CN114160667A - One-step forming production line for ultrathin aluminum foil - Google Patents

Abstract

The invention discloses an one-step forming production line of an ultrathin aluminum foil, which comprises the following steps: the aluminum foil conveying device is used for conveying aluminum foil paper; the punching machine comprises a punching machine body, processing cavities communicated with two opposite sides of the punching machine body, and at least one composite die positioned in the processing cavities; the composite die comprises a female die, a male die and a cutting part arranged on the periphery of the female die, wherein the cutting part is provided with a flanging groove, and the flanging groove is positioned on one side, close to the female die, of the bottom surface of the cutting part; and the aluminum foil paper is simultaneously clamped between the female dies and the male dies of all the composite dies. The invention effectively solves the problems that the aluminum foil paper has more stamping processing procedures and the packaging box can not be formed at one time.

Description

One-step forming production line for ultrathin aluminum foil

Technical Field

The invention relates to the technical field of aluminum foil production equipment, in particular to an ultrathin aluminum foil one-step forming production line.

Background

At present, in the production process of processing the aluminum foil paper into the packaging box, the aluminum foil paper needs to be drawn out from a winding drum, cut into proper units, stamped to form a semi-finished product of the packaging box, and then crimped, processed with reinforcing ribs or other structures and other procedures cannot be completed in the same die by stamping, so that the processing process is complicated.

Disclosure of Invention

Therefore, the embodiment of the invention provides an ultrathin aluminum foil one-step forming production line, which effectively solves the problems that the aluminum foil paper has more stamping processing procedures and the packaging box cannot be formed at one step.

On one hand, the one-step forming production line for the ultrathin aluminum foil provided by the embodiment of the invention comprises the following steps: the aluminum foil conveying device is used for conveying aluminum foil paper; the punching machine comprises a punching machine body, processing cavities communicated with two opposite sides of the punching machine body, and at least one composite die positioned in the processing cavities; the composite die comprises a female die, a male die and a cutting part arranged on the periphery of the female die, wherein the cutting part is provided with a flanging groove, and the flanging groove is positioned on one side, close to the female die, of the bottom surface of the cutting part; and the aluminum foil paper is simultaneously clamped between the female dies and the male dies of all the composite dies.

Compared with the prior art, the technical effect achieved after the technical scheme is adopted is as follows: the punch presses the female die to enable the female die to be matched with the male die; the aluminum foil paper is drawn between the female die and the male die, the aluminum foil paper is cut between the female die and the cutting part to form a top edge extending outwards, and when the female die returns, the top edge enters the curling groove to curl; in addition, when the side surface of the packaging box is provided with a structure of a bulge or a groove such as a reinforcing rib, the packaging box can be formed at one time by deep drawing through a bulge piece between the female die and the male die; the aluminum foil conveying device conveys the aluminum foil paper to a position between the female die and the male die of the multiple composite dies, so that the multiple packaging boxes can be completed simultaneously, and the production efficiency is improved.

In one embodiment of the invention, the composite mold comprises: the top support is arranged at the top of the female die and connected with the punch body; the punch press body can drive the top support to vertically move, so that the female die and the cut-off piece slide relatively.

The technical effect achieved after the technical scheme is adopted is as follows: the top support is used for fixing the female die, so that the female die can stably perform lifting motion, a drawing process between the male die and the female die, a cutting process and a curling process between the female die and the cut-off part are realized, and the precision is higher.

In one embodiment of the invention, the male die is provided with a blowing assembly, and the blowing assembly is provided with an air outlet which is arranged at the top of the male die and/or at the side of the male die.

The technical effect achieved after the technical scheme is adopted is as follows: the blowing assembly is used for blowing the bottom surface of the packaging box, so that the packaging box is easier to separate from the male die after being formed, and the automatic carrying of the packaging box is facilitated.

In an embodiment of the present invention, the one-step forming line of the ultra-thin aluminum foil further includes: the finished product conveying device is positioned on one side, away from the aluminum foil conveying device, of the punch press and is used for conveying the packing boxes produced by the punch press; wherein the blowing assembly can blow the packing box to the finished product conveying device.

