CN109967606B - Neatly folding aluminium foil processingequipment is cut completely to no aluminium bits - Google Patents

Abstract

The invention discloses an aluminum foil processing device capable of completely and neatly cutting aluminum scraps, which comprises a frame body, wherein an unreeling device, a sensing guide roller, a first embossing roller, a feeding roller, a cutting mechanism and a folding device are movably arranged on the frame body; the aluminum foil processing device can not only ensure that the aluminum foil can not loose, deviate and fall off during processing, but also ensure that the finally produced aluminum foil is orderly arranged, and can solve the problem that aluminum foil paper scraps fall into food during packaging.

Description

Neatly folding aluminium foil processingequipment is cut completely to no aluminium bits

Technical Field

The invention relates to the technical field of aluminum foil slitting processing equipment, in particular to a device for completely slitting and neatly folding aluminum foil without aluminum scraps.

Background

Aluminum foil is widely used for food, beverage, cigarette, medicine, photographic base, household daily necessities, etc. due to its excellent characteristics, and is generally used as a packaging material thereof; the aluminum foil is a soft metal film, has the advantages of moisture resistance, air tightness, light shielding, abrasion resistance, fragrance preservation, no toxicity, no smell and the like, and is attractive because the aluminum foil has elegant silvery luster and is easy to process various colorful beautiful patterns and designs. Particularly, after the aluminum foil is compounded with the plastic and the paper, the shielding property of the aluminum foil, the strength of the paper and the heat sealing property of the plastic are integrated, so that the shielding property of the aluminum foil to water vapor, air, ultraviolet rays, bacteria and the like which are necessary for being used as packaging materials is further improved, and the application market of the aluminum foil is greatly widened. The packaged articles are fully isolated from external light, humidity, gas and the like, so that the packaged articles are well protected. Especially for food packaging, the aluminum foil material can improve the quality guarantee time of the food. Moreover, the heating and unpacking are convenient, and the bag is popular with consumers. However, aluminum foil used in the current market has aluminum foil scraps, namely, as the aluminum foil is cut completely by a slitting knife in the current prior art when being processed, the aluminum foil is cut in an adhesion mode, so that adhesion points exist between the aluminum foil and the aluminum foil, as shown in fig. 10, the phenomena of loosening, deviation and material dropping of the aluminum foil in the processing process can be avoided, and the uniformity after folding of the aluminum foil can be ensured; but when it is used as the packing, directly tear it can along the gap of gluing, but owing to be gluing between the aluminium foil that cuts, just can appear the aluminium foil paper bits when it is torn, can directly drop in food when packing food, influence the final edible of food, but if do not adopt the mode of gluing to process, the aluminium foil just can appear becoming flexible during processing, the off tracking, phenomenon such as falling the material, place the regularity between the aluminium foil on the accepting bench after making it fold, therefore, an urgent need at present both can guarantee that the aluminium foil can not appear becoming flexible during processing, off tracking and fall the material phenomenon, can guarantee that the aluminium foil range that finally produces is neat again, and can solve when packing that there is the aluminium foil paper bits to drop in the food have the aluminium bits to cut neatly folding aluminium foil processingequipment completely.

Disclosure of Invention

The invention aims to provide a processing device for completely and neatly folding aluminum foils without aluminum scraps, which solves the problems in the prior art, can ensure that the aluminum foils cannot be loosened, deviated and dropped during processing, can ensure that the finally produced aluminum foils are neatly arranged, and can solve the problem that aluminum foil scraps fall into food during packaging.

