the surface of the laminating belt 3 is provided with a rough surface, the length and the width of the adhesive layer 16 are smaller than those of the metal foil, the surface of the conveyor belt 2 is provided with a smooth surface, and when in operation, due to the rough surface of the laminating belt 3, one layer of adhesive layer 16 can be transferred onto the laminating belt 3 when contacting the adhesive layer 16, and due to the fact that the length and the width of the adhesive layer 16 are smaller than those of the metal foil, and the adhesive layer 16 is completely covered by the metal foil, so that the adhesive layer 16 cannot contact with the conveyor belt 2.

As shown in fig. 4 to 7, the middle part of the bottom surface of the driving seat 4 is concave, the bottom inner recess of the driving seat 4 is provided with the extrusion seat 15, the extrusion seat 15 is formed by three steel rollers 21 in parallel arrangement, two ends of each steel roller 21 are rotationally clamped with a binding frame, the outer side of the binding frame is fixedly connected with a second spring telescopic rod 22, a lifting module is fixedly connected between the tops of the two second spring telescopic rods 22, and when the metal foil moves to the position right below the driving seat 4 in operation, the lifting module is started to drive the three steel rollers 21 to sink to press the top surface of the adhesive tape 3.

During operation, the metal foil before being cut is generally coiled through the arrangement of the driving seat 4 and the laminating belt 3, the metal foil is firstly transported to the cutting table 7, the cutting knife in the cutting table 7 cuts the transported metal foil into a piece of foil with the same length, the metal foil is transported to the lower part of the driving seat 4 through the conveying belt 2, both ends of the laminating belt 3 are positioned above the driving seat 4, one end of the laminating belt 3 close to the cutting table 7 is connected with a winding roller, the other end extends outwards, the unused laminating belt 3 is coiled on the winding roller in a coiled shape, the part attached to the bottom of the driving seat 4 is always kept straight, the driving assembly drives the laminating belt 3 to move, the moving speed of the laminating belt 3 is the same as that of the conveying belt 2, when the cut metal foil moves to the lower part of the driving seat 4, the metal foil is contacted with the laminating belt 3, the metal foil is transported piece by adjusting the cutting speed and the transportation speed of the conveyor belt 2, the metal foil is just contacted with the pasting layer 16 when contacted with the laminating belt 3, then the metal foil can move to the lower part of the driving seat 4 along with the continuous movement of the laminating belt 3, the pasting layer 16 and the metal foil are fully pressed together, then the metal foil can be adhered on the laminating belt 3 along with the upward transportation of the laminating belt 3, and the fixed metal foil can be obtained only by cutting the laminating belt 3 at the position, so that the function of transferring the cut metal foil piece by piece is realized, and the metal foil cannot be damaged or scratched in the whole process;

the driving seat 4 is fixed through the hanging frame 13, and smooth transition is matched with smooth transition at two ends of the driving seat 4, so that the joint belt 3 can smoothly turn when turning, the metal foil is not excessively bent, and the metal foil is not excessively deformed and damaged;

if the adhesive layer 16 is attached to the adhesive tape 3 at the beginning, the adhesive layer 16 needs to be attached to one side of the whole adhesive tape 3, so that more materials are needed, the adhesive tape is easy to adhere to the conveyor belt 2, the later-stage detachment is inconvenient, the adhesive layer 16 is firstly placed on a transfer component through the arrangement of the rotating roller 5, the adhesive tape 3 is of a simple strip structure, the transfer component transfers the adhesive layer 16 to the adhesive tape 3 when the adhesive tape 3 passes through the rotating roller 5, and therefore the adhesive tape 3 suitable for attaching metal foil can be prepared, and the adhesive tape 3 can be a PET film;

when the laminating belt 3 is transported, the rotating roller 5 drives the rotating roller to rotate by decelerating, the speed is the same as that of the conveyor belt 2, in the process of gradually downwards moving the laminating belt 3, each time the rotating roller 5 rotates for one circle, the laminating pad 8 is combined with the laminating belt 3, in the extrusion process, the laminating belt 3 brings away one layer of the adhesive layer 16, the adhesive layer 16 is easily taken away due to the fact that the surface of the adhesive layer is smooth, then the laminating pad 8 rotates to the other side of the laminating belt 3 along with the continued rotation of the laminating pad 8, the stripping assembly can strip one layer of the adhesive layer on the surface, the next layer of the adhesive layer 16 is exposed, and the transfer work can be repeated;

when the attaching pad 8 rotates to one side close to the stripping tube 10, the attaching pad 8 contacts with the stripping tube 10 from bottom to top, and the surface of the stripping tube 10 contacts with the attaching pad 8, so that the non-sticky paper is stripped, and the effect of stripping the non-sticky paper is realized;

in order to ensure the stripping quality, suction is generated by the negative pressure machine 20 and is transmitted to the inside of the stripping tube 10, the suction is generated from the holes, under the action of the suction, the non-stick paper is adsorbed on the surface of the stripping tube 10, then the non-stick paper is stripped in the rotating process of the stripping tube 10, and then the suction is closed, so that the non-stick paper can be normally stripped;

the non-sticky paper sucked on the surface of the stripping tube 10 can be contacted with the recovery box 12 when rotating to the back of the rotating roller 5, the top edge of the recovery box 12 is attached to the outer surface of the stripping tube 10, and the non-sticky paper sucked on the outer side of the stripping tube 10 can be scraped off and falls into the recovery box 12, so that the negative pressure machine 20 is not required to be closed, the operation steps are reduced, the first spring telescopic rod is arranged, elastic pressing force can be provided for the stripping tube 10, the stripping tube 10 is always attached to the surface of the rotating roller 5, and the distance between the stripping tube 10 and the rotating roller 5 can be adjusted through the hydraulic rod;

the fixing frame 19 is used for limiting the clamping frame 17 inside, ensuring the moving stability of the clamping frame 17, and the transfer hole on the surface of the rotating roller 5 is rectangular in a flattened state and is integrally attached to the attaching belt 3.

