CN114074145A

CN114074145A - Aluminum foil lunch box integrated forming pressing device for preventing aluminum foil from being fractured

Info

Publication number: CN114074145A
Application number: CN202210057078.1A
Authority: CN
Inventors: 徐同孟
Original assignee: Enge Intelligent Technology Nantong Co ltd
Current assignee: Enge Intelligent Technology Nantong Co ltd
Priority date: 2022-01-19
Filing date: 2022-01-19
Publication date: 2022-02-22
Anticipated expiration: 2042-01-19
Also published as: CN114074145B

Abstract

An aluminum foil lunch box integrated forming pressing device for preventing aluminum foil from being broken belongs to the technical field of aluminum foil lunch boxes and aims to solve the problem that a traditional punching device is inconvenient for deburring a conveyed shaft structure, so that after the shaft conveying time is too long, the aluminum foil is broken, and the work is delayed; according to the invention, before the first conveying shaft and the second conveying shaft are conveyed each time, the connecting groove and the embedding head are embedded, namely the first telescopic shaft and the second telescopic shaft form a whole, the deburring strip moves on the first telescopic shaft and the second telescopic shaft under the action of the pneumatic tube, and meanwhile, the first conveying shaft and the second conveying shaft can rotate to remove burrs on the outer sides of the first conveying shaft and the second conveying shaft under the grinding action of the grinding belt.

Description

Aluminum foil lunch box integrated forming pressing device for preventing aluminum foil from being fractured

Technical Field

The invention relates to the technical field of aluminum foil lunch boxes, in particular to an integrally-formed pressing device for an aluminum foil lunch box capable of preventing aluminum foil from being broken.

Background

The aluminium foil lunch box is a widely used tableware, which can be divided into two types of tableware with wrinkles and without wrinkles, and can also be divided into two types of tableware for one time and repeated use, which is commonly called as tinfoil lunch box in China, actually 3 series or 8 series aluminium ingot raw materials are cold-rolled or hot-rolled into aluminium foil mother coils with uniform thickness, smooth surface, no pinholes, no dust particles and no peculiar smell, and the production process of one-time full-automatic cold stamping forming is carried out by special equipment and dies.

Traditional aluminium foil cutlery box's preparation needs stamping device to carry out the punching press to it on the way of carrying the aluminium foil, make the aluminium foil cutlery box afterwards, need carry through the axle of multiunit at this in-process, traditional stamping device is not convenient for carry out burring work to the axle construction of carrying, lead to the axle transport time after of a specified duration, can make the aluminium foil fracture condition appear, cause the work delay, and traditional stamping device is not convenient for carry out finding and the centre gripping of automatic formula to the aluminium foil after the fracture, need consume artifically, lead to work efficiency to reduce, traditional stamping device is not convenient for automatic formula carries out mechanical cutting to the aluminium foil after the fracture, lead to needing the artifical aluminium foil that is not high after the fracture to cut, the cutting integrity problem easily appears.

To solve the above problems, an integrated pressing device for aluminum foil lunch boxes is proposed to prevent the aluminum foil from breaking.

Disclosure of Invention

The invention aims to provide an integrated forming and pressing device for an aluminum foil lunch box for preventing aluminum foil from being broken, which solves the problems that the traditional aluminum foil lunch box in the background technology needs a punching device to punch the aluminum foil on the way of conveying the aluminum foil, then the aluminum foil lunch box is manufactured, in the process, the aluminum foil needs to be conveyed by a plurality of groups of shafts, the traditional punching device is inconvenient for deburring the conveyed shaft structure, so that the aluminum foil is broken after the shaft conveying time is too long, the work is delayed, and traditional stamping device is not convenient for carry out finding and the centre gripping of automatic formula to the aluminium foil piece after the fracture, need consume the manual work, leads to work efficiency to reduce, and traditional stamping device is not convenient for automatic formula carry out mechanical cutting to the aluminium foil piece after the fracture, leads to needing the manual work to cut the aluminium foil after the fracture, easily appears the not high problem of cutting integrity.

