CN113043371B - Electrode slice production is with cotton production line that cuts and punch a hole of bubble - Google Patents

Abstract

The invention relates to the technical field of electrode plate production devices, and provides a foam cutting and punching production line for electrode plate production, which comprises a die cutting rack, wherein a first conveying cutter holder, a foam hole cutting cutter holder and a second conveying cutter holder are arranged on the die cutting rack; the first conveying tool apron is provided with an installation support, the installation support is provided with a lining paper cutting mechanism, the lining paper cutting mechanism is connected with a foam hole cutting tool apron, and the foam hole cutting tool apron is connected with a second conveying tool apron; a foam conveying roller is arranged on the die cutting rack, and foam of the foam conveying roller sequentially passes through the first conveying cutter holder, the lining paper cutting mechanism, the foam hole cutter holder and the second conveying cutter holder; and a logo conveying roller is further arranged on the die cutting rack, logo paper of the logo conveying roller is separated into logo lining paper and logo paster through a first limiting guide roller, and the logo paster is attached to the bottom of the foam. The invention solves the problems that the prior electrode plate needs to be manually attached with a logo, the workload is large, the operation is inconvenient, and meanwhile, the release film is tightly attached with the foam layer, so that the use is inconvenient.

Description

Electrode slice production is with cotton production line that cuts and punch a hole of bubble

Technical Field

The invention relates to the technical field of electrode plate production devices, in particular to a foam cutting and punching production line for electrode plate production.

Background

The electrode plates are various in types, and comprise a disposable massage electrode plate, a disposable physiotherapy electrode plate, a disposable conductive electrode plate, a disposable self-adhesive electrode plate, a disposable viscose electrode plate, a disposable non-woven fabric electrode plate, a disposable electrocardio electrode plate, a disposable medical electrode plate, a disposable silica gel electrode plate, a disposable heating electrode plate and the like, and the electrode plates can be divided into square, round, button-shaped and the like according to the appearance shape.

The electrode plate is produced by a circular knife die cutting machine at present due to the process requirements, and the following defects of the electrode plate produced by the circular knife die cutting machine at present are found in practice: (1) most of electrode plates produced by the conventional die-cutting machine do not have a logo of a company, and the logo of the company needs to be manually attached by workers after the production of the electrode plates is finished; (2) most of the conventional die-cutting machines are not provided with foam lining paper cutting mechanisms, and lining paper is directly removed in production, so that when a release film on a produced electrode plate is used, the release film is too tightly attached to a foam layer of the electrode plate, and the release film is inconvenient to tear off in use, and inconvenient to use; (3) in the production process, because bubble cotton slip sheet and bubble cotton layer laminating comparatively inseparable, after the bubble cotton cuts cursor locating hole and electrode hole, bubble cotton slip sheet and the cotton layer separation difficulty of bubble, the collection of waste material after being not convenient for cut.

Therefore, the development of the foam cutting and punching production line for producing the electrode plate has urgent research value and also has good economic benefit and industrial application potential.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a foam cutting and punching production line for producing electrode plates, which aims to solve the problems that the electrode plates produced by the existing die-cutting machine need to be manually attached with a logo, the workload is large, the operation is inconvenient, and meanwhile, a release film is tightly attached with a foam layer, so that the use is inconvenient.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a foam cutting and punching production line for electrode plate production comprises a die cutting rack, wherein a first conveying cutter holder, a foam hole cutting cutter holder and a second conveying cutter holder are mounted on the die cutting rack;

the discharge end of the first conveying cutter holder is provided with an installation support, a lining paper cutting mechanism with adjustable position is arranged on the installation support, the discharge end of the lining paper cutting mechanism is connected with the feed end of the foam cotton hole cutter holder, and the discharge end of the foam cotton hole cutter holder is connected with the feed end of the second conveying cutter holder;

the die cutting machine frame is also provided with a foam conveying roller, foam on the foam conveying roller sequentially passes through the first conveying tool apron, the lining paper cutting mechanism, the foam hole cutting tool apron and the second conveying tool apron, and foam lining paper on the foam is conveyed to a foam lining paper collecting roller through the lining paper cutting mechanism and the foam hole cutting tool apron;

still install a plurality of logo conveying rollers in the cross cutting frame, the logo paper on the logo conveying roller separates into logo slip sheet and logo sticker through first spacing deflector roll, the logo sticker attached in the cotton bottom of bubble, and with the cotton common entry of bubble first transport blade holder carries out the pressfitting, logo slip sheet is connected with a plurality of logo slip sheet collection rollers respectively through first deflector roll.

