CN114789585A

CN114789585A - Automatic equipment for manually and quickly folding tinfoil paper into paper shoe-shaped gold ingot

Info

Publication number: CN114789585A
Application number: CN202210420007.3A
Authority: CN
Inventors: 王鑫炎
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-04-21
Filing date: 2022-04-21
Publication date: 2022-07-26
Anticipated expiration: 2042-04-21
Also published as: CN114789585B

Abstract

The invention discloses automation equipment for quickly folding manual tinfoil paper into a paper ingot, which comprises a feeding machine table and a folding machine table, wherein a manual tinfoil paper conveying mechanism is arranged on the feeding machine table, a folding lower die set and a supporting arm are arranged on the folding machine table, a swing arm assembly is arranged on the supporting arm, and a folding upper die set is arranged on the swing arm assembly. By utilizing the method, the operation of quickly folding the manual tinfoil paper into the paper ingot can be realized, the folding efficiency can be effectively improved, the labor cost is reduced, and the folded product is neatly and attractively stacked.

Description

Automatic equipment for manually and quickly folding tinfoil paper into paper shoe-shaped gold ingot

Technical Field

The invention belongs to the technical field of paper product manufacturing, and particularly relates to automatic equipment for quickly folding manual tin foil paper into a paper ingot.

Background

The raw materials of the paper shoe-shaped gold ingot are in two forms of a coiled material and a manual breathable sheet, the coiled material is mainly formed by plating tin or coating tin on a base material, the manual breathable sheet is a traditional raw material, tin is mainly infiltrated into the base material in a grinding mode to form a 4-5-filament unqualified sheet with breathability, the color of ash of finished paper shoe-shaped gold ingot folded by the two raw materials after firing is slightly different, partial people, especially people with a big age, are also biased to be finished paper shoe-shaped gold ingot folded by the manual breathable sheet, but the manual breathable sheet is mainly folded at present, the manual folding efficiency is low, the labor intensity is high, time and labor are wasted, the folded paper is not neat, and the attractiveness is influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide automatic equipment for quickly folding manual tinfoil paper into a paper ingot.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides automation equipment for quickly folding manual tinfoil paper into a paper ingot, which comprises a feeding machine table and a folding machine table, wherein a manual tinfoil paper conveying mechanism is arranged on the feeding machine table, a folding lower die set and a supporting arm are arranged on the folding machine table, a swing arm assembly is arranged on the supporting arm, and a folding upper die set is arranged on the swing arm assembly.

Preferably, the manual tinfoil paper conveying mechanism comprises a paper bin, an auxiliary separating sheet, a pressing block, a separating wheel, a paper supporting plate, a pushing screw rod, a paper blocking plate and a paper sheet conveying belt; the paper bin is fixed on the outer side of the feeding machine table and used for placing manual tinfoil paper, the auxiliary separating sheet is of an inclined structure and fixed on the paper bin, the inclined structure is of a groove type structure with two high ends and a low middle part, the pressing block is arranged above the paper bin, the separating wheel is fixed on the pressing block through a shaft, the separating wheel is located above the paper bin and close to the position of the pressing block, the paper supporting plate is arranged in the paper bin, the propelling lead screw is arranged outside the paper bin and connected with the paper supporting plate through a connecting block, the paper blocking plate is arranged on the feeding machine table and close to the pressing block, and the paper blocking conveying belt is arranged on the inner side of the paper blocking plate.