In order to achieve the purpose, the invention provides the following technical scheme: the aluminum foil lunch box integrated forming and pressing device for preventing aluminum foil from being broken comprises a conveying rack and an operation box arranged on one side of the conveying rack, wherein a stamping head is arranged inside the operation box, a workbench is arranged inside the conveying rack, the stamping head is positioned right above the workbench, a conveying assembly is arranged inside the conveying rack, a cutting assembly is arranged on one side of the conveying assembly, and the conveying assembly and the cutting assembly are provided with a plurality of groups;

the conveying assembly comprises a first conveying shaft and a second conveying shaft which are arranged in the conveying rack, the second conveying shaft is arranged right below the first conveying shaft, the second conveying shaft and the first conveying shaft are used for conveying aluminum foils, the conveying assembly further comprises a first telescopic shaft arranged on one side of the first conveying shaft and one side of the second conveying shaft, the second telescopic shaft is arranged on the same horizontal side face of the first telescopic shaft, the second telescopic shaft and the first telescopic shaft are members made of the same structure, the second telescopic shaft is arranged in the conveying rack, and a deburring strip is sleeved on the outer side of the first telescopic shaft;

the deburring strip includes that the activity suit is at the movable block in the first telescopic shaft outside and runs through the cooperation groove of seting up in the movable block inside, and cooperation groove and first telescopic shaft outside phase-match, and the deburring strip is still including setting up the piece of stretching out and setting the subassembly of polishing in the deburring strip inside at the movable block both ends, and movable block one side is provided with pneumatic tube, and the lower extreme position weight of deburring strip is greater than the upper end position weight of deburring strip.

Furthermore, the first telescopic shaft comprises a connecting shaft arranged inside the conveying rack and an extension shaft embedded inside the connecting shaft, an end face is arranged at one end of the connecting shaft, the end face is in a curved surface arrangement, the connecting shaft and the extension shaft are arranged in two groups, and one group of the connecting shaft and the extension shaft are arranged on one side of the other group of the connecting shaft and the extension shaft.

Furthermore, the extension block comprises a first guide pillar arranged inside the extension block and an embedded bar arranged at the lower end of the extension block, the embedded bar is arranged inside the moving block, the first guide pillar is arranged in two groups, one end of the first guide pillar is arranged inside the moving block, a rack groove is formed inside the embedded bar, a driving gear is arranged on one side of the rack groove in an engaged mode, the driving gear is arranged inside the moving block, and the driving gear is driven through electric power.

Further, the subassembly of polishing is including setting up at the inside swiveling wheel of deburring strip, and the swiveling wheel sets up two sets ofly, a set of the swiveling wheel set up and be in a set of stretch out inside the piece, another group the swiveling wheel set up in another group stretch out inside the piece, two sets of the swiveling wheel outside be provided with the area of polishing, the inside center pin that runs through of swiveling wheel is provided with, the swiveling wheel is connected through center pin and deburring strip inside.

Furthermore, the ground clearance of the grinding belt is smaller than that of the second conveying shaft, the highest point height of the grinding belt is larger than that of the first conveying shaft, an embedded head is arranged at one end of the second telescopic shaft, a connecting groove is arranged at one end of the first telescopic shaft, the embedded head and the connecting groove are located at the same horizontal position, and the embedded head is matched with the connecting groove.

Furthermore, T-shaped blocks are arranged in the embedding groove in a two-group mode, a bottom end plate is arranged between the T-shaped blocks, suction fans are arranged in the bottom end plate and are arranged in multiple groups, a first electric telescopic rod is arranged at the upper end of each T-shaped block, and the first electric telescopic rods are arranged in the embedding groove.

Further, the inside axis of rotation that is provided with in bottom end board one side, and the axis of rotation outside is provided with the overlay, and the axis of rotation passes through electric drive, and the inside second electric telescopic handle that is provided with of overlay, and second electric telescopic handle sets up two sets ofly, and overlay one side is provided with the promotion strip, and the overlay is connected with the promotion strip through second electric telescopic handle, promotes strip one side and is provided with the pulley, and the pulley sets up two sets ofly.