As an improved scheme, the mounting bracket comprises two connecting plates, wherein the two connecting plates are close to one end of the first conveying tool apron, a plurality of connecting columns are arranged at one ends of the connecting plates, the connecting columns are matched with grooves in a vertical plate of the first conveying tool apron, oval bolt connecting holes are formed in the connecting columns, a supporting plate and a connecting rod used for enhancing strength of the mounting bracket are further arranged between the connecting plates, and the lining paper cutting mechanism is mounted on the supporting plate.

As a modified scheme, slip sheet cuts mechanism includes the fixing base, fixing base slidable mounting in the backup pad, just the fixing base with be provided with the locking threaded rod between the backup pad, the fixing base is kept away from the one end of backup pad is installed micromatic setting, micromatic setting's measuring staff extends to the bottom outside of fixing base to install the installation piece, the installation piece with slidable mounting between the fixing base, be provided with a plurality of cutting blades on the installation piece, the bottom correspondence of installation piece is provided with the back-up roll that cuts, cut the both ends of back-up roll respectively with rotate the installation between the connecting plate.

As an improved scheme, a first sliding block is installed at one end, close to the supporting plate, of the fixed seat, a first sliding rail matched with the first sliding block is installed on the supporting plate, and the fixed seat is installed on the first sliding rail of the supporting plate in a sliding mode through the first sliding block;

the stop threaded rod penetrates through the fixed seat in a threaded manner, one end of the stop threaded rod is abutted against the supporting plate, and the other end of the stop threaded rod is provided with a first adjusting knob;

the installation piece is close to one side of fixing base installs the second slider, be provided with on the fixing base with the second slide rail of second slider looks adaptation, the second slider with sliding fit between the second slide rail.

As an improved scheme, a plurality of mounting grooves matched with the cutting blades are formed in the mounting block, and the cutting blades are mounted in the mounting grooves and fixed through the pressing plate.

As an improved scheme, a first bottom roller driven by a motor is rotatably mounted on each of the first conveying tool apron and the second conveying tool apron, a first conveying roller is meshed with a gear on the first bottom roller, the first conveying roller is respectively mounted in a vertical plate groove of each of the first conveying tool apron and the second conveying tool apron, a second conveying roller is meshed with a gear on the first conveying roller, and the second conveying roller is respectively connected with vertical plates of the first conveying tool apron and the second conveying tool apron through a position adjusting mechanism;

the foam hole cutting tool base is rotatably provided with a second bottom roller driven by a motor, a gear on the second bottom roller is meshed with a die cutting roller, the die cutting roller is arranged in a groove of a vertical plate of the foam hole cutting tool base, a gear on the die cutting roller is meshed with a die cutting supporting roller, and the die cutting supporting roller is connected with the vertical plate of the foam hole cutting tool base through the position adjusting mechanism.

As an improved scheme, the position adjusting mechanism comprises a sliding block, an adjusting screw rod and a fixed block, the sliding block is respectively connected with the second conveying roller and the die-cutting supporting roller, a sliding groove is formed in the sliding block, and the sliding groove is respectively in sliding fit with the first conveying tool apron, the second conveying tool apron and a vertical plate of the foam hole-cutting tool apron;

the fixed block is installed respectively on the riser of first transport blade holder, second transport blade holder and bubble cotton cutting hole blade holder, adjusting screw thread runs through the fixed block, and one end with the slider rotates the installation, and the second adjust knob is installed to the other end.

As an improved scheme, a plurality of cursor positioning hole cutting edges and electrode hole cutting edges are arranged on the surface of the die-cutting roller.

As an improved scheme, a second limiting guide roller and a third limiting guide roller are arranged at the feed end of the first conveying cutter holder, and a plurality of limiting rings which are arranged oppositely are respectively arranged on the first limiting guide roller, the second limiting guide roller and the third limiting guide roller;

the logo paster enters between the first conveying roller and the second conveying roller through the first limiting guide roller and the second limiting guide roller;

the foam passes through the third limiting guide roller and the logo paster synchronously enters the space between the first conveying roller and the second conveying roller, and the logo paster is pressed at the bottom of the foam through the space formed between the first conveying roller and the second conveying roller.