The technical effect achieved after the technical scheme is adopted is as follows: and the finished product conveying device is used for receiving the packaging boxes produced by the punch press and automatically transporting the packaging boxes to store, package and transport the packaging boxes.

In an embodiment of the present invention, the one-step forming line of the ultra-thin aluminum foil further includes: material collecting device, material collecting device is located finished product conveyor keeps away from one side of punch press, material collecting device includes: the clamping component is provided with a clamping channel; the first limiting part is arranged on one side, away from the finished product conveying device, of the material clamping channel.

The technical effect achieved after the technical scheme is adopted is as follows: the first limiting part is used for limiting the conveying distance of the packing boxes, so that the packing boxes on the finished product conveying device can stop at the first limiting part; the clamping device is used for aligning all the packaging boxes passing through the clamping assembly, so that all the packaging boxes can fall at the same position conveniently, and neat stacking is realized.

In an embodiment of the present invention, the material receiving device further includes: the material receiving platform is arranged below the material clamping channel; and the material pushing part is arranged on one side of the material receiving platform.

The technical effect achieved after the technical scheme is adopted is as follows: all the packaging boxes aligned by the clamping devices can fall to the material receiving platform at one time, and neat stacking is achieved; when the number of the packaging boxes on the material receiving platform reaches a preset value, the pushing piece can be controlled to push the packaging boxes, quantitative conveying of the packaging boxes is achieved, and transportation and packaging are facilitated.

In an embodiment of the present invention, the one-step forming production line of the ultrathin aluminum foil further includes a material receiving device, the material receiving device is located on one side of the finished product conveying device away from the punch press, and the material receiving device includes: the turning table is provided with a turning groove and a guide rod, and the guide rod is used for guiding the packaging box sent out by the finished product conveying device to the turning groove; the steering manipulator corresponds to the steering groove and is used for grabbing the packaging box and steering the packaging box; wherein the package has an extended edge.

The technical effect achieved after the technical scheme is adopted is as follows: the steering table is used for correcting the direction of the special-shaped packaging boxes, so that the directions of the special-shaped packaging boxes are the same after stacking; for example, special-shaped packing carton roll-off behind the finished product conveyor, through the guide effect of guide bar, accurately slide to turn to the platform, make special-shaped packing carton with turn to the platform and turn to manipulator center correspondence, turn to the manipulator and snatch special-shaped packing carton makes extend the limit and face the assigned direction, all special-shaped packing carton all stacks along the assigned direction, is convenient for transport and packing.

In an embodiment of the present invention, the material receiving device further includes: the material receiving port is arranged on one side of the steering table and provided with a guide surface; the horizontal moving assembly and/or the vertical moving assembly are arranged on the steering table, connected with the steering manipulator and used for controlling the steering manipulator to convey the packaging box to the material receiving port; wherein the guide surface corresponds to the extension edge.

The technical effect achieved after the technical scheme is adopted is as follows: the steering manipulator is lifted through the vertical moving assembly to grab the special-shaped packaging box for steering; the steering manipulator moves to the material receiving opening through the horizontal moving component and/or the vertical moving component, and the special-shaped packaging box is controlled to fall to the material receiving opening; when the direction of the extending edge of the special-shaped packaging box deviates from the designated direction, the extending edge can be corrected to the designated direction again by the guide surface, so that the special-shaped packaging box smoothly enters the material receiving opening, and neat stacking is realized.

In one embodiment of the invention, the aluminum foil conveying device comprises a feeding wheel and a plurality of pressing roll shafts; the aluminum foil paper is sent out from the feeding wheel and conveyed to the processing cavity through a plurality of pressing rollers.

The technical effect achieved after the technical scheme is adopted is as follows: the pressing roll shafts rotate to pull the aluminum foil paper to be conveyed to the processing cavity; the feeding wheel rotates along with the feeding wheel, and the aluminum foil paper is continuously supplied.

In an embodiment of the present invention, the one-step forming line of the ultra-thin aluminum foil further includes: the waste recovery device is positioned on one side, far away from the aluminum foil conveying device, of the punch press, and the waste recovery device comprises a suction assembly and/or a crushing assembly.

