CN115626514A

CN115626514A - Be used for fashioned processing fold equipment of aluminium foil

Info

Publication number: CN115626514A
Application number: CN202211644188.4A
Authority: CN
Inventors: 崔鹏鹏; 宋冠静; 李松鹤; 崔金雷; 崔琳琳
Original assignee: Hebei Yinnan New Material Technology Co ltd
Current assignee: Hebei Yinnan New Material Technology Co ltd
Priority date: 2022-12-21
Filing date: 2022-12-21
Publication date: 2023-01-20
Anticipated expiration: 2042-12-21
Also published as: CN115626514B

Abstract

The invention discloses a wrinkle machining device for aluminum foil forming, and relates to the technical field of aluminum foil machining devices.

Description

Be used for fashioned processing fold equipment of aluminium foil

Technical Field

The invention relates to the technical field of aluminum foil processing equipment, in particular to fold processing equipment for aluminum foil forming.

Background

The aluminum foil is a hot stamping material which is directly rolled into a sheet by using metal aluminum, the hot stamping effect of the aluminum foil is similar to that of pure silver foil hot stamping, so the aluminum foil is also called false silver foil, the aluminum foil is widely used for food, beverage, cigarettes, medicines, photographic base plates, household daily necessities and the like, is usually used as a packaging material of the aluminum foil, has various excellent properties and is a relatively perfect packaging material, and the aluminum foil fully shows wide application prospects in various fields, and the aluminum foil often needs fold processing equipment to process folds on the surface of the aluminum foil in the processing and manufacturing process;

wherein also need the aluminium foil to protect in the cable preparation, secondly carry out cable shielding's effect, and fold processing equipment on the existing market, when carrying out fold processing, one set of equipment can only process the fold of a style, when processing different style folds, need frequently change equipment, very big improvement the cost, and it is loaded down with trivial details to cause the course of working, machining efficiency is low, the application scope is extremely narrow, and in fold processing, be difficult to carry out accurate control to fold depth of working, it is relatively poor to the aluminium foil compatibility of different thickness, the limitation of equipment has further been enlarged, cause the equipment practicality extremely low, and in the rolling process, aluminium foil skew and tensile force are improper very easily appearing, cause fashioned fold to suffer destruction, cause the final form of fold extremely poor, and in the rolling process, the aluminium foil is dismantled and is installed inconveniently extremely.

Disclosure of Invention

The invention provides a wrinkle processing device for forming an aluminum foil, which can effectively solve the problems that one set of device can only process wrinkles of one style when wrinkle processing is carried out on the existing wrinkle processing device in the market proposed in the background technology, the device needs to be frequently replaced when wrinkles of different styles are processed, the cost is greatly increased, the processing process is complicated, the processing efficiency is low, the applicable surface is extremely narrow, the wrinkle processing depth is difficult to accurately control in the wrinkle processing process, the compatibility of aluminum foils of different thicknesses is poor, the limitation of the device is further expanded, the device practicability is extremely low, the aluminum foil is extremely easy to deviate and have improper tension in the rolling process, the formed wrinkles are damaged, the final form of the wrinkles is extremely poor, and the aluminum foil is extremely inconvenient to disassemble and install in the rolling process.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a processing fold equipment for aluminium foil shaping, includes the base, its characterized in that: mounting plates are symmetrically mounted on one side of the top end of the base;

the inner side of the mounting plate is provided with a fold processing mechanism, and the fold processing mechanism comprises a fold forming assembly and a fold adjusting assembly;

the fold adjusting assembly comprises a sliding seat, a linkage block is mounted at the side end of the sliding seat, a coarse adjusting screw rod is mounted at the top end of the linkage block, a pressure plate is mounted at the bottom end of the coarse adjusting screw rod, a sliding rod is mounted in the middle of the bottom end of the coarse adjusting screw rod in an embedded and sliding mode, and a tension spring is sleeved on the outer side of the sliding rod;

the fold forming assembly comprises an adjusting plate, a conversion disc is mounted on the end face of the side of the adjusting plate, a plurality of sliding plates are mounted on the outer curved surface of the conversion disc, sliding blocks are mounted on the end face of the side of the sliding plates in a sliding mode, pressing rollers are mounted on the end face of the side of the sliding blocks, and supporting conveying rollers are mounted on the end face of the side of the base.

Preferably, the other side of the top end of the base is symmetrically provided with a supporting plate, and the middle part of the top end of the base is provided with a mounting seat;

an adjusting plate is slidably mounted on the inner side of the mounting plate, a limiting seat is mounted in the middle of the end face of the conversion disc side, a limiting pin is slidably mounted at the edge of the end face of the limiting seat side in an embedded mode, a bearing seat is rotatably mounted on the outer side of a central shaft of the supporting and conveying roller, a driving motor is mounted at the position, corresponding to the bearing seat, of the end face of the base side, and the driving motor is connected with the supporting and conveying roller through the bearing seat;

the adjusting plate side end face is provided with an installation lug, a telescopic column is symmetrically and rotatably installed inside the installation lug, an installation block is installed at the end part of a telescopic part of the telescopic column, a stretching cleaning roller is rotatably installed at the side end face of the installation block, a limiting disc is installed at the end part of a fixed part of the telescopic column, a pressing spring is sleeved outside the telescopic part of the telescopic column, a middle shaft is rotatably installed in the middle of the side end face of the installation lug, a tension spring is sleeved outside the middle shaft, a connecting lug is installed on the outer curved surface of the telescopic column, and the tension spring is connected with the telescopic column through the connecting lug;

slide side end face corresponds spacer pin position department and has seted up a plurality of spacing holes along the equidistance of circumferencial direction, tensile cleaning roller internally mounted has the heater strip, compression roller internally mounted has the heating strip.

Preferably, a sliding groove is formed in the middle of the end face of the mounting plate side, a sliding seat is mounted in the middle of the end face of the adjusting plate side, a guide pillar is mounted in the middle of the top end of the sliding seat, a force application spring is sleeved on the outer side of the guide pillar, and the sliding seat is connected with the mounting plate through the force application spring;

the top end of the base is positioned at the bottom of the adjusting plate and provided with a mounting frame, the side end face of the mounting frame is symmetrically provided with guide grooves, supporting blocks are slidably mounted in the guide grooves, the middle of the top end of each supporting block is provided with a limiting rod, the outer side of the limiting rod is sleeved with a pressurizing spring, the middle of the side end face of each supporting block is rotatably provided with a positioning roller, the side end face of the mounting frame is positioned at the bottom of the positioning roller and rotatably provided with a supporting roller, the side end face of each supporting block is provided with a linkage plate, the middle of the bottom end of one sliding seat is provided with a limiting telescopic rod, and the middle of the bottom end of the other sliding seat is rotatably provided with a threaded barrel;

an adjusting groove is formed in the middle of the end face of the sliding plate side, a sliding block is slidably mounted in the adjusting groove at the position located on the inner side of the sliding block, a fine adjustment screw rod is mounted in the middle of the end face of the sliding block side through threads, a guide rod is slidably mounted in the middle of the end face of the fine adjustment screw rod in an embedded mode, the fine adjustment screw rod is connected with the sliding block through the guide rod, a buffer spring is sleeved on the outer side of the fine adjustment screw rod, a driven conical fluted disc is mounted at the end of the fine adjustment screw rod, a rotating shaft seat is rotatably mounted on the outer side of the fine adjustment screw rod close to the position of the driven conical fluted disc, and the fine adjustment screw rod is connected with a conversion disc through the rotating shaft seat;

a support frame is arranged in the middle of the end face of the side of the conversion disc, a driving rod is rotatably arranged in the middle of the support frame, driving conical fluted discs are arranged at two ends of the driving rod, a connecting disc is arranged on the outer side of the driving rod, close to the driving conical fluted disc, and the driving rod is connected with the support frame through the connecting disc;

the device comprises a threaded barrel, a sliding block, a linkage block, a sliding seat, a guide groove and an observation scale, wherein the threaded barrel is arranged in the threaded barrel, the linkage block is arranged in the threaded barrel, the sliding block is arranged in the threaded barrel, the linkage block is arranged in the middle of the side end face of the linkage block, the coarse adjustment scale is arranged at the position corresponding to a coarse adjustment screw, the telescopic scale is arranged at the position, located on one side of the threaded barrel, of the bottom end of the sliding seat, fine adjustment scales are engraved at the positions, located on two sides of the adjustment groove, of the side end face of the sliding plate, and the observation scale is arranged at the position, corresponding to the guide groove, of the side end face of the installation frame.

