CN113927959A - Aluminum foil paper embossing machine and embossing process - Google Patents

Abstract

The invention discloses an aluminum foil paper embossing machine and an embossing process, and particularly relates to the technical field of aluminum foil paper processing, wherein the aluminum foil paper embossing machine comprises an underframe, a first longitudinal frame is fixedly arranged on one side of the top end of the underframe, a second longitudinal frame is fixedly arranged on one side, far away from the first longitudinal frame, of the top end of the underframe, a first positioning assembly and a second positioning assembly are respectively rotatably arranged at the top and the bottom of the first longitudinal frame, an aluminum foil paper tube is sleeved on the outer side of the first positioning assembly, and a sticky paper tube is sleeved on the outer side of the second positioning assembly The quick disassembly and replacement of the adhesive paper tube and the winding tube further improve the processing efficiency.

Description

Aluminum foil paper embossing machine and embossing process

Technical Field

The invention relates to the technical field of aluminum foil paper processing, in particular to an aluminum foil paper embossing machine and an embossing process.

Background

The aluminum foil paper is formed by pasting and bonding aluminum foil lining paper and aluminum foil; the texture is soft and easy to deform, like paper, and does not rebound after deformation; the light can be qualitatively protected, and the light cannot fall off, is light-proof and pollution-free;

aluminum foil paper is used in a wide variety of applications, such as: the aluminum foil paper is quite remarkable in building application, and is adhered to the surface of a heat-insulating material, so that the aluminum foil paper is more convenient and clean in construction, and particularly the appearance of the aluminum foil paper reaches a new height;

the traditional embossing process for the aluminum foil paper comprises the steps of firstly, adhering the aluminum foil paper and a bottom sticker together, embossing the transmitted cylindrical aluminum foil paper base material by using an embossing machine, and cutting the aluminum foil paper after the processing is finished, wherein the embossing process is relatively complex, so that the overall embossing efficiency of the aluminum foil paper is greatly reduced;

secondly, the tubular aluminum-foil base material is troublesome to detach and mount and has low stability, so that the aluminum-foil base material can deviate in the subsequent transportation process, and the embossing processing quality of the aluminum-foil paper is affected.

Disclosure of Invention

The invention aims to provide an aluminum foil paper embossing machine and an embossing process, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an aluminium foil paper coining mill, includes the chassis, top one side fixed mounting of chassis has the first frame of indulging, the chassis top is kept away from the first one side fixed mounting who indulges the frame and is indulged the frame with the second, the first top and the bottom of indulging the frame rotate respectively and install first locating component and second locating component, the outside cover of first locating component is equipped with the aluminium foil paper section of thick bamboo, the outside cover of second locating component is equipped with a viscose paper section of thick bamboo, the chassis top is close to first one side fixed mounting who indulges the frame and dredges the subassembly, the top middle part fixed mounting of chassis has the knurling subassembly, one side fixed mounting of knurling subassembly has the material subassembly, the outer wall fixed mounting of knurling subassembly has the motor, the second is indulged the mid-rotation of frame and is installed third locating component, the outside cover of third locating component is equipped with the receipts reel.

As a preferred technical solution of the present invention, the first positioning assembly includes a middle cylinder, one end of the middle cylinder is fixedly installed with a connecting shaft, one side of the inner wall of the middle cylinder close to the connecting shaft is fixedly installed with a telescopic rod, a driving end of the telescopic rod is fixedly installed with a middle shaft, an outer side of the middle shaft is movably sleeved with a stabilizing ring, the stabilizing ring is fixedly clamped in the middle cylinder, one side of the outer wall of the middle shaft close to the stabilizing ring is fixedly sleeved with a limiting ring, a first spring is fixedly installed between the limiting ring and the stabilizing ring, the outer wall of the middle cylinder is slidably clamped with a plurality of projections distributed in an annular array, opposite sides of the projections extend into the middle cylinder and are set to be in an inclined structure, a driving block used in cooperation with the projections is fixedly installed on the outer wall of the middle shaft, one side of the driving block far from the middle shaft is in contact with an inclined end of the projection, opposite sides of the projections are both fixedly installed with anti-skid pads, the outer wall fixed mounting of lug has the card protruding, the protruding slip joint of card is in well section of thick bamboo, the protruding one side of keeping away from the lug of card rotates the card and is equipped with the ball, the outer wall of ball and the inner wall contact of well section of thick bamboo, the fixed cover of one side that well section of thick bamboo outer wall is close to the connecting axle is equipped with the baffle.

As a preferred technical scheme of the present invention, the structures of the second positioning assembly and the third positioning assembly are the same as the structure of the first positioning assembly, the first positioning assembly and the second positioning assembly are both rotatably mounted on the first longitudinal frame through a connecting shaft, the third positioning assembly is rotatably mounted on the second longitudinal frame through a connecting shaft, the outer sides of the connecting shafts in the first positioning assembly and the second positioning assembly are both fixedly sleeved with a first transmission gear, and the two first transmission gears are engaged with each other.