In order to achieve the above object, the present invention provides the following solutions: the invention provides an aluminum scrap-free full-slitting tidily-folded aluminum foil processing device which comprises a frame body, wherein an unreeling device, a sensing guide roller, a first embossing roller, a feeding roller, a slitting mechanism and a folding device are movably arranged on the frame body, the unreeling device is movably arranged on one side of the sensing guide roller, the first embossing roller is movably arranged on the other side of the sensing guide roller, the first embossing roller is movably arranged on one side of the feeding roller, the slitting mechanism is movably arranged on the other side of the feeding roller, a folding device is movably arranged on the side of the slitting mechanism, a receiving table is fixedly arranged below the folding device, a baffle is movably arranged on the receiving table, the slitting mechanism comprises an upper slitting roller and a lower slitting roller, the upper slitting roller is movably arranged above the lower slitting roller, an upper slitting cutter is fixedly arranged on the upper slitting roller, a first groove is formed in the lower slitting roller, an embossing block is movably arranged on the lower slitting roller, a supporting mechanism is movably arranged below the embossing block, the lower embossing block comprises a supporting table, a lower embossing supporting table is fixedly connected with the lower embossing table, a pressing rod is fixedly arranged on the bottom of the supporting table, and is fixedly connected with the lower embossing table, and is fixedly arranged on the bottom of the supporting table.

Preferably, the embossing block is fixedly provided with a first protrusion, a plurality of first circular grooves are formed in the side edges of the first grooves, and the first protrusions are matched with the first circular grooves.

Preferably, the height-adjusting fixing part comprises a supporting rod, a first elastic piece fixedly connected with the supporting rod and a second protrusion fixedly connected with the first elastic piece, wherein the bottom of the first groove is provided with a second groove, the side wall of the second groove is provided with a plurality of second round grooves, and the second protrusion is matched with the second round grooves.

Preferably, the buckling fixing mechanism comprises a locking rod and a short rod hinged to the locking rod, a second elastic piece is fixedly connected between the locking rod and the short rod, a third groove is formed in the lower slitting roller, the short rod is movably buckled in the third groove, a buckling part is fixed to the top end of the locking rod, and the pressing rod is embedded in the buckling part.

Preferably, the short rod is fixedly provided with a raised line, the raised line is fixedly provided with a protruding block, the side wall of the third groove is provided with a sliding groove, the sliding groove is provided with a plurality of clamping grooves, and the protruding block is buckled in the clamping grooves.

Preferably, the two ends of the buckling part are hinged with clamping claws.

Preferably, the rolling mechanism comprises a fourth groove formed in the side wall of the embossing groove and a sliding roller movably mounted in the fourth groove, and the flat pressing piece is a pressing plate.

Preferably, the first protrusion is a rubber bump, the top end of the rubber bump is of a circular structure, and the second protrusion is a semicircular bump.

Preferably, the first elastic member and the second elastic member are springs.

The invention discloses the following technical effects: according to the aluminum scrap-free full-slitting and orderly-folding aluminum foil processing device disclosed by the invention, the first groove is formed in the lower slitting roller, the embossing block is connected in the first groove in a sliding manner, the embossing groove is formed in the upper slitting roller, the supporting mechanism is movably arranged below the embossing block, when the embossing block is subjected to height adjustment, the pressing rod is pressed and moves downwards along the through groove, the supporting table moves upwards, the embossing block above the supporting table moves upwards along with the pressing rod, when the supporting table moves to a proper position, the supporting mechanism below the embossing block and the buckling fixing mechanism below the pressing rod ensure the stability of the embossing block, the embossing block does not move when the embossing groove is pressed downwards, meanwhile, the rolling mechanism is movably connected in the embossing groove, the periphery of the groove pressed on the final aluminum foil is prevented from being wrinkled, the processed aluminum foil can be ensured to be completely slit, the whole uniformity of the discharged material after the aluminum foil is ensured, and the phenomenon of loosening, deviation and falling of the aluminum foil cannot occur when the aluminum foil is cut into subsequent processing, and the aluminum foil is prevented from being packaged when the aluminum foil is packaged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view showing the structure of an aluminum foil processing apparatus in example 1;

fig. 2 is a schematic structural view of an aluminum foil processing apparatus in example 2;

FIG. 3 is a front view of the slitting mechanism of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3A;

FIG. 5 is a front view of the abutment of the present invention;

FIG. 6 is a right side view of the lower slitting roller of the present invention;