Preferably, a winding mechanism is arranged at the position, located on the inner side of the supporting plate, of the top end of the base;

the winding mechanism comprises a linkage conveying roller, a hollow shaft seat is rotatably mounted at the end part of the linkage conveying roller, a limiting frame is mounted on the end face of the outer side of the hollow shaft seat, a manual screw is rotatably mounted on the end face of the side end of the limiting frame, a correction plate is symmetrically mounted on the outer side of the manual screw through threads, a pressure rod is rotatably mounted at the position, located on the inner side of the manual screw, of the side end face of the limiting frame, and an air distribution spray seat is mounted at the position, corresponding to the limiting frame, of the outer curved surface of the linkage conveying roller.

Preferably, a guide groove is formed in the middle of the side end face of the mounting seat, a sliding seat is slidably mounted in the guide groove, adjusting blocks are slidably mounted in the guide groove at the bottom of the sliding seat, a balancing rod is mounted in the middle of the top end of one adjusting block, a driving threaded rod is rotatably mounted in the middle of the top end of the other adjusting block, stress springs are sleeved on the outer sides of the balancing rod and the driving threaded rod, and the adjusting blocks are connected with the sliding seat through the stress springs;

a buffer roller is rotatably mounted in the middle of the end face of the side of the sliding seat, a linkage conveying roller is rotatably mounted in the middle of the end face of the side of the adjusting block in an embedded manner, and the linkage conveying roller is connected with the adjusting block through a hollow shaft seat;

the side end face of the mounting seat is provided with a fan at the bottom of the guide groove, the air outlet end of the fan is provided with a flow distribution box, one side of the top end of the flow distribution box is provided with a gas pipe, the other side of the top end of the flow distribution box is provided with a gas guide pipe, the middle part of the top end of the mounting seat is embedded with a gas guide seat, the bottom end of the gas guide seat is uniformly provided with a plurality of gas distribution strip openings at equal intervals, and the air inlet end of the fan is provided with a filter box;

the winding mechanism is characterized in that a winding motor is installed on one side of a supporting plate, a driving seat is installed on the end face of the side of the supporting plate corresponding to the position of the winding motor in an embedded and rotating mode, a winding roller is clamped on one side of the driving seat and connected with an output shaft of the winding motor through the driving seat, adjusting discs are installed on the end portions of the two sides of the winding roller, a mounting groove is formed in the middle of the top end of the supporting plate, a limiting mounting seat is clamped inside the mounting groove in a clamped mode, a rotating seat is installed on the middle of the end face of the side of the limiting mounting seat in a rotating mode, the limiting mounting seat is connected with the winding roller through the rotating seat, a fixing pin is installed on the middle of the end face of the other side of the limiting mounting seat in an embedded and sliding mode, and the limiting mounting seat is connected with the supporting plate through the fixing pin;

a plurality of spacing grooves have been seted up along angles such as circumferencial direction to the adjustment disk side end face, spacing inslot portion slidable mounting has the drive block, embedding slidable mounting has the lead screw at drive block top middle part, the lead screw outside is located the drive block inboard position department and installs the stopper through the screw thread, fixed spring has been cup jointed in the lead screw outside, drive block side end face mid-rotation installs the tensioning roller, stopper side end face mid-mounting has the compressed particleboard.

Preferably, the bottom end of the sliding rod is provided with a shaft sleeve, the supporting and conveying roller is connected with the sliding rod through the shaft sleeve, and the middle parts of the bottom ends of the coarse adjustment screw rod and the pressure plate, corresponding to the position of the sliding rod, are provided with abdicating holes;

every the fold forming template is all installed on the compression roller surface, compression roller fold forming template is different each other, and adjacent two deflection angle between the compression roller is ninety degrees, and the deflection angle between two adjacent spacing holes is ninety degrees.

Preferably, the cleaning sponge is sleeved on the outer surface of the stretching cleaning roller, the anti-skid rubber sleeve is sleeved on the outer side of the supporting and conveying roller, the heating wires and the heating strips are both spiral, and the input end of the driving motor is electrically connected with the output end of an external power supply.

Preferably, the sliding groove is matched with the sliding seat, a guide hole is arranged at the position, corresponding to the guide pillar, of the top end of the mounting plate in a clamping mode, and a limiting opening is arranged at the position, corresponding to the limiting rod, of the top end of the mounting frame in a clamping mode.

Preferably, the highest point of the supporting roller is flush with the highest point of the supporting and conveying roller, the length of the coarse adjustment scale is equal to that of the coarse adjustment screw rod, and the length of the telescopic end of the telescopic scale is equal to that of the screw rod in the threaded cylinder.

Preferably, the filter cartridge side end face is symmetrically embedded with a filling drawer in a sliding manner, activated carbon and filter sponge are sequentially filled in the filling drawer, a through hole is formed in the middle of the top end of the driving block corresponding to the position of the screw rod, the manual screw rod is a bidirectional screw rod, a clamping block is installed in the middle of the side end face of the driving seat, a bayonet is formed in the position of the side end face of the winding roller corresponding to the position of the clamping block, the inner diameter of the through hole is larger than the outer diameter of the screw rod, and the input end of the fan is electrically connected with the output end of an external power supply.

Compared with the prior art, the invention has the following beneficial effects: the invention has scientific and reasonable structure and safe and convenient use;

1. the folding forming assembly is arranged, supporting force is provided through the adjusting plate, the converting disc and the sliding plate, the positions of the pressing rollers can be adjusted and fixed through the matching of the adjusting plate, the converting disc, the adjusting groove, the sliding block, the limiting hole, the limiting seat and the limiting pin, folds of different patterns can be processed according to actual requirements, the flexibility and the applicability of folding processing work are greatly improved, the aluminum foil after folding processing can be applied to more fields, and the application range of the equipment is greatly expanded;

the installation lug, the telescopic column, the installation block, the limiting disc, the abutting spring, the middle shaft, the tension spring and the connection lug are matched, so that the stretching cleaning roller can be attached to the surface of the aluminum foil with proper force and keep a displacement trend opposite to the conveying direction of the aluminum foil, on one hand, the surface of the aluminum foil can be cleaned, the phenomenon that foreign matters influence the wrinkle forming effect and even unnecessary indentation is avoided effectively, on the other hand, the conveying roller can be matched and supported, so that the aluminum foil is more stable in the wrinkle processing process, proper tension is kept, and the wrinkle processing quality is greatly improved;

provide drive power through driving motor, cooperate through bearing frame and support transfer roller, can be in fold course of working, improve aluminium foil transport stability, avoid leading to the aluminium foil transport speed to differ from front to back because of carrying the unstability, the off tracking even, lead to fashioned fold to warp, and then very big improvement the reliability of fold processing work, and cooperate through heater strip and heating strip, can carry out secondary heating to the aluminium foil, very big falling has improved aluminium foil rate of heating, the fold shaping degree of difficulty has been reduced, very big improvement fold machining efficiency and quality.