Furthermore, the T-shaped block comprises a motor arranged in the T-shaped block and a driving shaft arranged at the output end of the motor, a driving groove is formed in one side of the bottom end plate, the driving shaft is arranged in the driving groove, and the motor is connected with the bottom end plate through the driving shaft.

Further, the cutting assembly comprises a fixing strip and an accommodating strip arranged at the lower end of the fixing strip, the accommodating strip comprises a cutting knife movably arranged in the cutting knife and a third electric telescopic rod and a second guide pillar which are arranged at the upper end of the cutting knife, the third electric telescopic rod and the second guide pillar are arranged in two groups, one end of the third electric telescopic rod and one end of the second guide pillar are connected with the inner wall of the accommodating strip, and the cutting knife is arranged right above the covering plate.

Further, the length of the cutting knife is smaller than the distance between the two groups of second electric telescopic rods, and the length of the cutting knife is larger than the width of the conveyed aluminum foil.

Compared with the prior art, the invention has the following beneficial effects:

1. the aluminum foil sheet is conveyed by the first conveying shafts and the second conveying shafts, burrs appear on the surfaces of the first conveying shafts and the second conveying shafts after the first conveying shafts and the second conveying shafts work for a long time, and the aluminum foil sheet is damaged and even broken when conveyed, so that the connecting grooves are embedded with the embedding heads by driving the first telescopic shafts and the second telescopic shafts to extend before the first conveying shafts and the second conveying shafts convey the aluminum foil sheet each time, namely the first telescopic shafts and the second telescopic shafts form a whole, the deburring strips move on the first telescopic shafts and the second telescopic shafts under the action of the pneumatic pipes, the outer surfaces of the first telescopic shafts and the second telescopic shafts are smooth due to the arrangement of the end surfaces, the movement of the deburring strips is not influenced, and simultaneously, first transport axle and second carry the axle can rotate, and the effect of polishing in the area of polishing in the cooperation is got rid of the burr that first transport axle and second carried the axle outside, avoids the aluminium foil condition of splitting to appear, through the rotation of drive driving gear for the rack groove with stretch out a lift, thereby stretch the area of polishing, change its intensity of polishing.

2. According to the integrally-formed pressing device for the aluminum foil lunch box capable of preventing the aluminum foil from being broken, when the aluminum foil is broken, the infrared sensors at the positions below the first conveying shaft and the second conveying shaft sense the situation, the first electric telescopic rod is driven to contract at the moment, namely, the bottom end plate is lifted, the width of the bottom end plate is larger than the distance between the two groups of conveying assemblies, the broken aluminum foil is positioned at the upper end of the bottom end plate through the matching of the air suction effect of the air suction fan, the rotating shaft drives the covering plate to rotate while the bottom end plate is lifted, the covering plate covers one side of the bottom end plate, namely, the aluminum foil is clamped by the bottom end plate and the covering plate at the same time, and an operator can know the breaking position of the aluminum foil conveniently.

3. The aluminum foil lunch box integrally-formed pressing device for preventing the aluminum foil from being broken provided by the invention has the advantages that after the broken aluminum foil is clamped by the bottom end plate and the covering plate, the bottom end plate will continue to rise until it rises to the top position of the bottom end plate, at this time, the second electric telescopic rod is driven to extend out, i.e. the distance between the push bar and the covering plate is exposed, the third electric telescopic rod is driven electrically to lead the cutting knife to descend rapidly, cutting the aluminum foil at the distance position between the pushing strip and the covering plate, wherein the vertex position of the bottom end plate is matched with the cutting position of the cutting knife, the cut broken aluminum foil is remained at the upper end of the bottom end plate, and the first electric telescopic rod is driven to extend out to drive the bottom end plate to descend, when the bottom end plate is lowered to the lowest point, the covering plate is also rotated and separated from the bottom end plate, the driving shaft and the bottom end plate are driven by the motor to rotate and incline, and the cut broken aluminum foil pieces are poured into the position right below the bottom end plate for collection.