As an improved scheme, the feed end of the foam hole cutting tool apron is provided with a second guide roller and a third guide roller, the discharge end of the foam hole cutting tool apron is provided with a fourth guide roller and a fifth guide roller, foam lining paper on the foam surface enters the die-cutting roller and the die-cutting support roller after being separated by the second guide roller and the third guide roller, so that waste materials cut by the die-cutting roller are attached to the foam lining paper and wound on the foam lining paper collecting roller.

After the technical scheme is adopted, the invention has the beneficial effects that:

the lining paper cutting mechanism is arranged, so that the lining paper part on the surface of the foam layer can be cut off, the rest lining paper is still stored on the side edge of the foam layer, and after the release film is attached to the surface of the foam layer after production is finished, the release film can be separated and torn off through the lining paper on the surface of the foam layer when the electrode plate is used, so that the electrode plate is more convenient to use;

by arranging the logo conveying roller, the first limiting guide roller, the first guide roller and the logo lining paper collecting roller, logo paper can be separated into logo lining paper and logo pasters, the logo lining paper is collected through the logo lining paper collecting roller, and the logo pasters are attached to the bottom of foam through the first conveying cutter holder, so that automatic attachment of the logo is achieved, the logo of a company is not required to be manually attached after production is completed, the workload of workers is reduced, and the manpower and financial resources of the company are saved;

can cut cursor locating hole and electrode hole on the bubble cotton through setting up bubble cotton cutting hole tool holder, and at the in-process that cuts, can not cut bubble cotton slip sheet, can take away the cotton waste material of bubble after cutting through bubble cotton slip sheet, and finally collect on bubble cotton slip sheet collecting roll, through setting up second deflector roll and third deflector roll, can separate bubble cotton slip sheet in advance, later enter into the bubble cotton cutting hole tool holder jointly again in, through separating in advance that the laminating can not be too inseparable between messenger bubble cotton slip sheet and the bubble cotton layer, the influence cuts the collection of back waste material.

In conclusion, the invention solves the problems that the electrode plate produced by the current die-cutting machine needs manual logo attachment, the workload is large, the operation is inconvenient, and meanwhile, the release film is tightly attached to the foam layer, so that the use is inconvenient.

Drawings

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

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

FIG. 3 is a schematic structural view of a first conveying cutter holder and a foam hole cutter holder in the invention;

FIG. 4 is a schematic view of the mounting bracket and the liner paper cutting mechanism of the present invention;

FIG. 5 is a schematic view of the mounting bracket and the mount paper cutting mechanism of the present invention in another angular orientation;

FIG. 6 is a schematic structural view of a foam hole cutter holder according to the present invention;

FIG. 7 is a schematic view of another angle direction structure of the hole cutter base for cutting the foam in the invention;

FIG. 8 is a schematic structural view showing the direction of movement of the foam layer and the liner paper on the foam hole cutter base in the present invention;

FIG. 9 is a schematic view of the construction of a die-cutting roll according to the present invention;

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

wherein each numerical designation refers to a particular meaning, element, and/or component, respectively, as follows in the figures.

In the figure: 1. a die cutting frame, 2, a first conveying tool apron, 3, a foam hole cutting tool apron, 4, a second conveying tool apron, 5, a mounting bracket, 501, a connecting plate, 502, a connecting column, 503, a supporting plate, 504, a connecting rod, 6, a lining paper cutting mechanism, 601, a fixed seat, 602, a stop threaded rod, 603, a fine adjustment device, 604, a mounting block, 6041, a mounting groove, 605, a cutting blade, 606, a cutting supporting roller, 7, a foam conveying roller, 8, a foam lining paper collecting roller, 9, a logo conveying roller, 10, a first limit guide roller, 11, a first guide roller, 12, a logo lining paper collecting roller, 13, a first sliding block, 14, a first sliding rail, 15, a first adjusting knob, 16, a second sliding block, 17, a second sliding rail, 18, a first bottom roller, 19, a first conveying roller, 20, a second conveying roller, 21, a position adjusting mechanism, 2101, a sliding block, 2102, an adjusting screw rod, 2103, a fixed block, 2104. the device comprises a second adjusting knob 22, a second bottom roller 23, a die cutting roller 24, a die cutting supporting roller 25, a cursor positioning hole cutting edge 26, an electrode hole cutting edge 27, a second limiting guide roller 28, a third limiting guide roller 29, a limiting ring 30, a second guide roller 31, a third guide roller 32, a fourth guide roller 33 and a fifth guide roller.

