CN113197399B

CN113197399B - Adhesive tape pasting processing method for inner layer of canvas shoe sole

Info

Publication number: CN113197399B
Application number: CN202110300275.7A
Authority: CN
Inventors: 谢克武
Original assignee: Wenling Shijifeng Shoes Material Co ltd
Current assignee: Wenling Shijifeng Shoes Material Co ltd
Priority date: 2021-03-22
Filing date: 2021-03-22
Publication date: 2022-07-01
Anticipated expiration: 2041-03-22
Also published as: CN113197399A

Abstract

The invention relates to the field of canvas shoes, in particular to a method for sticking and processing an inner layer adhesive tape of a sole of a canvas shoe. The technical problem of the invention is as follows: provides a method for sticking the rubber strips on the inner layer of the sole of a canvas shoe. A method for sticking and processing an inner rubber strip of a sole of a canvas shoe adopts the following processing equipment, and the processing equipment comprises a working machine bed plate, an adhesive adhering system, a rubber strip sticking system, a surplus edge separating system and the like; the lower part of the bed plate of the working machine is welded with the supporting foot stool. The automatic sticking device realizes the automatic sticking of the adhesive tape on the inner layer of the semi-finished shoe, automatically and uniformly coats the adhesive on the bottom of the outer surface of the semi-finished shoe, automatically carries out conveying and heating to uniformly diffuse the adhesive, and cuts and separates the part of the adhesive tape higher than the bottom surface of the semi-finished shoe, so that the subsequent sole is stuck more firmly and tightly.

Description

Adhesive tape pasting processing method for inner layer of canvas shoe sole

Technical Field

The invention relates to the field of canvas shoes, in particular to a method for sticking and processing an inner layer rubber strip of a sole of a canvas shoe.

Background

The canvas shoes are thick rubber soles which are raised in Europe, and canvas covers on shoe uppers. The wear is light, durable and low in price, so that the shoe is popular with people all over the world. The style mainly comprises a high upper and a low upper.

At present, in the prior art, in the processing process of a canvas shoe, in the processing stage of a semi-finished product of the canvas shoe, a lump of adhesive is often manually and directly smeared at the bottom of the outer surface of the semi-finished product of the canvas shoe, then a lump of adhesive is manually smeared on the shoe, the adhesive at the position where the adhesive is firstly smeared permeates into the cloth material, the adhesive at other positions is less, the adhesive is unevenly distributed, the subsequent adhesive tape is not firmly pasted, the adhesive is easy to be split, meanwhile, in the pasting process of an inner adhesive tape of the semi-finished product of the shoe, the adhesive tape is manually pasted at the position where the adhesive is arranged at the bottom of the outer surface of the shoe by workers, the adhesive tape needs to be manually cut off, the labor efficiency is low, the steps are complicated, meanwhile, redundant parts often exist at the bottom of the inner adhesive tape after the pasting is completed, the redundant parts are often folded inwards, then the inner adhesive tape is pressed and pasted at the bottom of the semi-finished product of the shoe, at the moment, wrinkles exist at the part pressed and adhered, the subsequent sticking of the sole has a wrinkle gap, which results in the unfirm sticking of the sole.

Aiming at the problems, a method for sticking and processing an inner layer adhesive tape of a sole of a canvas shoe is provided.

Disclosure of Invention

In order to overcome the defects that in the prior art, in the processing process of a canvas shoe, in the processing stage of a semi-finished product of the canvas shoe, a lump of adhesive is often manually and directly smeared at the bottom of the outer surface of the semi-finished product of the canvas shoe, then the lump of adhesive is manually smeared on the shoe, so that the adhesive at the position where the adhesive is firstly smeared permeates into the cloth more, the adhesive at other positions is less, the adhesive is unevenly distributed, the subsequent adhesive tape is not firmly pasted and is easy to glue, meanwhile, in the pasting process of an inner adhesive tape of the semi-finished product of the shoe, the adhesive tape is manually pasted at the position where the adhesive is arranged at the bottom of the outer surface of the shoe by manpower, the adhesive tape needs to be manually cut, the labor efficiency is low, the steps are complicated, meanwhile, redundant parts often exist at the bottom of the inner adhesive tape after the pasting is completed, the redundant parts are often folded inwards and then pressed and pasted at the bottom of the semi-finished product of the shoe, and wrinkles exist at the pressed and at the moment, the invention can cause the defects of fold gaps existing in the subsequent sole pasting and infirm sole pasting, and the technical problem of the invention is as follows: provides a method for sticking the rubber strips on the inner layer of the sole of a canvas shoe.

A method for sticking and processing an inner rubber strip of a sole of a canvas shoe adopts the following processing equipment, and the processing equipment comprises a working machine bed plate, a support foot stool, an operation control screen, an adhesive attaching system, a rubber strip sticking system and a surplus edge separating system; the lower part of the bed plate of the working machine is welded with the supporting foot stool; the working machine bed plate is connected with the operation control screen; the lower part of the adhesive attachment system is connected with a working machine tool plate; the lower part of the adhesive tape sticking system is connected with a working machine tool plate; the lower part of the residual edge separation system is connected with a working machine tool plate;

the adhesive tape pasting processing method for the inner layer of the sole of the canvas shoe comprises the following steps:

the method comprises the following steps: fixing the shoe semi-finished product, adding enough adhesive into the adhesive attachment system, and fixing the shoe semi-finished product in the adhesive attachment system;

step two: adhesive coating, namely coating the adhesive on the bottom of the outer surface of the semi-finished shoe product to which the adhesive tape is adhered by an adhesive attachment system;

step three: heating the adhesive, wherein the adhesive attaching system heats the semi-finished product of the shoe coated with the adhesive, so that the adhesive is uniformly heated and diffused;

step four: pasting an adhesive tape, wherein the adhesive attaching system conveys the semi-finished shoe product to an adhesive tape pasting system, and the adhesive tape pasting system pastes and cuts the adhesive tape at the bottom of the outer surface of the semi-finished shoe product to which the adhesive tape is pasted;

step five: and (3) cutting the residual edge, conveying the semi-finished shoe product to a residual edge separation system by the adhesive attachment system, and cutting and separating the part of the adhesive tape higher than the bottom surface of the semi-finished shoe product by the residual edge separation system.