2. The fold adjusting assembly is arranged, the distance J between the central axis of the conversion disc and the central axis of the supporting and conveying roller can be adjusted by matching the linkage block, the coarse adjusting screw rod, the pressure disc, the sliding rod, the tension spring and the shaft sleeve, the distance S between the central axis of the conversion disc and the central axis of the positioning roller can be adjusted by matching the linkage plate, the limiting telescopic rod and the threaded cylinder, the distance T between the central axis of the conversion disc and the central axis of the pressing roller can be adjusted by matching the slider, the fine adjusting screw rod, the guide rod, the buffer spring, the rotating shaft seat, the driven conical fluted disc, the supporting frame, the driving rod, the connecting disc and the driving conical fluted disc, the flexibility and convenience of fold forming depth adjustment are greatly improved, and fold processing work is more convenient;

the length of J minus T is equal to the distance between the supporting conveying roller and the compression roller, the length of J minus S is the thickness of the aluminum foil, the distance between the supporting conveying roller and the compression roller minus the thickness of the aluminum foil is the fold forming depth, and then the fold forming depth can be subjected to coarse adjustment, fine adjustment and fine adjustment in sequence by respectively adjusting J, S and T, so that the three-stage adjustment of the fold forming depth is realized, the precision of the fold forming depth is greatly improved, the phenomenon that fold forming is not obvious or even the aluminum foil is broken due to the fact that the fold forming depth is not matched with the thickness of the aluminum foil when the aluminum foils with different thicknesses are processed is avoided, and the stability and the reliability of aluminum foil fold processing are improved;

through the mounting bracket, the guide slot, the supporting shoe, the gag lever post, the pressure spring, backing roll and registration roller cooperate, then can carry out automatic positioning to the aluminium foil of different thickness automatically, can conveniently confirm aluminium foil thickness on the one hand, make aluminium foil fold processing more accurate, improve the monitoring convenience in the aluminium foil course of working, on the other hand can improve the automatic adaptability to the aluminium foil of different thickness, the reliability and stability of the tertiary regulation work of fold shaping degree of depth has further been improved, through the coarse adjustment scale, flexible scale, fine setting scale and observation scale cooperate, then very big improvement the precision and the convenience of tertiary regulation, through the spout, a sliding seat, guide pillar and application of force spring cooperate, then very big improvement the stability of extrusion force in the fold processing, make the fold depth of front and back processing more standard, very big improvement fold shaping quality.

3. The device is provided with a winding mechanism, the original compression amount of a stress spring can be adjusted by matching a guide groove, a sliding seat, an adjusting block, a linkage conveying roller, a balancing rod and a driving threaded rod, the buffering roller is used for providing elastic support for the aluminum foil, and the size of elastic buffering force can be adjusted in real time according to the actual wrinkle processing depth, so that the processed aluminum foil is always stably kept in a proper tension state, the wrinkle deformation caused by large tension force is avoided, the aluminum foil is loosened and deviated caused by small tension force, and the protection effect on the formed wrinkles is greatly improved;

the air distribution spraying seat can be automatically adjusted in angle by linking the conveying roller, the hollow shaft seat, the limiting frame and the pressing rod to be matched, so that the air distribution spraying seat is always aligned to the lower surface of the aluminum foil, the air distribution spraying seat, the air guide seat, the flow distribution box, the air conveying pipe, the air guide pipe and the air distribution strip opening are matched, air flow conveyed by a fan can be guided, bidirectional cooling is performed, the air flow is uniformly blown to the surface of the aluminum foil, the comprehensiveness and reliability of cooling work are greatly improved, the timeliness and reliability of cooling work are also greatly improved through bidirectional cooling, formed folds can be rapidly cooled and shaped in time, and the stability after fold processing is greatly improved;

the position of the aluminum foil can be corrected by matching the manual screw with the correcting plate, the position of the aluminum foil can be limited in the winding process, the protection effect on folds in the winding process is greatly improved, the phenomenon that the formed folds are damaged due to aluminum foil deviation in the winding process is avoided, even unnecessary irregular folds are formed, the aluminum foil can be matched with a driving seat through a winding motor, stable driving force is provided, the convenience and the stability of fixing the end part of the aluminum foil are greatly improved by matching a winding roller, an adjusting disc, a mounting groove, a limiting mounting seat, a rotating seat and a fixing pin, the convenience of dismounting and mounting the wound aluminum foil can be greatly improved, the limiting groove, a driving block, a lead screw, a limiting block, a fixing spring, a tensioning roller and a pressing plate are matched, the convenience and the stability of fixing the end part of the aluminum foil can be greatly improved, the tensioning force of the wound aluminum foil can be regulated and controlled by matching the driving block, the fixing spring and the tensioning roller, the tensioning force of the wound aluminum foil can be prevented from being scattered due to the tensioning force or even being improper in a random manner, and the unnecessary folds can be further improved in the processing quality.

In conclusion, the tension of the aluminum foil can be adjusted in the processing process through the fold processing mechanism, the stability and the reliability of fold processing are improved, folds of different styles can be processed through one device, frequent replacement of the device due to the fact that folds of different types need to be processed is avoided, cost is greatly saved, the convenience of fold processing is improved, meanwhile, the flexibility and the application range of fold processing work are greatly improved, the processed aluminum foil can be applied to more fields, the practicability of the device is greatly improved, the device can be automatically applied to the aluminum foil fold processing work of different thicknesses, when the application range of the device is further expanded, three-level adjustment can be conducted on the fold forming depth, the precision of the fold processing is greatly improved, and the compatibility of the fold processing work is greatly improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the base structure of the present invention;

FIG. 3 is a schematic view of the corrugation processing mechanism of the present invention;

FIG. 4 is a schematic view of the pleat forming assembly of the invention;

FIG. 5 is a schematic view of a press roll construction of the present invention;

FIG. 6 is a schematic diagram of a structure of a converter disk of the present invention;

FIG. 7 is a schematic view of the pleat adjustment assembly of the present invention;

FIG. 8 is a schematic view of the drive rod configuration of the present invention;

FIG. 9 is a schematic view of the winding mechanism of the present invention;

FIG. 10 is a schematic view of the adjusting block of the present invention;

FIG. 11 is a schematic view of the wind-up roll of the present invention;

FIG. 12 is a schematic view of the present invention stationary spring configuration;

reference numbers in the figures: 1. a base; 2. mounting a plate; 3. a support plate; 4. a mounting seat; 5. a fold processing mechanism;

50. a pleat forming assembly; 501. an adjusting plate; 502. a switching disk; 503. a sliding plate; 504. an adjustment groove; 505. a slider; 506. a compression roller; 507. a limiting seat; 508. a limit pin; 509. supporting the conveying roller; 5010. a bearing seat; 5011. a drive motor; 5012. mounting lugs; 5013. a telescopic column; 5014. mounting blocks; 5015. stretching and cleaning rollers; 5016. a limiting disc; 5017. pressing the spring; 5018. a middle shaft; 5019. a tension spring; 5020. a connection bump; 5021. a limiting hole; 5022. a heating wire; 5023. heating the strip;

51. a pleat adjustment assembly; 511. a chute; 512. a slide base; 513. a guide post; 514. a force application spring; 515. a linkage block; 516. roughly adjusting the screw rod; 517. pressing a plate; 518. a slide bar; 519. a tension spring; 5110. a shaft sleeve; 5111. a mounting frame; 5112. a guide groove; 5113. a supporting block; 5114. a limiting rod; 5115. a pressurizing spring; 5116. a positioning roller; 5117. a linkage plate; 5118. limiting the telescopic rod; 5119. a threaded barrel; 5120. a slider; 5121. finely adjusting a screw rod; 5122. a guide bar; 5123. a buffer spring; 5124. a rotating shaft seat; 5125. a driven conical fluted disc; 5126. a support frame; 5127. a drive rod; 5128. a connecting disc; 5129. a driving conical fluted disc; 5130. coarsely adjusting a graduated scale; 5131. a telescopic graduated scale; 5132. finely adjusting scales; 5133. observing the graduated scale; 5134. a support roller;

6. a winding mechanism; 601. a guide groove; 602. a sliding seat; 603. a regulating block; 604. a balancing bar; 605. driving the threaded rod; 606. a stressed spring; 607. a buffer roller; 608. the conveying roller is linked; 609. a hollow shaft seat; 610. a limiting frame; 611. a manual screw; 612. a correction plate; 613. a pressure lever; 614. a gas distribution spray seat; 615. a fan; 616. a shunt box; 617. a gas delivery pipe; 618. an air duct; 619. a gas guide seat; 620. an air distribution strip opening; 621. a filter cartridge; 622. a winding motor; 623. a driving seat; 624. a wind-up roll; 625. an adjusting disk; 626. mounting grooves; 627. a limiting mounting seat; 628. a rotating seat; 629. a fixing pin; 630. a limiting groove; 631. a drive block; 632. a screw rod; 633. a limiting block; 634. fixing the spring; 635. a tension roller; 636. and (6) pressing a board.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it should be understood that they are presented herein only to illustrate and explain the present invention and not to limit the present invention.