The technical effect achieved after the technical scheme is adopted is as follows: the waste recovery device can receive the residual aluminum foil paper cut off by the composite die, and through the crushing of the crushing assembly and the material suction effect of the material suction assembly, the recovery efficiency of the aluminum foil paper is improved conveniently, and the aluminum foil paper is prevented from being jammed or remaining.

In summary, the above embodiments of the present application may have one or more of the following advantages or benefits: i) the aluminum foil conveying device drives the aluminum foil paper to be conveyed into the composite dies from the feeding wheel through the rotation of the pressing roll shaft, and the plurality of packaging boxes are processed simultaneously; i i) the punch can drive the concave die to lift; the female die is matched with the male die to realize the deep drawing of the aluminum-foil paper, the aluminum-foil paper is cut off between the female die and the cutting part, the female die rises, and the top edge of the aluminum-foil paper enters the curling groove to realize curling; thereby achieving the effect of one-step molding of the packaging box and improving the production efficiency; ii i) the receiving device limits the packaging boxes with regular shapes through the first limiting plate and clamps the packaging boxes through the clamping assembly, so that the side edges of the packaging boxes can be located at the designated positions, and the packaging boxes can be stacked orderly after falling down in sequence; iv) for the special-shaped packaging boxes, the material receiving device guides the special-shaped packaging boxes to the steering groove through the guide rod, so that the special-shaped packaging boxes correspond to the steering table and the center of the steering manipulator, the steering manipulator grabs the special-shaped packaging boxes to enable the extending edges to face the appointed direction, and all the special-shaped packaging boxes are stacked along the appointed direction, so that the transportation and the packaging are facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural view of an ultra-thin aluminum foil one-step molding production line according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the composite mold.

Fig. 3 is a cross-sectional view of a composite mold.

Fig. 4 is a partially enlarged view of the region I in fig. 3.

Fig. 5 is a partial enlarged view of the region II in fig. 3.

Fig. 6 is a schematic structural view of the female mold in fig. 3.

Fig. 7 is a schematic view of the structure of the male mold of fig. 3.

Fig. 8 is a schematic structural view of the material receiving device in fig. 1.

FIG. 9 is a partial enlarged view of the region III in the drawing

Fig. 10 is a schematic structural view of a packing box of a regular shape.

Fig. 11 is another schematic structural view of the material receiving device in fig. 1.

Fig. 12 is a schematic structural diagram of the special-shaped packaging box.

Fig. 13 is a sectional view of the aluminum foil feeding apparatus of fig. 1.

Fig. 14 is a schematic structural view of a waste recovery apparatus.

Description of the main element symbols:

100 is an ultrathin aluminum foil one-step forming production line; 110 is an aluminum foil conveying device; 111 is a feeding wheel; 112 is an upper roll shaft; 113 is a lower roll shaft; 120 is a punch press; 122 is a processing cavity; 123 is a pneumatic element; 130 is a composite die; 131 is a concave die; 1311 longitudinal protrusions; 132 is a male die; 1321 is a longitudinal groove; 1322 is a blowing assembly; 133 is a cut-off part; 1331 is a hemming groove; 134 is a top bracket; 1341 is a sliding groove; 140 is a finished product conveying device; 150 is a material receiving device; 151 is a material clamping component; 1511 is a material clamping channel; 1512 is a material clamping plate; 1513 is a photoelectric sensor; 1514 is a via; 152 is a first limiting member; 153 is a material receiving platform; 154 is a pushing piece; 155 is a steering table; 1551 is a steering groove; 1552 is a guide rod; 156 is a steering manipulator; 157 is a material receiving port; 1571 as a guide surface; 158 is a horizontal moving assembly; 1581 is a support; 159 is a vertical moving assembly; 160 is a waste recovery device; 161 is a material sucking component; 162 is a size reduction assembly; 200 is a packing box; 300 is a special-shaped packing box; 310 is an extension edge;