As a preferred technical scheme of the invention, the aluminum foil paper tube is movably sleeved on the outer side of the middle tube in the first positioning assembly, the inner wall of the aluminum foil paper tube is contacted with the anti-slip pad in the first positioning assembly, the sticky paper tube is movably sleeved on the outer side of the middle tube in the second positioning assembly, the inner wall of the sticky paper tube is contacted with the anti-slip pad in the second positioning assembly, the winding tube is movably sleeved on the outer side of the middle tube in the third positioning assembly, and the inner wall of the winding tube is contacted with the anti-slip pad in the third positioning assembly.

As a preferred technical scheme, the dredging assembly comprises two dredging supports which are symmetrically distributed, the dredging supports are fixedly arranged on one side, close to the first longitudinal frame, of the top end of the underframe, two dredging rollers which are symmetrically distributed up and down are rotatably arranged between the dredging supports, second transmission gears are fixedly sleeved at the end parts of the dredging rollers, and the two second transmission gears are meshed with each other.

As a preferred technical scheme of the invention, the embossing assembly comprises an embossing bottom frame and a U-shaped frame, the embossing bottom frame is fixedly arranged in the middle of the bottom frame, a printing boss is fixedly arranged at the top end of the embossing bottom frame, the U-shaped frame is fixedly arranged in the middle of the top end of the bottom frame, an embossing top frame is arranged in the U-shaped frame, clamping blocks are fixedly arranged on two sides of the embossing top frame, the clamping blocks are slidably clamped on the inner side of the U-shaped frame, a guide pillar is movably inserted in the middle of the clamping blocks, the guide pillar is fixedly arranged in the U-shaped frame, a second spring is fixedly arranged at the top end of the clamping block, the top end of the second spring is fixedly arranged in the U-shaped frame, a top shaft is rotatably arranged at the top of the U-shaped frame, a cam is fixedly sleeved on the outer side of the top shaft, a wheel groove corresponding to the cam is arranged at the top end of the embossing top frame, and a motor is fixedly arranged at the upper end of the embossing bottom frame, the drive end of motor and the coaxial fixed mounting of tip of apical axis, the knurling underframe outer wall of motor homonymy rotates installs the auxiliary shaft, the fixed cover of outer wall of auxiliary shaft is equipped with auxiliary gear, the fixed cover of tip of apical axis is equipped with the sector gear that can mesh the connection with auxiliary gear.

As a preferred technical scheme of the invention, a cutter ring vertically corresponding to the printing boss is movably clamped at the bottom end of the embossing top frame, a ring frame is fixedly mounted at the top end of the cutter ring, the ring frame is slidably clamped in the embossing top frame, a third spring is fixedly mounted at the top end of the ring frame, a cutter groove corresponding to the cutter ring is formed in one side, close to the printing boss, of the top end of the embossing bottom frame, and a plurality of broken grooves distributed in an annular array are formed in the bottom of the cutter ring.

As a preferred technical scheme of the invention, the material removing component comprises a material removing frame, the material removing frame is fixedly arranged on one side, close to the second longitudinal frame, of the embossing top frame, and a pressing rod corresponding to the printing boss is fixedly arranged at the bottom end of the material removing frame.

As a preferred technical scheme of the invention, a first chain wheel transmission set is fixedly sleeved on the outer sides of the connecting shaft in the first positioning assembly, the end part of the dredging roller and the connecting shaft in the third positioning assembly, and a second chain wheel transmission set is fixedly sleeved on the outer sides of the auxiliary shaft and the connecting shaft in the third positioning assembly.

An embossing process of aluminum foil paper comprises the following steps:

step one, respectively movably sleeving an aluminum foil paper tube, a sticky paper tube and a winding tube on the outer side of a middle tube in a first positioning assembly, a second positioning assembly and a third positioning assembly and contacting with a baffle, then controlling and opening telescopic rods in the first positioning assembly, the second positioning assembly and the third positioning assembly, driving a corresponding middle shaft to perform stable horizontal movement in the middle tube, driving a driving block to perform horizontal movement, and synchronously driving a plurality of convex blocks to perform outward expansion sliding on the middle tube until corresponding anti-slip pads are contacted with the inner walls of the aluminum foil paper tube, the sticky paper tube and the winding tube, so as to realize outward expansion positioning of the aluminum foil paper tube, the sticky paper tube and the winding tube, and then drawing and placing the aluminum foil paper and the sticky paper on the aluminum foil paper tube and the sticky paper tube between two thinning guide rollers, between an embossing top frame and an embossing bottom frame, and winding the end part on the winding tube;

