CN115782306A - Aluminum foil paper adjustable embossing device and embossing method - Google Patents

Abstract

The invention discloses an aluminum foil paper adjusting type embossing device which comprises an aluminum foil paper embossing base rack assembly, wherein two groups of embossing roller assemblies are arranged on the aluminum foil paper embossing base rack assembly, an aluminum foil paper adjusting type embossing roller structure is formed between the two groups of embossing roller assemblies, an aluminum foil paper initial penetrating push arm assembly is arranged on one side of the aluminum foil paper embossing base rack assembly, the aluminum foil paper initial penetrating push arm assembly forms a penetrating paper placing structure before aluminum foil paper embossing on the aluminum foil paper embossing base rack assembly, when the aluminum foil paper embossing device is used, an initial end of the aluminum foil paper is fixedly pressed on an aluminum foil paper initial penetrating rod through a magnetic absorption pressing block, a second driving motor is started, extension and pushing of a scissor push arm are achieved, and at the moment, through matching between a push arm guide rail shaft rod and a guide rail sliding groove, the aluminum foil paper initial penetrating rod carries a set penetrating and laying track from a first transmission guide roller, a second transmission guide roller and two groups of embossing roller assemblies along with the initial end of the aluminum foil paper.

Description

Aluminum foil paper adjusting type embossing device and embossing method

Technical Field

The invention belongs to the technical field of aluminum foil paper processing, and particularly relates to an adjustable embossing device and an embossing method for aluminum foil paper.

Background

The aluminum foil paper is used as an industrial manufacturing raw and auxiliary material, is mainly applied to packaging protection, articles for daily use, buildings and the like, and is a novel industrial material. Will replace single material more and be widely applied to various flexible packages. With economic development, china must become the world's leading market for packaging demanders. The aluminum foil package has wide development prospect.

The prior art has the following problems: aluminium foil paper is adding man-hour at actual impressed watermark, there is the problem once, when actual impressed watermark, it is at the rolling with unreel the in-process through aluminium foil paper roll more, realize that the impressed watermark is handled, the guide roll of this in-process is the distribution of falling by mistake, this kind of formula of falling by mistake distributes and is the fold of avoiding the rolling with unreeling in-process aluminium foil paper, but this kind of mode, just lead to when we actually use, need wear to establish each guide roll with the initial end of aluminium foil paper in proper order, it is more troublesome and loaded down with trivial details, current aluminium foil paper embossing roll is when interval regulation simultaneously, lack protection architecture, if the embossing roll supports the back and is close to again, the deformation of roll body takes place easily, consequently, need to solve this kind of realistic problem urgently.

Disclosure of Invention

To solve the problems raised in the background art described above. The invention provides an aluminum foil adjustable embossing device and an embossing method, which have the characteristics of safe use of an aluminum foil embossing roller and convenience in initial penetration.

In order to achieve the purpose, the invention provides the following technical scheme: the aluminum foil paper adjustable embossing device comprises an aluminum foil paper embossing base frame assembly, wherein two groups of embossing roller assemblies are arranged on the aluminum foil paper embossing base frame assembly, an aluminum foil paper adjustable embossing roller structure is formed between the two groups of embossing roller assemblies, one side of the aluminum foil paper embossing base frame assembly is provided with an aluminum foil paper initial penetrating push arm assembly, and the aluminum foil paper initial penetrating push arm assembly forms a penetrating paper placing structure before aluminum foil paper embossing on the aluminum foil paper embossing base frame assembly;

aluminium foil paper impressed watermark base frame subassembly includes aluminium foil paper impressed watermark frame base, fixed first end frame and the second end frame of being provided with in aluminium foil paper impressed watermark frame base one side, and the fixed guide rail end platform that is provided with of aluminium foil paper impressed watermark frame base opposite side, the guide rail end bench is provided with the guide rail spout, and guide rail end platform one end is provided with two screw screws and drives two screw pivoted second driving motor, it is provided with first conveying deflector roll and second conveying deflector roll to rotate on the first end frame, be provided with first spacing spout platform, the spacing spout platform of second and first driving motor on the second end frame, be provided with impressed watermark interval adjusting gear on first driving motor's the output axostylus axostyle.

