CN114652054A

CN114652054A - Continuous vamp manufacturing production line and process with high precision

Info

Publication number: CN114652054A
Application number: CN202210102217.8A
Authority: CN
Inventors: 吕明旭; 苏成喻
Original assignee: FUJIAN JINJIANG HUAYU WEAVING CO LTD; Liming Vocational University
Current assignee: FUJIAN JINJIANG HUAYU WEAVING CO LTD; Liming Vocational University
Priority date: 2022-01-27
Filing date: 2022-01-27
Publication date: 2022-06-24
Also published as: WO2023143175A1

Abstract

The invention discloses a high-precision continuous vamp manufacturing production line which comprises two supports and a transverse plate welded and fixed on the supports, wherein a first fixing plate and a second fixing plate are welded and connected on the two supports, a fixing frame is arranged on one side of each of the two supports, a group of rotating rollers and a group of tensioning rollers are axially connected on the fixing frame, an adhesive groove is formed in the transverse plate, a first adhesive inlet groove and a second adhesive inlet groove are formed in the wall body of the transverse plate, a first adhesive guide pipe is inserted into one end of the first adhesive inlet groove and is communicated with the second adhesive guide pipe through a communicating device, one end of the second adhesive inlet groove is communicated with the first adhesive inlet groove, and the other end of the second adhesive inlet groove is communicated with the wall of the adhesive groove. The pressing plate, the cutting plate and the bonding groove have the same shape and size, so that the vamp with the designated size can be cut when the fabric is bonded and punched, the overall processing precision is high, and the qualification rate of vamp manufacturing is improved.

Description

Continuous vamp manufacturing production line and process with high precision

Technical Field

The invention relates to the technical field of vamp manufacturing, in particular to a continuous vamp manufacturing production line and a continuous vamp manufacturing process with high precision.

Background

The shoes body major system comprises vamp and sole, wherein the vamp rigid coupling is in the sole, form the space between vamp and the sole, for the sole cover of wearing, traditional vamp is single layer structure, the function is comparatively single, in order to improve the functionality of vamp, present vamp is mostly composite construction, be double-deck surface fabric structure, composite vamp is when the preparation, the back is bonded with two-layer surface fabric earlier, tailor, glue between the surface fabric after tailorring just so wastes, not only caused the waste of resource, and the intangible cost that has increased, be unfavorable for large-scale production and use, can not satisfy people's user demand, in view of the defect that exists among the above prior art, it is necessary to improve it, make it more possess the practicality, just can accord with the in-service use condition.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

Therefore, the invention aims to provide a continuous vamp manufacturing production line and a continuous vamp manufacturing process with high precision.

The utility model provides a continuous vamp manufacturing production line with high precision, which comprises two brackets, and a transverse plate welded and fixed on the brackets, a first fixing plate and a second fixing plate are welded and connected on the two brackets, and one side of each of the two brackets is provided with a fixed frame, the fixed frame is connected with a group of rotating rollers and a group of tensioning rollers in an upper shaft way, the transverse plate is provided with an adhesive groove, a first glue inlet groove and a second glue inlet groove are arranged in the wall body of the transverse plate, a first glue guide pipe is inserted into one end of the first glue inlet groove, the first rubber guide pipe is communicated with the second rubber guide pipe through a communicating vessel, one end of the second rubber inlet groove is communicated with the first rubber inlet groove, the other end of the second glue inlet groove is communicated with the groove wall of the bonding groove, the second glue guide pipe is welded and communicated with the communicating column, and one end of the communicating column is welded and communicated with the glue inlet pipe;

the two first fixing plates are connected through a first guide rod in a welded mode, a first threaded rod movably connected with a bearing of the two first fixing plates penetrates through the two first fixing plates, the first threaded rod is connected with an output shaft key of a positive and negative motor, the two second fixing plates are connected through a second guide rod in a welded mode, a second threaded rod movably connected with the bearing of the two second fixing plates penetrates through the two second fixing plates, the second fixing plates and the first fixing plates are both connected with mounting frames in a welded mode, pressing mechanisms are arranged on the first threaded rod and the second threaded rod respectively, a side plate is welded to one side of each pressing mechanism on the first threaded rod, the bottom surface of each side plate extends downwards vertically to form a convex block, the first threaded rod and the first guide rod penetrate through the second vertical plate, and the positive and negative motor is fixed on the first fixing plates through bolts;