Example (b): as shown in fig. 1-12, the invention provides a technical solution, in particular to a wrinkle processing device for aluminum foil forming, which comprises a base 1, wherein one side of the top end of the base 1 is symmetrically provided with a mounting plate 2, the other side of the top end of the base 1 is symmetrically provided with a support plate 3, and the middle part of the top end of the base 1 is provided with a mounting seat 4;

the inner side of the mounting plate 2 is provided with a fold processing mechanism 5, the fold processing mechanism 5 comprises a fold forming component 50 and a fold adjusting component 51, folds are formed on the surface of the aluminum foil in a pressing mode through the fold processing mechanism 5, and the formed fold style and size are adjusted;

a fold adjusting assembly 51 is mounted on the inner side of the mounting plate 2, the fold adjusting assembly 51 comprises a sliding seat 512, a linkage block 515 is mounted in the middle of the end face of the sliding seat 512, a coarse adjusting screw 516 is mounted in the middle of the top end of the linkage block 515 through threads, a pressure plate 517 is mounted at the bottom end of the coarse adjusting screw 516, a sliding rod 518 is mounted in the middle of the bottom end of the coarse adjusting screw 516 in an embedded and sliding manner, a tension spring 519 is sleeved on the outer side of the sliding rod 518, and a shaft sleeve 5110 is mounted at the bottom end of the sliding rod 518;

the wrinkle forming component 50 is installed on the inner side of the wrinkle adjusting component 51, the wrinkle forming component 50 comprises an adjusting plate 501, a conversion plate 502 is rotatably installed in the middle of the side end face of the adjusting plate 501, a plurality of sliding plates 503 are installed on the outer curved surface of the conversion plate 502 at equal angles along the circumferential direction, an adjusting groove 504 is formed in the middle of the side end face of each sliding plate 503, a sliding block 505 is slidably installed in each adjusting groove 504, a pressing roller 506 is rotatably installed on the side end face of each sliding block 505, a supporting and conveying roller 509 is rotatably installed on the side end face of the base 1, which is located at the bottom of each pressing roller 506, the supporting and conveying roller 509 is connected with a sliding rod 518 through a shaft sleeve 5110, the length of each coarse adjusting screw 516, which is L, which is located at the bottom of each linkage block 515, and a abdicating hole is formed in the middle of the bottom ends of each coarse adjusting screw 516 and each pressing plate 517, which corresponds to the position of each sliding rod 518, so as to primarily adjust the wrinkle depth;

a winding mechanism 6 is arranged at the position, located on the inner side of the supporting plate 3, of the top end of the base 1, and is used for winding the folded aluminum foil through the winding mechanism 6, and performing cooling and shaping work, tension adjusting work and position correcting work;

the winding mechanism 6 comprises a linkage conveying roller 608, a hollow shaft seat 609 is rotatably mounted at the end of the linkage conveying roller 608, a limiting frame 610 is mounted on the outer side end face of the hollow shaft seat 609, a manual screw 611 is rotatably mounted at the edge of the side end face of the limiting frame 610, a correction plate 612 is symmetrically mounted on the outer side of the manual screw 611 through threads, a pressure rod 613 is rotatably mounted at the position, located on the inner side of the manual screw 611, of the side end face of the limiting frame 610, and an air distribution spray seat 614 is mounted at the position, corresponding to the limiting frame 610, of the outer curved surface of the linkage conveying roller 608.

The fold forming assembly 50 comprises an adjusting plate 501, a conversion disc 502, a sliding plate 503, an adjusting groove 504, a sliding block 505, a compression roller 506, a limiting seat 507, a limiting pin 508, a supporting transmission roller 509, a bearing seat 5010, a driving motor 5011, a mounting lug 5012, a telescopic column 5013, a mounting block 5014, a stretching cleaning roller 5015, a limiting disc 5016, a pressing spring 5017, a middle shaft 5018, a tension spring 5019, a connecting bump 5020, a limiting hole 5021, a heating wire 5022 and a heating strip 5023;

an adjusting plate 501 is slidably mounted on the inner side of the mounting plate 2, a limiting seat 507 is mounted in the middle of the end face of the conversion disc 502, a limiting pin 508 is slidably mounted in the edge of the end face of the limiting seat 507, a bearing seat 5010 is rotatably mounted on the outer side of the central shaft of the supporting and conveying roller 509, a driving motor 5011 is mounted on the end face of the base 1 corresponding to the position of the bearing seat 5010, and the driving motor 5011 is connected with the supporting and conveying roller 509 through the bearing seat 5010;

the side end face of the adjusting plate 501 is provided with a mounting lug 5012, a telescopic column 5013 is symmetrically and rotatably mounted inside the mounting lug 5012, a mounting block 5014 is mounted at the end part of a telescopic part of the telescopic column 5013, a stretching cleaning roller 5015 is rotatably mounted at the side end face of the mounting block 5014, a limiting disc 5016 is mounted at the end part of a fixing part of the telescopic column 5013, a pressing spring 5017 is sleeved on the outer side of the telescopic part of the telescopic column 5013, a middle shaft 5018 is rotatably mounted in the middle of the side end face of the mounting lug 5012, a tension spring 5019 is sleeved on the outer side of the middle shaft 5018, a connecting lug 5020 is mounted on the outer curved surface of the telescopic column 5013, and the tension spring 5019 is connected with the telescopic column 5013 through a connecting lug 5020;

a plurality of spacing holes 5021 are formed in the position, corresponding to the position of the limiting pin 508, of the sliding seat 512 side end face in the circumferential direction at equal angles, wrinkle forming templates are installed on the surface of each compression roller 506, the wrinkle forming templates of the compression rollers 506 are different from each other, the deflection angle between two adjacent compression rollers 506 is ninety degrees, the deflection angle between two adjacent spacing holes 5021 is ninety degrees, so that wrinkles of different patterns can be processed, a heating wire 5022 is installed inside a stretching cleaning roller 5015, a heating strip 5023 is installed inside the compression roller 506, a cleaning sponge is sleeved on the outer surface of the stretching cleaning roller 5015, an anti-skid rubber sleeve is sleeved on the outer side of a supporting conveying roller 509, the heating wire 5022 and the heating strip 5023 are both in a spiral shape, the input end of the driving motor 5011 is electrically connected with the output end of an external power supply, so that the processing difficulty is reduced, and the processing quality is improved.