In addition, it is particularly preferable that the adhesive attachment system includes a first fixed portal frame, a first electric slide rail, a second fixed portal frame, a second electric slide rail, a heating box, a first electric slide, a first power motor, a telescopic rotating shaft lever, a first bearing frame plate, an electric push rod, a bearing sleeve plate, a second bearing frame plate, a shoe-shaped fixed mold, a painting wheel disc, a damping rotation fixed seat, a first elastic telescopic rod, a fixed workbench, a first fixed L-shaped plate, a spray head, a communicating pipe, a storage box and a second electric slide seat; welding the lower part of the first fixed portal frame with a working machine tool plate; the lower part of the first electric sliding rail is connected with a first fixed portal frame through a bolt; welding the lower part of the second fixed portal frame with a working machine tool plate; the lower part of the second electric sliding rail is connected with a second fixed portal frame through a bolt; the lower part of the heating box is welded with a working machine tool plate; the first electric sliding seat is connected with the first electric sliding rail in a sliding manner; the lower part of the first power motor is connected with a first electric sliding seat through a bolt; the telescopic rotating shaft rod is fixedly connected with an output shaft of the first power motor; the first bearing frame plate is rotatably connected with the telescopic rotating shaft rod; the lower part of the first bearing frame plate is connected with a first electric sliding seat through a bolt; the electric push rod is fixedly connected with the first bearing frame plate; the bearing sleeve plate is fixedly connected with the electric push rod; the bearing sleeve plate is rotationally connected with the telescopic rotating shaft rod; the second bearing frame plate is rotationally connected with the telescopic rotating shaft rod; the lower part of the second bearing frame plate is connected with a second electric sliding seat through a bolt; the shoe-shaped fixed mould is fixedly connected with the telescopic rotating shaft rod; the smearing wheel disc is contacted with the shoe-shaped fixed mould; the damping rotating fixing seat is rotatably connected with the smearing wheel disc; the first elastic telescopic rod is fixedly connected with the damping rotating fixed seat; the fixed workbench is fixedly connected with the first elastic telescopic rod; the lower part of the fixed workbench is fixedly connected with a bed plate of the working machine; the lower part of the first fixed L-shaped plate is fixedly connected with the damping rotating fixed seat; the spray head is fixedly connected with the first fixed L-shaped plate; the communicating pipe is inserted with the nozzle; the storage box is inserted into the communicating pipe; the lower part of the storage box is fixedly connected with the fixed workbench; and the lower part of the second electric sliding seat is in sliding connection with the second electric sliding rail.

In addition, it is particularly preferred that the adhesive tape pasting system comprises a second power motor, a motor seat plate, a first installation seat plate, a fixed bottom plate, a second installation seat plate, a second rotating shaft rod, a first bevel gear, a first small flat gear, a large flat gear, a third rotating shaft rod, an installation disc, a fixed round rod, a first cutting blade, a second bevel gear, a fourth rotating shaft rod, a first transmission wheel, a second transmission wheel, a first rotating shaft rod, a third bearing frame plate, an installation round seat, a fixed middle column, a fixed round seat, a first transmission mechanism, a second cutting blade, a second transmission mechanism, a first fixed side plate, a second fixed side plate, a first electric roller column, a second electric roller column and a pasting roller column; the lower part of the second power motor is connected with a motor seat plate through a bolt; the motor seat plate is welded with the first installation seat plate; the lower part of the first installation seat plate is welded with the fixed bottom plate; the lower part of the fixed bottom plate is connected with a working machine tool plate through bolts; the lower part of the second mounting seat plate is welded with the fixed bottom plate; the second rotating shaft rod is fixedly connected with an output shaft of a second power motor; the second rotating shaft rod is rotatably connected with the first mounting base plate; the axle center of the first bevel gear is fixedly connected with the second rotating shaft rod; the axle center of the first small flat gear is fixedly connected with the second rotating shaft rod; the large flat gear is meshed with the first small flat gear; the outer surface of the third rotating shaft rod is fixedly connected with the large flat gear; the third rotating shaft rod is rotatably connected with the first mounting base plate; the third rotating shaft rod is rotatably connected with the second mounting base plate; the axis of the mounting disc is fixedly connected with the third rotating shaft rod; the fixed round rod is fixedly connected with the mounting disc; the first cutting blade is fixedly connected with the fixed round rod; the second bevel gear is meshed with the first bevel gear; the outer surface of the fourth rotating shaft rod is fixedly connected with the second bevel gear; the fourth rotating shaft rod is rotatably connected with the first mounting base plate; the axle center of the first driving wheel is fixedly connected with the fourth rotating shaft rod; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the outer surface of the first rotating shaft rod is fixedly connected with the second driving wheel; the third bearing frame plate is rotationally connected with the first rotating shaft rod; the lower part of the third bearing frame plate is fixedly connected with the first mounting seat plate; the axis of the mounting round seat is fixedly connected with the first rotating shaft rod; the fixed middle column is fixedly connected with the mounting round seat; the fixed round seat is inserted with the fixed middle column; the lower part of the first conveying mechanism is fixedly connected with the fixed bottom plate; the lower part of the second cutting blade is fixedly connected with the fixed bottom plate; the lower part of the second conveying mechanism is fixedly connected with the fixed bottom plate; the lower part of the first fixed side plate is welded with the fixed bottom plate; the lower part of the second fixed side plate is welded with the fixed bottom plate; the first electric roller is rotationally connected with the first fixed side plate; the first electric roller is rotationally connected with the second fixed side plate; the second electric roller is rotationally connected with the first fixed side plate; the second electric roller is rotationally connected with the second fixed side plate; the clinging roller is rotationally connected with the first fixed side plate; the tight attaching roller is rotatably connected with the second fixed side plate.

In addition, particularly preferably, the redundant edge separation system comprises an installation bedplate, a third power motor, a second small flat gear, a toothed ring, a limiting installation ring, a fixed sliding groove ring, a connecting block, a shoe-shaped grooving block, a shoe-shaped inner side baffle, a fixed rectangular plate, a second fixed L-shaped frame, a third fixed L-shaped frame, a second elastic telescopic rod and a cutting sharp knife; welding the lower part of the mounting bedplate with a working machine tool plate; the lower part of the third power motor is connected with the mounting bedplate through bolts; the axle center of the second small flat gear is fixedly connected with an output shaft of a third power motor; the gear ring is meshed with the second small flat gear; the limiting mounting ring is welded with the gear ring; the fixed sliding groove ring is connected with the limiting mounting ring in a sliding manner; the lower part of the fixed chute ring is fixedly connected with the mounting bedplate; the connecting block is welded with the fixed sliding groove ring; the shoe-shaped grooving block and the connecting block are welded; the inner side of the shoe-shaped grooving block is provided with a shoe-shaped inner side baffle; the fixed rectangular plate is fixedly connected with the shoe-shaped inner side baffle; the second fixed L-shaped frame is welded with the fixed rectangular plate; welding the third fixed L-shaped frame with the fixed rectangular plate; the second elastic telescopic rod is fixedly connected with the limiting mounting ring; the cutting sharp knife is fixedly connected with the second elastic telescopic rod.

In addition, it is particularly preferable that the first conveying mechanism comprises a third elastic telescopic rod, a U-shaped fixed frame, a third electric roller and a fourth electric roller; the lower part of the third elastic telescopic rod is fixedly connected with the fixed bottom plate; the lower part of the U-shaped fixing frame is fixedly connected with a third elastic telescopic rod; the third electric roller is rotationally connected with the U-shaped fixing frame; the fourth electric roller is rotationally connected with the U-shaped fixing frame.