Detailed Description

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

Referring to fig. 1 to 4, an embodiment of the present invention provides an ultra-thin aluminum foil one-shot forming production line 100, including: the aluminum foil conveying device 110 and the punch 120, wherein the aluminum foil conveying device 110 is used for conveying aluminum foil paper; the punch 120 includes a punch body, a processing cavity 122 communicating opposite sides of the punch body, and at least one composite mold 130 located in the processing cavity 122; the composite die 130 comprises a female die 131, a male die 132 and a cutting part 133 arranged on the peripheral side of the female die 131, wherein the cutting part 133 is provided with a curling groove 1331, and the curling groove 1331 is positioned on one side of the bottom surface of the cutting part 133 close to the female die 131; wherein, the aluminum foil paper is simultaneously clamped between the female dies 131 and the male dies 132 of all the composite dies 130.

In this embodiment, the aluminum foil conveying device 110 conveys the aluminum foil paper to a position between the female die 131 and the male die 132, and through the cooperation between the female die 131 and the male die 132, the aluminum foil paper is drawn to form an inner cavity of the packing box 200; meanwhile, the outer side of the female die 131 and the cutting part 133 slide relatively to realize the cutting of the aluminum-foil paper; the die 131 is then raised and the top edge of the cut section of foil enters the hem slot 1331, which converges along the hem slot 1331 to form a hem around the top of the package 200. Therefore, the packing box 200 can be formed in the composite die 130 at one time through the processes of cutting, drawing, curling and the like of the composite die 130; the aluminum foil conveying device 110 conveys the aluminum foil to between the female molds 131 and the male molds 132 of the plurality of composite molds 130, so that a plurality of packing boxes 200 can be completed at the same time, thereby improving the production efficiency.

In one particular embodiment, referring to fig. 3-5, composite mold 130 comprises, for example: and the top bracket 134 is arranged at the top of the female die 131 and connected with the punch body. Wherein, the punch body can drive the top bracket 134 to vertically move, so that the female die 131 and the cutting part 133 relatively slide. For example, the top bracket 134 and the cavity die 131 may be connected by a fastener such as a pin to achieve synchronous lifting, which is not limited herein.

Preferably, the punch 120 includes, for example, a pneumatic element 123 disposed at the top of the punch body, and the pneumatic element 123 is configured to control the top bracket 134 to move up and down, so as to drive the female die 131 to move up and down, so as to implement the deep drawing process of the aluminum foil paper.

Preferably, the top bracket 134 is provided with a sliding groove 1341 corresponding to the cutting member 133, and when the top bracket 134 and the female die 131 are lowered, the cutting member 133 correspondingly enters the sliding groove 1341, so that the female die 131 and the cutting member 133 are simultaneously moved relatively when the male die 132 and the female die 131 are engaged. When the height difference between the bottom surface of the cutting member 133 and the bottom surface of the female die 131 is sufficiently large, the cutting of the aluminum foil paper is completed.

In one embodiment, the punch 132 is provided with a blow assembly 1322 for blowing the formed package 200 away from the punch 132 to facilitate automated handling of the package 200. For example, the air blowing assembly 1322 is provided with an air outlet provided at the top of the punch 132, thereby blowing the bottom surface of the packing box 200 to preferentially separate the bottom surface of the packing box 200 from the punch 132; of course, the air outlet may be provided at the side of the punch 132 to control the direction in which the packing box 200 is separated from the punch 132.

Further, the air blowing assembly 1322 is, for example, a pipe opened in the male mold 132, and the pipe is connected to an air source so as to blow air to the top or side of the male mold 132.

In one embodiment, referring to fig. 6-7, either the outer side of the male mold 132 or the inner side of the female mold 131 may be provided with protrusions or grooves to facilitate stamping of ribs or other structures on the sides of the package 200. For example, the outer side surface of the male mold 132 is provided with a plurality of longitudinal grooves 1321, the inner side surface of the female mold 131 is provided with a plurality of corresponding longitudinal protrusions 1311, and the longitudinal grooves 1321 and the longitudinal protrusions 1311 are correspondingly matched when quota of the male mold 132 and the female mold 131 is added, so as to form the reinforcing ribs on the side surface of the packaging box 200. Wherein, strengthening rib and packing carton 200's inner chamber stamping forming simultaneously, consequently the strengthening rib also can be the shaping in proper order.