Preferably, the lower folding die set comprises a straight-edge folding lower die, a reverse straight-edge folding lower die, a large corner folding lower die, a small corner folding lower die, a flanging folding lower die and a shoe-shaped ingot unfolding lower die; the folding upper die set comprises a straight edge folding upper die, a reverse straight edge folding upper die, a large corner folding upper die, a small corner folding upper die, a flanging folding upper die and a shoe-shaped ingot unfolding upper die;

the straight-edge folding lower die comprises a straight-edge folding lower die plate, straight-edge folding supporting blocks and overturning blocks, the straight-edge folding supporting blocks are arranged on two sides of the straight-edge folding lower die plate, the overturning blocks are arranged above the straight-edge folding lower die plate, and two ends of each overturning block are connected with the straight-edge folding supporting blocks respectively; the straight-edge folding upper die is matched with the straight-edge folding lower die plate;

the reverse side straight edge folding lower die comprises a reverse side straight edge folding lower die plate and reverse side straight edge folding supporting blocks, and the reverse side straight edge folding supporting blocks are arranged on two sides of the reverse side straight edge folding lower die plate; the reverse side straight edge folding upper die is matched with the reverse side straight edge folding lower die plate;

the large corner folding lower die comprises a large corner folding lower die plate and large corner folding supporting blocks, the large corner folding supporting blocks are arranged on two sides of the large corner folding lower die plate, and the large corner folding lower die plate is of an inverted trapezoidal structure; the large corner folding upper die comprises a large corner folding upper die plate and a side pressing die plate, the large corner folding upper die plate is matched with the large corner folding lower die plate, the side pressing die plate is arranged on the outer side of the large corner folding upper die plate, and when the large corner folding upper die plate and the large corner folding lower die plate are matched, the side pressing die plate clamps the large corner folding lower die plate;

the small corner folding lower die comprises a small corner folding lower die plate I, a small corner folding lower die plate II and small corner folding supporting blocks, the small corner folding lower die plate I is of a trapezoidal structure, the small corner folding lower die plate II is of an inverted trapezoidal structure, the bottom edge of the small corner folding lower die plate I is spliced with the bottom edge of the small corner folding lower die plate II, and the small corner folding supporting blocks are arranged on two sides of the small corner folding lower die plate I; the small corner folding upper die comprises a small corner folding upper die plate I and a small corner folding upper die plate II, the small corner folding upper die plate I is matched with the small corner folding lower die plate I, and the small corner folding upper die plate II is matched with the small corner folding lower die plate II;

the flanging folding lower die comprises a flanging folding lower die plate, supporting blocks and limiting die plates, the flanging folding lower die plate is of an inverted trapezoidal structure, the limiting die plates are arranged on the outer sides of the bottom edges of the flanging folding lower die plate, and the supporting blocks are arranged on two sides of the limiting die plates; the flanging folding upper die is matched with the flanging folding lower die plate;

the shoe-shaped gold ingot unfolding lower die comprises a shoe-shaped gold ingot supporting template, a pushing block, a transmission rack, a sliding block and a transmission wheel, wherein the sliding block is fixed on a folding machine table, a guide rail and transmission teeth are arranged on the transmission rack, the guide rail is clamped in the sliding block, the transmission wheel is arranged on the folding machine table and is meshed with the transmission teeth, a driving motor is connected onto the transmission wheel, and the transmission rack is connected with the pushing block; the ingot unfolding upper die is matched with the flanging folding lower die plate and is used for sucking the ingot from the flanging folding lower die plate to the ingot supporting die plate.

Preferably, a plurality of vent holes are formed in the straight-edge folding lower die, the reverse straight-edge folding lower die, the large-corner folding lower die, the small-corner folding lower die, the flanging folding lower die, the ingot unfolding lower die, the straight-edge folding upper die, the reverse straight-edge folding upper die, the large-corner folding upper die, the small-corner folding upper die, the flanging folding upper die and the ingot unfolding upper die and are connected with compressed air.

Preferably, the large corner folding supporting block, the small corner folding supporting block, the limiting template and the side pressing template are all provided with pressing needles, and the large corner folding lower template, the large corner folding upper template, the small corner folding upper template I, the small corner folding upper template II, the flanging folding upper die and the ingot unfolding upper die are all provided with needle grooves.

Preferably, the end part of the shoe-shaped gold ingot supporting template is also provided with a paper shoe-shaped gold ingot stopper.