In addition, it is especially preferable that the side of the shoe-shaped inner baffle plate far away from the fixed rectangular plate is one centimeter more than the side of the shoe-shaped slotted block far away from the fixed rectangular plate.

Compared with the prior art, the invention has the following advantages:

firstly, in order to solve the problems that in the prior art, in the processing process of a canvas shoe, in the processing stage of a semi-finished product of the canvas shoe, a lump of adhesive is often manually and directly smeared at the bottom of the outer surface of the semi-finished product of the canvas shoe, then the lump of adhesive is manually smeared on the shoe, the adhesive at the position where the adhesive is firstly smeared permeates into the cloth more, the adhesive at other positions is less, the adhesive is unevenly distributed, the subsequent adhesive tape is not firmly pasted, the adhesive is easy to be split, meanwhile, in the pasting process of an inner adhesive tape of the semi-finished product of the shoe, the adhesive tape is manually pasted at the position where the adhesive is arranged at the bottom of the outer surface of the shoe, the adhesive tape needs to be manually cut off, the labor efficiency is low, the steps are complicated, meanwhile, redundant parts often exist at the bottom of the inner adhesive tape after the pasting, the redundant parts are often folded inwards, then the inner adhesive tape is pressed and pasted at the bottom of the semi-finished product of the shoe, and wrinkles exist at the pressed and attached parts, the problem that the subsequent sole is stuck with a wrinkle gap and the sole is not firmly stuck is caused;

secondly, designing an adhesive attaching system, an adhesive tape attaching system and a surplus edge separating system, firstly adding enough adhesive into the adhesive attaching system, then fixing the semi-finished shoe to the adhesive attaching system, then coating the adhesive on the bottom of the outer surface of the semi-finished shoe to which the adhesive tape is to be adhered by the adhesive attaching system and heating the coated semi-finished shoe so that the adhesive is uniformly heated and diffused, then conveying the semi-finished shoe to the adhesive tape attaching system by the adhesive attaching system, adhering the adhesive tape on the bottom of the outer surface of the semi-finished shoe to which the adhesive tape is to be adhered by the adhesive tape attaching system and cutting off the adhesive tape, conveying the semi-finished shoe to the surplus edge separating system by the adhesive attaching system, and cutting and separating the part of the adhesive tape higher than the bottom surface of the semi-finished shoe by the surplus edge separating system;

the third point, realized the automatic pasting of semi-manufactured goods shoes inlayer adhesive tape, evenly paint the adhesive to semi-manufactured goods shoes surface bottom automatically, guarantee that the adhesive is accurate to be paintd and can not misplace to conveying the heating automatically makes the even diffusion of adhesive, compress tightly the adhesive tape automatically and encircle and paste in semi-manufactured goods shoes surface bottom and cut the adhesive tape automatically, and with the adhesive tape higher than the partial cutting separation of semi-manufactured goods shoes sole face, make follow-up sole paste more firm inseparable effect.

Drawings

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

FIG. 2 is a schematic view of a first perspective view of the adhesive attachment system of the present invention;

FIG. 3 is a schematic view of a second perspective view of the adhesive attachment system of the present invention;

FIG. 4 is a schematic view of a first perspective view of the adhesive tape application system of the present invention;

FIG. 5 is a schematic view of a second perspective view of the adhesive tape application system of the present invention;

FIG. 6 is a schematic view of a third perspective view of the adhesive tape application system of the present invention;

FIG. 7 is a schematic view of a first perspective view of a chime separation system in accordance with the present invention;

FIG. 8 is a schematic diagram of a second perspective view of the chime separation system of the present invention;

FIG. 9 is a perspective view of a first transfer mechanism of the present invention;

FIG. 10 is a perspective view of the combination of the shoe-shaped notch block and the shoe-shaped inside baffle of the present invention.

In the figure: 1. a working machine bedplate, 2, a supporting foot stool, 3, an operation control screen, 4, an adhesive attaching system, 5, an adhesive tape pasting system, 6, a surplus edge separating system, 401, a first fixed portal frame, 402, a first electric slide rail, 403, a second fixed portal frame, 404, a second electric slide rail, 405, a heating box, 406, a first electric slide seat, 407, a first power motor, 408, a telescopic rotating shaft rod, 409, a first bearing frame plate, 4010, an electric push rod, 4011, a bearing sleeve plate, 4012, a second bearing frame plate, 4013, a shoe-shaped fixed mold, 4014, a smearing wheel disc, 4015, a damping rotating fixed seat, 4016, a first elastic telescopic rod, 4017, a fixed workbench, 4018, a first fixed L-shaped plate, 4019, a nozzle, 4020, a communicating pipe, 4021, a storage box, 4022, a second electric slide seat, 501, a second power motor, 502, a motor seat plate, 503 and a first installation seat plate, 504. a fixed base plate 505, a second mounting seat plate 506, a second rotating shaft lever 507, a first bevel gear 508, a first small flat gear 509, a large flat gear 5010, a third rotating shaft lever 5011, a mounting disk 5012, a fixed round bar 5013, a first cutting blade 5014, a second bevel gear 5015, a fourth rotating shaft lever 5016, a first driving wheel 5017, a second driving wheel 5018, a first rotating shaft lever 5019, a third bearing frame plate, 5020, a mounting round seat, 5021, a fixed middle column, 5022, a fixed round seat, 5023, a first transmission mechanism, 5024, a second cutting blade, 5025, a second transmission mechanism, 5026, a first fixed side plate, a second fixed side plate, 5028, a first electric roller column, 5029, a second electric roller column, 5030, a butting roller column, 601, a mounting table plate 602, a third power motor, 603, a second small flat gear 605, a

limit ring

604, 606. the device comprises a fixed sliding groove ring, 607, a connecting block, 608, a shoe-shaped grooving block, 609, a shoe-shaped inner side baffle, 6010, a fixed rectangular plate, 6011, a second fixed L-shaped frame, 6012, a third fixed L-shaped frame, 6013, a second elastic telescopic rod, 6014, a cutting sharp knife, 502301, a third elastic telescopic rod, 502302, a U-shaped fixed frame, 502303, a third electric roller, 502304 and a fourth electric roller.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, etc. are used to describe the figures and are not meant to limit the scope of the invention as defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