The wrinkle adjusting component 51 comprises a sliding chute 511, a sliding seat 512, a guide pillar 513, a force application spring 514, a linkage block 515, a coarse adjusting screw 516, a pressure plate 517, a sliding rod 518, a tension spring 519, a shaft sleeve 5110, an installation frame 5111, a guide groove 5112, a support block 5113, a limit rod 5114, a pressure spring 5115, a positioning roller 5116, a linkage plate 5117, a limit telescopic rod 5118, a threaded cylinder 5119, a sliding block 5120, a fine adjusting screw rod 5121, a guide rod 5122, a buffer spring 5123, a rotating shaft seat 5124, a driven conical gear disc 5125, a support frame 5126, a drive rod 5127, a connection disc 5128, a driving conical gear disc 5129, a coarse adjusting scale 5130, a telescopic scale 5131, a fine adjusting scale 5132, an observation scale 5133 and a support roller 5134;

a sliding groove 511 is formed in the middle of the end face of the mounting plate 2, a sliding seat 512 is mounted in the middle of the end face of the adjusting plate 501, a guide pillar 513 is mounted in the middle of the top end of the sliding seat 512, a force application spring 514 is sleeved on the outer side of the guide pillar 513, and the sliding seat 512 is connected with the mounting plate 2 through the force application spring 514;

a mounting frame 5111 is mounted at the position, located at the bottom of the adjusting plate 501, of the top end of the base 1, guide grooves 5112 are symmetrically formed in the side end face of the mounting frame 5111, support blocks 5113 are slidably mounted inside the guide grooves 5112, a limiting rod 5114 is mounted in the middle of the top end of each support block 5113, the sliding grooves 511 are matched with the sliding bases 512, guide holes are clamped at the position, corresponding to the guide posts 513, of the top end of the mounting frame 5111, a limiting port is clamped at the position, corresponding to the limiting rod 5114, of the top end of the mounting frame 5111, so that the wrinkle depth can be regulated in a multi-stage manner, a compression spring 5115 is sleeved on the outer side of each limiting rod 5114, a positioning roller 5116 is rotatably mounted in the middle of the side end face of each support block 5111, a telescopic link plate 5117 is mounted on the side end face of each support block 5113, a limiting spring 5118 is mounted in the middle of the bottom end of one sliding base 512, and a threaded cylinder sliding base 5119 is rotatably mounted in the middle of the bottom end of the other sliding bases 512;

a sliding block 5120 is slidably mounted at the position, located on the inner side of the sliding block 505, inside the adjusting groove 504, a fine adjustment screw rod 5121 is mounted in the middle of the side end face of the sliding block 5120 through threads, a guide rod 5122 is slidably mounted in the middle of the side end face of the fine adjustment screw rod 5121, the fine adjustment screw rod 5121 is connected with the sliding block 505 through the guide rod 5122, a buffer spring 5123 is sleeved on the outer side of the fine adjustment screw rod 5121, a driven bevel gear 5125 is mounted at the end of the fine adjustment screw rod 5121, a rotating shaft seat 5124 is rotatably mounted on the outer side of the fine adjustment screw rod 5121, close to the driven bevel gear 5125, and the fine adjustment screw rod 5121 is connected with the conversion disc 502 through the rotating shaft seat 5124;

a support frame 5126 is installed in the middle of the end face of the switching disc 502, a drive rod 5127 is rotatably installed in the middle of the support frame 5126, a driving conical fluted disc 5129 is installed at both ends of the drive rod 5127, a connection disc 5128 is installed at the position, close to the driving conical fluted disc 5129, outside the drive rod 5127, and the drive rod 5127 is connected with the support frame 5126 through the connection disc 5128;

a coarse adjustment scale 5130 is arranged in the middle of the end face of the side of the linkage block 515 corresponding to the position of the coarse adjustment screw 516, a telescopic scale 5131 is arranged at the position of the bottom end of the sliding seat 512 at one side of the threaded cylinder 5119, the highest point of the supporting roller 5134 is flush with the highest point of the supporting roller 509, the external leakage length of the screw rod in the threaded cylinder 5119 is X, the distance between the sliding block 5120 and the central axis of the conversion disc 502 is W, the length of the coarse adjustment scale 5130 is equal to that of the coarse adjustment screw 516, the length of the telescopic end of the telescopic scale 5131 is equal to that of the screw rod in the threaded cylinder 5119 so as to improve the fold forming precision, fine adjustment scales 5132 are carved on the positions of the end face of the sliding plate 503 at the two sides of the adjustment groove 504, and an observation scale 5133 is arranged at the position of the end face of the side of the mounting frame 5111 corresponding to the position of the guide groove 5112.

The winding mechanism 6 comprises a guide groove 601, a sliding seat 602, an adjusting block 603, a balancing rod 604, a driving threaded rod 605, a stress spring 606, a buffer roller 607, a linkage conveying roller 608, a hollow shaft seat 609, a limiting frame 610, a manual screw 611, a correcting plate 612, a pressing rod 613, a gas distribution spraying seat 614, a fan 615, a shunting box 616, a gas pipe 617, a gas guide pipe 618, a gas guide seat 619, a gas distribution strip port 620, a filter box 621, a winding motor 622, a driving seat 623, a winding roller 624, an adjusting disc 625, a mounting groove 626, a limiting mounting seat 627, a rotating seat 628, a fixing pin 629, a limiting groove 630, a driving block 631, a screw 632, a limiting block 633, a fixing spring 634, a tensioning roller 635 and a pressing plate 636;

a guide groove 601 is formed in the middle of the end face of the side of the mounting seat 4, a sliding seat 602 is slidably mounted in the guide groove 601, adjusting blocks 603 are slidably mounted in the guide groove 601 at the bottom of the sliding seat 602, a balancing rod 604 is mounted in the middle of the top end of one adjusting block 603, a driving threaded rod 605 is rotatably mounted in the middle of the top end of the other adjusting block 603, stress springs 606 are sleeved on the outer sides of the balancing rod 604 and the driving threaded rod 605, and the adjusting blocks 603 are connected with the sliding seat 602 through the stress springs 606;

a buffer roller 607 is rotatably arranged in the middle of the end face of the side of the sliding seat 602, a linkage conveying roller 608 is embedded in the middle of the end face of the side of the adjusting block 603 and is rotatably arranged, and the linkage conveying roller 608 is connected with the adjusting block 603 through a hollow shaft seat 609;

a fan 615 is installed on the end face of the side of the installation base 4, which is located at the bottom of the guide groove 601, a diversion box 616 is installed at the air outlet end of the fan 615, an air pipe 617 is installed on one side of the top end of the diversion box 616, an air pipe 618 is installed on the other side of the top end of the diversion box 616, an air guide base 619 is embedded and installed in the middle of the top end of the installation base 4, a plurality of air distribution strip ports 620 are evenly arranged at the bottom end of the air guide base 619 at equal intervals, and a filter box 621 is installed at the air inlet end of the fan 615;

a winding motor 622 is installed on one side of the supporting plate 3, a driving seat 623 is installed at the position, corresponding to the winding motor 622, of the side end face of the supporting plate 3 in an embedded and rotating mode, a winding roller 624 is clamped on one side of the driving seat 623, the winding roller 624 is connected with an output shaft of the winding motor 622 through the driving seat 623, an adjusting disc 625 is installed on each of the end portions of the two sides of the winding roller 624, an installation groove 626 is formed in the middle of the top end of one supporting plate 3, a limiting installation seat 627 is clamped inside the installation groove 626, a rotating seat 628 is installed in the middle of the side end face of the limiting installation seat 627 in a rotating mode, the limiting installation seat 627 is connected with the winding roller 624 through the rotating seat 628, a fixing pin 629 is installed in the middle of the end face of the other side of the limiting installation seat 627 in an embedded and sliding mode, and the limiting installation seat 627 is connected with the supporting plate 3 through the fixing pin 629;

a plurality of limiting grooves 630 are formed in the end face of the adjusting disc 625 side at equal angles along the circumferential direction, a driving block 631 is slidably mounted in the limiting grooves 630, a lead screw 632 is embedded in the middle of the top end of the driving block 631 in a sliding manner, a filling drawer is symmetrically embedded in the end face of the filter cartridge 621 side in a sliding manner and is filled with activated carbon and filter sponge in sequence, a through hole is formed in the middle of the top end of the driving block 631 corresponding to the lead screw 632, a manual screw 611 is a bidirectional screw, a clamping block is mounted in the middle of the end face of the driving seat 623 side, a clamping block is arranged in the middle of the end face of the winding roller 624 side corresponding to the clamping block, the inner diameter of the through hole is larger than the outer diameter of the lead screw 632, the input end of the fan 615 is electrically connected with the output end of an external power supply, so that the winding convenience is improved, and the protection effect on formed wrinkles is achieved, a limiting block 633 is mounted in the position on the inner side of the driving block 631 in the outer side of the lead screw 632, a fixing spring 634 is sleeved with a fixing spring 634, a fixing spring 634 in the outer side, a tensioning roller 635 is rotatably mounted in the middle of the end face of the driving block 631 in a rotating manner, and a pressing plate 636 is mounted in the middle of the end face of the limiting block.