Preferably, the embossing roller assembly comprises an embossing roller supporting end table, an embossing roller inner shaft rod is arranged on the inner side surface of the embossing roller supporting end table, the embossing roller inner shaft rod is provided with an embossing roller outer cylinder through a support rod, a third driving motor, an L-shaped support arm and an end table supporting table are arranged on the outer side surface of the embossing roller supporting end table, a support arm rack plate is fixedly arranged on the L-shaped support arm, a guide slide arm rod is fixedly arranged on the end table supporting table, a slide arm rod end disc is fixedly arranged at the top of the guide slide arm rod, and a pushing spring is sleeved on the guide slide arm rod;

the aluminum foil paper initially penetrates through the pushing arm assembly and comprises a scissor pushing arm, an internal thread base table is arranged at the rear end of the scissor pushing arm, a tip shaft table is arranged at the front end of the scissor pushing arm, a shaft table top cross frame and a shaft table bottom cross frame are arranged at the top and the bottom of the tip shaft table respectively, moving wheels are arranged on the shaft table bottom cross frame, a pushing arm guide sliding rod is arranged on the shaft table top cross frame in a penetrating and sliding mode, a pushing arm T-shaped vertical frame is arranged at the top of the pushing arm guide sliding rod, an aluminum foil paper initially penetrating rod is fixedly arranged on the inner side face of the pushing arm T-shaped vertical frame, a pushing arm guide rail shaft rod is arranged on the outer side face of the pushing arm T-shaped vertical frame in a rotating mode, and a magnetic suction block is arranged on the aluminum foil paper initially penetrating rod.

Preferably, the height of first conveying guide roller is less than the height of second conveying guide roller, form the aluminium foil paper embossing conveying guide roller structure of dislocation formula between first conveying guide roller and the second conveying guide roller, the both ends of aluminium foil paper embossing frame base one side all are provided with first conveying guide roller and second conveying guide roller.

Preferably, one group of embossing roller assemblies is arranged on a second limiting sliding groove table, the other group of embossing roller assemblies is arranged on a first limiting sliding groove table, the guide sliding arm rod slides up and down on the second limiting sliding groove table, two ends of the pushing spring respectively abut against the sliding arm rod end disc and the second limiting sliding groove table, one group of embossing roller assemblies is in a structure far away from the second limiting sliding groove table through pushing of the pushing spring, and the arrangement mode of the other group of embossing roller assemblies on the first limiting sliding groove table is consistent with that of the embossing roller assemblies on the second limiting sliding groove table.

Preferably, a set of support arm rack plate on the embossing roller subassembly meshes with one side of embossing interval adjusting gear, another group support arm rack plate on the embossing roller subassembly meshes with the opposite side of embossing interval adjusting gear, the rotation of embossing interval adjusting gear drives and is close to each other or keep away from between two sets of embossing roller subassembly, the plate body of L type support arm is certainly not paved with to the length of support arm rack plate.

Preferably, when the embossing space adjusting gear drives the two embossing roller assemblies to synchronously approach to embossing, and when the embossing space between the two embossing roller assemblies reaches the limit, the support arm rack plate and the embossing space adjusting gear are in a structure which does not engage any more, and an aluminum foil paper embossing gap is formed between the two embossing roller outer cylinders on the two embossing roller assemblies.

Preferably, the two internal thread seat platforms are in threaded connection at two ends of a double-thread screw rod, the double-thread screw rod is driven to rotate in two directions by the second driving motor, the two internal thread seat platforms are in mutual approaching or separating actions, and the scissors push arm is in a structure of extending, pushing or retracting reset at the moment.