A method for sticking and processing rubber strips on the inner layer of a canvas shoe sole is shown in figures 1-10, and adopts processing equipment which comprises a working machine bed plate 1, a supporting foot stool 2, an operation control screen 3, an adhesive attaching system 4, a rubber strip sticking system 5 and a surplus edge separating system 6; the lower part of the bed plate 1 of the working machine is welded with a supporting foot stool 2; the working machine bed plate 1 is connected with an operation control screen 3; the lower part of the adhesive attachment system 4 is connected with a working machine bed plate 1; the lower part of the adhesive tape sticking system 5 is connected with a working machine bed plate 1; the lower part of the remaining edge separation system 6 is connected with a working machine bed plate 1;

the method comprises the following steps: fixing the shoe semi-finished product, adding a sufficient amount of adhesive to the inside of the adhesive attachment system 4, fixing the shoe semi-finished product to the adhesive attachment system 4;

step two: adhesive coating, namely coating the adhesive on the bottom of the outer surface of the semi-finished shoe product to be adhered with the adhesive tape by an adhesive attaching system 4;

step three: heating the adhesive, wherein the adhesive attaching system 4 heats the semi-finished product of the shoe coated with the adhesive, so that the adhesive is uniformly heated and diffused;

step four: pasting an adhesive tape, wherein the adhesive attaching system 4 conveys the semi-finished shoe product to an adhesive tape pasting system 5, and the adhesive tape pasting system 5 pastes and cuts the adhesive tape at the bottom of the outer surface of the semi-finished shoe product to which the adhesive tape is pasted;

step five: and (3) cutting the surplus edge, conveying the semi-finished shoe product to a surplus edge separation system 6 by the adhesive attachment system 4, and cutting and separating the part of the adhesive strip higher than the sole surface of the semi-finished shoe product by the surplus edge separation system 6.

When the processing equipment of the method for sticking and treating the adhesive tape on the inner layer of the sole of the canvas shoe is used, the device is stably fixed to a working plane, then a power supply is connected externally, a control device of an operation control screen 3 is manually opened for operation, then sufficient adhesive is added into an adhesive attaching system 4, then a semi-finished shoe is fixed to the adhesive attaching system 4, then the adhesive attaching system 4 coats the adhesive on the bottom of the outer surface of the semi-finished shoe product to which the adhesive tape is to be stuck and heats the coated semi-finished shoe product, so that the adhesive is heated and uniformly diffused, then the adhesive attaching system 4 conveys the semi-finished shoe product to an adhesive tape sticking system 5, the adhesive tape sticking system 5 sticks and cuts the adhesive tape on the bottom of the outer surface of the semi-finished shoe product to which the adhesive tape is to be stuck, and then the adhesive attaching system 4 conveys the semi-finished shoe product to a surplus edge separating system 6, surplus limit piece-rate system 6 is higher than the partial cutting separation of semi-manufactured goods shoes sole face with the adhesive tape, realized the automatic pasting of semi-manufactured goods shoes inlayer adhesive tape, evenly paint the adhesive to semi-manufactured goods shoes surface bottom automatically, guarantee that the adhesive is accurate to be paintd and can not misplace, and carry out the conveying automatically and heat and make the even diffusion of adhesive, compress tightly the adhesive tape automatically and encircle to paste in semi-manufactured goods shoes surface bottom and automatically cut the adhesive tape, and with the adhesive tape higher than the partial cutting separation of semi-manufactured goods shoes sole face, make follow-up sole paste more firm inseparable effect.

The adhesive attachment system 4 comprises a first fixed portal frame 401, a first electric slide rail 402, a second fixed portal frame 403, a second electric slide rail 404, a heating box 405, a first electric slide seat 406, a first power motor 407, a telescopic rotating shaft rod 408, a first bearing frame plate 409, an electric push rod 4010, a bearing sleeve plate 4011, a second bearing frame plate 4012, a shoe-type fixed mold 4013, a smearing wheel disc 4014, a damping rotating fixed seat 4015, a first elastic telescopic rod 4016, a fixed workbench 4017, a first fixed L-shaped plate 4018, a spray head 4019, a communicating pipe 4020, a storage box 4021 and a second electric slide seat 4022; the lower part of the first fixed portal frame 401 is welded with the operating machine bed plate 1; the lower part of the first electric slide rail 402 is connected with a first fixed portal frame 401 through a bolt; the lower part of the second fixed portal frame 403 is welded with the working machine bed plate 1; the lower part of the second electric slide rail 404 is connected with a second fixed portal frame 403 through bolts; the lower part of the heating box 405 is welded with a working machine bed plate 1; the first electric slide 406 is connected with the first electric slide rail 402 in a sliding manner; the lower part of the first power motor 407 is connected with a first electric slide seat 406 through a bolt; the telescopic rotating shaft rod 408 is fixedly connected with an output shaft of the first power motor 407; the first bearing frame plate 409 is rotatably connected with the telescopic rotating shaft rod 408; the lower part of the first bearing frame plate 409 is connected with a first electric sliding seat 406 through a bolt; the electric push rod 4010 is fixedly connected with the first bearing frame plate 409; the bearing sleeve plate 4011 is fixedly connected with an electric push rod 4010; the bearing sleeve plate 4011 is rotatably connected with the telescopic rotating shaft rod 408; the second bearing frame plate 4012 is rotatably connected with the telescopic rotating shaft rod 408; the lower part of the second bearing frame plate 4012 is connected with a second electric sliding seat 4022 through a bolt; the shoe-shaped fixed mold 4013 is fixedly connected with the telescopic rotating shaft rod 408; the smearing wheel disc 4014 is in contact with a shoe-shaped fixed mould 4013; the damping rotary fixing seat 4015 is rotatably connected with the smearing wheel disc 4014; the first elastic telescopic rod 4016 is fixedly connected with the damping rotating fixed seat 4015; the fixed workbench 4017 is fixedly connected with a first elastic telescopic rod 4016; the lower part of the fixed workbench 4017 is fixedly connected with a working machine bed plate 1; the lower part of the first fixed L-shaped plate 4018 is fixedly connected with a damping rotary fixed seat 4015; the spray head 4019 is fixedly connected with a first fixed L-shaped plate 4018; the communicating pipe 4020 is inserted into the nozzle 4019; the storage tank 4021 is inserted into the communication pipe 4020; the lower part of the storage box 4021 is fixedly connected with a fixed workbench 4017; the lower part of the second electric sliding seat 4022 is connected with the second electric sliding rail 404 in a sliding manner.