FIG. 7 is a right side view of the snap-fit fastening mechanism of the present invention;

fig. 8 is a front view of the aluminum foil after the completion of the production in the present invention;

fig. 9 is a right side view of the aluminum foil after the completion of the production in the present invention;

fig. 10 is a front view of an aluminum foil after completion of production in the prior art;

wherein, 1-unreeling device; 2-a sensing guide roller; 3-a first embossing roll; 4-a feeding roller; 5-upper slitting rollers; 6-a lower slitting roller; 7-upper transverse cutter; 8-upper slitter; 9-a lower transverse cutter; 10-a lower longitudinal cutter; 11-folding means; 12-a carrying table; 13-bonding points; 14-a baffle; 15-embossing blocks; 16-embossing grooves; 17-a first groove; 18-a first circular groove; 19-a first bump; 20-supporting table; 21-supporting; 22-a compression bar; 23-supporting rods; 24-a first elastic member; 25-second protrusions; 26-a second circular groove; 27-through grooves; 28-a second groove; 29-a slide roller; 30-pressing plates; 31-a second embossing roll; 32-locking bar; 33-short bar; 34-a third groove; 35-fifth grooves; 36-a second elastic member; 37-jaw; 38-a buckling part; 39-a frame; 40-fourth grooves; 41-convex strips; 42-bump; 43-sliding groove; 44-a clamping groove; 45-aluminum foil.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