Detailed Description

The invention is further illustrated by the following specific examples. The use and purpose of these exemplary embodiments are to illustrate the present invention, not to limit the actual scope of the present invention in any way, and not to limit the scope of the present invention in any way.

As shown in fig. 1-2, a foam cutting and punching production line for electrode plate production comprises a die cutting frame 1, wherein a first conveying tool apron 2, a foam hole cutting tool apron 3 and a second conveying tool apron 4 are mounted on the die cutting frame 1, the first conveying tool apron 2, the foam hole cutting tool apron 3 and the second conveying tool apron 4 are all slidably mounted on a slide rail of the die cutting frame 1 and locked by bolts, and the distance between the first conveying tool apron 2, the foam hole cutting tool apron 3 and the second conveying tool apron 4 can be adjusted by loosening the bolts;

the discharge end of the first conveying cutter holder 2 is provided with the mounting bracket 5, the mounting bracket 5 is provided with the lining paper cutting mechanism 6 with the position adjustable, the discharge end of the lining paper cutting mechanism 6 is connected with the feed end of the foam cotton hole cutting cutter holder 3, the discharge end of the foam cotton hole cutting cutter holder 3 is connected with the feed end of the second conveying cutter holder 4, the lining paper on the surface of the foam cotton layer can be partially cut off by arranging the lining paper cutting mechanism 6, the rest lining paper is still stored on the side edge of the foam cotton layer, and after the production is finished and the surface of the foam cotton layer is attached with a release film, the release film can be separated and torn off by the lining paper on the surface of the foam cotton layer when the electrode plate is used, so that the electrode plate is more convenient to use;

the die cutting machine frame 1 is also provided with a foam conveying roller 7, foam on the foam conveying roller 7 sequentially passes through the first conveying tool apron 2, the lining paper cutting mechanism 6, the foam hole cutting tool apron 3 and the second conveying tool apron 4, and foam lining paper on the foam is conveyed to the foam lining paper collecting roller 8 through the lining paper cutting mechanism 6 and the foam hole cutting tool apron 3;

the die cutting rack 1 is also provided with a plurality of logo conveying rollers 9, logo paper on the logo conveying rollers 9 is separated into logo lining paper and logo paster through a first limiting guide roller 10, the logo paster is attached to the bottom of foam and enters a first conveying tool apron 2 together with the foam for pressing, the logo lining paper is respectively connected with a plurality of logo lining paper collecting rollers 12 through a first guide roller 11, in the embodiment, two logo conveying rollers 9 and two logo lining paper collecting rollers 12 are arranged, the logo conveying rollers 9, the first limiting guide roller 10, the first guide roller 11 and the logo lining paper collecting rollers 12 are arranged, the logo paper can be separated into the logo lining paper and the logo, the logo lining paper is collected through the logo lining paper collecting rollers 12, the logo paster is attached to the bottom of the foam through the first conveying tool apron 2, automatic attachment of the logo is realized, manual attachment of the logo of a company is not needed after production is completed, and the workload of workers is reduced, the manpower and financial resources of the company are saved;

in this embodiment, the foam conveying roller 7, the foam backing paper collecting roller 8, the logo conveying roller 9, and the logo backing paper collecting roller 12 are all expansion rollers.

In this embodiment, as shown in fig. 3 to fig. 5, the mounting bracket 5 includes two connecting plates 501, a plurality of connecting columns 502 are respectively disposed at one end of each of the two connecting plates 501 close to the first conveying tool apron 2, the connecting columns 502 are adapted to grooves on a vertical plate of the first conveying tool apron 2, elliptical bolt connecting holes are disposed on the connecting columns 502, the connecting columns 502 are mounted on the vertical plate of the first conveying tool apron 2 through bolts, a supporting plate 503 and a connecting rod 504 for enhancing strength of the mounting bracket 5 are further disposed between the two connecting plates 501, and the lining paper cutting mechanism 6 is mounted on the supporting plate 503.