Preferably, the push arm guide slide bar penetrates through and slides up and down on the cross frame at the top of the pillow block, the push arm guide rail shaft rod is guided to roll in the guide rail sliding groove, the guide rail sliding groove is of a curve sliding groove structure which is the same as the tracks of the first conveying guide roller, the second conveying guide roller and the two embossing roller assemblies, the aluminum foil paper is arranged at the bottom of the first conveying guide roller in a penetrating mode, and the aluminum foil paper is arranged at the top of the second conveying guide roller in a penetrating mode.

The embossing method of the aluminum-foil paper adjustable embossing device comprises the following steps,

the method comprises the following steps: through the cooperation of impressed watermark interval adjustment gear and two sets of impressed watermark roller assembly for the impressed watermark clearance between two sets of impressed watermark roller assembly is opened, and the wearing to establish of convenient follow-up aluminium foil paper is spread the frame.

Step two: pressing the initial end of the aluminum foil paper on the initial penetrating rod of the aluminum foil paper through the magnetic suction pressing block, starting a second driving motor, realizing the extension pushing of the scissor pushing arm, and then through the matching between the pushing arm guide rail shaft rod and the guide rail sliding groove, the initial penetrating rod of the aluminum foil paper is provided with the initial end of the aluminum foil paper to be laid along the set track between the first transmission guide roller, the second transmission guide roller and the two sets of embossing roller assemblies.

Thirdly, the steps of: and the embossing gap between the two embossing roller assemblies is adjusted to be smaller through the reverse matching between the embossing gap adjusting gear and the two embossing roller assemblies, so that the embossing requirements of the aluminum foil paper with different thicknesses are met.

Compared with the prior art, the invention has the beneficial effects that: when the invention is used, the height of the first transmission guide roller is lower than that of the second transmission guide roller, a staggered aluminum foil paper embossing transmission guide roller structure is formed between the first transmission guide roller and the second transmission guide roller, the mode is set, in order to avoid the wrinkle and the unevenness of the aluminum foil paper during transmission, simultaneously, a support arm rack plate on one group of embossing roller assemblies is meshed with one side of an embossing interval adjusting gear, a support arm rack plate on the other group of embossing roller assemblies is meshed with the other side of the embossing interval adjusting gear, the rotation of the embossing interval adjusting gear drives two groups of embossing roller assemblies to mutually approach or separate, when the embossing rollers are far away, the threading of the aluminum foil paper is convenient, when the embossing rollers are close, the embossing processing is carried out, because the laying track of the aluminum foil paper is curved, when the embossing of the aluminum foil paper is laid, the initial end of the aluminum foil paper is pressed and fixed on an initial threading rod of the aluminum foil paper through a magnetic suction pressing block, starting a second driving motor to realize the extension pushing of the scissor pushing arm, and at the moment, through the matching between the pushing arm guide rail shaft lever and the guide rail sliding groove, the aluminum foil paper is initially laid by the rod with the initial end of the aluminum foil paper from the first conveying guide roller, the second conveying guide roller and the two groups of embossing roller assemblies in a penetrating way with a set track, through the mode, the aluminum foil paper is greatly, simply and quickly laid in the initial embossing process, meanwhile, through the matching between the embossing interval adjusting gear and the two groups of embossing roller assemblies, the embossing gap between the two groups of embossing roller assemblies is adjusted to be small, the embossing requirements of the aluminum foil paper with different thicknesses are met, one group of embossing roller assemblies is arranged on a second limiting sliding groove table, the other group of embossing roller assemblies is arranged on the first limiting sliding groove table, the guide sliding arm lever slides up and down on the second limiting sliding groove table, and the two ends of the pushing spring respectively abut against the sliding arm lever end disc and the second limiting sliding groove table, through the top that pushes away the spring, a set of embossing roller subassembly is in the structure of keeping away from the spacing spout platform of second, the plate body of L type support arm is not paved to the length of support arm rack board certainly, when embossing interval adjusting gear drives two sets of embossing roller subassemblies and is close to the knurling in step, when the knurling interval between two sets of embossing roller subassemblies reaches the limit, support arm rack board and embossing interval adjusting gear are in the structure that does not engage the action again, through this kind of mode, when interval regulation reaches the limit between two sets of embossing roller subassemblies, two sets of embossing roller subassemblies are no longer close to, thereby avoid the contact extrusion deformation between the embossing roller.