controlling and starting a motor, driving a top shaft to slowly rotate, driving a sector gear to be indirectly meshed with an auxiliary gear, driving the auxiliary shaft to indirectly rotate, driving a third positioning assembly to indirectly rotate by matching with a second chain wheel transmission set, and synchronously driving a first positioning assembly and a dredging roller to indirectly rotate by matching with a first chain wheel transmission set, thereby indirectly transporting the aluminum foil paper and the sticky paper, and synchronously pressing and roll type dredging and bonding the aluminum foil paper and the sticky paper between two dredging rollers by matching with synchronous reverse rotation of the two dredging rollers so as to facilitate subsequent processing;

step three, driving the cam to rotate slowly while the top shaft rotates slowly, extruding the embossing top frame to move downwards when the cam is movably clamped in the corresponding wheel groove, stretching a second spring, and printing the bonding base material between the embossing top frame and the embossing bottom frame through the embossing top frame and the printing boss;

step four, when the embossing top frame moves downwards to perform printing operation, the cutter ring synchronously moves downwards and is clamped in the corresponding cutter groove to synchronously cut the printed adhesive base material, so that the processing efficiency is improved, and the cut adhesive base material can still be adhered to the original base material so as to facilitate the transportation of the cut adhesive base material;

step five, in the process that the embossing top frame moves down, the plurality of pressing rods are driven to move down, so that the bonding base materials adhered to the original base materials after cutting are pressed and separated synchronously, the discharging after the bonding base materials are cut is realized, and the processing efficiency is improved.

The quick disassembling and replacing of the aluminum foil paper tube, the sticky paper tube and the winding tube are convenient, and the processing efficiency is further improved; the dredging component is arranged and matched with a motor to indirectly transport the aluminum foil paper and the sticky paper, and the aluminum foil paper and the sticky paper which are arranged between the two dredging rollers are synchronously subjected to roller pressing type dredging adhesion so as to facilitate subsequent processing; the embossing assembly is arranged, so that indirect embossing operation can be performed on the bonding base material, the bonding base material after being printed is synchronously cut, the processing efficiency is improved, the cut bonding base material can still be adhered to the original base material, so that the bonding base material after being cut can be conveniently transported, the material removing assembly is matched for use, a plurality of pressing rods are driven to move downwards in the moving-downwards process of the embossing top frame, the bonding base material adhered to the original base material after being cut is synchronously pressed and separated, the discharging of the bonding base material after being cut is realized, and the processing efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention,

FIG. 2 is a schematic structural diagram of a first positioning assembly of the present invention,

figure 3 is an enlarged view of the invention at a in figure 2,

figure 4 is an enlarged view of the invention at B in figure 3,

FIG. 5 is a schematic structural diagram of a first vertical frame, a first positioning assembly and a second positioning assembly according to the present invention,

figure 6 is a schematic structural view of the dredging component of the present invention,

FIG. 7 is a schematic view of the embossing assembly and the stripping assembly of the present invention,

figure 8 is an enlarged view of the invention at C in figure 7,

figure 9 is an enlarged view of the invention at D in figure 7,

FIG. 10 is a schematic view showing the connection of a part of the structure of the present invention.

In the figure: 1. a chassis; 2. a first longitudinal frame; 21. a second longitudinal frame; 3. a first positioning assembly; 4. a second positioning assembly; 5. a dredging component; 6. an embossing assembly; 7. a material removing component; 8. a motor; 9. a third positioning assembly; 10. a baffle plate; 11. an aluminum foil paper tube; 12. a paper pasting cylinder; 13. winding the roll; 14. a first drive gear; 15. an auxiliary shaft; 151. an auxiliary gear; 152. a sector gear; 16. a first sprocket drive group; 17. a second sprocket drive group; 31. a middle cylinder; 32. a connecting shaft; 33. a telescopic rod; 34. a middle shaft; 341. a stabilizing ring; 342. a limiting ring; 343. a first spring; 35. a bump; 351. clamping convex; 352. a ball bearing; 36. a drive block; 37. a non-slip mat; 51. a dredging bracket; 52. a dredging roller; 53. a second transmission gear; 61. an embossing bottom frame; 611. printing a boss; 612. a cutter groove; 62. a U-shaped frame; 63. embossing the top frame; 631. a clamping block; 632. a guide post; 633. a second spring; 64. a top shaft; 65. a cam; 651. a wheel groove; 66. a cutter ring; 661. breaking the groove; 67. a ring frame; 68. a third spring; 71. a material removing frame; 72. a pressure lever.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1-10, the invention provides an aluminum foil embossing machine, which comprises an underframe 1, wherein a first longitudinal frame 2 is fixedly installed on one side of the top end of the underframe 1, a second longitudinal frame 21 is fixedly installed on one side, far away from the first longitudinal frame 2, of the top end of the underframe 1, a first positioning component 3 and a second positioning component 4 are respectively and rotatably installed at the top and the bottom of the first longitudinal frame 2, an aluminum foil paper tube 11 is sleeved on the outer side of the first positioning component 3, a sticky paper tube 12 is sleeved on the outer side of the second positioning component 4, a dredging component 5 is fixedly installed on one side, near the first longitudinal frame 2, of the top end of the underframe 1, an embossing component 6 is fixedly installed in the middle of the top end of the underframe 1, a material removing component 7 is fixedly installed on one side of the embossing component 6, a motor 8 is fixedly installed on the outer wall of the embossing component 6, a third positioning component 9 is rotatably installed in the middle of the second longitudinal frame 21, and a winding drum 13 is sleeved on the outer side of the third positioning component 9.