In a specific embodiment, referring to fig. 1, the ultra-thin aluminum foil one-time forming line 100 further includes, for example: a finished product conveying device 140, wherein the finished product conveying device 140 is positioned on one side of the punch 120 away from the aluminum foil conveying device 110 and is used for conveying the packaging boxes 200 produced by the punch 120; wherein the blowing assembly 1322 can blow the packing box 200 to the finished product conveying device 140.

The product conveying device 140 is, for example, a conveyor belt, wherein the width of the conveyor belt corresponds to the width of the processing cavity 122, and when the processing cavity 122 has multiple rows of the composite molds 130, the conveyor belt correspondingly accommodates a corresponding number of rows of the packing boxes 200. The ultra-thin aluminum foil one-step forming production line 100 conveys the packaging boxes 200 through the finished product conveying device 140, so that labor is saved, and the packaging boxes 200 are convenient to store, package and transport.

In a specific embodiment, referring to fig. 8 to 10, the ultra-thin aluminum foil one-time forming line 100 further includes, for example: a material receiving device 150. The receiving device 150 is located on a side of the finished product conveying device 140 away from the punch 120, and is configured to receive the packaging boxes 200 conveyed by the finished product conveying device 140 and automatically receive the packaging boxes. When multiple rows of composite molds 130 are disposed in the processing chamber 122, multiple sets of material receiving devices 150 can be disposed on the side of the product conveying device 140 away from the punch 120.

On one hand, when the packing box 200 is a regular packing box 200, such as a square or a circle, which is not limited herein, the material receiving device 150 limits each side of the packing box 200 to achieve regular stacking of the packing box 200.

Preferably, the material receiving device 150 includes, for example: the material clamping assembly 151 is provided with a material clamping channel 1511, and the first limiting member 152 is arranged on one side of the material clamping channel 1511 far away from the finished product conveying device 140. It should be noted that, after the packaging box 200 enters the material clamping channel 1511, the packaging box is stopped in the material clamping channel 1511 by the first stopper 152; the clip assembly 151 further positions opposite sides of the package 200 such that all of the packages 200 can be dropped into a fixed position.

Further, the material clamping assembly 151 includes, for example, two material clamping plates 1512 arranged oppositely, one side of each material clamping plate 1512 away from the material clamping channel 1511 is provided with, for example, a photoelectric sensor 1513, the material clamping plate 1512 is provided with a via 1514 corresponding to the photoelectric sensor 1513, the photoelectric sensor 1513 detects the packages 200 in the material clamping channel 1511 through the via 1514, when the packages 200 block the via 1514, the photoelectric sensor 1513 obtains a signal, and the material clamping assembly 151 acts to clamp the packages 200 at once, so that all the packages 200 can be suspended at a fixed position, and orderly stacking is achieved.

Still further, the material receiving device 150, for example, further includes: the material receiving table 153 is arranged below the material clamping channel 1511, and the packaging boxes 200 can sequentially fall on the material receiving table 153; the pushing member 154 is disposed at one side of the receiving platform 153 and used for pushing the packing box 200. Wherein, a photoelectric sensor 1513 may be disposed on one side of the material receiving platform 153, and when the height of the packing boxes 200 on the material receiving platform 153 reaches a preset value, or the number of the falling packing boxes 200 reaches a preset value, the pushing member 154 pushes out all the packing boxes 200, so as to facilitate transportation and packaging.

On the other hand, referring to fig. 11-12, when the packing box 200 is a special-shaped packing box 300, for example, the packing box 200 has an extending edge 310 on a circular base for easy holding, the receiving device 150 includes: a turn table 155 and a turn robot 156. The turning table 155 is provided with a turning groove 1551 and a guide rod 1552, and the guide rod 1552 is used for guiding the special-shaped packing boxes 300 sent out by the finished product conveying device 140 to the turning groove 1551; the turning manipulator 156 and the turning manipulator 156 correspond to the turning groove 1551 and are used for grabbing the special-shaped packaging box 300 and turning the special-shaped packaging box 300, so that the direction of the extending edge 310 is corrected, the extending edges 310 of all the special-shaped packaging boxes 300 face to the same direction, and orderly stacking is achieved.