Firstly, a cover of a storage box 4021 is opened to add an adhesive into the storage box, then a semi-finished shoe is fixedly sleeved on the outer side of a shoe type fixing mold 4013, then power supplies of a first electric slide rail 402 and a second electric slide rail 404 are connected, the first electric slide rail 402 and the second electric slide rail 404 are controlled to respectively drive a first electric slide seat 406 and a second electric slide seat 4022 to move, then the first electric slide seat 406 and the second electric slide seat 4022 synchronously move to drive a plain part connected with the tops of the plain parts to move, finally, a semi-finished shoe on the outer surface of the shoe type fixing mold 4013 is driven to be close to and contact with a smearing wheel disc 4014, then the storage box 4021 is controlled to open a valve inside the storage box, namely, the adhesive inside flows out from a communicating pipe 4020 and is sprayed out from a spray head 4019 to the outer annular surface of the smearing wheel disc 4014, then the power supply of a first power motor 407 is controlled to be connected, then, the first power motor 407 drives a telescopic rotating shaft lever 408 to rotate, then the flexible spindle rod 408 drives the shoe-type fixing mold 4013 to rotate, that is, the shoe-type fixing mold 4013 drives the semi-finished shoes at the outer side of the shoe-type fixing mold 4013 to rotate, then the semi-finished shoes rotate while contacting with the smearing wheel disc 4014, and further, due to the friction between the smearing wheel disc 4014 and the semi-finished shoes, the smearing wheel disc 4014 and the semi-finished shoes on the outer surface of the shoe-type fixing mold 4013 rotate in the opposite direction, then the adhesive on the outer ring surface of the smearing wheel disc 4014 is smeared to the bottom of the outer ring surface of the semi-finished shoes, in the rotating process of the shoe-type fixing mold 4013, the shoe-type fixing mold 4013 is in an irregular shape, that is, the distance between the shoe-type fixing mold 4013 and the smearing wheel disc 4014 constantly changes, at this time, due to the elasticity of the first flexible telescopic rod 4016, and then the first flexible telescopic rod 4016 can drive the smearing wheel disc 4014 to move in real time, so as to ensure that the smearing wheel disc 4014 is tightly attached to the semi-finished shoes on the outer surface of the shoe-type fixing mold 4013, the adhesive can be coated to the bottom of the outer surface of a semi-finished shoe, after the adhesive is coated, the first power motor 407 is controlled to stop rotating, then the first electric slide rail 402 and the second electric slide rail 404 are controlled to respectively drive the first electric slide 406 and the second electric slide 4022 to move, the first electric slide 406 and the second electric slide 4022 synchronously move to drive a plain part connected with the tops of the first electric slide 406 and the second electric slide 4022 to move, at the moment, the first electric slide 406 and the second electric slide 4022 move in a direction far away from the coating wheel disc 4014, namely, the shoe type fixing mold 4013 is driven to move to the inner side of the heating box 405, the time is paused for a period of time, the semi-finished shoe on the outer side of the shoe type fixing mold 4013 can be uniformly heated, the adhesive can be uniformly diffused when being heated, then the first electric slide rail 402 and the second electric slide rail 404 are controlled again to respectively drive the first electric slide 406 and the second electric slide 4022 to move, and finally, the semi-finished shoes outside the shoe type fixing mould 4013 are driven to move to the adhesive tape pasting system 5, and the smearing of the adhesive is completed.

The adhesive tape pasting system 5 comprises a second power motor 501, a motor seat plate 502, a first mounting seat plate 503, a fixed bottom plate 504, a second mounting seat plate 505, a second rotating shaft rod 506, a first bevel gear 507, a first small flat gear 508, a large flat gear 509, a third rotating shaft rod 5010, a mounting disc 5011, a fixed round rod 5012, a first cutting blade 5013, a second bevel gear 5014, a fourth rotating shaft rod 5015, a first transmission wheel 5016, a second transmission wheel 5017, a first rotating shaft rod 5018, a third bearing frame plate 5019, a mounting round seat 5020, a fixed middle column 5021, a fixed round seat 5022, a first transmission mechanism 5023, a second cutting blade 5024, a second transmission mechanism 5025, a first fixed side plate 6, a second fixed side plate 5027, a first electric roller 5028, a second electric roller 5029 and a pasting roller 5030; the lower part of the second power motor 501 is connected with a motor seat plate 502 through bolts; the motor base plate 502 is welded with the first mounting base plate 503; the lower part of the first installation base plate 503 is welded with the fixed bottom plate 504; the lower part of the fixed bottom plate 504 is connected with a working machine bed plate 1 through bolts; the lower part of the second mounting base plate 505 is welded with the fixed bottom plate 504; the second rotating shaft rod 506 is fixedly connected with an output shaft of the second power motor 501; the second rotating shaft 506 is rotatably connected with the first mounting base plate 503; the axle center of the first bevel gear 507 is fixedly connected with the second rotating shaft rod 506; the axle center of the first pinion 508 is fixedly connected with the second rotating shaft rod 506; the large flat gear 509 is meshed with the first small flat gear 508; the outer surface of the third rotating shaft 5010 is fixedly connected with the large flat gear 509; the third rotating shaft 5010 is rotatably connected with the first mounting seat plate 503; the third rotating shaft 5010 is rotatably connected with the second mounting seat plate 505; the axis of the mounting disc 5011 is fixedly connected with the third rotating shaft 5010; the fixed round rod 5012 is fixedly connected with the mounting disc 5011; the first cutting blade 5013 is fixedly connected with the fixed round rod 5012; the second bevel gear 5014 is engaged with the first bevel gear 507; the outer surface of the fourth rotating shaft 5015 is fixedly connected with the second bevel gear 5014; the fourth rotating shaft 5015 is rotatably connected to the first mounting seat plate 503; the axle center of the first driving wheel 5016 is fixedly connected with the fourth rotating shaft 5015; the outer ring surface of the second transmission wheel 5017 is in transmission connection with the first transmission wheel 5016 through a belt; the outer surface of the first rotating shaft rod 5018 is fixedly connected with the second transmission wheel 5017; the third bearing bracket plate 5019 is in rotational connection with the first spindle post 5018; the lower part of the third bearing frame plate 5019 is fixedly connected with the first installation seat plate 503; the axis of the mounting round seat 5020 is fixedly connected with the first rotating shaft rod 5018; the fixed middle column 5021 is fixedly connected with the mounting round seat 5020; the fixed round base 5022 is inserted into the fixed middle column 5021; the lower part of the first transmission mechanism 5023 is fixedly connected with the fixed bottom plate 504; the lower part of the second cutting blade 5024 is fixedly connected with the fixed bottom plate 504; the lower part of the second transmission mechanism 5025 is fixedly connected with the fixed bottom plate 504; the lower part of the first fixed side plate 5026 is welded with the fixed bottom plate 504; the lower part of the second fixed side plate 5027 is welded with the fixed bottom plate 504; the first electric roller 5028 is rotatably connected with the first fixed side plate 5026; the first electric roller 5028 is rotatably connected with the second fixed side plate 5027; the second electric roller 5029 is rotatably connected with the first fixed side plate 5026; the second electric roller 5029 is rotatably connected with the second fixed side plate 5027; the abutment roller 5030 is rotatably connected to the first fixed side plate 5026; the abutment roller 5030 is rotatably connected to the second fixed side plate 5027.