In this embodiment, as shown in fig. 3-5, the lining paper cutting mechanism 6 includes a fixing base 601, the fixing base 601 is slidably mounted on the supporting plate 503, a stop threaded rod 602 is disposed between the fixing base 601 and the supporting plate 503, the position of the fixing base 601 can be adjusted and fixed by the stop threaded rod 602, a fine adjustment device 603 is mounted at an end of the fixing base 601 away from the supporting plate 503, the fine adjustment device 603 adopts a differential head, which is common in daily life and belongs to common knowledge of technicians in the technical field, and is not described herein again, the differential head is also called a micrometer head, and is composed of an immovable part mounting sleeve, a shaft sleeve, a movable part measuring rod, a micro-cylinder, and a micro-adjustment button, and the axial movement amount of the micrometer screw is read and provided with a measuring device of a mounting part by using a principle of a screw pair, and the measuring rod of the fine adjustment device 603 extends to the outside of the bottom of the fixing base 601, the installation block 604 is installed on the bolt, the installation block 604 and the fixed seat 601 are installed in a sliding mode, the installation block 604 is provided with a plurality of cutting blades 605, the lining paper on the surface of the foam is cut through the cutting blades 605, the fine adjustment device 603 is adopted, the fine adjustment device 603 is high in adjustment precision and suitable for fine adjustment of size, the control of the cutting depth of the lining paper on the surface of the foam is facilitated, the foam layer is prevented from being damaged, the bottom of the installation block 604 is correspondingly provided with a cutting support roller 606, and two ends of the cutting support roller 606 are rotatably installed between the connection plate 501 and the connection plate respectively.

In this embodiment, as shown in fig. 3 to fig. 5, a first sliding block 13 is installed on one end of the fixing base 601 close to the supporting plate 503 by a bolt, a first sliding rail 14 adapted to the first sliding block 13 is installed on the supporting plate 503 by a bolt, and the fixing base 601 is installed on the first sliding rail 14 of the supporting plate 503 by the first sliding block 13 in a sliding manner, so that the position of the fixing base 601 can be adjusted;

the stop threaded rod 602 penetrates through the fixed seat 601 in a threaded manner, one end of the stop threaded rod 602 abuts against the supporting plate 503, the other end of the stop threaded rod is provided with the first adjusting knob 15, and the fixed seat 601 can be fixed and loosened by rotating the adjusting knob in the forward direction or the reverse direction, so that the position of the fixed seat 601 can be conveniently adjusted;

the second slider 16 is installed to one side bolt that the installation piece 604 is close to fixing base 601, and the second slide rail 17 with second slider 16 looks adaptation is installed to the bolt on the fixing base 601, sliding fit between second slider 16 and the second slide rail 17 makes micromatic setting 603 when the position of adjustment installation piece 604, can guarantee the position accuracy of vertical direction, avoids appearing the deviation.

In this embodiment, as shown in fig. 5 and 10, the mounting block 604 is provided with a plurality of mounting grooves 6041 adapted to the cutting blade 605, the cutting blade 605 is mounted in the mounting groove 6041 and fixed by a pressing plate and a bolt, and the mounting groove 6041 is configured to enable the cutting blade 605 to be mounted more stably.

In this embodiment, as shown in fig. 3, 5, 6, and 7, a first bottom roller 18 driven by a motor is rotatably installed on each of the first conveying tool apron 2 and the second conveying tool apron 4, a first conveying roller 19 is engaged with a gear on the first bottom roller 18, bearing seats are respectively disposed at two ends of the first conveying roller 19, the first conveying roller 19 is respectively and fixedly installed in a vertical plate groove of each of the first conveying tool apron 2 and the second conveying tool apron 4 through the bearing seat, a second conveying roller 20 is engaged with a gear on the first conveying roller 19, bearing seats are also respectively disposed at two ends of the second conveying roller 20, and the second conveying roller 20 is respectively connected with a vertical plate of each of the first conveying tool apron 2 and the second conveying tool apron 4 through a position adjusting mechanism 21;

the same sides of the first bottom roller 18, the first conveying roller 19 and the second conveying roller 20 are all provided with gears which are meshed with each other;

a second bottom roller 22 driven by a motor is rotatably installed on the foam hole cutting tool base 3, a gear on the second bottom roller 22 is meshed with a die cutting roller 23, bearing seats are respectively arranged at two ends of the die cutting roller 23, the die cutting roller 23 is fixedly installed in a vertical plate groove of the foam hole cutting tool base 3 through the bearing seats, a die cutting supporting roller 24 is meshed with the gear on the die cutting roller 23, the bearing seats are respectively arranged at two ends of the die cutting supporting roller 24, and the die cutting supporting roller 24 is connected with a vertical plate of the foam hole cutting tool base 3 through a position adjusting mechanism 21;

the same side of the second bottom roll 22, the die-cutting roll 23 and the die-cutting back-up roll 24 is also provided with gears which mesh with each other.