Preferably, the straight-edge folding lower die, the reverse straight-edge folding lower die, the large-corner folding lower die, the small-corner folding lower die, the flanging folding lower die, the ingot unfolding lower die, the straight-edge folding upper die, the reverse straight-edge folding upper die, the large-corner folding upper die, the small-corner folding upper die, the flanging folding upper die and the ingot unfolding upper die are respectively provided with two groups.

Preferably, the swing arm assembly comprises a main cross rod, an auxiliary cross rod and arc-shaped swing pieces, the auxiliary cross rod is connected with the supporting arms, the arc-shaped swing pieces are respectively connected with the main cross rod and the auxiliary cross rod, a plurality of connecting rods are arranged on the main cross rod, and the upper folding die set is respectively arranged on the connecting rods.

Preferably, an infrared sensor is further arranged on the pressing block.

Preferably, a support is further arranged above the paper scrap conveying belt on the feeding machine table, and an infrared sensor is also arranged on the support.

The invention has the beneficial effects that: by utilizing the method, the operation of quickly folding the manual tinfoil paper into the paper ingot can be realized, the folding efficiency can be effectively improved, the labor cost is reduced, and the folded product is neatly and attractively stacked.

Drawings

FIG. 1 is a front view of an automated apparatus for rapid folding of manual tinfoil paper into paper ingots according to the present invention;

FIG. 2 is a top view of a feeding station and a folding station in an embodiment of the present invention;

FIG. 3 is a left side view of a manual foil transport mechanism in an embodiment of the present invention;

FIG. 4 is an enlarged view of a lower mold with a straight edge folding according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of a straight-edge folding upper die in an embodiment of the present invention;

FIG. 6 is an enlarged view of a lower mold for folding a large corner according to an embodiment of the present invention;

FIG. 7 is an enlarged schematic view of a large corner folding upper die in an embodiment of the present invention;

FIG. 8 is an enlarged schematic view of another angle of the large corner folding upper die in an embodiment of the present invention;

FIG. 9 is an enlarged view of the lower mold for folding a small corner in the embodiment of the present invention;

FIG. 10 is an enlarged schematic view of a small corner folding top die in an embodiment of the present invention;

FIG. 11 is an enlarged schematic view of a flange folding upper die in an embodiment of the invention;

FIG. 12 is an enlarged schematic view of a swing arm assembly in an embodiment of the present invention;

FIG. 13 is an enlarged view of the needle pressing structure in the embodiment of the present invention;

fig. 14 is a schematic flow chart of manual folding of a gold ingot made of tin foil paper in the embodiment of the invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, and it should be noted that the present embodiment is based on the technical solution, and the detailed implementation and the specific operation process are provided, but the protection scope of the present invention is not limited to the present embodiment.

The embodiment provides an automation device for quickly folding manual tinfoil paper into a paper ingot, as shown in fig. 1-14, the automation device comprises a feeding machine table 1 and a folding machine table 2, wherein the feeding machine table 1 is provided with a manual tinfoil paper conveying mechanism 3, the folding machine table 2 is provided with a folding lower die set 21 and a supporting arm 22, the supporting arm 22 is provided with a swing arm assembly 23, and the swing arm assembly 23 is provided with a folding upper die set 24.

In this embodiment, the manual tinfoil paper conveying mechanism 3 includes a paper bin 31, an auxiliary separating sheet 32, a pressing block 33, a separating wheel 34, a paper supporting plate 35, a pushing screw 36, a paper blocking plate 37 and a paper sheet conveying belt 38; the paper bin 31 is fixed on the outer side of the feeding machine table 1, the paper bin 31 is used for placing manual tinfoil paper, the auxiliary separating sheet 32 is of an inclined structure and is fixed on the paper bin 31, the inclined structure is of a groove type structure with two high ends and a low middle part, the pressing block 33 is arranged above the paper bin 31, the separating wheel 34 is fixed on the pressing block 33 through a shaft 39, the separating wheel 34 is located above the paper bin 31 and is close to the position of the pressing block 33, the paper supporting plate 35 is arranged in the paper bin 31, the pushing screw rod 36 is arranged outside the paper bin 31 and is connected with the paper supporting plate 35 through a connecting block 310, the paper blocking plate 37 is arranged on the feeding machine table 1 and is close to the pressing block 33, and the paper conveying belt 38 is arranged on the inner side of the paper blocking plate 37.