The first positioning assembly 3 comprises a middle cylinder 31, a connecting shaft 32 is fixedly installed in the middle of one end of the middle cylinder 31, an expansion link 33 is fixedly installed on one side, close to the connecting shaft 32, of the inner wall of the middle cylinder 31, a middle shaft 34 is fixedly installed at the driving end of the expansion link 33, a stabilizing ring 341 is movably sleeved on the outer side of the middle shaft 34, the stabilizing ring 341 is fixedly clamped in the middle cylinder 31, the middle shaft 34 is driven to stably and horizontally move in the middle cylinder 31 by opening the expansion link 33, a limiting ring 342 is fixedly sleeved on one side, close to the stabilizing ring 341, of the outer wall of the middle shaft 34, a first spring 343 is fixedly installed between the limiting ring 342 and the stabilizing ring 341, when the middle shaft 34 horizontally moves, the first spring 343 is squeezed or stretched to buffer the horizontal movement of the middle shaft 34, a plurality of lugs 35 distributed in an annular array are slidably clamped on the outer wall of the middle cylinder 31, opposite sides of the lugs 35 extend into the middle cylinder 31 and are set to be inclined structures, the outer wall fixed mounting of axis 34 has the drive block 36 that uses with the cooperation of lug 35, the drive block 36 is kept away from one side of axis 34 and the contact of the slope end of lug 35, horizontal migration through axis 34 drives drive block 36 and carries out horizontal migration, thereby a plurality of lugs 35 of synchronous drive expand the slip on well section of thick bamboo 31 outward, the equal fixed mounting in the opposite sides of lug 35 has slipmat 37, the outer wall fixed mounting of lug 35 has protruding 351 of card, protruding 351 slip joint of card is in well section of thick bamboo 31, protruding 351 of card rotates the card and is equipped with ball 352 in one side of keeping away from lug 35, the outer wall of ball 352 and the inner wall contact of well section of thick bamboo 31, the outer gliding stability that expands of lug 35 on well section of thick bamboo 31 outward has been improved, the fixed cover in one side that well section of thick bamboo 31 outer wall is close to connecting axle 32 is equipped with baffle 10.

Second locating component 4, the structure of third locating component 9 is the same with the structure of first locating component 3, second locating component 4 all rotates through connecting axle 32 and installs on first indulging frame 2, third locating component 9 rotates through connecting axle 32 and installs on second indulging frame 21, first locating component 3, the outside of connecting axle 32 all fixes the cover and is equipped with first transmission gear 14 in second locating component 4, two first transmission gear 14 intermeshing, rotate through driving first locating component 3, cooperation first transmission gear 14 drives second locating component 4 antiport in step.

The aluminum foil paper tube 11 is movably sleeved on the outer side of the middle tube 31 in the first positioning assembly 3, the inner wall of the aluminum foil paper tube 11 is in contact with the anti-slip pad 37 in the first positioning assembly 3 to outwardly expand and position the aluminum foil paper tube 11, the stability of subsequent rotation of the aluminum foil paper tube 11 is improved, the sticky paper tube 12 is movably sleeved on the outer side of the middle tube 31 in the second positioning assembly 4, the inner wall of the sticky paper tube 12 is in contact with the anti-slip pad 37 in the second positioning assembly 4 to outwardly expand and position the sticky paper tube 12, the stability of subsequent rotation of the sticky paper tube 12 is improved, the stability of two aluminum foil paper base materials in the subsequent transportation process is improved, deviation is prevented, the embossing processing quality of subsequent aluminum foil paper is improved, quick disassembly and replacement of the aluminum foil paper tube 11 and the sticky paper tube 12 are convenient, the processing efficiency is further improved, the rolling tube 13 is movably sleeved on the outer side of the middle tube 31 in the third positioning assembly 9, and the inner wall of the winding drum 13 is contacted with the anti-slip pad 37 in the third positioning assembly 9, so that the winding drum 13 is positioned in an outward expanding manner, the stability of the subsequent rotation of the winding drum 13 is improved, the stability of the waste winding of the subsequent winding drum 13 is improved, and the winding drum 13 is convenient to disassemble and replace quickly.