Firstly, the fixed round seat 5022 is detached from the fixed middle column 5021, then the adhesive tape roll is fixed on the outer surface of the fixed middle column 5021, then the fixed round seat 5022 is fixed on one side of the fixed middle column 5021 again, at the moment, the adhesive attachment system 4 drives the semi-finished shoe on the outer side of the shoe-shaped fixed mold 4013 to move to one side close to the tight roller 5030, the semi-finished shoe is moved to a position where the semi-finished shoe is tightly attached to the tight roller 5030, at the moment, the power supply of the first power motor 407 is controlled to be switched on again, the shoe-shaped fixed mold 4013 is driven to rotate again, namely, the semi-finished shoe on the outer side of the shoe-shaped fixed mold 4013 is driven to rotate, at the same time, the power supply of the second power motor 501 is controlled to be switched on, then the second power motor 501 drives the second rotating shaft lever 506 to rotate, further, the second rotating shaft lever 506 drives the first bevel gear 507 and the first small flat gear 508 to rotate, then the first bevel gear 507 drives the second bevel gear 5014 to rotate, namely, the second bevel gear 5014 drives the fourth rotating shaft 5015 to rotate, then the fourth rotating shaft 5015 drives the first driving wheel 5016 to rotate, further the first driving wheel 5016 drives the second driving wheel 5017 to rotate, then the second driving wheel 5017 drives the first rotating shaft 5018 to rotate, further the first rotating shaft 5018 drives the mounting round base 5020, the fixed middle column 5021 and the fixed round base 5022 to rotate, namely the fixed middle column 5021 drives the adhesive tape roll to rotate to discharge the adhesive tape roll, one end of the adhesive tape roll opening penetrates through the first transmission mechanism 5023 and the second transmission mechanism 5025, then penetrates through the gap between the first electric roller 5028 and the second electric roller 5029, then the adhesive tape drops on the side, far away from the second transmission mechanism 5025, of the tightly-attached roller 5030, and is simultaneously controlled to be connected with the power supplies of the first electric roller 5028 and the second electric roller 5029, namely the first electric roller 5028 and the second electric roller 5029 transmit the adhesive tape in the gap, then the adhesive tape adhered to one side of the roller post 5030 is adhered to the outer surface of the semi-finished shoe, and further the adhesive tape is adhered to the bottom of the outer surface of the semi-finished shoe in a surrounding manner in the rotation process of the semi-finished shoe outside the shoe type fixing mold 4013, and then in the rotation process of the shoe type fixing mold 4013, the first electric sliding seat 406 and the second electric sliding seat 4022 can be controlled to move in real time, that is, the shoe type fixing mold 4013 is driven to rotate in real time, so that the semi-finished shoe outside the shoe type fixing mold 4013 can be adhered to the surface of the roller post 5030 at any time, the adhesive tape can be adhered to the surface of the roller post 5030, meanwhile, the first small flat gear 508 drives the large flat gear 509 to rotate, that the large flat gear 509 drives the third rotating shaft 5010 to rotate, then the third rotating shaft 5010 drives the mounting disc 5011, the fixing round rod 5012 and the first cutting blade to rotate, and the adhesive tape is driven to be rolled in the fixing central column 5021 by the adhesive tape with the length equal to be discharged to the length of the outer surface of the bottom of the semi-finished shoe outside surface of the semi-finished shoe type fixing mold 4013 When the adhesive tape is cut, the mounting disc 5011 drives the first cutting blade 5013 to move to the position above the second cutting blade 5024 through the fixed round rod 5012, namely the first cutting blade 5013 moves downwards to be matched with the second cutting blade 5024 to cut the adhesive tape, namely the length of the adhesive tape from the end of the adhesive tape to the cutting position is just equal to the length of one circle of the bottom of the outer surface of the semi-finished shoe on the outer side of the shoe type fixed mold 4013, and the automatic cutting of the adhesive tape is completed.

The redundant edge separation system 6 comprises an installation bedplate 601, a third power motor 602, a second pinion 603, a toothed ring 604, a limiting installation ring 605, a fixed sliding groove ring 606, a connecting block 607, a shoe-shaped grooving block 608, a shoe-shaped inner baffle 609, a fixed rectangular plate 6010, a second fixed L-shaped frame 6011, a third fixed L-shaped frame 6012, a second elastic expansion link 6013 and a cutting sharp knife 6014; the lower part of the installation bedplate 601 is welded with the working machine bedplate 1; the lower part of the third power motor 602 is connected with the mounting bedplate 601 through bolts; the axle center of the second small flat gear 603 is fixedly connected with the output shaft of the third power motor 602; the ring gear 604 meshes with the second pinion 603; the limiting mounting ring 605 is welded with the gear ring 604; the fixed chute ring 606 is slidably connected with the limit mounting ring 605; the lower part of the fixed chute ring 606 is fixedly connected with the mounting bedplate 601; the connecting block 607 is welded with the fixed chute ring 606; the shoe-shaped grooving block 608 and the connecting block 607 are welded; a shoe-shaped inner baffle 609 is arranged at the inner side of the shoe-shaped grooving block 608; the fixed rectangular plate 6010 is fixedly connected with the shoe-shaped inner side baffle 609; the second fixed L-shaped frame 6011 is welded to the fixed rectangular plate 6010; the third fixed L-shaped frame 6012 is welded to the fixed rectangular plate 6010; the second elastic expansion link 6013 is fixedly connected with the limiting installation ring 605; the cutting point 6014 is fixedly connected to the second elastic expansion link 6013.

After the adhesive tape is adhered, the adhesive attaching system 4 is controlled to drive the shoe-shaped fixing mold 4013 to move to a position right facing the surplus edge separating system 6, then the power supply of the first power motor 407 is controlled to be switched on, namely, the shoe-shaped fixing mold 4013 is finally driven to rotate to a position where the horizontal position is matched with the grooving of the shoe-shaped grooving block 608, then the first power motor 407 is controlled to stop rotating, then the electric push rod 4010 is controlled to push out, namely, the electric push rod 4010 drives the bearing sleeve plate 4011 to move, further, the bearing sleeve plate 4011 drives the telescopic rotating shaft rod 408 to extend, further, the telescopic rotating shaft rod 408 extends, the telescopic rotating shaft rod 408 drives the shoe-shaped fixing mold 4013 to move to the inner side of the shoe-shaped grooving block 608, namely, the shoe-shaped fixing mold 4013 drives the semi-finished shoe on the outer side to move to the inner side of the shoe-shaped grooving block 608, and then the adhesive tape is exposed from the gap between the shoe-shaped grooving block 608 and the inner side baffle 609, namely, the redundant part of the adhesive tape surrounds the outer side of the shoe-shaped inner side baffle 609, the cutting sharp knife 6014 is subjected to the elastic force of the second elastic expansion link 6013, the tip end of the cutting sharp knife 6014 abuts against the position where the redundant exposed part of the adhesive tape is contacted with the shoe-shaped grooving block 608, then the power of the third power motor 602 is controlled to be switched on, the third power motor 602 drives the second small flat gear 603 to rotate, then the second small flat gear 603 drives the toothed ring 604 to rotate, then the toothed ring 604 drives the limiting installation ring 605 to slide and rotate on the inner side of the fixed sliding groove ring 606, namely, the limiting installation ring 605 drives the second elastic expansion link 6013 and the cutting sharp knife 4 to rotate, so that the cutting sharp knife 6014 moves on the redundant part of the adhesive tape, the elastic force of the second elastic expansion link 6013 ensures that the cutting sharp knife 6014 can be tightly attached to the redundant part of the adhesive tape at any time, and then rotates for a circle to separate the redundant part of the adhesive tape, the cutting and separation of the excess portion of the strip is completed.