Drawings

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

FIG. 2 is a perspective view from another perspective of the present invention;

FIG. 3 is an exploded view of the present invention;

FIG. 4 is a perspective view of the aluminum-foil embossing base frame assembly of the present invention;

FIG. 5 is a perspective view of the embossing roll assembly of the present invention in use;

FIG. 6 is a perspective view of the embossing roll assembly of the present invention;

FIG. 7 is a perspective view of the aluminum-foil paper initially passing through the push arm assembly of the present invention;

in the figure: 100. an aluminum foil paper embossing base frame component; 101. an aluminum foil paper embossing rack base; 102. a first conveying guide roller; 103. a first end frame; 104. a second transfer guide roller; 105. a second end frame; 106. a first limiting chute table; 107. a first drive motor; 108. an embossing pitch adjustment gear; 109. a second limiting chute table; 110. a guide rail end table; 111. a guide rail chute; 112. a second drive motor; 113. a double-threaded screw; 200. an embossing roll assembly; 201. the embossing roll supports the end table; 202. embossing roll inner shaft rods; 203. an embossing roller outer cylinder; 204. a third drive motor; 205. an L-shaped support arm; 206. a support arm rack plate; 207. an end table support table; 208. a guide slide arm lever; 209. a pushing spring; 210. a boom arm end plate; 300. the aluminum foil paper initially penetrates through the push arm assembly; 301. a scissor push arm; 302. an internal thread seat stand; 303. an end pillow block; 304. a pillow block top cross frame; 305. the push arm guides the slide bar; 306. a push arm T-shaped vertical frame; 307. a push arm guide rail shaft lever; 308. the aluminum foil paper initially penetrates through the rod; 309. magnetically sucking the pressing block; 310. a horizontal frame at the bottom of the pillow block; 311. the wheel is moved.

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.

Referring to fig. 1-7, the present invention provides the following technical solutions: an aluminum foil paper adjustable embossing device comprises an aluminum foil paper embossing base frame assembly 100, wherein two groups of embossing roller assemblies 200 are arranged on the aluminum foil paper embossing base frame assembly 100, an aluminum foil paper adjustable embossing roller structure is formed between the two groups of embossing roller assemblies 200, one side of the aluminum foil paper embossing base frame assembly 100 is provided with an aluminum foil paper initial penetrating push arm assembly 300, and the aluminum foil paper initial penetrating push arm assembly 300 forms a penetrating paper placing structure on the aluminum foil paper embossing base frame assembly 100 before aluminum foil paper embossing;

the aluminum foil embossing base rack assembly 100 comprises an aluminum foil embossing rack base 101, wherein a first end frame 103 and a second end frame 105 are fixedly arranged on one side of the aluminum foil embossing rack base 101, a guide rail end table 110 is fixedly arranged on the other side of the aluminum foil embossing rack base 101, a guide rail sliding groove 111 is formed in the guide rail end table 110, a double-thread screw 113 and a second driving motor 112 for driving the double-thread screw 113 to rotate are arranged at one end of the guide rail end table 110, a first transmission guide roller 102 and a second transmission guide roller 104 are rotatably arranged on the first end frame 103, a first limiting sliding groove table 106, a second limiting sliding groove table 109 and a first driving motor 107 are arranged on the second end frame 105, an output shaft rod of the first driving motor 107 is provided with an interval adjusting gear 108, the height of the first transmission embossing guide roller 102 is lower than that of the second transmission embossing guide roller 104, a staggered aluminum foil transmission embossing guide roller structure is formed between the first transmission embossing guide roller 102 and the second transmission embossing guide roller 104, and a first transmission guide roller 102 and a second transmission guide roller 104 are arranged at two ends of one side of the aluminum foil embossing rack base 101;