Drawings

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

FIG. 2 is a schematic cross-sectional view of a conveyor frame according to the present invention;

FIG. 3 is a schematic view of the structure of the conveyor assembly of the present invention;

FIG. 4 is a schematic cross-sectional view of the inventive deburring strip;

FIG. 5 is an enlarged view of the structure at A in FIG. 4 according to the present invention;

FIG. 6 is a schematic diagram of a sanding assembly according to the present invention;

FIG. 7 is a schematic view of the bottom end plate structure of the present invention;

FIG. 8 is a schematic view of a T-block structure according to the present invention;

FIG. 9 is a schematic view of a cutting assembly according to the present invention;

fig. 10 is a schematic plan view of the fixing strip and the receiving strip of the present invention.

In the figure: 1. a conveyor frame; 11. unwinding wheels; 12. a middle frame; 13. a through groove; 14. a secondary conveying cavity; 15. a mechanism strip; 16. an infrared sensor; 17. a fitting groove; 171. a bottom end plate; 1711. a rotating shaft; 1712. a cover plate; 1713. a second electric telescopic rod; 1714. a push bar; 1715. a pulley; 172. an air suction fan; 173. a T-shaped block; 1731. a motor; 1732. a drive shaft; 1733. a drive slot; 174. a first electric telescopic rod; 2. a delivery assembly; 21. a first conveying shaft; 22. a second conveying shaft; 23. a first telescopic shaft; 231. a connecting shaft; 232. an extension shaft; 233. an end face; 24. a second telescopic shaft; 25. removing the burr strips; 251. a pneumatic tube; 252. a protruding block; 2521. a first guide post; 2522. a tabling strip; 2523. a rack slot; 2524. a driving gear; 253. polishing the assembly; 2531. polishing the belt; 2532. a rotating wheel; 2533. a central shaft; 254. a moving block; 255. a mating groove; 26. a fitting head; 27. connecting grooves; 3. a cutting assembly; 31. a fixing strip; 32. a receiving strip; 321. a cutting knife; 322. a third electric telescopic rod; 323. a second guide post; 4. a work table; 5. an operation box; 6. and (5) stamping the head.

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.

In order to solve the technical problem that the conventional punching device is inconvenient for deburring the conveyed shaft structure, so that the aluminum foil is broken after the shaft conveying time is too long, and the work is delayed, as shown in fig. 1-6, the following preferred technical solutions are provided:

an aluminum foil lunch box integrally-formed pressing device for preventing aluminum foil from being broken comprises a conveying rack 1 and an operation box 5 arranged on one side of the conveying rack 1, wherein a stamping head 6 is arranged inside the operation box 5, a workbench 4 is arranged inside the conveying rack 1, the stamping head 6 is positioned right above the workbench 4, a conveying assembly 2 is arranged inside the conveying rack 1, a cutting assembly 3 is arranged on one side of the conveying assembly 2, a plurality of groups of the conveying assembly 2 and the cutting assembly 3 are arranged, the conveying rack 1 comprises a unreeling wheel 11 arranged inside the conveying rack 1, a middle frame 12 and a secondary conveying cavity 14, a penetrating groove 13 is arranged inside the middle frame 12 in a penetrating manner, mechanism strips 15 and embedded grooves 17 are arranged on two sides of the inner wall of the secondary conveying cavity 14, a plurality of groups of infrared sensors 16 are arranged on the side surfaces of the mechanism strips 15, a plurality of groups of the mechanism strips 15 and the embedded grooves 17 are arranged, the conveying assembly 2 comprises a first conveying shaft 21 and a second conveying shaft 22 which are arranged inside the conveying rack 1, the second conveying shaft 22 is arranged at a position right below the first conveying shaft 21, the second conveying shaft 22 and the first conveying shaft 21 are used for conveying aluminum foil, the conveying assembly 2 further comprises a first telescopic shaft 23 arranged at one side of the first conveying shaft 21 and the second conveying shaft 22, a second telescopic shaft 24 is arranged on the same horizontal side surface of the first telescopic shaft 23, the second telescopic shaft 24 and the first telescopic shaft 23 are members made of the same structure, the second telescopic shaft 24 is arranged in the conveying rack 1, a deburring strip 25 is sleeved outside the first telescopic shaft 23, the deburring strip 25 comprises a 254 moving block movably sleeved outside the first telescopic shaft 23 and a matching groove 255 penetrating through the moving block 254, the matching groove 255 is matched with the outer side of the first telescopic shaft 23, the deburring strip 25 further comprises extending blocks 252 arranged at two ends of the moving block 254 and a polishing assembly 253 arranged in the deburring strip 25, the pneumatic tube 251 is arranged on one side of the moving block 254, the weight of the lower end part of the deburring strip 25 is larger than that of the upper end part of the deburring strip 25, the first telescopic shaft 23 comprises a connecting shaft 231 arranged inside the conveying rack 1 and an extension shaft 232 embedded inside the connecting shaft 231, an end face 233 is arranged at one end of the connecting shaft 231, the end face 233 is arranged in a curved surface mode, the connecting shaft 231 and the extension shaft 232 are arranged in two groups, and the connecting shaft 231 and the extension shaft 232 in one group are arranged on one side of the connecting shaft 231 and the extension shaft 232 in the other group.

The extension block 252 includes a first guide post 2521 disposed inside the extension block 252 and an engaging bar 2522 disposed at a lower end of the extension block 252, the engaging bar 2522 is engaged inside the moving block 254, the first guide post 2521 is provided in two sets, one end of the two sets of first guide posts 2521 is disposed inside the moving block 254, a rack groove 2523 is disposed inside the engaging bar 2522, a driving gear 2524 is engaged on one side of the rack groove 2523, the driving gear 2524 is disposed inside the moving block 254, the driving gear 2524 is driven by electric power, the polishing assembly 253 includes a rotating wheel 2532 disposed inside the deburring bar 25, the rotating wheel 2532 is provided in two sets, the rotating wheel 2532 of one set is disposed inside the extension block 252, the rotating wheel 2532 of the other set is disposed inside the extension block 252 of the other set, a polishing belt 2531 is disposed outside the two sets of rotating wheel 2532, a central shaft 2533 is disposed through the rotating wheel 2532, the rotating wheel 2533 is connected to the deburring bar 25 through the central shaft 2533, the ground clearance of the polishing belt 2531 is smaller than the ground clearance of the second conveying shaft 22, the highest point height of the polishing belt 2531 is larger than that of the first conveying shaft 21, the embedding head 26 is arranged at one end of the second telescopic shaft 24, the connecting groove 27 is arranged at one end of the first telescopic shaft 23, the embedding head 26 and the connecting groove 27 are located at the same horizontal position, and the embedding head 26 is matched with the connecting groove 27.

Specifically, the aluminum foil is unreeled outside the unreeling wheel 11, the aluminum foil is transported by the multiple sets of the first transporting shaft 21 and the second transporting shaft 22, after the first transporting shaft 21 and the second transporting shaft 22 operate for too long time, burrs appear on the surface of the aluminum foil, and the aluminum foil is damaged or even broken when being transported, so that before each transportation of the first transporting shaft 21 and the second transporting shaft 22, the first telescopic shaft 23 and the second telescopic shaft 24 are driven to extend out, the connecting groove 27 and the embedding head 26 are embedded, that is, the first telescopic shaft 23 and the second telescopic shaft 24 form a whole, the deburring strip 25 moves on the first telescopic shaft 23 and the second telescopic shaft 24 due to the action of the pneumatic tube 251, the end surface 233 is arranged, the outer surfaces of the first telescopic shaft 23 and the second telescopic shaft 24 are smooth, the movement of the deburring strip 25 is not influenced, and simultaneously, the first conveying shaft 21 and the second conveying shaft 22 can rotate, burrs on the outer sides of the first conveying shaft 21 and the second conveying shaft 22 are removed by matching with the grinding effect of the grinding belt 2531, the aluminum foil is prevented from being broken, the rack grooves 2523 and the extending blocks 252 are lifted and lowered by driving the driving gear 2524 to rotate, and therefore the grinding belt 2531 is stretched, and the grinding strength is changed.