The first transmission mechanism 5023 comprises a third elastic telescopic rod 502301, a U-shaped fixing frame 502302, a third electric roller 502303 and a fourth electric roller 502304; the lower part of the third elastic expansion link 502301 is fixedly connected with the fixed bottom plate 504; the lower part of the U-shaped fixing frame 502302 is fixedly connected with a third elastic telescopic rod 502301; the third electric roller 502303 is rotationally connected with the U-shaped fixing frame 502302; the fourth electric roller 502304 is rotatably connected to the U-shaped fixing frame 502302.

That is, the adhesive tape passes through between the third electric roller 502303 and the fourth electric roller 502304, then the third electric roller 502303 and the fourth electric roller 502304 are controlled to rotate reversely to convey the adhesive tape, and simultaneously, the height of the top of the third electric roller 502303 is two centimeters higher than that of the top of the second cutting blade 5024 under the condition of conveying the adhesive tape, that is, the adhesive tape does not contact with the second cutting blade 5024 during the conveying process, and then when the first cutting blade 5013 moves downwards to press the adhesive tape downwards to cut the adhesive tape, the third electric roller 502303 is pressed to drive the third elastic telescopic rod 502301 to contract, and then after the third elastic telescopic rod 502301 contracts, the bottom of the adhesive tape can contact with the second cutting blade 5024, and then the adhesive tape is cut by the first cutting blade 5013 and the second cutting blade 5024.

One side of the shoe-shaped inner baffle 609 far away from the fixed rectangular plate 6010 is one centimeter more than one side of the shoe-shaped slotted block 608 far away from the fixed rectangular plate 6010.

So that the inner side of the redundant rubber strip can be supported by the shoe-shaped inner baffle 609, and the tip of the cutting sharp knife 6014 can stably abut against the rubber strip on the outer annular surface of the shoe-shaped inner baffle 609 in the rotating and cutting process.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims

1. A method for sticking and processing an inner layer adhesive tape of a canvas shoe sole is characterized by comprising the following steps: the method for sticking the rubber strips on the inner layer of the sole of the canvas shoe adopts the following processing equipment, wherein the processing equipment comprises a working machine bed plate (1), a supporting foot rest (2) and an operation control screen (3), and is characterized by also comprising an adhesive attaching system (4), a rubber strip sticking system (5) and a surplus edge separating system (6); the lower part of the bed plate (1) of the working machine is welded with a supporting foot stool (2); the working machine bed plate (1) is connected with the operation control screen (3); the lower part of the adhesive attachment system (4) is connected with a working machine bed plate (1); the lower part of the adhesive tape sticking system (5) is connected with a working machine bed plate (1); the lower part of the remaining edge separation system (6) is connected with a working machine bed plate (1);

the method comprises the following steps: fixing the shoe semi-finished product, adding a sufficient amount of adhesive to the inside of the adhesive attachment system (4), fixing the shoe semi-finished product to the adhesive attachment system (4);

step two: adhesive coating, namely coating the adhesive on the bottom of the outer surface of the semi-finished shoe product to which the adhesive tape is to be adhered by an adhesive attaching system (4);

step three: heating the adhesive, wherein the adhesive attaching system (4) heats the semi-finished product of the shoe coated with the adhesive, so that the adhesive is heated and uniformly diffused;

step four: pasting an adhesive tape, wherein the adhesive attaching system (4) conveys the semi-finished shoe product to the adhesive tape pasting system (5), and the adhesive tape pasting system (5) pastes the adhesive tape on the bottom of the outer surface of the semi-finished shoe product to be pasted with the adhesive tape and cuts off the adhesive tape;

step five: the surplus edge is cut, the adhesive attaching system (4) conveys the semi-finished shoe product to the surplus edge separating system (6), and the surplus edge separating system (6) cuts and separates the part of the adhesive tape higher than the sole surface of the semi-finished shoe product;

the adhesive attachment system (4) comprises a first fixed portal frame (401), a first electric slide rail (402), a second fixed portal frame (403), a second electric slide rail (404), a heating box (405), a first electric slide seat (406), a first power motor (407), a telescopic rotating shaft rod (408), a first bearing frame plate (409), an electric push rod (4010), a bearing sleeve plate (4011), a second bearing frame plate (4012), a shoe-shaped fixed mold (4013), a smearing wheel disc (4014), a damping rotating fixed seat (4015), a first elastic telescopic rod (4016), a fixed working table (4017), a first fixed L-shaped plate (4018), a sprayer (4019), a communicating pipe (4020), a storage box (4021) and a second electric slide seat (4022); the lower part of the first fixed portal frame (401) is welded with a working machine bed plate (1); the lower part of the first electric sliding rail (402) is connected with a first fixed portal frame (401) through a bolt; the lower part of the second fixed portal frame (403) is welded with the working machine bed plate (1); the lower part of the second electric slide rail (404) is connected with a second fixed portal frame (403) through bolts; the lower part of the heating box (405) is welded with a working machine bed plate (1); the first electric sliding seat (406) is in sliding connection with the first electric sliding rail (402); the lower part of the first power motor (407) is connected with a first electric sliding seat (406) through a bolt; the telescopic rotating shaft rod (408) is fixedly connected with an output shaft of a first power motor (407); the first bearing frame plate (409) is rotationally connected with the telescopic rotating shaft rod (408); the lower part of the first bearing frame plate (409) is connected with a first electric sliding seat (406) through a bolt; the electric push rod (4010) is fixedly connected with the first bearing frame plate (409); the bearing sleeve plate (4011) is fixedly connected with the electric push rod (4010); the bearing sleeve plate (4011) is rotationally connected with the telescopic rotating shaft rod (408); the second bearing frame plate (4012) is rotationally connected with the telescopic rotating shaft rod (408); the lower part of the second bearing frame plate (4012) is connected with a second electric sliding seat (4022) through a bolt; the shoe-shaped fixed mould (4013) is fixedly connected with the telescopic rotating shaft rod (408); the smearing wheel disc (4014) is contacted with the shoe-shaped fixed mould (4013); the damping rotating fixing seat (4015) is rotatably connected with the smearing wheel disc (4014); the first elastic telescopic rod (4016) is fixedly connected with the damping rotating fixed seat (4015); the fixed workbench (4017) is fixedly connected with the first elastic telescopic rod (4016); the lower part of the fixed workbench (4017) is fixedly connected with a working machine bed plate (1); the lower part of the first fixed L-shaped plate (4018) is fixedly connected with a damping rotary fixed seat (4015); the spray head (4019) is fixedly connected with the first fixed L-shaped plate (4018); the communicating pipe (4020) is inserted with the nozzle (4019); the storage box (4021) is inserted into the communication pipe (4020); the lower part of the storage box (4021) is fixedly connected with a fixed workbench (4017); the lower part of the second electric sliding seat (4022) is in sliding connection with a second electric sliding rail (404);