the embossing roller assembly 200 comprises an embossing roller supporting end platform 201, an embossing roller inner shaft rod 202 is arranged on the inner side surface of the embossing roller supporting end platform 201, the embossing roller inner shaft rod 202 is provided with an embossing roller outer cylinder 203 through a support rod, a third driving motor 204, an L-shaped supporting arm 205 and an end platform supporting platform 207 are arranged on the outer side surface of the embossing roller supporting end platform 201, a supporting arm rack plate 206 is fixedly arranged on the L-shaped supporting arm 205, a guiding slide arm rod 208 is fixedly arranged on the end platform supporting platform 207, a slide arm rod end disc 210 is fixedly arranged at the top of the guiding slide arm rod 208, a pushing spring 209 is sleeved on the guiding slide arm rod 208, one group of embossing roller assemblies 200 is arranged on a second limiting slide groove platform 109, the other group of embossing roller assemblies 200 is arranged on a first limiting slide groove platform 106, the guiding slide arm rod 208 slides up and down on the second limiting slide groove platform 109, two ends of the pushing spring 209 are respectively abutted against the slide arm rod end disc 210 and the second limiting slide groove platform 109, through the pushing of the pushing spring 209, one group of embossing roller assemblies 200 is located far away from the second limiting sliding groove table 109, the arrangement mode of the other group of embossing roller assemblies 200 in the first limiting sliding groove table 106 is the same as that of the embossing roller assemblies 200 arranged on the second limiting sliding groove table 109, the support arm rack plate 206 on one group of embossing roller assemblies 200 is meshed with one side of the embossing spacing adjusting gear 108, the support arm rack plate 206 on the other group of embossing roller assemblies 200 is meshed with the other side of the embossing spacing adjusting gear 108, the rotation of the embossing spacing adjusting gear 108 drives the two groups of embossing roller assemblies 200 to approach or separate from each other, the length of the support arm rack plate 206 is certain and is not fully paved with the plate body of the L-shaped support arm 205, when the embossing spacing adjusting gear 108 drives the two groups of embossing roller assemblies 200 to approach embossing synchronously, and when the embossing spacing between the two groups of embossing roller assemblies 200 reaches the limit, the support arm rack plate 206 and the embossing space adjusting gear 108 are in a structure without meshing action, and an aluminum foil embossing gap is formed between the two embossing roller outer cylinders 203 on the two embossing roller assemblies 200;

the aluminum foil paper initial penetration pushing arm component 300 comprises a scissor pushing arm 301, the rear end of the scissor pushing arm 301 is provided with an internal thread base platform 302, the front end of the scissor pushing arm 301 is provided with an end boss 303, the top and the bottom of the end boss 303 are respectively provided with a boss top cross frame 304 and a boss bottom cross frame 310, the boss bottom cross frame 310 is provided with a moving wheel 311, the boss top cross frame 304 is provided with a pushing arm guide slide bar 305 in a penetrating and sliding manner, the top of the pushing arm guide slide bar 305 is provided with a pushing arm T-shaped vertical frame 306, the inner side surface of the pushing arm T-shaped vertical frame 306 is fixedly provided with an aluminum foil paper initial penetration rod 308, the outer side surface of the pushing arm T-shaped vertical frame 306 is rotatably provided with a pushing arm guide rail shaft rod 307, the aluminum foil paper initial penetration rod 308 is provided with a magnetic suction pressing block 309, the two internal thread seat platforms 302 are in threaded connection at two ends of the double-thread screw 113, the double-thread screw 113 is driven to rotate bidirectionally through the second driving motor 112, the two internal thread seat platforms 302 are in mutual approaching or separating actions, at the moment, the scissors push arms 301 are in a structure of extending outward or retracting backward, the push arm guide sliding rods 305 penetrate and slide up and down on the cross frame 304 at the top of the shaft platform, the push arm guide shaft rods 307 roll in the guide rail sliding grooves 111 in a guiding manner, the guide rail sliding grooves 111 are of a curve sliding groove structure with the same tracks as the first conveying guide roller 102, the second conveying guide roller 104 and the two groups of embossing roller assemblies 200, the aluminum foil paper penetrates through the bottom of the first conveying guide roller 102, and the aluminum foil paper penetrates through the top of the second conveying guide roller 104.