Preferably, the steering manipulator 156 is, for example, a turntable structure, sucks the special-shaped packaging box 300 through a pneumatic suction head, and realizes steering through motor control; the center of the steering robot 156 coincides with the steering wheel center in the vertical direction. When the special-shaped packing box 300 moves to the turning table 155, the side edge of the special-shaped packing box 300 enters the turning groove 1551, so that the special-shaped packing box 300 corresponds to the turning position center, namely, the special-shaped packing box 300 corresponds to the turning manipulator 156 center, and the turning manipulator 156 is prevented from rotating the special-shaped packing box 300 to cause eccentricity.

In a specific embodiment, the receiving device 150 further includes: a receiving port 157, a horizontal transfer assembly 158 and/or a vertical transfer assembly 159. Wherein, the receiving port 157 is arranged at one side of the steering table 155, and the receiving port 157 is provided with a guide surface 1571; the horizontal moving assembly 158 and/or the vertical moving assembly 159 are/is arranged on the turning table 155 and connected with the turning robot 156, and are used for controlling the turning robot 156 to send the packaging box 200 to the receiving port 157; wherein the guiding face 1571 corresponds to the extending edge 310.

Preferably, the horizontal moving assembly 158 is located at two sides of the turning table 155, for example, and the material receiving device 150 further includes a bracket 1581, for example, the bracket 1581 is located at the upper side of the horizontal moving assembly 158, so as to realize the horizontal movement of the bracket 1581; the steering robot 156 is provided at one side of the support 1581, and the vertical movement assembly 159 is connected between the steering robot 156 and the support 1581 to perform vertical movement of the steering robot 156. It should be noted that the turning manipulator 156 is lifted by the vertical moving assembly 159 to grab the special-shaped packaging box 300 for turning, the turning manipulator 156 is moved to the material receiving port 157 by the horizontal moving assembly 158, and the turning manipulator 156 is loosened to enable the special-shaped packaging box 300 to enter the material receiving port 157; when the direction of the extending edge 310 of the irregular packing box 300 deviates from the designated direction, the extending edge 310 can be revised to the designated direction along the guide face 1571, so as to smoothly enter the receiving opening 157, and the regular stacking is realized.

In a specific embodiment, referring to fig. 13, the aluminum foil conveying device 110 includes a feeding wheel 111 and a plurality of nip roller shafts; the aluminum foil paper is fed out from the feeding wheel 111 and conveyed to the processing cavity 122 through the plurality of pressing rollers. Wherein, press the material roller and include: at least one upper roller 112 and at least one lower roller 113. For example, the aluminum foil paper first passes through a group of upper roller 112 and lower roller 113 which are in the same horizontal position and adjacent to each other, and the aluminum foil paper passes through the lower side of the upper roller 112 and the upper side of the lower roller 113 in sequence; further, the aluminum foil passes through a set of upper roller 112 and lower roller 113 which are in the same vertical position and adjacent to each other, and the aluminum foil passes between the upper roller 112 and the lower roller 113.

Furthermore, the pressing roll shafts are mutually driven through a table synchronous belt or a flat belt, and any one pressing roll shaft can be used as a driving shaft and controlled through a motor, so that the aluminum foil paper is conveyed through the pressing roll shafts; the feeding wheel 111 can rotate along with the pressing roll shaft to continuously provide the aluminum foil paper.

In a specific embodiment, referring to fig. 14, the ultra-thin aluminum foil one-time molding production line 100 further includes, for example: a waste recovery device 160, the waste recovery device 160 is located on the side of the punch 120 away from the aluminum foil conveying device 110, and the waste recovery device 160 comprises a suction assembly 161 and/or a crushing assembly 162. For example, the packaging box 200 is blown out from the outlet of the processing chamber 122 to the finished product conveying device 140, and the rest of the aluminum foil paper naturally falls down from the outlet of the processing chamber 122 to the waste recycling device 160, so as to recycle the aluminum foil paper.