The working principle and the using process of the invention are as follows: in actual use, firstly, the aluminum foil is pulled from an external unreeling machine to pass through a gap between the two stretching cleaning rollers 5015, under the limiting and guiding action of the middle shaft 5018, the two ends of the tension spring 5019 can pull the connecting bumps 5020 and drive the telescopic columns 5013 to deflect through the connecting bumps 5020, so that the telescopic columns 5013 drive the two stretching cleaning rollers 5015 to approach each other, and the elastic force of the tension spring 5019 is utilized to be attached to the surface of the aluminum foil with proper force;

in the wrinkle processing process, the two stretching cleaning rollers 5015 can support and press the aluminum foil in real time, so that the cleaning sponge is fully contacted with the aluminum foil, dust or sundries on the surface of the aluminum foil are cleaned, the influence of the dust or the sundries on formed wrinkles in the wrinkle processing process is avoided, and the wrinkle forming quality is influenced, and under the supporting action of the limiting disc 5016, the supporting spring 5017 can push the mounting block 5014 in real time, so that the telescopic part of the telescopic column 5013 is kept in an extending state, the two stretching cleaning rollers 5015 always keep the moving trend away from the aluminum foil conveying direction, and the aluminum foil is stretched and fixed by matching with the supporting conveying roller, so that the wrinkle processing work of the aluminum foil is completed under a proper tension state, the wrinkle forming effect is effectively improved, the heating wires 5022 in the two stretching cleaning rollers 5015 can preheat the aluminum foil, the heating speed of the aluminum foil in the wrinkle processing process is improved, and the wrinkle forming difficulty and the processing efficiency are reduced;

after the aluminum foil passes through the gap between the two stretching cleaning rollers 5015, the aluminum foil continues to pass through the gap between the positioning roller 5116 and the supporting roller 5134 close to one side of the stretching cleaning rollers 5015, in the wrinkling process, the pressure spring 5115 can utilize the self elasticity to press the supporting block 5113 in real time through the limiting guide of the limiting rod 5114, and further the positioning roller 5116 is driven by the supporting block 5113, so that the positioning roller 5116 is pressed on the surface of the aluminum foil with proper force and presses the aluminum foil on the supporting roller 5134, the aluminum foil is simultaneously contacted with the positioning roller 5116 and the supporting roller 5134 to position the aluminum foil, and the thickness of the aluminum foil can be observed through the observation scale 5133;

then, the aluminum foil penetrates through a gap between the bottommost compression roller 506 and the supporting and conveying roller 509, before the corrugation processing process, the limiting pin 508 is pulled out, the limiting pin 508 is separated from the limiting hole 5021, the position limitation on the limiting seat 507 is removed, the limiting seat 507 can deflect freely, then the limiting seat 507 rotates, the limiting seat 507 drives the conversion disc 502 to rotate, the conversion disc 502 rotates to drive the sliding plate 503 to rotate, the sliding plate 503 rotates to drive the sliding block 505 to rotate, the compression roller 506 is driven to deflect through the sliding block 505, further, according to actual requirements, the proper compression roller 506 is selected, the compression roller 506 is adjusted to the bottommost end, the requirement for corrugation processing of different types is met, after the selected compression roller 506 is adjusted to the bottommost end, the limiting pin 508 is inserted into the limiting hole 5021 again, and the position of the selected compression roller 506 is fixed;

similarly, before the wrinkle machining process, the rough adjustment screw 516 is rotated, the rough adjustment screw 516 can be driven to displace by rotating through threads, the variation of the length L of the rough adjustment screw 516 at the bottom of the linkage block 515 can be observed in real time through the rough adjustment scale 5130, then the threaded cylinder 5119 is rotated, the threaded cylinder 5119 can be rotated to retract and release the screw inside the threaded cylinder 5119, the variation of the leakage length X of the screw inside the threaded cylinder 5119 can be observed in real time through the telescopic scale 5131, the driving rod 5127 is rotated, the driving rod 5127 can be rotated to drive the driving bevel gear 5129 to rotate, the driving bevel gear 5129 can drive the driven bevel gear 5125 to rotate through the gear teeth, the driven bevel gear 5125 can be rotated to drive the fine adjustment screw rod 5121 to rotate, the fine adjustment screw rod 5121 can be driven to displace through the threads to drive the slider 5120, and the variation of the distance W between the slider 5120 and the central axis of the fold 502 can be observed in real time through the fine adjustment scale 5132;

in the corrugation processing process, because the aluminum foil is simultaneously contacted with the positioning roller 5116 and the supporting roller 5134, the interval between the positioning roller 5116 and the supporting roller 5134 is the thickness of the aluminum foil, under the linkage action of the linkage plate 5117, the distance S between the central axis of the conversion disc 502 and the central axis of the positioning roller 5116 can be adjusted by adjusting the length of X, the distance J between the central axis of the conversion disc 502 and the central axis of the supporting and conveying roller 509 can be adjusted by adjusting the length of L, the distance T between the central axis of the conversion disc 502 and the central axis of the compression roller 506 can be adjusted by adjusting W, the length of T subtracted by the length of J is equal to the distance between the supporting and conveying roller 509 and the compression roller 506, the thickness of J subtracted by the length of S is the thickness of the aluminum foil, the thickness of the aluminum foil is the corrugation forming depth, and further, the corrugation forming depth can be sequentially subjected to coarse adjustment, fine adjustment and fine adjustment by respectively adjusting L, X and W;

similarly, in the wrinkle processing process, the output shaft of the driving motor 5011 drives the supporting and conveying roller 509 to rotate through the bearing seat 5010, the supporting and conveying roller 509 drives the aluminum foil to move through the anti-skid rubber sleeve by using friction force, so that the conveying process of the aluminum foil is more stable, the selected compression roller 506 is limited and guided by the guide pillar 513 and is pressed on the surface of the aluminum foil by using the elastic force of the force application spring 514, corresponding wrinkles are pressed on the surface of the aluminum foil by using surface patterns of the aluminum foil, and the heating strip 5023 inside the compression roller 506 can perform secondary heating on the aluminum foil in real time in the process, so that the wrinkle forming difficulty is reduced;

after the aluminum foil passes through the gap between the bottommost pressing roller 506 and the supporting and conveying roller 509, the aluminum foil passes through the gap between the positioning roller 5116 and the supporting roller 5134 on the other side, the wrinkled thickness of the aluminum foil can be observed by observing a graduated scale 5133, the aluminum foil passes through the top of the buffer roller 607, then passes through the bottom of the pressing rod 613, passes through the gap between the two adjacent tensioning rollers 635, and finally the end of the aluminum foil is clamped into the gap between the adjacent pressing plate 636 and the winding roller 624, the screw 632 rotates to drive the limiting block 633 to displace through the screw, the limiting block 633 drives the pressing plate 636 to displace, so that the pressing plate 636 presses the end of the aluminum foil on the surface of the winding roller 624 to fix the end of the aluminum foil;