The dredging component 5 comprises a dredging support 51, the dredging support 51 is provided with two symmetrically distributed guide rollers 52, the dredging support 51 is fixedly arranged on one side of the top end of the bottom frame 1 close to the first longitudinal frame 2, the two dredging rollers 52 which are symmetrically distributed up and down are rotatably arranged between the dredging support 51, the end parts of the dredging rollers 52 are respectively and fixedly sleeved with a second transmission gear 53, the two second transmission gears 53 are meshed with each other, during use, aluminum foil paper and sticky paper are placed between the two dredging rollers 52, one of the dredging rollers 52 is driven to rotate, the second transmission gear 53 is matched, the two dredging rollers 52 are synchronously driven to rotate reversely, the aluminum foil paper and the sticky paper which are placed between the two dredging rollers 52 are oppositely pressed to conduct dredging and bonding, and subsequent processing is facilitated.

The embossing component 6 comprises an embossing bottom frame 61 and a U-shaped frame 62, the embossing bottom frame 61 is fixedly arranged in the middle of the bottom frame 1, a printing boss 611 is fixedly arranged at the top end of the embossing bottom frame 61, the U-shaped frame 62 is fixedly arranged in the middle of the top end of the bottom frame 1, an embossing top frame 63 is arranged in the U-shaped frame 62, when in use, adhered aluminum foil paper and adhesive paper are arranged between the embossing top frame 63 and the embossing bottom frame 61, clamping blocks 631 are fixedly arranged on two sides of the embossing top frame 63, the clamping blocks 631 are slidably clamped on the inner side of the U-shaped frame 62, a guide post 632 is movably inserted in the middle of each clamping block 631, the guide post 632 is fixedly arranged in the U-shaped frame 62, a second spring 633 is fixedly arranged at the top end of each clamping block 631, the top end of the second spring 633 is fixedly arranged in the U-shaped frame 62, a top shaft 64 is rotatably arranged at the top of the U-shaped frame 62, a motor 8 is fixedly arranged at the upper end of the embossing bottom frame 61, and a driving end of the motor 8 is coaxially and fixedly arranged at the end of the top shaft 64, the cam 65 is fixedly sleeved on the outer side of the top shaft 64, the top end of the embossing top frame 63 is provided with a wheel groove 651 corresponding to the cam 65, the motor 8 is controlled and started to drive the top shaft 64 to slowly rotate, so that the cam 65 is driven to slowly rotate, when the cam 65 is movably clamped in the corresponding wheel groove 651, the embossing top frame 63 is extruded to move downwards, and the second spring 633 is stretched, so that the bonding base material between the embossing top frame 63 and the embossing bottom frame 61 is printed through the embossing top frame 63 and the printing boss 611, subsequently, the cam 65 is separated from the wheel groove 651, the second spring 633 is reset, the embossing top frame 63 moves upwards, so that the indirect downward movement driving of the embossing top frame 63 is realized, and the indirect printing operation is performed on the bonding base material;

the knurling underframe 61 outer wall of motor 8 homonymy rotates installs auxiliary shaft 15, and the fixed cover in outer wall of auxiliary shaft 15 is equipped with auxiliary gear 151, and the end fixing cover of apical axis 64 is equipped with the sector gear 152 that can mesh with auxiliary gear 151 and be connected, and when apical axis 64 rotated, drive sector gear 152 and auxiliary gear 151 indirectness meshing to the drive auxiliary shaft 15 carries out indirectness and rotates.

The bottom activity card of knurling top frame 63 is equipped with the cutter ring 66 with the vertical correspondence of printing boss 611, the top fixed mounting of cutter ring 66 has ring frame 67, ring frame 67 slip joint is in knurling top frame 63, the top fixed mounting of ring frame 67 has third spring 68, the sword groove 612 that corresponds with cutter ring 66 is seted up to one side that knurling underframe 61 top is close to printing boss 611, when knurling top frame 63 moves down and carries out the printing operation, cutter ring 66 moves down in step, and the joint is in corresponding sword groove 612, the bonding base material after the printing cuts in step, machining efficiency has been promoted, a plurality of disconnected grooves 661 that are annular array and distribute are seted up to the bottom of cutter ring 66, through setting up disconnected groove 661, the bonding base material after cutting still can with original base material adhesion, so that the transportation of bonding base material after cutting.

Remove material subassembly 7 including removing work or material rest 71, remove work or material rest 71 fixed mounting in the side that embossing top frame 63 is close to second vertical frame 21, the bottom fixed mounting who removes work or material rest 71 has the depression bar 72 that corresponds with stamp boss 611, at the in-process that embossing top frame 63 moved down, drives a plurality of depression bars 72 and moves down to the adhesion is pressed at the bonding base material of original base material and is broken away from after will cutting in step, thereby realizes the ejection of compact after the bonding base material cuts, and then has promoted machining efficiency.