Preferably, the waste recycling device 160 includes, for example: a crushing assembly 162 and a suction assembly 161, the suction assembly 161 being, for example, an air pump. Wherein, the aluminium foil paper that gets into waste recovery device 160 is smashed through crushing unit 162, and the rethread is inhaled material subassembly 161 and is carried in waste recovery device 160's inner chamber to improve the recovery efficiency of aluminium foil paper, avoid aluminium foil paper jam or remain.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides an ultra-thin aluminium foil one shot forming production line which characterized in that includes:

the aluminum foil conveying device is used for conveying aluminum foil paper;

the punching machine comprises a punching machine body, processing cavities communicated with two opposite sides of the punching machine body, and at least one composite die positioned in the processing cavities; the composite die comprises a female die, a male die and a cutting part arranged on the periphery of the female die, wherein the cutting part is provided with a flanging groove, and the flanging groove is positioned on one side, close to the female die, of the bottom surface of the cutting part;

and the aluminum foil paper is simultaneously clamped between the female dies and the male dies of all the composite dies.

2. The one-shot forming line of ultra-thin aluminum foil as claimed in claim 1, wherein the composite mold comprises: the top support is arranged at the top of the female die and connected with the punch body;

the punch press body can drive the top support to vertically move, so that the female die and the cut-off piece slide relatively.

3. The one-step forming production line for ultrathin aluminum foils as claimed in claim 1, wherein the male die is provided with a blowing assembly, the blowing assembly is provided with an air outlet, and the air outlet is arranged at the top of the male die and/or the side of the male die.

4. The one-shot forming line of ultra-thin aluminum foil as set forth in claim 3, further comprising:

the finished product conveying device is positioned on one side, away from the aluminum foil conveying device, of the punch press and is used for conveying the packing boxes produced by the punch press;

wherein the blowing assembly can blow the packing box to the finished product conveying device.

5. The one-shot forming line for ultra-thin aluminum foils as claimed in claim 4, further comprising a receiving device located at a side of the product conveying device away from the punch press, the receiving device comprising:

the clamping component is provided with a clamping channel;

the first limiting part is arranged on one side, away from the finished product conveying device, of the material clamping channel.

6. The one-step molding production line of ultrathin aluminum foil as claimed in claim 5, wherein the material receiving device further comprises:

the material receiving platform is arranged below the material clamping channel;

and the material pushing part is arranged on one side of the material receiving platform.

7. The one-shot forming line for ultra-thin aluminum foils as claimed in claim 4, further comprising a receiving device located at a side of the product conveying device away from the punch press, the receiving device comprising:

the turning table is provided with a turning groove and a guide rod, and the guide rod is used for guiding the packaging box sent out by the finished product conveying device to the turning groove;

the steering manipulator corresponds to the steering groove and is used for grabbing the packaging box and steering the packaging box;

wherein the package has an extended edge.

8. The one-shot forming line for ultra-thin aluminum foils as claimed in claim 7, wherein the receiving device further comprises:

the material receiving port is arranged on one side of the steering table and provided with a guide surface;

the horizontal moving assembly and/or the vertical moving assembly are arranged on the steering table, connected with the steering manipulator and used for controlling the steering manipulator to convey the packaging box to the material receiving port;

wherein the guide surface corresponds to the extension edge.

9. The one-step forming production line of ultrathin aluminum foil as claimed in claim 1, wherein the aluminum foil conveying device comprises a feeding wheel and a plurality of pressing roll shafts;

the aluminum foil paper is sent out from the feeding wheel and conveyed to the processing cavity through a plurality of pressing rollers.

10. The one-shot forming line of ultra-thin aluminum foil as set forth in claim 1, further comprising:

the waste recovery device is positioned on one side, far away from the aluminum foil conveying device, of the punch press, and the waste recovery device comprises a suction assembly and/or a crushing assembly.

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