The embossing method of the aluminum foil paper regulating type embossing device comprises the following steps,

the method comprises the following steps: through the cooperation of the embossing spacing adjusting gear 108 and the two groups of embossing roller assemblies 200, the embossing gap between the two groups of embossing roller assemblies 200 is opened, and the subsequent aluminum foil paper is convenient to wear to lay.

Step two: pressing and fixing the initial end of the aluminum foil paper on an aluminum foil paper initial penetrating rod 308 through a magnetic suction pressing block 309, starting a second driving motor 112 to realize the extension and pushing of the scissor pushing arm 301, and at the moment, through the matching between the pushing arm guide rail shaft rod 307 and the guide rail sliding groove 111, the aluminum foil paper initial penetrating rod 308 drives the initial end of the aluminum foil paper to perform penetrating and laying of a set track from the positions among the first conveying guide roller 102, the second conveying guide roller 104 and the two groups of embossing roller assemblies 200.

Thirdly, the steps of: and the embossing gap between the two embossing roller assemblies 200 is adjusted to be smaller through the reverse matching between the embossing gap adjusting gear 108 and the two embossing roller assemblies 200, so that the embossing requirements of the aluminum foil paper with different thicknesses are met.

The working principle and the using process of the invention are as follows: when the aluminum foil paper embossing device is used, the height of the first conveying guide roller 102 is lower than that of the second conveying guide roller 104, a staggered aluminum foil paper embossing conveying guide roller structure is formed between the first conveying guide roller 102 and the second conveying guide roller 104, the arrangement is such that in order to avoid wrinkles and unevenness of aluminum foil paper during conveying, a support arm rack plate 206 on one embossing roller assembly 200 is meshed with one side of an embossing spacing adjusting gear 108, a support arm rack plate 206 on the other embossing roller assembly 200 is meshed with the other side of the embossing spacing adjusting gear 108, the rotation of the embossing spacing adjusting gear 108 drives the two embossing roller assemblies 200 to mutually approach or separate from each other, when the support arm rack plate is far away, the aluminum foil paper is conveniently embossed, when the support arm rack plate is close, the embossing processing is performed, because the laying track during embossing of the aluminum foil paper is curved, when the aluminum foil paper is laid, the initial end of the aluminum foil paper is fixedly pressed on an initial piercing rod 308 through a magnetic attraction pressing block 309, the second driving motor 112 is started, the scissors push arm 301 is realized, when the aluminum foil paper is laid, the aluminum foil paper is laid on the aluminum foil paper, the aluminum foil paper is quickly and the aluminum foil paper is quickly laid on the aluminum foil paper conveying roller assembly, and the aluminum foil paper conveying roller assembly, the aluminum foil paper conveying guide roller assembly is quickly matched with the first set up through a set spacing adjusting rack 104, and the second aluminum foil paper conveying rack 200, and the aluminum foil paper conveying rack 106, and the aluminum foil paper guide roller assembly, when the aluminum foil paper embossing spacing adjusting gear 108, the aluminum foil paper is quickly and the aluminum foil paper embossing roller assembly, and the aluminum foil paper embossing roller assembly, when the aluminum foil paper embossing roller assembly is quickly adjusted. The guide sliding arm rod 208 slides up and down on the second limiting sliding groove table 109, two ends of the pushing spring 209 abut against the sliding arm rod end disc 210 and the second limiting sliding groove table 109 respectively, through pushing of the pushing spring 209, one group of embossing roller assemblies 200 are far away from the second limiting sliding groove table 109, the length of the support arm rack plate 206 is certain and is not full of a plate body of the L-shaped support arm 205, when the embossing interval adjusting gear 108 drives the two groups of embossing roller assemblies 200 to synchronously approach embossing, when the embossing interval between the two groups of embossing roller assemblies 200 reaches the limit, the support arm rack plate 206 and the embossing interval adjusting gear 108 are in a structure which does not perform meshing action any more, through the mode, when the interval between the two groups of embossing roller assemblies 200 reaches the limit, the two groups of embossing roller assemblies 200 do not approach any more, and therefore contact extrusion deformation between the embossing rollers is avoided.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various 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 (8)