In order to solve the technical problem that the traditional stamping device is inconvenient to automatically find and clamp the broken aluminum foil, and labor is consumed, so that the working efficiency is reduced, as shown in fig. 7-8, the following preferred technical solutions are provided:

the T-shaped blocks 173 are embedded in the embedding groove 17, two groups of T-shaped blocks 173 are arranged, a bottom end plate 171 is arranged between the two groups of T-shaped blocks 173, an air suction fan 172 is arranged in the bottom end plate 171, the air suction fans 172 are arranged in a plurality of groups, a first electric telescopic rod 174 is arranged at the upper end of each T-shaped block 173, the first electric telescopic rod 174 is arranged in the embedding groove 17, a rotating shaft 1711 is arranged in one side of the bottom end plate 171, a cover plate 1712 is arranged outside the rotating shaft 1711, the rotating shaft 1711 is driven by electric power, a second electric telescopic rod 1713 is arranged in the cover plate 1712, two groups of second electric telescopic rods 1713 are arranged, a pushing bar 1714 is arranged on one side of the cover plate 1712, the cover plate 1712 is connected with the pushing bar 1714 by the second electric telescopic rod 1713, a pulley 1715 is arranged on one side of the pushing bar 1714, two groups of pulleys 1735 are arranged, each T-shaped block 173 comprises a motor 1731 arranged in the interior and a driving shaft 2 arranged at the output end of the motor 1, a driving groove 1733 is formed at one side of the bottom end plate 171, the driving shaft 1732 is disposed inside the driving groove 1733, and the motor 1731 is connected to the bottom end plate 171 through the driving shaft 1732.

Specifically, after the aluminum foil breaks, the plurality of sets of infrared sensors 16 located below the first conveying shaft 21 and the second conveying shaft 22 sense the aluminum foil, at this time, the first electric telescopic rod 174 is driven to contract, i.e., the bottom plate 171 rises, the width of the bottom plate 171 is greater than the distance between the two sets of conveying assemblies 2, and the broken aluminum foil is located at the upper end of the bottom plate 171 through the cooperation of the air suction effect of the air suction fan 172, when the bottom plate 171 rises, the rotating shaft 1711 drives the cover plate 1712 to rotate, the 1712 covers one side of the bottom plate 171, i.e., at this time, the aluminum foil is clamped by the bottom plate 171 and the cover plate 1712 at the same time, and the operator can know the breaking position of the aluminum foil conveniently.

In order to solve the technical problems that the traditional stamping device is inconvenient to automatically and mechanically cut the broken aluminum foil, so that the broken aluminum foil needs to be manually cut, and the cutting integrity is not high easily, as shown in fig. 9-10, the following preferable technical scheme is provided:

the cutting assembly 3 comprises a fixing strip 31 and an accommodating strip 32 arranged at the lower end of the fixing strip 31, the accommodating strip 32 comprises a cutting knife 321 movably arranged in the accommodating strip and a third electric telescopic rod 322 and a second guide post 323 arranged at the upper end of the cutting knife 321, the third electric telescopic rod 322 and the second guide post 323 are both arranged in two groups, one ends of the third electric telescopic rod 322 and the second guide post 323 in two groups are both connected with the inner wall of the accommodating strip 32, the cutting knife 321 is arranged right above a covering plate 1712, the length of the cutting knife 321 is smaller than the distance between the second electric telescopic rods 1713 in two groups, and the length of the cutting knife 321 is larger than the width of the conveyed aluminum foil.