In this embodiment, as shown in fig. 6 and 7, the position adjusting mechanism 21 includes a slider 2101, an adjusting screw 2102, and a fixing block 2103, the slider 2101 is connected to the bearing seats of the second conveying roller 20 and the die cutting supporting roller 24, the slider 2101 is provided with a sliding chute, the sliding chute is slidably fitted to the vertical plates of the first conveying tool apron 2, the second conveying tool apron 4, and the foam hole cutting tool apron 3, so that the slider 2101 can only move in the vertical direction when being adjusted;

the fixed block 2103 is bolted installation respectively on the riser of first transport blade holder 2, second transport blade holder 4 and bubble cotton cutting hole blade holder 3, and adjusting screw 2102 screw thread runs through fixed block 2103, and one end rotates the installation with slider 2101, and second adjustment knob 2104 is installed to the other end, can adjust the position of slider 2101 through rotating second adjustment knob 2104, and then adjusts the position of cross cutting backing roll 24, realizes the adjustment in clearance between cross cutting backing roll 24 and the die cutting roller 23.

In this embodiment, as shown in fig. 9, a plurality of cursor positioning hole cutting edges 25 and electrode hole cutting edges 26 are arranged on the surface of the die-cutting roller 23, in this embodiment, the cursor positioning hole cutting edges 25 are square in structure, and are arranged in a row around the cursor positioning hole cutting edges, and are arranged corresponding to a cursor positioning machine in a subsequent process, and the electrode hole cutting edges 26 are circular in structure, are matched with the electrode buttons, and are arranged in two rows around the cursor positioning hole cutting edges, and are symmetrically arranged on two sides of the cursor positioning hole respectively.

In this embodiment, as shown in fig. 3, 5, 6, and 7, a second limiting guide roller 27 and a third limiting guide roller 28 are disposed at the feeding end of the first conveying tool apron 2, a plurality of limiting rings 29 disposed oppositely are respectively mounted on the first limiting guide roller 10, the second limiting guide roller 27, and the third limiting guide roller 28, the limiting rings 29 are mounted on the limiting guide rollers by bolts, and the width between the limiting rings 29 can be adjusted by loosening the bolts, so as to adapt to the width of different raw materials, and the adjustment is convenient;

the logo paster enters between the first conveying roller 19 and the second conveying roller 20 through the first limiting guide roller 10 and the second limiting guide roller 27;

the foam enters the space between the first conveying roller 19 and the second conveying roller 20 through the third limiting guide roller 28 and the logo paster synchronously, and the logo paster is pressed at the bottom of the foam through the space formed between the first conveying roller 19 and the second conveying roller 20.

In this embodiment, as shown in fig. 6 and 7, the second guide roller 30 and the third guide roller 31 are disposed at the feeding end of the foam hole cutting tool holder 3, the fourth guide roller 32 and the fifth guide roller 33 are disposed at the discharging end of the foam hole cutting tool holder 3, the foam lining paper on the surface of the foam enters between the die-cutting roller 23 and the die-cutting support roller 24 after being separated by the second guide roller 30 and the third guide roller 31, so that the waste material cut by the die-cutting roller 23 is attached to the foam lining paper and wound on the foam lining paper collecting roller 8, the cut foam waste can be taken away by the foam backing paper and finally collected on the foam backing paper collecting roller 8, and by arranging the second guide roller 30 and the third guide roller 31, the foam lining paper can be separated in advance and then enter the foam hole cutting tool holder 3 together, the foam lining paper and the foam layer are not adhered too tightly by pre-separation, so that the collection of cut waste materials is influenced;

in addition, the surfaces of the second conveying rollers 20 on the fifth guide roller 33 and the second conveying tool apron 4 are both sprayed with plasma coatings, the plasma coatings adopt nickel titanium-based plasma coatings, and the phenomenon that the foam layer is stuck to the guide roller or the conveying roller 9 to influence the operation of the die cutting equipment due to the arrangement of the plasma coatings is avoided.