Example 1

Referring to fig. 1, 3-9, the invention provides a processing device for completely and neatly folding aluminum foil without aluminum scraps, which comprises a frame 39, wherein an unreeling device 1, a sensing guide roller 2, a first embossing roller 3, a feeding roller 4, a slitting mechanism and a folding device 11 are movably arranged on the frame 39, wherein the unreeling device 1 is movably arranged on one side of the sensing guide roller 2, the first embossing roller 3 is movably arranged on the other side of the sensing guide roller 2, the first embossing roller 3 is movably arranged on one side of the feeding roller 4, the slitting mechanism is movably arranged on the other side of the feeding roller, the folding device 11 is movably arranged on the side of the slitting mechanism, and the structures are movably arranged for convenient maintenance and replacement; a carrying table 12 is fixedly arranged below the folding device 11, and a baffle 14 is movably arranged on the carrying table 12 so as to ensure that the processed aluminum foil 45 can be orderly arranged on the carrying table 12, and the baffle 14 can ensure that the carrying table is collapsed; the slitting mechanism comprises an upper slitting roller 5 and a lower slitting roller 6, wherein the upper slitting roller 5 is movably arranged above the lower slitting roller 6, an upper slitting knife is fixedly arranged on the upper slitting roller 5, a lower slitting knife is fixedly arranged on the lower slitting roller 6, the upper slitting knife can be arranged to comprise an upper transverse knife 7 and an upper longitudinal knife 8, the number of the upper transverse knives 7 and the cutting width of the upper longitudinal knife 8 can be adjusted according to different requirements, the lower slitting knife is arranged to comprise a lower transverse knife 9 and a lower longitudinal knife 10, and the lower transverse knife 9 and the lower longitudinal knife 10 on the lower slitting knife are correspondingly adjusted according to the arrangement mode of the upper slitting knife; the lower slitting roller 6 is provided with a first groove 17, the first groove 17 is connected with an embossing block 15 in a sliding way, the upper slitting roller 5 is provided with an embossing groove 16, and in order to further improve the uniformity of the aluminum foil 45 after being processed, and avoid phenomena of material dropping, deviation and loosening, the embossing block 15 is arranged on the lower slitting roller 6 at a position 3-6mm away from the lower slitting knife, and the embossing groove 16 is also arranged on the upper slitting roller 5 at a position 3-6mm away from the upper slitting knife, preferably 5mm; the lower part of the embossing block 15 is movably provided with a supporting mechanism, the supporting mechanism comprises a supporting table 20, a height-adjusting fixing part and a pressing rod 22 fixed on the side edge of the supporting table 20 are fixedly arranged below the supporting table 20, a supporting table 21 is fixedly arranged below the pressing rod 22, a through groove 27 is formed in the lower slitting roller 6, the supporting table 21 is embedded at the bottom of the through groove 27, the embossing block 15 is movably arranged above the supporting table 20, a buckling fixing mechanism is movably arranged below the pressing rod 22, a rolling mechanism is movably connected in the embossing groove 16, and a flat pressing piece is fixedly arranged at the bottom of the embossing groove 16; when the aluminum foil 45 is processed, firstly, the aluminum foil 45 is placed on the unreeling device 1 and the sensing guide roller 2, a motor is started, the unreeling device 1 and the sensing guide roller 2 start to rotate, the sensing guide roller 2 can automatically control tension, then the aluminum foil 45 is transferred onto the first embossing roller 3 by the sensing guide roller 2, after the embossing of the first embossing roller 3 is finished, the aluminum foil 45 is adsorbed on the feeding roller 4 through air holes, the feeding roller 4 sends the aluminum foil 45 onto the lower slitting roller 6, the upper slitting roller 5 and the lower slitting roller 6 rotate simultaneously, so that the upper slitting cutter and the lower slitting cutter collide, the aluminum foil 45 can be completely split, in order to ensure that the aluminum foil 45 which is completely split does not loose, run off and fall off during folding, and ensure that the folded aluminum foil 45 is orderly discharged, the lower slitting roller 6 is provided with a first groove 17, the embossing block 15 is connected in a sliding manner, the upper slitting roller 5 is provided with the embossing groove 16, however, when the aluminum foil 45 is cut, the aluminum foil paper between the embossing block 15 and the embossing groove 16 is easy to be wrinkled, so that when the aluminum foil 45 is discharged and folded, the fifth groove 35 on the aluminum foil 45 cannot be completely matched together, the thickness of the processed aluminum foil 45 is different, when the thickness of the aluminum foil paper is thickened, the depth of the fifth groove 35 on the aluminum foil 45 needs to be adjusted, if the depth is too shallow, the phenomenon of loosening and falling occurs when the aluminum foil 45 is folded and discharged, when the depth is too deep, the aluminum foil 45 is too tight to be extruded when being folded and discharged, and the aluminum foil processing device is unfavorable for later packaging and use, therefore, the invention discloses that the first groove 17 is arranged on the lower cutting roller 6, the embossing block 15 is slidingly connected in the first groove 17, the embossing block 15 can adjust the height at any time, and after the height is adjusted, the depth of the fifth groove 35 on the aluminum foil 45 can be changed, however, when the stability of the embossing block is still required to be ensured after the adjustment, the embossing block 15 is not stressed to move downwards to affect the depth of the fifth groove 35 on the final aluminum foil 45 when the embossing groove 16 is buckled with the embossing block 15, the embossing groove 16 is arranged on the upper slitting roller 5, a supporting mechanism is movably arranged below the embossing block 15, the supporting mechanism comprises a supporting table 20, a pressure lever 22 with a height adjusting fixing part and fixed on the side edge of the supporting table 20 is arranged below the supporting table 20, a support table 21 is fixed below the pressure lever 22, a through groove 27 is arranged on the lower slitting roller 6, the support table 21 is embedded at the bottom of the through groove 27, the pressure lever 22 is in sliding contact with the through groove 27, a buckling fixing mechanism is movably arranged below the pressure lever 22, when the embossing block 15 is required to adjust the height, the pressure lever 22 moves downwards along the through groove 27, the supporting table 20 is lifted, the embossing block 15 buckled above the embossing block moves upwards along with the supporting table, and when the embossing block 15 moves to a proper position, the height adjusting fixing part below the supporting table 20 is also adjusted to a proper position along with the supporting table, the position and the proper position is ensured, and the stability of the upper part 22 is also ensured to be fixedly arranged outside the embossing block 45, and the final aluminum foil is not buckled to be fixedly arranged at the bottom of the final aluminum foil 45, and the final pressing mechanism is not influenced by the compression mechanism, and the compression mechanism is also ensured to be fixedly arranged at the bottom of the top side; the rolling mechanism is movably connected in the embossing groove 16, so that the folds on the periphery of the fifth groove 35 on the aluminum foil 45 can be rolled flat, and the flat pressing piece is arranged at the bottom of the fifth groove 35, so that the flatness of the periphery of the fifth groove 35 of the aluminum foil 45 can be ensured, further, the folds are not generated, the fifth groove 35 between the aluminum foils 45 can be completely buckled when finally ensuring that the aluminum foil 45 is discharged and folded, the phenomena of material dropping, loosening and deviation can not occur during discharging, the uniformity of the aluminum foil 45 folded by the folding device 11 on the carrying table 12 is ensured, and in the later stage, when packaging food, aluminum foil paper scraps are not generated, and the process is simple and convenient.