In this embodiment, a stopper is disposed on the pressing block 33, and the stopper extends out of the paper bin 31 and can block the paper in the paper bin from the outside of the paper bin 31.

In this embodiment, the folding lower die set 21 includes a straight-side folding lower die 211, a reverse straight-side folding lower die 212, a large corner folding lower die 213, a small corner folding lower die 214, a flanging folding lower die 215, and a shoe-shaped opening lower die 216; the folding upper die set 24 comprises a straight-edge folding upper die 241, a reverse straight-edge folding upper die 242, a large corner folding upper die 243, a small corner folding upper die 244, a flanging folding upper die 245 and a ingot unfolding upper die 246;

the straight-edge folding lower die 211 comprises a straight-edge folding lower die plate 2111, a straight-edge folding supporting block 2112 and an overturning block 2113, wherein the straight-edge folding supporting block 2112 is arranged at two sides of the straight-edge folding lower die plate 2111, the overturning block 2113 is arranged above the straight-edge folding lower die plate 2111, and two ends of the overturning block are respectively connected with the straight-edge folding supporting block 2112; the straight-edge folding upper die 241 is matched with the straight-edge folding lower die plate 2111;

the reverse-side straight-edge folding lower die 212 comprises a reverse-side straight-edge folding lower die plate 2121 and reverse-side straight-edge folding supporting blocks 2122, and the reverse-side straight-edge folding supporting blocks 2122 are arranged on two sides of the reverse-side straight-edge folding lower die plate 2121; the reverse side straight edge folding upper die 242 is matched with the reverse side straight edge folding lower die plate 2121;

the big corner folding lower die 213 comprises a big corner folding lower die plate 2131 and big corner folding supporting blocks 2132, the big corner folding supporting blocks 2132 are arranged on two sides of the big corner folding lower die plate 2131, and the big corner folding lower die plate 2131 is of an inverted trapezoidal structure; the large corner folding upper die 243 comprises a large corner folding upper die plate 2431 and side pressing die plates 2432, the large corner folding upper die plate 2431 is matched with the large corner folding lower die plate 2131, the side pressing die plates 2432 are arranged on the outer side of the large corner folding upper die plate 2431, and when the large corner folding upper die plate 2431 and the large corner folding lower die plate 2131 are matched, the side pressing die plates 2432 clamp the large corner folding lower die plate 2131;

the small corner folding lower die 214 comprises a small corner folding lower die plate I2141, a small corner folding lower die plate II 2142 and a small corner folding supporting block 2143, the small corner folding lower die plate I2141 is in a trapezoid structure, the small corner folding lower die plate II 2142 is in an inverted trapezoid structure, the bottom edge of the small corner folding lower die plate I2141 and the bottom edge of the small corner folding lower die plate II 2142 are spliced together, and the small corner folding supporting blocks 2143 are arranged on two sides of the small corner folding lower die plate I2141; the small corner folding upper die 244 comprises a small corner folding upper die plate I2441 and a small corner folding upper die plate II 2442, the small corner folding upper die plate I2441 is matched with a small corner folding lower die plate I2141, and the small corner folding upper die plate II 2442 is matched with a small corner folding lower die plate II 2142;

the lower flanging folding die 215 comprises a lower flanging folding die plate 2151, a supporting block 2152 and a limiting die plate 2153, the lower flanging folding die plate 2151 is of an inverted trapezoidal structure, the limiting die plate 2153 is arranged on the outer side of the bottom edge of the lower flanging folding die plate 2153, and the supporting block 2152 is arranged on two sides of the limiting die plate 2153; the upper flanging folding die 245 is matched with the lower flanging folding template 2151;