For ease of understanding, the working process of the present embodiment is given below:

as shown in fig. 1-10, firstly, a foam cotton roll is mounted on a foam conveying roller 7, the free end of the foam cotton roll passes through a third limiting guide roller 28 and enters between a first conveying roller 19 and a second conveying roller 20 of a first conveying tool apron 2, meanwhile, two logo paper rolls are respectively mounted on logo conveying rollers 9, the free end of the logo paper roll is separated into a logo lining paper and a logo sticker through the first limiting roller, the logo sticker passes through the second limiting roller and enters between the first conveying roller 19 and the second conveying roller 20 of the first conveying tool apron 2 together with the foam cotton and is positioned at the bottom of the foam cotton, the foam cotton and the lining paper are conveyed and pressed through the first conveying roller 19 and the second conveying roller 20, the logo lining paper passes through a first guide roller 11 and is connected with a logo lining paper collecting roller 12, and the logo is collected through the logo lining paper collecting roller 12;

the foam enters a lining paper cutting mechanism 6 after coming out of the first conveying cutter seat 2, the lining paper on the surface of the foam is partially cut by a cutting blade 605, and part of the lining paper is reserved on the surface of the foam so as to be convenient for using subsequent finished products;

the cut foam lining paper is separated from the foam layer in advance through a second guide roller 30 and a third guide roller 31, then the foam layer and the foam layer enter a position between a die-cutting roller 23 and a die-cutting supporting roller 24 of a foam hole cutting tool holder 3, cursor positioning holes and electrode holes are cut on the foam layer through the die-cutting roller 23 and the die-cutting supporting roller 24, and the cut waste materials are adhered to the foam lining paper;

then, the foam backing paper bypasses the die cutting supporting roller 24 and the fourth guide roller 32 to be connected with the foam backing paper collecting roller 8, so that the foam backing paper is collected;

the cut foam layer bypasses the fifth guide roller 33, enters the second conveying tool apron 4 for conveying, and enters the next working procedure.

In conclusion, the die-cutting machine solves the problems that the prior electrode plate produced by the die-cutting machine needs manual logo attaching, the workload is large, the operation is inconvenient, and meanwhile, the release film is tightly attached to the foam layer, so that the use is inconvenient.

It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should also be understood that various alterations, modifications and/or variations can be made to the present invention by those skilled in the art after reading the technical content of the present invention, and all such equivalents fall within the protective scope defined by the claims of the present application.

Claims (9)

1. The utility model provides an electrode slice production is with cotton production line that cuts and punches a hole of bubble which characterized in that: the device comprises a die cutting rack, wherein a first conveying cutter holder, a foam hole cutting cutter holder and a second conveying cutter holder are arranged on the die cutting rack;

the discharge end of the first conveying cutter holder is provided with an installation support, a lining paper cutting mechanism with adjustable position is arranged on the installation support, the discharge end of the lining paper cutting mechanism is connected with the feed end of the foam cotton hole cutter holder, and the discharge end of the foam cotton hole cutter holder is connected with the feed end of the second conveying cutter holder;

the die cutting machine frame is also provided with a foam conveying roller, foam on the foam conveying roller sequentially passes through the first conveying tool apron, the lining paper cutting mechanism, the foam hole cutting tool apron and the second conveying tool apron, and foam lining paper on the foam is conveyed to a foam lining paper collecting roller through the lining paper cutting mechanism and the foam hole cutting tool apron;

the die cutting machine is characterized in that a plurality of logo conveying rollers are further mounted on the die cutting rack, logo paper on the logo conveying rollers is separated into logo lining paper and logo pasters through first limiting guide rollers, the logo pasters are attached to the bottoms of the foam and enter the first conveying tool apron together with the foam for pressing, and the logo lining paper is respectively connected with a plurality of logo lining paper collecting rollers through the first guide rollers;

a second bottom roller driven by a motor is rotatably installed on the foam hole cutting tool holder, a die cutting roller is meshed with a gear on the second bottom roller, the die cutting roller is installed in a groove of a vertical plate of the foam hole cutting tool holder, a die cutting supporting roller is meshed with a gear on the die cutting roller, and the die cutting supporting roller is connected with the vertical plate of the foam hole cutting tool holder through the position adjusting mechanism;

the feed end that the hole blade holder was cut out to the bubble cotton is provided with second deflector roll and third deflector roll, the discharge end that the hole blade holder was cut out to the bubble cotton is provided with fourth deflector roll and fifth deflector roll, the cotton slip sheet of bubble on bubble cotton surface pass through the second deflector roll with enter into behind the third deflector roll separation the die-cutting roller with between the cross cutting backing roll, make waste material after the die-cutting roller cuts attach in on the cotton slip sheet of bubble, the duplex winding in on the cotton slip sheet of bubble collection roller.