after the fixing work of the end part of the aluminum foil is finished, the driving threaded rod 605 is rotated, the driving threaded rod 605 rotates to drive the adjusting block 603 to move through threads, the adjusting block 603 is driven to slide along the guide groove 601, the distance between the sliding seat 602 and the adjusting block 603 is changed, the original compression amount of the stress spring 606 is adjusted, in the corrugation processing process, the sliding seat 602 can give elastic support to the buffer roller 607 through the elasticity of the stress spring 606 in real time, the buffer roller 607 rotates along with the transmission of the aluminum foil and gives elastic buffer force to the aluminum foil, so that the aluminum foil after corrugation processing is always stably kept in a proper tension state, and through the adjustment, the size of the elastic buffer force can be adjusted in real time according to the actual corrugation processing depth;

after the original compression amount of the stress spring 606 is adjusted, the manual screw 611 is rotated, the manual screw 611 rotates to drive the two correction plates 612 to move oppositely through threads, so that the correction plates 612 are abutted to the side end faces of the aluminum foil, the position of the aluminum foil is corrected, the axis of the aluminum foil conveying path is aligned with the central point of the winding roller 624, position limitation is performed in the winding process, and damage to formed wrinkles of the aluminum foil in the winding process due to deviation of the aluminum foil is avoided, even unnecessary irregular wrinkles are formed;

in the winding process, the pressure rod 613 drives the limiting frame 610 to deflect under the action of the gravity of the pressure rod 613, finally, the pressure rod 613 is pressed against the upper surface of the aluminum foil and rotates along with the transmission of the aluminum foil, the limiting frame 610 synchronously drives the linkage conveying roller 608 to deflect, the linkage conveying roller 608 synchronously drives the air distribution spraying seat 614, so that the air distribution spraying seat 614 is aligned with the lower surface of the aluminum foil, in the process, the fan 615 can extract external air in real time, the external air is filtered by the filter box 621 and is converted into clean air, after the clean air is divided by the dividing box 616, one part of the clean air enters the linkage conveying roller 608 through the hollow shaft seat 609 and is uniformly sprayed out through the air distribution spraying seat 614 to blow the lower surface of the aluminum foil, the other part of the clean air enters the air guide seat 619 through the air guide tube 618 and is sprayed out through the air distribution strip opening 620 to blow the upper surface of the aluminum foil, on one hand, the other hand, residues on the surface of the aluminum foil can be blown off, the machined wrinkles can be shaped in time, and the cooling can be avoided from being influenced by the wrinkles caused by the non-cooling or the existence of the residues in the winding process in time;

after the corrugation processing and the rolling are finished, the fixing pin 629 is pulled out, the position limitation on the limiting mounting seat 627 is removed, the limiting mounting seat 627 can be separated from the mounting groove 626, then the limiting mounting seat 627 is moved, the clamping block is separated from the bayonet, and the rolled aluminum foil can be taken down;

and finally, the aluminum foil is processed into a cable shielding foil for processing the cable in the cable, so that the safety is improved, and the external signal interference is reduced.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A processing fold equipment for aluminium foil shaping, includes base (1), its characterized in that: mounting plates (2) are symmetrically mounted on one side of the top end of the base (1);

the inner side of the mounting plate (2) is provided with a wrinkle processing mechanism (5), and the wrinkle processing mechanism (5) comprises a wrinkle forming component (50) and a wrinkle adjusting component (51);

the wrinkle adjusting assembly (51) comprises a sliding seat (512), a linkage block (515) is installed at the side end of the sliding seat (512), a rough adjusting screw rod (516) is installed at the top end of the linkage block (515), a pressure plate (517) is installed at the bottom end of the rough adjusting screw rod (516), a sliding rod (518) is installed in the middle of the bottom end of the rough adjusting screw rod (516) in an embedded and sliding mode, and a tension spring (519) is sleeved on the outer side of the sliding rod (518);

the wrinkle forming assembly (50) comprises an adjusting plate (501), a conversion disc (502) is installed on the side end face of the adjusting plate (501), a plurality of sliding plates (503) are installed on the outer curved surface of the conversion disc (502), sliding blocks (505) are installed on the side end face of each sliding plate (503) in a sliding mode, pressing rollers (506) are installed on the side end face of each sliding block (505), and supporting and conveying rollers (509) are installed on the side end face of the base (1).

2. The wrinkle machining equipment for aluminum foil forming is characterized in that a supporting plate (3) is symmetrically installed on the other side of the top end of the base (1), and an installation seat (4) is installed in the middle of the top end of the base (1);

the side end face of the mounting plate (2) is provided with an adjusting plate (501) in an inner sliding manner, the middle of the side end face of the conversion disc (502) is provided with a limiting seat (507), the side end face of the limiting seat (507) is provided with a limiting pin (508) in an embedded sliding manner, the outer side of a central shaft of the support conveying roller (509) is rotatably provided with a bearing seat (5010), the side end face of the base (1) is provided with a driving motor (5011) corresponding to the position of the bearing seat (5010), and the driving motor (5011) is connected with the support conveying roller (509) through the bearing seat (5010);

the side end face of the adjusting plate (501) is provided with an installation lug (5012), the installation lug (5012) is internally symmetrically and rotatably provided with a telescopic column (5013), the telescopic end of the telescopic column (5013) is provided with an installation block (5014), the side end face of the installation block (5014) is rotatably provided with a stretching cleaning roller (5015), the end part of the fixed part of the telescopic column (5013) is provided with a limit disc (5016), the outer side of the telescopic part of the telescopic column (5013) is sleeved with a pressure resisting spring (5017), the middle part of the side end face of the installation lug (5012) is rotatably provided with a middle shaft (5018), the outer side of the middle shaft (5018) is sleeved with a tension spring (5019), the outer curved surface of the telescopic column (5013) is provided with a connection lug (5020), and the tension spring (5019) is connected with the telescopic column (5013) through the connection lug (5010);

slide (512) side end face corresponds gag pin (508) position department and has seted up a plurality of spacing holes (5021) along angles such as circumferencial direction, tensile cleaning roller (5015) internally mounted has heater strip (5022), compression roller (506) internally mounted has heating strip (5023).

3. The corrugation processing equipment for aluminum foil forming according to claim 1, wherein a sliding groove (511) is formed in the middle of the side end face of the mounting plate (2), a sliding seat (512) is installed in the middle of the side end face of the adjusting plate (501), a guide pillar (513) is installed in the middle of the top end of the sliding seat (512), a force application spring (514) is sleeved on the outer side of the guide pillar (513), and the sliding seat (512) is connected with the mounting plate (2) through the force application spring (514);

the adjustable pressure bearing device is characterized in that an installation frame (5111) is installed at the position, located at the bottom of the adjusting plate (501), of the top end of the base (1), guide grooves (5112) are symmetrically formed in side end faces of the installation frame (5111), supporting blocks (5113) are installed in the guide grooves (5112) in a sliding mode, limiting rods (5114) are installed in the middle of the top ends of the supporting blocks (5113), a pressurizing spring (5115) is sleeved on the outer sides of the limiting rods (5114), positioning rollers (5116) are installed in the middle of the side end faces of the supporting blocks (5113) in a rotating mode, supporting rollers (5134) are installed at the position, located at the bottom of the positioning rollers (5116), of the side end faces of the installation frame (5111), a linkage plate (5117) is installed on the side end faces of the supporting blocks (5113), a limiting telescopic rod (5118) is installed in the middle of the bottom end of one sliding seat (512), and a threaded barrel (5119) is installed in the middle of the bottom end of the other sliding seat (512) in a rotating mode;