the shoe-shaped gold ingot spreading lower die 216 comprises a shoe-shaped gold ingot supporting template 2161, a pushing block 2162, a transmission rack 2163, a slider 2164 and a transmission wheel 2165, the slider 2164 is fixed on the folding machine 2, the transmission rack 2163 is provided with a guide rail 21631 and transmission teeth 21632, the guide rail 21631 is clamped in the slider 2164, the transmission wheel 2165 is arranged on the folding machine 2 and is meshed with the transmission teeth 21632, the transmission wheel 2165 is connected with a driving motor 2166, and the transmission rack 2163 is connected with the pushing block 2162; the shoe-shaped gold ingot unfolding upper die 246 is matched with the flanging folding lower template 2151 and is used for sucking the gold ingot from the flanging folding lower template 2151 to the shoe-shaped gold ingot supporting template 2161.

In this embodiment, the straight-edge folding lower die 211, the reverse straight-edge folding lower die 212, the large-corner folding lower die 213, the small-corner folding lower die 214, the flanging folding lower die 215, the ingot unfolding lower die 216, the straight-edge folding upper die 241, the reverse straight-edge folding upper die 242, the large-corner folding upper die 243, the small-corner folding upper die 244, the flanging folding upper die 245 and the ingot unfolding upper die 246 are all provided with a plurality of vent holes, and the vent holes are connected with compressed air.

In this embodiment, the large corner folding support block 2132, the small corner folding support block 2143, the limiting template 2153, and the side pressing template 2432 are all provided with a pressing pin 25, and the large corner folding lower template 2131, the large corner folding upper template 2431, the small corner folding upper template one 2441, the small corner folding upper template two 2442, the flanging folding upper die 245, and the ingot unfolding upper die 246 are all provided with a pin slot 26.

In this embodiment, the end of the shoe-shaped gold ingot supporting template 2161 is further provided with a paper shoe-shaped gold ingot stopper 27.

In this embodiment, two sets of the straight-edge folding lower die 211, the reverse straight-edge folding lower die 212, the large-corner folding lower die 213, the small-corner folding lower die 214, the flanging folding lower die 215, the ingot unfolding lower die 216, the straight-edge folding upper die 241, the reverse straight-edge folding upper die 242, the large-corner folding upper die 243, the small-corner folding upper die 244, the flanging folding upper die 245, and the ingot unfolding upper die 246 are provided.

In this embodiment, the swing arm assembly 23 includes a main cross bar 231, an auxiliary cross bar 232, and arc-shaped swing pieces 233, the auxiliary cross bar 232 is connected to the support arms 22, the arc-shaped swing pieces 233 are respectively connected to the main cross bar 231 and the auxiliary cross bar 232, the main cross bar 231 is provided with a plurality of connecting rods 234, and the folded upper die sets 24 are respectively arranged on the connecting rods 234.

In this embodiment, the pressing block 33 is further provided with an infrared sensor 4.

In this embodiment, a support 5 is further disposed above the paper sheet conveying belt 38 on the feeding machine 1, and an infrared sensor 4 is also disposed on the support 5.

The working principle of the automatic equipment is as follows: the manual tinfoil paper is stacked in the paper bin 31, wherein the paper supporting plate 35 supports the bottom of the lowest manual tinfoil paper, the uppermost manual tinfoil paper is pressed below by the pressing block 33, when the infrared sensor 4 above the pressing block 33 senses the paper, the separating wheel 34 presses the uppermost manual tinfoil paper and rotates, because the auxiliary separating sheet 32 is close to the separating wheel 34 and is in an inclined structure, the paper is pressed and tilts on the auxiliary separating sheet 32 at the driven lower edge of the separating wheel 34, continues to slowly cross the auxiliary separating sheet 32 to the paper conveying belt 38 along with the rotation of the separating wheel 34, a motor can be arranged below the feeding machine table 1 to drive the paper conveying belt 38 to drive the paper to be driven by the paper conveying belt 38, wherein the paper blocking plates 37 block the paper from both sides of the paper to avoid the displacement of the paper, when the paper moves to a certain position on the paper conveying belt 38, in the position of the bracket 5 (the position of the bracket 5 can be designed to be close to the folding lower die set 21), the infrared sensor 4 on the bracket 5 senses paper, all parts on the folding machine table 2 are ready to work, and in the process, the propelling screw rod 36 drives the paper supporting plate 35 to slowly lift up, so that the paper is continuously lifted up to meet the transmission requirement;