The end parts of the connecting shaft 32 and the guide dredging roller 52 in the first positioning assembly 3 and the outer side of the connecting shaft 32 in the third positioning assembly 9 are fixedly sleeved with a first chain wheel transmission set 16, the outer sides of the connecting shaft 32 in the auxiliary shaft 15 and the third positioning assembly 9 are fixedly sleeved with a second chain wheel transmission set 17, when the auxiliary shaft 15 rotates indirectly, the second chain wheel transmission set 17 is matched to drive the third positioning assembly 9 to rotate indirectly, and the first chain wheel transmission set 16 is matched to synchronously drive the first positioning assembly 3 and the guide dredging roller 52 to rotate indirectly.

An embossing process of aluminum foil paper comprises the following steps:

firstly, movably sleeving an aluminum foil paper tube 11, a sticky paper tube 12 and a winding tube 13 on the outer side of a middle tube 31 in a first positioning assembly 3, a second positioning assembly 4 and a third positioning assembly 9 respectively and contacting with a baffle 10, then controlling and opening telescopic rods 33 in the first positioning assembly 3, the second positioning assembly 4 and the third positioning assembly 9, driving corresponding middle shafts 34 to stably and horizontally move in the middle tube 31, driving a driving block 36 to horizontally move, thereby synchronously driving a plurality of lugs 35 to outwards expand and slide on the middle tube 31 until corresponding anti-skid pads 37 contact with the inner walls of the aluminum foil paper tube 11, the sticky paper tube 12 and the winding tube 13, realizing the outwards expanding positioning of the aluminum foil paper tube 11, the sticky paper tube 12 and the winding tube 13, then arranging the aluminum foil paper and the sticky paper on the aluminum foil paper tube 11 and the sticky paper tube 12 between two thinning guide rollers 52, and arranging embossing drawing between a top frame 63 and an embossing bottom frame 61, and the end is wound on the take-up reel 13;

controlling and starting the motor 8, driving the top shaft 64 to rotate slowly, driving the sector gear 152 and the auxiliary gear 151 to be indirectly meshed, driving the auxiliary shaft 15 to rotate indirectly, driving the third positioning assembly 9 to rotate indirectly by matching with the second chain wheel transmission set 17, and driving the first positioning assembly 3 and the sparse guide roller 52 to rotate indirectly by matching with the first chain wheel transmission set 16, so as to indirectly transport the aluminum foil paper and the sticky paper, and synchronously rotating reversely by matching with the synchronous rotation of the two sparse guide rollers 52, and synchronously pressing and rolling type sparse adhesion is carried out on the aluminum foil paper and the sticky paper between the two sparse guide rollers 52 so as to facilitate subsequent processing;

step three, the top shaft 64 drives the cam 65 to rotate slowly while rotating slowly, when the cam 65 is movably clamped in the corresponding wheel groove 651, the embossing top frame 63 is extruded to move downwards, the second spring 633 is stretched, and therefore printing operation is carried out on the bonding base material between the embossing top frame 63 and the embossing bottom frame 61 through the embossing top frame 63 and the printing boss 611, subsequently, the cam 65 is separated from the wheel groove 651, the second spring 633 resets, the embossing top frame 63 moves upwards, so that indirect downward movement driving of the embossing top frame 63 is achieved, and indirect printing operation is carried out on the bonding base material;

step four, when the embossing top frame 63 moves downwards to perform printing operation, the cutter ring 66 synchronously moves downwards and is clamped in the corresponding cutter groove 612 to synchronously cut the printed adhesive base material, so that the processing efficiency is improved, and the cut adhesive base material can still be adhered to the original base material so as to facilitate the transportation of the cut adhesive base material;

step five, in the process that the embossing top frame 63 moves downwards, the plurality of pressing rods 72 are driven to move downwards, so that the bonding base materials which are adhered to the original base materials after being cut are pressed and separated synchronously, the discharging of the bonding base materials after being cut is realized, and the processing efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an aluminium foil paper coining mill, includes chassis (1), its characterized in that: the top end of the chassis (1) is fixedly provided with a first longitudinal frame (2), the top end of the chassis (1) is far away from the first longitudinal frame (2), one side fixed mounting of the second longitudinal frame (21) is arranged at the top end of the chassis (1), the top and the bottom of the first longitudinal frame (2) are respectively rotatably provided with a first positioning component (3) and a second positioning component (4), the outer side of the first positioning component (3) is sleeved with an aluminum foil paper tube (11), the outer side of the second positioning component (4) is sleeved with a sticky paper tube (12), one side fixed mounting of the top end of the chassis (1) close to the first longitudinal frame (2) is provided with a dredging component (5), the top end of the chassis (1) is fixedly provided with an embossing component (6), one side fixed mounting of the embossing component (6) is provided with a material removing component (7), and the outer wall of the embossing component (6) is fixedly provided with a motor (8), the middle part of the second longitudinal frame (21) is rotatably provided with a third positioning component (9), and a winding drum (13) is sleeved on the outer side of the third positioning component (9).