In order to ensure that the embossing block 15 can move up and down quickly and conveniently, the embossing block 15 is fixedly provided with a first bulge 19, a plurality of first round grooves 18 are formed in the side edges of the first grooves 17, the first bulge 19 and the first round grooves 18 are matched, when the embossing block 15 is subjected to height adjustment, the first bulge 19 can move along with the embossing block 15, and when the embossing block reaches a proper position, the embossing block can be directly buckled in the first round grooves 18, so that the height can be adjusted to ensure that the depth of the fifth groove 35 on the aluminum foil 45 is moderate, loosening, deviation and material dropping phenomena can not occur during subsequent processing, buckling between the aluminum foils 45 is compact, the overall uniformity is ensured during discharging, and the stability of the embossing block 15 can be ensured.

In a further optimized scheme, in order to ensure the adjusted stability of the embossing block 15, the height-adjusting fixing part is set to comprise a supporting rod 23, a first elastic piece 24 fixedly connected with the supporting rod 23 and a second protrusion 25 fixedly connected with the first elastic piece 24, a second groove 28 is formed in the bottom of the first groove 17, a plurality of second circular grooves 26 are formed in the side wall of the second groove 28, the second protrusion 25 is matched with the second circular grooves 26, when the supporting table 20 moves upwards, the supporting rod 23 moves upwards along with the second circular grooves, the first elastic piece 24 on the fixing supporting rod 23 is stressed to bend, so that the second protrusion 25 moves upwards along with the second circular grooves, when the embossing block 15 moves to a proper position, the supporting rod 23 is fixed, the second protrusion 25 is directly buckled in the second circular grooves 26, so that the supporting rod 23 can provide supporting force for the supporting table 20 above, and further a supporting force is provided for the embossing block 15, so that the stability of the embossing block 15 is ensured; meanwhile, the buckling and fixing mechanism is arranged to comprise a locking rod 32 and a short rod 33 hinged on the locking rod 32, a second elastic piece 36 is fixedly connected between the locking rod 32 and the short rod 33, a third groove 34 is formed in the lower slitting roller 6, the short rod 33 is movably buckled in the third groove 34, a buckling part 38 is fixed at the top end of the tightening rod, a pressing rod 22 is embedded in the buckling part 38, when the pressing rod 22 is not required to be buckled and fixed, the short rod 33 is directly buckled in the third groove 34, and in order to ensure the movement of the locking rod 32 and the short rod 33, the short rod 33 and the locking rod 32 adopt elastic rods, so that the short rod 33 and the locking rod 32 are not easy to damage to realize buckling and fixing when the lower slitting roller 6 needs to be bent; when the pressing rod 22 moves up and down, the pressing rod 22 needs to be buckled in the buckling part 38 of the locking rod 32, at this time, the third groove 34 of the short rod 33 needs to be moved out until the pressing rod 22 is buckled in the buckling part 38, so that the stability of the pressing rod 22 can be ensured, if the pressing rod 22 moves or shakes, the supporting table 20 moves and shakes, and finally the stability of the embossing block 15 is affected, therefore, the stability of the embossing block 15 is ensured, after the stability of the embossing block 15 is ensured, the depth of the fifth groove 35 on the aluminum foil 45 can be ensured, the overall uniformity of the finally discharged aluminum foil 45 is ensured, and the loosening, the deviation and the dropping phenomenon can not occur during processing.