2. The foam cutting and punching production line for producing the electrode plates as claimed in claim 1 is characterized in that: the installing support comprises two connecting plates, wherein the two connecting plates are close to one end of the first conveying tool apron, a plurality of connecting columns are arranged at the ends, matched with grooves in vertical plates of the first conveying tool apron, of the connecting columns, oval bolt connecting holes are formed in the connecting columns, a supporting plate and a connecting rod used for enhancing the strength of the installing support are further arranged between the connecting plates, and the lining paper cutting mechanism is installed on the supporting plate.

3. The foam cutting and punching production line for producing the electrode plates as claimed in claim 2 is characterized in that: the slip sheet cuts mechanism includes the fixing base, fixing base slidable mounting in the backup pad, just the fixing base with be provided with the locking threaded rod between the backup pad, the fixing base is kept away from micromatic setting is installed to the one end of backup pad, micromatic setting's measuring staff extends to the bottom outside of fixing base to install the installation piece, the installation piece with slidable mounting between the fixing base, be provided with a plurality of cutting blades on the installation piece, the bottom correspondence of installation piece is provided with cuts the backing roll, the both ends that cut the backing roll respectively with rotate the installation between the connecting plate.

4. The foam cutting and punching production line for producing the electrode plates as claimed in claim 3 is characterized in that: a first sliding block is mounted at one end, close to the supporting plate, of the fixed seat, a first sliding rail matched with the first sliding block is mounted on the supporting plate, and the fixed seat is slidably mounted on the first sliding rail of the supporting plate through the first sliding block;

the stop threaded rod penetrates through the fixed seat in a threaded manner, one end of the stop threaded rod is abutted against the supporting plate, and the other end of the stop threaded rod is provided with a first adjusting knob;

the mounting block is close to one side of the fixing seat is provided with a second sliding block, a second sliding rail matched with the second sliding block is arranged on the fixing seat, and the second sliding block is in sliding fit with the second sliding rail.

5. The electrode sheet production is with cotton production line that cuts of bubble of punching a hole of claim 3, characterized in that: the mounting block is provided with a plurality of mounting grooves matched with the cutting blades, and the cutting blades are mounted in the mounting grooves and fixed through the pressing plate.

6. The foam cutting and punching production line for producing the electrode plates as claimed in claim 1 is characterized in that: the first conveying tool apron and the second conveying tool apron are both rotatably provided with first bottom rollers driven by motors, first conveying rollers are meshed with gears on the first bottom rollers and are respectively arranged in vertical plate grooves of the first conveying tool apron and the second conveying tool apron, second conveying rollers are meshed with the gears on the first conveying rollers and are respectively connected with vertical plates of the first conveying tool apron and the second conveying tool apron through position adjusting mechanisms.

7. The electrode sheet production is with cotton production line that cuts of bubble of punching a hole of claim 6, characterized in that: the position adjusting mechanism comprises a sliding block, an adjusting screw rod and a fixing block, the sliding block is respectively connected with the second conveying roller and the die cutting supporting roller, a sliding groove is formed in the sliding block, and the sliding groove is respectively in sliding fit with the first conveying tool apron, the second conveying tool apron and a vertical plate of the foam hole cutting tool apron;

the fixed block is installed respectively on the riser of first transport blade holder, second transport blade holder and bubble cotton cutting hole blade holder, adjusting screw thread runs through the fixed block, and one end with the slider rotates the installation, and the second adjust knob is installed to the other end.

8. The foam cutting and punching production line for producing the electrode plates as claimed in claim 6 is characterized in that: and a plurality of cursor positioning hole cutting edges and electrode hole cutting edges are arranged on the surface of the die-cutting roller.

9. The foam cutting and punching production line for producing the electrode plates as claimed in claim 6 is characterized in that: a second limiting guide roller and a third limiting guide roller are arranged at the feeding end of the first conveying cutter holder, and a plurality of limiting rings which are oppositely arranged are respectively arranged on the first limiting guide roller, the second limiting guide roller and the third limiting guide roller;

the logo paster enters between the first conveying roller and the second conveying roller through the first limiting guide roller and the second limiting guide roller;

the foam passes through the third limiting guide roller and the logo paster synchronously enters the space between the first conveying roller and the second conveying roller, and the logo paster is pressed at the bottom of the foam through the space formed between the first conveying roller and the second conveying roller.

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