2. The aluminum-foil embossing machine as set forth in claim 1, wherein: the first positioning assembly (3) comprises a middle cylinder (31), a connecting shaft (32) is fixedly mounted at one end of the middle cylinder (31), a telescopic rod (33) is fixedly mounted at one side, close to the connecting shaft (32), of the inner wall of the middle cylinder (31), a middle shaft (34) is fixedly mounted at the driving end of the telescopic rod (33), a stabilizing ring (341) is movably sleeved at the outer side of the middle shaft (34), the stabilizing ring (341) is fixedly clamped in the middle cylinder (31), a limiting ring (342) is fixedly sleeved at one side, close to the stabilizing ring (341), of the outer wall of the middle cylinder (34), a first spring (343) is fixedly mounted between the limiting ring (342) and the stabilizing ring (341), a plurality of convex blocks (35) distributed in an annular array are arranged in a sliding clamping manner on the outer wall of the middle cylinder (31), opposite sides of the convex blocks (35) extend into the middle cylinder (31) and are set to be inclined structures, the outer wall fixed mounting of axis (34) has drive block (36) with lug (35) cooperation use, the one side of axis (34) and the slope end contact of lug (35) are kept away from in drive block (36), the equal fixed mounting in the opposite sides of lug (35) has slipmat (37), the outer wall fixed mounting of lug (35) has protruding (351) of card, the protruding (351) of card slip joint is in well section of thick bamboo (31), the protruding (351) of card one side of keeping away from lug (35) is rotated the card and is equipped with ball (352), the outer wall of ball (352) and the inner wall contact of well section of thick bamboo (31), one side fixed cover that well section of thick bamboo (31) outer wall is close to connecting axle (32) is equipped with baffle (10).

3. The aluminum-foil embossing machine as set forth in claim 2, wherein: the structure of second locating component (4), third locating component (9) is the same with the structure of first locating component (3), second locating component (4) all rotate through connecting axle (32) and install on first indulging frame (2), third locating component (9) are installed on second indulging frame (21) through connecting axle (32) rotation, the outside of connecting axle (32) all is fixed the cover in first locating component (3), second locating component (4) is equipped with first transmission gear (14), two first transmission gear (14) intermeshing.

4. The aluminum-foil embossing machine as set forth in claim 3, wherein: the outer side of a middle cylinder (31) is movably sleeved in a first positioning assembly (3) through an aluminum foil paper cylinder (11), the inner wall of the aluminum foil paper cylinder (11) is in contact with an anti-slip pad (37) in the first positioning assembly (3), the outer side of the middle cylinder (31) is movably sleeved in a second positioning assembly (4) through a paper adhesive cylinder (12), the inner wall of the paper adhesive cylinder (12) is in contact with the anti-slip pad (37) in the second positioning assembly (4), the outer side of the middle cylinder (31) is movably sleeved in a third positioning assembly (9) through a winding cylinder (13), and the inner wall of the winding cylinder (13) is in contact with the anti-slip pad (37) in the third positioning assembly (9).

5. The aluminum-foil embossing machine as set forth in claim 4, wherein: dredge subassembly (5) including dredging support (51), dredge support (51) and be equipped with two that are the symmetric distribution, dredge support (51) fixed mounting is close to the first one side of indulging frame (2) on chassis (1) top, dredge and rotate between support (51) and install two that are upper and lower symmetric distribution and dredge deflector roll (52), the equal fixed cover of tip of dredging deflector roll (52) is equipped with second drive gear (53), two second drive gear (53) intermeshing.

6. The aluminum-foil embossing machine as set forth in claim 5, wherein: the embossing assembly (6) comprises an embossing bottom frame (61) and a U-shaped frame (62), the embossing bottom frame (61) is fixedly installed in the middle of the bottom frame (1), a printing boss (611) is fixedly installed at the top end of the embossing bottom frame (61), the U-shaped frame (62) is fixedly installed in the middle of the top end of the bottom frame (1), an embossing top frame (63) is arranged in the U-shaped frame (62), a clamping block (631) is fixedly installed on the two sides of the embossing top frame (63), the clamping block (631) is slidably connected to the inner side of the U-shaped frame (62), a guide pillar (632) is movably inserted in the middle of the clamping block (631), the guide pillar (632) is fixedly installed in the U-shaped frame (62), a second spring (633) is fixedly installed on the top end of the clamping block (631), a top end of the second spring (633) is fixedly installed in the U-shaped frame (62), and a top shaft (64) is rotatably installed on the top of the U-shaped frame (62), the fixed cover in outside of apical axis (64) is equipped with cam (65), race (651) that correspond with cam (65) are seted up on the top of knurling apical frame (63), motor (8) fixed mounting is in the outer wall upper end of knurling underframe (61), the drive end of motor (8) and the coaxial fixed mounting of tip of apical axis (64), knurling underframe (61) outer wall of motor (8) homonymy rotates and installs auxiliary shaft (15), the outer wall fixed cover of auxiliary shaft (15) is equipped with auxiliary gear (151), the end fixing cover of apical axis (64) is equipped with sector gear (152) that can mesh the connection with auxiliary gear (151).