during folding, the arc-shaped swinging piece 233 swings (a driving motor can be installed on the arc-shaped swinging piece 233 to drive the arc-shaped swinging piece to swing) to drive the main cross bar 231 and the auxiliary cross bar 232 to move up and down and horizontally, so that the upper and lower positions and the left and right positions of the upper folding die set 24 are moved;

in the first folding process, when the infrared sensor 4 on the bracket 5 senses paper, the arc swinging sheet 233 works, the straight-edge folding upper die 241 is moved above the paper sheet conveying belt 38, the uppermost sheet is sucked up and then moved above the straight-edge folding lower die plate 2111 under the swinging action of the arc swinging sheet 233, the die is closed, the paper is put down, the straight-edge folding upper die 241 is lifted after the paper is put down, the turning block 2113 is turned over (micro motors can be arranged at two ends of the turning block 2113 to drive the turning block 2113 to rotate, and the turning block can be circular, triangular and the like), and a straight edge is folded from the edge (the length of the paper is greater than that of the straight-edge folding lower die plate 2111);

continuing the second folding process, moving the back straight-side folding upper die 242 above the straight-side folding lower die plate 2111 under the swinging action of the arc swinging sheet 233, closing the die to suck up a straight-side folded paper, moving the back straight-side folding upper die above the back straight-side folding lower die plate 2121 under the swinging action of the arc swinging sheet 233 to put down and lift up the paper, moving the large-corner folding upper die 243 above the back straight-side folding lower die plate 2121 under the swinging action of the arc swinging sheet 233 to close the die, wherein the side pressing die plate 2432 presses the paper from the edge at 90 degrees in the opposite direction, the large-corner folding upper die 243 continuously lifts up under the swinging action of the arc swinging sheet 233, and when the large-corner folding upper die plate lifts up, the pressing pins on the side pressing die plate 2432 are rotated out (a micro motor can be arranged outside the side pressing die plate, a shaft is arranged inside, the pressing pins 25 are connected to the shaft, and the pressing pins are rotated through the control shaft of the micro motor, so that the pressing pins 25 are received in the side pressing die plate 2432 or rotated out from the side pressing die plate 2432), the paper is hooked and pressed from the folded reverse side, so that the operation of folding the straight edge of the reverse side is completed;

continuing the third folding, moving the large corner folding upper die 243 to the upper part of the large corner folding lower die plate 2131 under the swinging action of the arc swinging sheet 233 and closing the die to lower the paper, folding the paper upwards by 90 degrees from two sides by the large corner folding supporting block 2132 to form a large corner, lifting the large corner folding upper die 243, rotating the press pin 25 on the large corner folding supporting block 2132 (meanwhile, installing a micro motor outside the large corner folding supporting block 2132, installing a shaft inside the micro motor, connecting the press pin 25 on the shaft, controlling the shaft to rotate by the micro motor so as to control the press pin 25 to be received in the large corner folding supporting block 2132 or rotate out from the large corner folding supporting block 2132), pressing and flattening the large corner, thereby completing the operation of folding the large corner at two sides, wherein the press pin 25 hooks the paper from the back when the side pressing die plate 2432 is lowered, so that the corresponding needle groove 26 is arranged on the large corner folding lower die plate 2131, so that the die can be flat without bulges when the die is closed;