1. Formula embossing apparatus is adjusted to aluminium foil paper, including aluminium foil paper impressed watermark base frame subassembly (100), its characterized in that: the aluminum foil embossing base frame assembly (100) is provided with two groups of embossing roller assemblies (200), an aluminum foil adjustable embossing roller structure is formed between the two groups of embossing roller assemblies (200), one side of the aluminum foil embossing base frame assembly (100) is provided with an aluminum foil initial penetrating push arm assembly (300), and the aluminum foil initial penetrating push arm assembly (300) forms a penetrating paper placing structure before aluminum foil embossing on the aluminum foil embossing base frame assembly (100);

aluminium foil paper embossing base frame subassembly (100) includes aluminium foil paper embossing frame base (101), aluminium foil paper embossing frame base (101) one side is fixed to be provided with first end frame (103) and second end frame (105), and aluminium foil paper embossing frame base (101) opposite side is fixed to be provided with guide rail end platform (110), be provided with guide rail spout (111) on guide rail end platform (110), and guide rail end platform (110) one end is provided with two screw (113) and drives two screw (113) pivoted second driving motor (112), it is provided with first transmission deflector roll (102) and second transmission deflector roll (104) to rotate on first end frame (103), be provided with first spacing spout platform (106), second spacing spout platform (109) and first driving motor (107) on second end frame (105), be provided with embossing interval adjustment gear (108) on the output shaft lever of first driving motor (107).

2. The adjustable aluminum-foil paper embossing apparatus as recited in claim 1, further comprising: the embossing roller assembly (200) comprises an embossing roller supporting end table (201), an embossing roller inner shaft rod (202) is arranged on the inner side face of the embossing roller supporting end table (201), the embossing roller inner shaft rod (202) is provided with an embossing roller outer cylinder (203) through a support rod, a third driving motor (204), an L-shaped support arm (205) and an end table supporting table (207) are arranged on the outer side face of the embossing roller supporting end table (201), a support arm rack plate (206) is fixedly arranged on the L-shaped support arm (205), a guide sliding arm rod (208) is fixedly arranged on the end table supporting table (207), a sliding arm rod end disc (210) is fixedly arranged at the top of the guide sliding arm rod (208), and a pushing spring (209) is sleeved on the guide sliding arm rod (208);

the aluminum foil paper initial penetrating push arm assembly (300) comprises a scissor push arm (301), an internal thread seat table (302) is arranged at the rear end of the scissor push arm (301), an end boss (303) is arranged at the front end of the scissor push arm (301), a boss top transverse frame (304) and a boss bottom transverse frame (310) are respectively arranged at the top and the bottom of the end boss (303), a moving wheel (311) is arranged on the boss bottom transverse frame (310), a push arm guide sliding rod (305) is arranged on the boss top transverse frame (304) in a penetrating and sliding mode, a push arm T-shaped vertical frame (306) is arranged at the top of the push arm guide sliding rod (305), an aluminum foil paper initial penetrating rod (308) is fixedly arranged on the inner side face of the push arm T-shaped vertical frame (306), a push arm guide shaft rod (307) is arranged on the outer side face of the push arm T-shaped vertical frame (306) in a rotating mode, and a pressing block (309) is arranged on the aluminum foil paper initial penetrating rod (308).

3. The adjustable aluminum-foil paper embossing apparatus as recited in claim 1, further comprising: the height that highly is less than second transmission deflector roll (104) of first transmission deflector roll (102), form the aluminium foil paper embossing transmission deflector roll structure of formula of staggering between first transmission deflector roll (102) and second transmission deflector roll (104), the both ends of aluminium foil paper embossing frame base (101) one side all are provided with first transmission deflector roll (102) and second transmission deflector roll (104).