an adjusting groove (504) is formed in the middle of the side end face of the sliding plate (503), a sliding block (505) is installed in the adjusting groove (504) in a sliding mode, a sliding block (5120) is installed in the adjusting groove (504) in a sliding mode and located at the inner side position of the sliding block (505), a fine adjustment lead screw (5121) is installed in the middle of the side end face of the sliding block (5120) through threads, a guide rod (5122) is installed in the middle of the side end face of the fine adjustment lead screw (5121) in an embedded sliding mode, the fine adjustment lead screw (5121) is connected with the sliding block (505) through the guide rod (5122), a buffer spring (5123) is sleeved on the outer side of the fine adjustment lead screw (5121), a driven conical tooth disc (5125) is installed on the end portion of the fine adjustment lead screw (5121), a rotating shaft seat (5124) is installed on the position, close to the outer side of the driven conical tooth disc (5125) in a rotating mode, and the fine adjustment lead screw (5121) is connected with the conversion disc (502) through the rotating shaft seat (5124);

a support frame (5126) is installed in the middle of the end face of the side of the conversion disc (502), a drive rod (5127) is rotatably installed in the middle of the support frame (5126), a drive conical fluted disc (5129) is installed at both ends of the drive rod (5127), a connection disc (5128) is installed at the position, close to the drive conical fluted disc (5129), of the outer side of the drive rod (5127), and the drive rod (5127) is connected with the support frame (5126) through the connection disc (5128);

a coarse adjustment scale (5130) is installed in the middle of the end face of the linkage block (515) corresponding to the position of the coarse adjustment screw (516), a telescopic scale (5131) is installed in the position, located on one side of the threaded cylinder (5119), of the bottom end of the sliding seat (512), fine adjustment scales (5132) are carved in the positions, located on two sides of the adjusting groove (504), of the end face of the sliding plate (503), and an observation scale (5133) is installed in the position, corresponding to the position of the guide groove (5112), of the end face of the mounting frame (5111).

4. The corrugation processing equipment for aluminum foil forming is characterized in that a winding mechanism (6) is installed at the position, located on the inner side of the support plate (3), of the top end of the base (1);

winding mechanism (6) are including linkage conveying roller (608), linkage conveying roller (608) tip rotates and installs hollow shaft seat (609), spacing (610) are installed to hollow shaft seat (609) outside terminal surface, spacing (610) side terminal surface limit portion rotates and installs hand screw (611), correction plate (612) are installed through the screw symmetry in hand screw (611) outside, spacing (610) side terminal surface is located hand screw (611) inboard position department and rotates and installs depression bar (613), linkage conveying roller (608) outer curved surface corresponds spacing (610) position department and installs cloth gas jet seat (614).

5. The wrinkle machining equipment for aluminum foil forming according to claim 4, wherein a guide groove (601) is formed in the middle of the end face of the mounting seat (4), a sliding seat (602) is slidably mounted in the guide groove (601), an adjusting block (603) is slidably mounted in the guide groove (601) and located at the bottom of the sliding seat (602), a balance rod (604) is mounted in the middle of the top end of one adjusting block (603), a driving threaded rod (605) is rotatably mounted in the middle of the top end of the other adjusting block (603), stress springs (606) are sleeved on the outer sides of the balance rod (604) and the driving threaded rod (605), and the adjusting block (603) is connected with the sliding seat (602) through the stress springs (606);

a buffer roller (607) is rotatably installed in the middle of the side end face of the sliding seat (602), a linkage conveying roller (608) is embedded in the middle of the side end face of the adjusting block (603) and rotatably installed, and the linkage conveying roller (608) is connected with the adjusting block (603) through a hollow shaft seat (609);

a fan (615) is installed on the end face of the side of the installation base (4) and located at the bottom of the guide groove (601), a shunting box (616) is installed at the air outlet end of the fan (615), an air conveying pipe (617) is installed on one side of the top end of the shunting box (616), an air guiding pipe (618) is installed on the other side of the top end of the shunting box (616), an air guiding base (619) is embedded and installed in the middle of the top end of the installation base (4), a plurality of air distributing strip ports (620) are evenly formed in the bottom end of the air guiding base (619) at equal intervals, and a filter box (621) is installed at the air inlet end of the fan (615);

a winding motor (622) is installed on one side of the supporting plate (3), a driving seat (623) is installed at the position, corresponding to the winding motor (622), of the side end face of the supporting plate (3) in an embedded and rotating mode, a winding roller (624) is clamped on one side of the driving seat (623), the winding roller (624) is connected with an output shaft of the winding motor (622) through the driving seat (623), an adjusting disc (625) is installed on the end portion of each of two sides of the winding roller (624), an installation groove (626) is formed in the middle of the top end of one supporting plate (3), a limiting installation seat (627) is clamped inside the installation groove (626), a rotating seat (628) is installed in the middle of the side end face of the limiting installation seat (627) in a rotating mode, the limiting installation seat (627) is connected with the winding roller (624) through the rotating seat (628), a fixing pin (629) is installed in the middle of the other side end face of the limiting installation seat (627) in an embedded and sliding mode, and the limiting installation seat (627) is connected with the supporting plate (3) through the fixing pin (629);

a plurality of spacing grooves (630) have been seted up at angles such as adjustment disk (625) side end face along circumferencial direction, spacing groove (630) inside slidable mounting has driver block (631), embedded slidable mounting has lead screw (632) in the middle part of driver block (631) top, lead screw (632) outside is located driver block (631) inboard position department and installs stopper (633) through the screw thread, fixed spring (634) have been cup jointed in the lead screw (632) outside, driver block (631) side end face mid-rotation installs tensioning roller (635), stopper (633) side end face mid-mounting has pressure plate (636).

6. The wrinkle machining equipment for aluminum foil forming as claimed in claim 2, wherein a shaft sleeve (5110) is mounted at the bottom end of the sliding rod (518), the supporting and conveying roller (509) is connected with the sliding rod (518) through the shaft sleeve (5110), and abdicating holes are respectively formed in the middle parts of the bottom ends of the rough adjusting screw (516) and the pressing disc (517) corresponding to the position of the sliding rod (518);

every the fold shaping template is all installed on compression roller (506) surface, compression roller (506) fold shaping template is different each other, and adjacent two the angle of deflection between compression roller (506) is ninety degrees, and the angle of deflection between two adjacent spacing holes (5021) is ninety degrees.

7. The machining wrinkling equipment for aluminum foil forming according to claim 2, wherein a cleaning sponge is sleeved on the outer surface of the stretching cleaning roller (5015), an anti-skid rubber sleeve is sleeved on the outer side of the supporting and conveying roller (509), the heating wire (5022) and the heating strip (5023) are both in a spiral shape, and the input end of the driving motor (5011) is electrically connected with the output end of an external power supply.

8. The corrugation processing equipment for aluminum foil forming according to claim 3, wherein the sliding groove (511) is engaged with the sliding base (512), a guide hole is arranged at the top end of the mounting plate (2) corresponding to the guide post (513), and a limiting opening is arranged at the top end of the mounting frame (5111) corresponding to the limiting rod (5114).

9. The machining corrugation device for aluminum foil forming is characterized in that the highest point of the supporting roller (5134) is flush with the highest point of the supporting and conveying roller (509), the length of the coarse adjustment scale (5130) is equal to that of the coarse adjustment screw (516), and the length of the telescopic end of the telescopic scale (5131) is equal to that of the screw inside the threaded barrel (5119).

10. The equipment for processing the folded aluminum foil according to claim 5, wherein a filling drawer is symmetrically embedded into the side end face of the filter cartridge (621) in a sliding manner, activated carbon and filter sponge are sequentially filled in the filling drawer, a through hole is formed in the middle of the top end of the driving block (631) corresponding to the lead screw (632), the manual screw (611) is a bidirectional screw, a clamping block is arranged in the middle of the side end face of the driving seat (623), a clamping opening is formed in the side end face of the winding roller (624) corresponding to the clamping block, the inner diameter of the through hole is larger than the outer diameter of the lead screw (632), and the input end of the fan (615) is electrically connected with the output end of an external power supply.