continuing the fourth folding process, moving the small corner folding upper die 244 to the position above the large corner folding lower die plate 2131 under the swinging action of the arc swinging piece 233 to suck up the paper, moving the small corner folding upper die 244 to the position above the small corner folding lower die 214 under the swinging action of the arc swinging piece 233 to close the die, folding the paper upwards by 90 degrees into a small corner by the small corner folding supporting block 2143 from two sides, lifting the small corner folding upper die 244, rotating out the pressing pin 25 on the small corner folding supporting block 2143, pressing and flattening the small corner (the principle is the same as the above), thereby completing the operation of folding the small corner;

continuing the fifth folding process, moving the upper flanging folding die 245 to the position above the small-corner folding lower die 214 to suck up the paper under the swinging action of the arc swinging piece 233, moving the upper flanging folding die 2151 under the swinging action of the arc swinging piece 233 to close the die, putting down the paper and lifting up the paper, flanging the paper upwards for 90 degrees by the limiting die plate 2153 from the edge, lifting up the upper flanging folding die 245, rotating the pressing pin 25 on the limiting die plate 2153 to press and flatten the flanged edge of the paper (the principle is the same as the above), and thus completing the operation of flanging and folding;

continuing the sixth process, the shoe-shaped gold ingot supporting template 2161 moves to the position above the flanging and folding lower template 2151 to suck up the paper under the swinging action of the arc swinging piece 233, and continues to move to the shoe-shaped gold ingot supporting template 2161 to put the paper down under the swinging action of the arc swinging piece 233, the transmission rack 2163 is in meshing transmission with the transmission wheel 2165 (a driving motor can be arranged below the folding machine and is connected with the transmission wheel 2165 to drive the transmission wheel 2165 to transmit), so as to drive the pushing block 2162 to move towards the mouth of the shoe-shaped gold ingot, so as to prop the mouth of the folded shoe-shaped gold ingot, the propped shoe-shaped gold ingot moves towards the direction of the paper shoe-shaped gold ingot stopper 27, wherein the bottom of the next shoe-shaped gold ingot is superposed into the mouth of the previous shoe-shaped gold ingot, and the shoe-shaped gold ingot can be taken away manually after being superposed to a certain amount.

All the actions can be realized through automatic control, and all the templates are provided with a plurality of compressed air vents so as to be connected with compressed air, thereby sucking the paper.

Normally, when the folding is carried out manually, a relatively skilled person can fold about 1000 pieces of the folded product in 8 hours a day, and 25000 pieces of the folded product and 30000 pieces of the folded product can be folded by adopting the equipment in 8 hours a day, which is about 25-30 times of the efficiency of manual folding. The automation degree is high, and the labor cost can be reduced.

Various corresponding changes and modifications can be made by those skilled in the art based on the above technical solutions and concepts, and all such changes and modifications should be included in the protection scope of the present invention.

Claims

1. The utility model provides an automation equipment that manual tinfoil paper is folded into paper ingot fast which characterized in that: the automatic tin foil paper feeding machine comprises a feeding machine table and a folding machine table, wherein a manual tin foil paper conveying mechanism is arranged on the feeding machine table, a folding lower die set and a supporting arm are arranged on the folding machine table, a swing arm assembly is arranged on the supporting arm, and a folding upper die set is arranged on the swing arm assembly.

2. The automatic equipment for manually and rapidly folding tinfoil paper into a paper ingot according to claim 1, wherein the equipment comprises: the manual tinfoil paper conveying mechanism comprises a paper bin, an auxiliary separating sheet, a pressing block, a separating wheel, a paper supporting plate, a pushing screw rod, a paper blocking plate and a paper sheet conveying belt; the paper storehouse is fixed in the feeding board outside, is used for placing manual tin foil paper in the paper storehouse, supplementary piece of separating is the slope structure and fixes on the paper storehouse, the slope structure is the recess formula structure that both ends are high, the centre is low, the compact heap sets up in paper storehouse top, the piece wheel is fixed on the compact heap through the axle, wherein the piece wheel is located paper storehouse top and is close to compact heap position department, the support cardboard sets up in the paper storehouse, impel the lead screw setting outside the paper storehouse and be connected with the support cardboard through the connecting block, the fender cardboard sets up on the feeding board and near the compact heap, the setting of scraps of paper conveyer belt is inboard at the fender cardboard.