4. The adjustable aluminum-foil paper embossing apparatus as recited in claim 2, further comprising: one set of embossing roller subassembly (200) sets up on spacing spout platform of second (109), another group embossing roller subassembly (200) sets up on first spacing spout platform (106), direction slide arm pole (208) are on spacing spout platform of second (109) the up-and-down slip, push away the both ends of spring (209) and contradict respectively on slide arm rod end dish (210) and spacing spout platform of second (109), through push away the top of spring (209), one set of embossing roller subassembly (200) are in the structure of keeping away from spacing spout platform of second (109), another group embossing roller subassembly (200) are unanimous with the embossing roller subassembly (200) mode of setting on spacing spout platform of second (109) in the mode of setting up of first spacing spout platform (106).

5. The adjustable aluminum-foil paper embossing apparatus as recited in claim 2, further comprising: one set of support arm rack plate (206) on embossing roller subassembly (200) and embossing interval adjusting gear (108) one side meshing, another group support arm rack plate (206) on embossing roller subassembly (200) and embossing interval adjusting gear (108)'s opposite side meshing, embossing interval adjusting gear (108)'s rotation drives and is close to or keeps away from each other between two sets of embossing roller subassemblies (200), the plate body of L type support arm (205) is not laid to the length of support arm rack plate (206) certainly.

6. The adjustable aluminum-foil paper embossing apparatus as recited in claim 2, further comprising: when the embossing interval adjusting gear (108) drives two groups of embossing roller assemblies (200) to synchronously approach embossing, when the embossing interval between the embossing roller assemblies (200) reaches the limit, the support arm rack plate (206) and the embossing interval adjusting gear (108) are in a structure without meshing action, and an aluminum foil paper embossing gap is formed between two embossing roller outer cylinders (203) on the embossing roller assemblies (200).

7. The adjustable aluminum-foil paper embossing apparatus as recited in claim 2, further comprising: the two internal thread seat platforms (302) are in threaded connection at two ends of the double-thread screw (113), the double-thread screw (113) is driven to rotate in two directions by the second driving motor (112), the two internal thread seat platforms (302) are in mutual approaching or separating actions, and at the moment, the scissor push arm (301) is in a structure of extending, pushing and retracting reset.

8. The adjustable aluminum-foil paper embossing apparatus as recited in claim 2, further comprising: the pushing arm guide sliding rod (305) penetrates through and slides up and down on a transverse frame (304) at the top of the shaft platform, a pushing arm guide shaft rod (307) rolls in a guide rail sliding groove (111) in a guide way, the guide rail sliding groove (111) is of a curve sliding groove structure which is the same as the tracks of a first transmission guide roller (102), a second transmission guide roller (104) and two groups of embossing roller assemblies (200), aluminum foil paper penetrates through the bottom of the first transmission guide roller (102), and the aluminum foil paper penetrates through the top of the second transmission guide roller (104);

the embossing method of the aluminum-foil paper adjustable embossing device comprises the following steps, and is characterized in that: the method comprises the following steps: through the matching of the embossing space adjusting gear (108) and the two embossing roller assemblies (200), an embossing gap between the two embossing roller assemblies (200) is opened, and the subsequent aluminum-foil paper is convenient to penetrate through and spread;

step two: pressing and fixing the initial end of the aluminum foil paper on an aluminum foil paper initial penetrating rod (308) through a magnetic suction pressing block (309), starting a second driving motor (112), realizing the extension and pushing of a scissor pushing arm (301), and at the moment, through the matching between a pushing arm guide rail shaft rod (307) and a guide rail sliding groove (111), the aluminum foil paper initial penetrating rod (308) drives the initial end of the aluminum foil paper to penetrate and lay along a set track from a first conveying guide roller (102), a second conveying guide roller (104) and two groups of embossing roller assemblies (200);

thirdly, the steps of: and the embossing gap between the two groups of embossing roller assemblies (200) is adjusted to be smaller through the reverse matching between the embossing gap adjusting gear (108) and the two groups of embossing roller assemblies (200), so that the embossing requirements of the aluminum foil paper with different thicknesses are met.

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