the adhesive tape pasting system (5) comprises a second power motor (501), a motor seat plate (502), a first installation seat plate (503), a fixed base plate (504), a second installation seat plate (505), a second rotating shaft rod (506), a first bevel gear (507), a first small flat gear (508), a large flat gear (509), a third rotating shaft rod (5010), an installation disc (5011), a fixed round rod (5012), a first cutting blade (5013), a second bevel gear (5014), a fourth rotating shaft rod (5015), a first transmission wheel (5016), a second transmission wheel (5017), a first rotating shaft rod (5018), a third bearing frame plate (5019), an installation round seat (5020), a fixed middle column (5021), a fixed round seat (5022), a first transmission mechanism (5023), a second cutting blade (5024), a second transmission mechanism (5025), a first fixed side plate (5026), a second fixed side plate (5027), A first electric roller column (5028), a second electric roller column (5029) and a close contact roller column (5030); the lower part of the second power motor (501) is connected with a motor base plate (502) through a bolt; the motor base plate (502) is welded with the first installation base plate (503); the lower part of the first installation seat plate (503) is welded with the fixed bottom plate (504); the lower part of the fixed bottom plate (504) is connected with a working machine bed plate (1) through bolts; the lower part of the second mounting seat plate (505) is welded with the fixed bottom plate (504); the second rotating shaft rod (506) is fixedly connected with an output shaft of the second power motor (501); the second rotating shaft rod (506) is in rotary connection with the first installation base plate (503); the axle center of the first bevel gear (507) is fixedly connected with the second rotating shaft rod (506); the axle center of the first small flat gear (508) is fixedly connected with the second rotating shaft rod (506); the big flat gear (509) is meshed with the first small flat gear (508); the outer surface of the third rotating shaft rod (5010) is fixedly connected with the large flat gear (509); the third rotating shaft rod (5010) is in rotating connection with the first installation seat plate (503); the third rotating shaft rod (5010) is in rotating connection with the second mounting seat plate (505); the axle center of the mounting disc (5011) is fixedly connected with the third rotating shaft rod (5010); the fixed round rod (5012) is fixedly connected with the mounting disc (5011); the first cutting blade (5013) is fixedly connected with the fixed round rod (5012); the second bevel gear (5014) is meshed with the first bevel gear (507); the outer surface of the fourth rotating shaft rod (5015) is fixedly connected with the second bevel gear (5014); the fourth rotating shaft rod (5015) is in rotating connection with the first installation seat plate (503); the axle center of the first transmission wheel (5016) is fixedly connected with the fourth rotating shaft rod (5015); the outer ring surface of the second transmission wheel (5017) is in transmission connection with the first transmission wheel (5016) through a belt; the outer surface of the first rotating shaft rod (5018) is fixedly connected with the second transmission wheel (5017); the third bearing frame plate (5019) is in rotary connection with the first rotating shaft rod (5018); the lower part of the third bearing frame plate (5019) is fixedly connected with the first mounting seat plate (503); the axis of the mounting round seat (5020) is fixedly connected with the first rotating shaft rod (5018); the fixed middle column (5021) is fixedly connected with the mounting round seat (5020); the fixed round seat (5022) is inserted into the fixed middle column (5021); the lower part of the first transmission mechanism (5023) is fixedly connected with the fixed bottom plate (504); the lower part of the second cutting blade (5024) is fixedly connected with the fixed bottom plate (504); the lower part of the second transmission mechanism (5025) is fixedly connected with the fixed bottom plate (504); the lower part of the first fixed side plate (5026) is welded with the fixed bottom plate (504); the lower part of the second fixed side plate (5027) is welded with the fixed bottom plate (504); the first electric roller column (5028) is in rotary connection with the first fixed side plate (5026); the first electric roller column (5028) is in rotary connection with the second fixed side plate (5027); the second electric roller column (5029) is rotationally connected with the first fixed side plate (5026); the second electric roller column (5029) is rotationally connected with the second fixed side plate (5027); the clinging roller column (5030) is rotationally connected with the first fixed side plate (5026); the contact roller (5030) is rotatably connected with the second fixed side plate (5027).

2. The method for sticking and processing the adhesive tape on the inner layer of the sole of the canvas shoe as claimed in claim 1, which is characterized in that: the redundant edge separation system (6) comprises an installation bedplate (601), a third power motor (602), a second small flat gear (603), a toothed ring (604), a limiting installation ring (605), a fixed sliding groove ring (606), a connecting block (607), a shoe-shaped grooving block (608), a shoe-shaped inner side baffle (609), a fixed rectangular plate (6010), a second fixed L-shaped frame (6011), a third fixed L-shaped frame (6012), a second elastic telescopic rod (6013) and a cutting sharp knife (6014); the lower part of the mounting bedplate (601) is welded with the working machine bedplate (1); the lower part of the third power motor (602) is connected with the mounting bedplate (601) through bolts; the axle center of the second small flat gear (603) is fixedly connected with the output shaft of the third power motor (602); the gear ring (604) is meshed with the second small flat gear (603); the limiting mounting ring (605) is welded with the gear ring (604); the fixed sliding groove ring (606) is in sliding connection with the limiting mounting ring (605); the lower part of the fixed chute ring (606) is fixedly connected with the mounting bedplate (601); the connecting block (607) is welded with the fixed chute ring (606); the shoe-shaped grooving block (608) is welded with the connecting block (607); a shoe-shaped inner baffle (609) is arranged at the inner side of the shoe-shaped grooving block (608); the fixed rectangular plate (6010) is fixedly connected with the shoe-shaped inner side baffle (609); welding a second fixed L-shaped frame (6011) and a fixed rectangular plate (6010); welding a third fixed L-shaped frame (6012) with a fixed rectangular plate (6010); the second elastic telescopic rod (6013) is fixedly connected with the limiting mounting ring (605); the cutting sharp knife (6014) is fixedly connected with a second elastic telescopic rod (6013).

3. The method for sticking and processing the adhesive tape on the inner layer of the sole of the canvas shoe as claimed in claim 2, which is characterized in that: the first transmission mechanism (5023) comprises a third elastic telescopic rod (502301), a U-shaped fixing frame (502302), a third electric roller (502303) and a fourth electric roller (502304); the lower part of the third elastic telescopic rod (502301) is fixedly connected with the fixed bottom plate (504); the lower part of the U-shaped fixing frame (502302) is fixedly connected with a third elastic telescopic rod (502301); the third electric roller column (502303) is rotationally connected with the U-shaped fixed frame (502302); the fourth electric roller (502304) is rotationally connected with the U-shaped fixed frame (502302).

4. The method for sticking and processing the adhesive tape on the inner layer of the sole of the canvas shoe as claimed in claim 3, which is characterized in that: one side of the shoe-shaped inner baffle (609) far away from the fixed rectangular plate (6010) is provided with a shoe-shaped slotted block (608) one centimeter more than one side of the shoe-shaped slotted block far away from the fixed rectangular plate (6010).