7. The embossing machine for aluminum-foil paper as set forth in claim 6, wherein: the utility model discloses a knurling tool, including knurling top frame (63), the bottom activity card of knurling top frame (63) is equipped with and prints the vertical corresponding cutter ring (66) of boss (611), the top fixed mounting of cutter ring (66) has ring frame (67), ring frame (67) slip joint is in knurling top frame (63), the top fixed mounting of ring frame (67) has third spring (68), sword groove (612) that correspond with cutter ring (66) are seted up to one side that knurling underframe (61) top is close to printing boss (611), a plurality of disconnected grooves (661) that are the distribution of annular array are seted up to the bottom of cutter ring (66).

8. The embossing machine for aluminum-foil paper as set forth in claim 6, wherein: the material removing assembly (7) comprises a material removing frame (71), the material removing frame (71) is fixedly installed on one side, close to the second longitudinal frame (21), of the embossing top frame (63), and a pressing rod (72) corresponding to the printing boss (611) is fixedly installed at the bottom end of the material removing frame (71).

9. The aluminum-foil embossing machine as set forth in claim 8, wherein: the end part of the connecting shaft (32) and the dredging roller (52) in the first positioning assembly (3) and the outer side of the connecting shaft (32) in the third positioning assembly (9) are fixedly sleeved with a first chain wheel transmission group (16), and the outer side of the connecting shaft (32) in the auxiliary shaft (15) and the third positioning assembly (9) is fixedly sleeved with a second chain wheel transmission group (17).

10. An embossing process of aluminum foil paper is characterized by comprising the following steps:

step one, movably sleeving an aluminum foil paper tube (11), a sticky paper tube (12) and a winding tube (13) on the outer sides of middle tubes (31) of a first positioning assembly (3), a second positioning assembly (4) and a third positioning assembly (9) respectively and contacting with a baffle (10), then controlling and opening telescopic rods (33) in the first positioning assembly (3), the second positioning assembly (4) and the third positioning assembly (9), driving corresponding middle shafts (34) to perform stable horizontal movement in the middle tubes (31), driving a driving block (36) to perform horizontal movement, and further synchronously driving a plurality of convex blocks (35) to perform outward expansion sliding on the middle tubes (31) until corresponding anti-skidding pads (37) contact with the aluminum foil paper tube (11) and the sticky paper tube (12) contact with the inner wall of the winding tube (13), so as to realize outward expansion positioning of the aluminum foil paper tube (11), the sticky paper tube (12) and the winding tube (13), then, drawing and placing the aluminum foil paper tube (11), the aluminum foil paper on the sticky paper tube (12) and the sticky paper between two thinning and guiding rollers (52), between an embossing top frame (63) and an embossing bottom frame (61), and winding the end parts on a winding drum (13);

controlling and starting a motor (8), driving a top shaft (64) to rotate slowly, driving a sector gear (152) and an auxiliary gear (151) to be indirectly meshed, driving an auxiliary shaft (15) to rotate indirectly, driving a third positioning assembly (9) to rotate indirectly by matching with a second chain wheel transmission set (17), and driving a first positioning assembly (3) and a sparse guide roller (52) to rotate indirectly by matching with a first chain wheel transmission set (16) synchronously, thereby carrying out indirect transportation on the aluminum foil paper and the sticky paper, carrying out press-roll type sparse adhesion on the aluminum foil paper and the sticky paper between the two sparse guide rollers (52) synchronously by matching with synchronous reverse rotation of the two sparse guide rollers (52), and facilitating subsequent processing;

step three, the top shaft (64) drives the cam (65) to rotate slowly while rotating slowly, when the cam (65) is movably clamped in the corresponding wheel groove (651), the embossing top frame (63) is extruded to move downwards, the second spring (633) is stretched, and therefore printing operation is conducted on the bonding base material between the embossing top frame (63) and the embossing bottom frame (61) through the embossing top frame (63) and the printing boss (611), then the cam (65) is separated from the wheel groove (651), the second spring (633) resets, the embossing top frame (63) moves upwards, so that indirect downward movement driving of the embossing top frame (63) is achieved, and indirect printing operation is conducted on the bonding base material;

step four, when the embossing top frame (63) moves downwards to perform printing operation, the cutter ring (66) moves downwards synchronously and is clamped in the corresponding cutter groove (612), the printed adhesive base material is cut synchronously, the processing efficiency is improved, and the cut adhesive base material can be adhered to the original base material so as to facilitate the transportation of the cut adhesive base material;

step five, in the process that the embossing top frame (63) moves downwards, the plurality of pressing rods (72) are driven to move downwards, so that the bonding base materials which are adhered to the original base materials after being cut are pressed and separated synchronously, the discharging of the bonding base materials after being cut is realized, and the processing efficiency is further improved.

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