Furthermore, in order to ensure that the above fastening and fixing mechanism can flexibly and rapidly move, the fastening and fixing of the compression bar 22 are realized, the raised bar 41 is fixedly installed on the short bar 33, the raised bar 41 is fixedly provided with the protrusion 42, the side wall of the third groove 34 is provided with the sliding groove 43, meanwhile, the sliding groove 43 is provided with the plurality of fastening grooves 44, the protrusion 42 is fastened in the fastening grooves 44, when the locking bar 32 moves upwards to fasten the compression bar 22 in the fastening part 38, the short bar 33 and the locking bar 32 are separated under the action of the second elastic member 36, and the short bar 33 moves outwards along the third groove 34, at this time, the raised bar 41 moves along the sliding groove 43, but when the compression bar 22 is fastened in the fastening part 38, the short bar 33 does not need to move outwards again, the protrusion 42 on the raised bar 41 is fastened in the fastening grooves 44 directly, the fastening part is ensured to be stable, and simultaneously, the compression bar 22 is more stable, and in order to prevent the compression bar 22 from rotating, and the two ends of the fastening part 38 are hinged with 37, so that the locking claw is locked by using 37, and the claw is prevented from rotating at will.

In order to prevent wrinkles from occurring on the fifth groove 35 of the aluminum foil 45, the rolling mechanism is set to include a fourth groove 40 formed on the side wall of the embossed groove 16 and a sliding roller 29 movably mounted on the fourth groove 40, a pressing plate 30 is fixedly mounted at the bottom of the embossed groove 16, when an upper dividing cutter rotates to collide with a lower dividing cutter, the embossed groove 16 is directly buckled on the embossing block 15, at the moment, the periphery of the groove is flattened by the sliding roller 29, the aluminum foil 45 on the periphery of the fifth groove 35 is directly flattened by the pressing plate 30, the flatness and smoothness of the fifth groove 35 of the aluminum foil 45 are guaranteed, the overall uniformity of the finally discharged aluminum foil 45 is further guaranteed, and loosening, deviation and material dropping phenomena cannot occur during processing.

In a further optimization scheme, in order to enable abrasion to be low when the embossing block 15 is adjusted to be high, the first protrusions 19 are arranged to be rubber protrusions 42, the top ends of the rubber protrusions 42 are of round structures, and the second protrusions 25 are arranged to be semicircular protrusions 42; in order to secure the elastic force of the first elastic member 24 and the second elastic member 36, the first elastic member 24 and the second elastic member 36 are provided as springs.

Example 2

Referring to fig. 2-9, the invention provides a processing device for completely and neatly slitting and folding aluminum foils without aluminum scraps, which comprises a frame 39, wherein an unreeling device 1, a sensing guide roller 2, a first embossing roller 3, a feeding roller 4, a slitting mechanism, a second embossing roller 31 and a folding device 11 are movably arranged on the frame 39, wherein the unreeling device 1 is movably arranged on one side of the sensing guide roller 2, the first embossing roller 3 is movably arranged on the other side of the sensing guide roller 2, the first embossing roller 3 is movably arranged on one side of the feeding roller 4, the slitting mechanism is movably arranged on the other side of the feeding roller 4, the slitting mechanism is movably arranged on one side of the second embossing roller 31, the folding device 11 is movably arranged on the other side of the second embossing roller 31, equidistant embossing grooves 16 and equidistant embossing blocks 15 are arranged on the second embossing roller 31 after the aluminum foils 45 are slit, so that equidistant fifth grooves 35 are formed on the finally obtained aluminum foils 45, the phenomena of loosening, deviation and material falling cannot occur in the subsequent working procedures, and the arrangement of the finally discharged aluminum foils 45 is ensured to be neatly.

In the description of the present invention, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

The above embodiments are only illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solutions of the present invention should fall within the protection scope defined by the claims of the present invention without departing from the design spirit of the present invention.