Specifically, after the bottom plate 171 and the cover plate 1712 clamp the broken aluminum foil, the bottom plate 171 will continue to rise until it rises to the vertex position of the bottom plate 171, at which time the second electric telescopic rod 1713 is driven to extend, i.e., the distance between the pushing bar 1714 and the covering plate 1712 is revealed, the third electric telescopic rod 322 is driven electrically to make the cutting knife 321 descend rapidly, cutting the aluminum foil at the spacing position between the pushing bar 1714 and the cover plate 1712, wherein the vertex position of the bottom end plate 171 matches the cutting position of the cutting knife 321, the cut broken aluminum foil is left at the upper end of the bottom end plate 171, driving the first electric telescopic rod 174 to extend out and drive the bottom end plate 171 to descend, when the bottom end plate 171 bottoms out, the cover plate 1712 is also rotated away from the bottom end plate 171, the motor 1731 rotates the drive shaft 1732 and the bottom end plate 171 to tilt and pour the cut aluminum foil sheet into position directly below the bottom end plate 171 for collection.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims

1. Prevent aluminium foil cracked aluminium foil cutlery box integrated into one piece suppression device, including carrying frame (1) and setting up in control box (5) of carrying frame (1) one side, inside punching press head (6) that is provided with of control box (5), carry frame (1) inside to be provided with workstation (4), punching press head (6) position is in workstation (4) position directly over, its characterized in that: the conveying mechanism comprises a conveying rack (1), a conveying assembly (2) is arranged in the conveying rack (1), a cutting assembly (3) is arranged on one side of the conveying assembly (2), the conveying assembly (2) and the cutting assembly (3) are provided with multiple groups, the conveying rack (1) comprises a unreeling wheel (11) arranged in the conveying rack (1), a middle frame (12) and a secondary conveying cavity (14), a through groove (13) is formed in the middle frame (12) in a penetrating mode, a mechanism strip (15) and an embedding groove (17) are arranged on two sides of the inner wall of the secondary conveying cavity (14), multiple groups of infrared sensors (16) are arranged on the side face of the mechanism strip (15), and the mechanism strip (15) and the embedding groove (17) are provided with multiple groups;

the conveying assembly (2) comprises a first conveying shaft (21) and a second conveying shaft (22) which are arranged in a conveying rack (1), the second conveying shaft (22) is located right below the first conveying shaft (21), the second conveying shaft (22) and the first conveying shaft (21) are used for conveying aluminum foil, the conveying assembly (2) further comprises a first telescopic shaft (23) which is arranged on one side of the first conveying shaft (21) and one side of the second conveying shaft (22), a second telescopic shaft (24) is arranged on the same horizontal side face of the first telescopic shaft (23), the second telescopic shaft (24) and the first telescopic shaft (23) are components which are made in the same structure, the second telescopic shaft (24) is arranged in the conveying rack (1), and a burr removing strip (25) is sleeved on the outer side of the first telescopic shaft (23);

the deburring strip (25) comprises a movable block (254) movably sleeved on the outer side of a first telescopic shaft (23) and a matching groove (255) penetrating through the inner side of the movable block (254), the matching groove (255) is matched with the outer side of the first telescopic shaft (23), the deburring strip (25) further comprises extending blocks (252) arranged at two ends of the movable block (254) and polishing assemblies (253) arranged inside the deburring strip (25), a pneumatic pipe (251) is arranged on one side of the movable block (254), and the weight of the lower end of the deburring strip (25) is larger than that of the upper end of the deburring strip (25).

2. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 1, wherein: first telescopic shaft (23) are including setting up connecting axle (231) and gomphosis setting at the inside projecting shaft (232) of connecting axle (231) of carrying frame (1) inside, and connecting axle (231) one end position is provided with end face (233), and end face (233) are the curved surface setting, and connecting axle (231) and projecting shaft (232) set up two sets ofly, a set of connecting axle (231) and projecting shaft (232) set up in another group connecting axle (231) and projecting shaft (232) one side.

3. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 1, wherein: the extension block (252) comprises a first guide post (2521) arranged inside the extension block (252) and an embedding strip (2522) arranged at the lower end of the extension block (252), the embedding strip (2522) is embedded inside the moving block (254), the first guide post (2521) is provided with two groups, one end of each of the two groups of first guide posts (2521) is arranged inside the moving block (254), a rack groove (2523) is arranged inside the embedding strip (2522), a driving gear (2524) is arranged on one side of the rack groove (2523) in a meshed mode, the driving gear (2524) is arranged inside the moving block (254), and the driving gear (2524) is driven through electric power.

4. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 3, wherein: grinding assembly (253) is including setting up at the inside swiveling wheel (2532) of unhairing thorn strip (25), and swiveling wheel (2532) sets up two sets ofly, a set of swiveling wheel (2532) set up and be in a set of stretch out inside block (252), another group swiveling wheel (2532) set up in another group stretch out inside block (252), two sets of swiveling wheel (2532) outside be provided with and polish area (2531), swiveling wheel (2532) inside run through and be provided with center pin (2533), swiveling wheel (2532) through center pin (2533) with unhairing thorn strip (25) inside being connected.

5. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 4, wherein: the ground clearance of the grinding belt (2531) is smaller than the ground clearance of the second conveying shaft (22), the highest point height of the grinding belt (2531) is larger than that of the first conveying shaft (21), one end of the second telescopic shaft (24) is provided with an embedding head (26), one end of the first telescopic shaft (23) is provided with a connecting groove (27), the embedding head (26) and the connecting groove (27) are located at the same horizontal position, and the embedding head (26) is matched with the connecting groove (27).

6. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 1, wherein: t-shaped blocks (173) are arranged in the embedding groove (17) in an embedded mode, two groups of T-shaped blocks (173) are arranged, a bottom end plate (171) is arranged between the two groups of T-shaped blocks (173), suction fans (172) are arranged in the bottom end plate (171), the suction fans (172) are arranged in the multiple groups of T-shaped blocks, a first electric telescopic rod (174) is arranged at the upper end of each T-shaped block (173), and the first electric telescopic rod (174) is arranged in the embedding groove (17).

7. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 6, wherein: bottom end plate (171) one side is inside to be provided with axis of rotation (1711), and axis of rotation (1711) outside is provided with overlay (1712), axis of rotation (1711) is through electric drive, overlay (1712) inside is provided with second electric telescopic handle (1713), and second electric telescopic handle (1713) set up two sets ofly, overlay (1712) one side is provided with promotes strip (1714), overlay (1712) are connected with promotion strip (1714) through second electric telescopic handle (1713), it is provided with pulley (1715) to promote strip (1714) one side, pulley (1715) set up two sets ofly.

8. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 7, wherein: the T-shaped block (173) comprises a motor (1731) arranged in the T-shaped block and a driving shaft (1732) arranged at the output end of the motor (1731), one side of the bottom end plate (171) is provided with a driving groove (1733), the driving shaft (1732) is arranged in the driving groove (1733), and the motor (1731) is connected with the bottom end plate (171) through the driving shaft (1732).

9. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 7, wherein: the cutting assembly (3) comprises a fixing strip (31) and a containing strip (32) arranged at the lower end of the fixing strip (31), the containing strip (32) comprises a cutting knife (321) movably arranged in the containing strip and a third electric telescopic rod (322) and a second guide pillar (323) which are arranged at the upper end of the cutting knife (321), the third electric telescopic rod (322) and the second guide pillar (323) are both arranged in two groups, one end of the third electric telescopic rod (322) and one end of the second guide pillar (323) are both connected with the inner wall of the containing strip (32), and the cutting knife (321) is arranged right above a covering plate (1712).

10. The aluminum foil lunch box integrally formed pressing device for preventing aluminum foil from being broken as claimed in claim 9, wherein: the length of the cutting knife (321) is smaller than the distance between the two groups of second electric telescopic rods (1713), and the length of the cutting knife (321) is larger than the width of the conveyed aluminum foil.