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 embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A foil slice transfer device, characterized in that: including transportation seat (1), the middle part of transportation seat (1) is connected with conveyer belt (2), the one end top of transportation seat (1) is provided with cutting table (7), the inboard of cutting table (7) is provided with cutting knife, the other end top of transportation seat (1) is provided with driving seat (4), laminating in the outside of driving seat (4) has laminating area (3), the outside of driving seat (4) is provided with drive assembly, drive assembly is used for driving laminating area (3) and removes, the bottom surface of laminating area (3) is laminated with the top surface of conveyer belt (2), the surface of laminating area (3) is provided with and is used for pasting adhesive layer (16) of foil.

2. A foil slicing and transporting apparatus as set forth in claim 1, wherein: the utility model discloses a motor drive device, including drive seat (4), a plurality of mounted frame (13) that are used for suspension support are all rigid coupling to both sides of drive seat (4), the both ends of drive seat (4) all are slick and sly excessive setting, the both ends of drive seat (4) all rotate and are connected with the drive roller, the one end rigid coupling of drive roller has drive motor two (14) that are used for driving the drive roller rotation, the bottom surface of drive seat (4) is the level setting.

3. A foil slicing and transporting apparatus as claimed in claim 2, wherein: the device comprises a rotating roller (5) arranged between two hanging frames (13), wherein one end of the rotating roller (5) is connected with a gear motor used for driving the rotating roller (5) to rotate, the gear motor is fixedly connected with the hanging frames (13), one end of the rotating roller (5) away from the gear motor is rotationally connected with the hanging frames (13), the rotating roller (5) is in parallel arrangement with a driving seat (4), the surface of the rotating roller (5) is movably attached to the surface of an attaching belt (3), the inside of the rotating roller (5) is in a hollow arrangement, a transfer hole communicated with the inside is formed in the outer side of the rotating roller (5), and a transfer assembly is arranged on the inner side of the rotating roller (5) and used for attaching a bonding layer (16) to the attaching belt (3).

4. A foil slicing and transporting apparatus as set forth in claim 3, wherein: the transfer assembly comprises an electric telescopic rod (18), one end of the electric telescopic rod (18) is fixedly connected with the inner wall of the rotating roller (5), the other end of the electric telescopic rod (18) is fixedly connected with a clamping frame (17), the inner side of the clamping frame (17) is provided with a bonding pad (8), the bonding pad (8) is formed by overlapping multiple layers of bonding layers (16), adjacent bonding layers (16) are isolated through non-sticky paper, and a stripping assembly is arranged on the outer side of the rotating roller (5) and used for stripping the non-sticky paper.

5. The metal foil slicing and transporting apparatus as set forth in claim 4, wherein: the stripping assembly comprises a stripping tube (10), the stripping tube (10) is located on one side of the rotating roller (5), the stripping tube (10) is attached to the surface of the rotating roller (5), a driving motor I (9) for driving the stripping tube (10) is fixedly connected to the stripping tube (10), a supporting frame (11) is connected to the other end of the stripping tube (10), and the supporting frame (11) is in annular arrangement and fixedly connected with the driving motor I (9).

6. A foil slicing and transporting apparatus as set forth in claim 5, wherein: the inside of peeling off pipe (10) is hollow setting, the middle part rigid coupling of support frame (11) has negative pressure machine (20), the inboard of support frame (11) is hollow setting, the tip of support frame (11) communicates with the inboard of peeling off pipe (10) to rotate with peeling off pipe (10) and be connected, a plurality of holes have been seted up in the outside of peeling off pipe (10).

7. The metal foil slicing and transporting apparatus as set forth in claim 6, wherein: the one end that live-rollers (5) were kept away from in the outside of peeling off pipe (10) is provided with recovery case (12), the top of recovery case (12) is the opening setting, the one end that support frame (11) is close to cutting board (7) is connected with movable plate (6), be connected with the hydraulic stem between movable plate (6) and cutting board (7), be connected through two spring telescopic links between movable plate (6) and support frame (11).

8. The metal foil slicing and transporting apparatus as set forth in claim 7, wherein: the transfer hole on the surface of the rotating roller (5) is in a bent rectangular arrangement, a stabilizing frame (19) is fixedly connected in the transfer hole, and the stabilizing frame (19) is fixedly connected with the inner wall of the rotating roller (5).

9. The metal foil slicing and transporting apparatus as set forth in claim 8, wherein: the laminating area (3) is flexible material, the surface of laminating area (3) is coarse setting, the length and the width of pasting layer (16) are all less than the length and the width of metal foil, the surface of conveyer belt (2) is smooth setting.

10. A foil slicing and transporting apparatus as set forth in claim 9, wherein: the bottom surface middle part of drive seat (4) is the indent setting, the bottom indent of drive seat (4) is provided with extrusion seat (15), extrusion seat (15) are by three steel roll (21) parallel arrangement constitution, and the joint has the constraint frame all to rotate at the both ends of steel roll (21), and the outside rigid coupling of constraint frame has spring telescopic link two (22), and the rigid coupling has lifting module between the top of two spring telescopic link two (22).