3. The automatic equipment for manually and rapidly folding the tinfoil paper into the paper ingot according to claim 1, is characterized in that: the lower folding die set comprises a straight-edge folding lower die, a reverse straight-edge folding lower die, a large-corner folding lower die, a small-corner folding lower die, a flanging folding lower die and a shoe-shaped ingot unfolding lower die; the folding upper die set comprises a straight edge folding upper die, a reverse straight edge folding upper die, a large corner folding upper die, a small corner folding upper die, a flanging folding upper die and a shoe-shaped ingot unfolding upper die;

4. The automatic equipment for manually and rapidly folding tinfoil paper into a paper ingot according to claim 3, wherein the equipment comprises: the device comprises a straight edge folding lower die, a reverse straight edge folding lower die, a large corner folding lower die, a small corner folding lower die, a flanging folding lower die, a shoe-shaped ingot unfolding lower die, a straight edge folding upper die, a reverse straight edge folding upper die, a large corner folding upper die, a small corner folding upper die, a flanging folding upper die and a shoe-shaped ingot unfolding upper die, wherein a plurality of air holes are formed in the straight edge folding lower die, the reverse straight edge folding lower die, the large corner folding upper die, the small corner folding upper die, the flanging folding upper die and the shoe-shaped ingot unfolding upper die, and the air holes are connected with compressed air.

5. The automatic equipment for manually and rapidly folding tinfoil paper into a paper ingot according to claim 3, wherein the equipment comprises: the die comprises a large corner folding supporting block, a small corner folding supporting block, a limiting template and a side pressing template, wherein the large corner folding supporting block, the small corner folding supporting block, the limiting template and the side pressing template are all provided with pressing needles, and the large corner folding lower template, the large corner folding upper template, the small corner folding upper template I, the small corner folding upper template II, a flanging folding upper die and a shoe-shaped ingot unfolding upper die are all provided with needle grooves.

6. The automatic equipment for manually and rapidly folding the tinfoil paper into the paper ingot according to claim 3, wherein the equipment comprises: the end of the shoe-shaped gold ingot supporting template is also provided with a paper shoe-shaped gold ingot stop block.

7. The automatic equipment for manually and rapidly folding the tinfoil paper into the paper ingot according to claim 3, wherein the equipment comprises: the lower die is folded to the straight flange, the lower die is folded to the reverse side straight flange, the lower die is folded to the big corner, the lower die is folded to the small corner, the lower die is folded to the turn-ups, the lower die is unfolded to the shoe-shaped gold ingot, the upper die is folded to the straight flange, the upper die is folded to the reverse side straight flange, the upper die is folded to the big corner, the upper die is folded to the small corner, the upper die is folded to the turn-ups and the upper die is unfolded to the shoe-shaped gold ingot and is provided with two sets.

8. The automatic equipment for manually and rapidly folding tinfoil paper into a paper ingot according to claim 1, wherein the equipment comprises: the swing arm assembly comprises a main transverse rod, an auxiliary transverse rod and an arc-shaped swing piece, the auxiliary transverse rod is connected with the supporting arm, the arc-shaped swing piece is connected with the main transverse rod and the auxiliary transverse rod respectively, a plurality of connecting rods are arranged on the main transverse rod, and the die set is arranged on the connecting rods in a folding mode respectively.

9. The automatic equipment for manually and rapidly folding tinfoil paper into a paper ingot according to claim 2, wherein the equipment comprises: and the pressing block is also provided with an infrared inductor.

10. The automatic equipment for manually and rapidly folding the tinfoil paper into the paper ingot according to claim 2, wherein the equipment comprises: a support is further arranged above the paper conveying belt on the feeding machine table, and an infrared sensor is also arranged on the support.