Claims (5)

1. The utility model provides a neatly fold aluminium foil processingequipment is cut completely to no aluminium bits, includes support body (39), movable mounting on support body (39) unreels device (1), sensing deflector roll (2), first embossing roller (3), feed roll (4), cuts mechanism and folding device (11), sensing deflector roll (2) one side movable mounting unreels device (1), opposite side movable mounting has first embossing roller (3), feed roll (4) one side movable mounting has first embossing roller (3), opposite side movable mounting has cuts mechanism, the side movable mounting of cutting mechanism has folding device (11), folding device (11) below fixed mounting has accepting table (12), movable mounting has baffle (14) on accepting table (12), cut mechanism including last cutter cutting roller (5) and lower cutting roller (6), last cutter cutting roller (5) movable mounting is in the top of cutting roller (6) down, last fixed mounting has the lower part on cutting roller (6), its characterized in that down. The lower slitting roller (6) is provided with a first groove (17), the first groove (17) is internally and slidably connected with an embossing block (15), the upper slitting roller (5) is provided with an embossing groove (16), a supporting mechanism is movably arranged below the embossing block (15), the supporting mechanism comprises a supporting table (20), a pressure bar (22) with a height adjusting fixing part and fixed sides of the supporting table (20) is arranged below the supporting table (20), a support table (21) is fixed below the pressure bar (22), the lower slitting roller (6) is provided with a through groove (27), the support table (21) is embedded at the bottom of the through groove (27), the pressure bar (22) is in sliding contact with the through groove (27), the embossing block (15) is movably arranged above the supporting table (20), a buckling fixing mechanism is movably arranged below the pressure bar (22), a rolling mechanism is movably connected in the embossing groove (16), and a flat pressing piece is fixedly arranged at the bottom of the embossing groove (16).

A first bulge (19) is fixedly arranged on the embossing block (15), a plurality of first round grooves (18) are formed in the side edges of the first grooves (17), and the first bulge (19) is matched with the first round grooves (18);

the height-adjusting fixing part comprises a supporting rod (23), a first elastic piece (24) fixedly connected with the supporting rod (23) and a second protrusion (25) fixedly connected with the first elastic piece (24), a second groove (28) is formed in the bottom of the first groove (17), a plurality of second circular grooves (26) are formed in the side wall of the second groove (28), and the second protrusion (25) is matched with the second circular grooves (26);

the buckling fixing mechanism comprises a locking rod (32) and a short rod (33) hinged to the locking rod (32), a second elastic piece (36) is fixedly connected between the locking rod (32) and the short rod (33), a third groove (34) is formed in the lower slitting roller (6), the short rod (33) is movably buckled in the third groove (34), a buckling part (38) is fixed at the top end of the locking rod (32), and the pressing rod (22) is embedded in the buckling part (38);

the rolling mechanism comprises a fourth groove (40) formed on the side wall of the embossing groove (16) and a sliding roller (29) movably mounted in the fourth groove (40), and the flat pressing piece is a pressing plate (30).

2. The aluminum foil processing device without aluminum scraps completely slitting and neatly folding according to claim 1, wherein: the short rod (33) is fixedly provided with a raised line (41), the raised line (41) is fixedly provided with a protruding block (42), the side wall of the third groove (34) is provided with a sliding groove (43), the sliding groove (43) is provided with a plurality of clamping grooves (44), and the protruding block (42) is buckled in the clamping grooves (44).

3. The aluminum foil processing device without aluminum scraps completely slitting and neatly folding according to claim 2, wherein: the two ends of the buckling part (38) are hinged with clamping claws (37).

4. The aluminum foil processing device without aluminum scraps completely slitting and neatly folding according to claim 1, wherein: the first bulge (19) is a rubber bulge, the top end of the rubber bulge is of a round structure, and the second bulge (25) is a semicircular bulge.

5. The aluminum foil processing device without aluminum scraps completely slitting and neatly folding according to claim 1, wherein: the first elastic member (24) and the second elastic member (36) are springs.