the second vertical plate is connected with the first threaded rod in a threaded screwing manner, the second vertical plate is attached to the first guide rod and is not fixed, a second through groove is formed in the second vertical plate, an air pump is fixed on the top wall of the second vertical plate through a bolt, a fixed cylinder is welded and connected to the groove wall of the second through groove, a fixed ring is arranged in the fixed cylinder, an air outlet of the air pump is connected with one end of the first communicating pipe in a threaded sealing manner, the other end of the first communicating pipe is closed and is welded and communicated with the second communicating pipe, a fixed column is welded and connected to the inner wall of the top end of the fixed cylinder, a first movable column penetrates through the wall body of the bottom end of the fixed cylinder, a hole groove for inserting the fixed column is formed in the first movable column, the bottom end of the first movable column penetrates through the wall body of the second vertical plate, the bottom end of the first movable column penetrates through the wall body of the cutting plate and is welded and connected with the cutting plate, the inner wall of the fixed ring is welded and the outer wall of the first movable column, and a first elastic spring is sleeved on the first movable column between the fixed ring and the bottom end of the fixed cylinder, and the second communicating pipe is connected with the wall body of the fixed cylinder in a welding manner and is communicated with the wall body of the fixed cylinder.

Further, two hold-down mechanism sets up about the diaphragm symmetry, and hold-down mechanism is including the first riser, run through first threaded rod and first guide bar on the first riser, be threaded connection between first riser and the first threaded rod, laminate mutually with first guide bar and not fixed, first logical groove has been seted up on the first riser, and bolted fixation has the pneumatic cylinder on the cell wall in first logical groove, the tailpiece of the piston rod and lifter plate top surface welded connection of pneumatic cylinder, and lifter plate bottom surface welded connection have the spliced pole that is equidistant distribution, first riser wall body and welded connection have been run through to the spliced pole bottom, and clamp plate and cutting plate cross section are unanimous with bonding groove shape size, and the lateral wall bottom surface of cutting plate is the sword form.

Furthermore, the fixed cylinder is in a hollow cylindrical shape, the fixed cylinder and the second communicating pipes are in consistent number and correspond to one another one by one, the inner wall of the fixed cylinder is in seamless fit with the outer circular wall of the fixed ring, the first movable column, the fixed column and the hole groove are coaxial, the outer wall of the fixed column is in seamless fit with the inner wall of the hole groove, and the hole groove penetrates through the first movable column.

Furthermore, the bonding grooves are distributed on the transverse plate in a rectangular array, and the cross sections of the groove walls of the bonding grooves are arc-shaped.

Further, the communicating vessel comprises a communicating cylinder, the communicating cylinder is connected with the first rubber guide tube and the second rubber guide tube in a welded mode and is communicated with the first rubber guide tube and the second rubber guide tube in a welded mode, a sealing piston is arranged in the communicating cylinder, a limiting ring is connected to the inner wall of the communicating cylinder in a welded mode, the center of the top face of the sealing piston is connected with the bottom end of the second movable column in a welded mode, the top end of the second movable column penetrates out of the top of the communicating cylinder and is connected with a top plate in a welded mode, and a second elastic spring is sleeved on the second movable column between the top plate and the top of the communicating cylinder.

Furthermore, the sealing piston is in seamless fit with the inner wall of the communicating cylinder, the thickness of the sealing piston is larger than the diameters of the first rubber guide tube and the second rubber guide tube, the first rubber guide tube and the second rubber guide tube are coaxial, and the first rubber guide tube is in sealing bonding with the wall of the first rubber inlet groove.

Further, the lug is cylindrical, and the lug bottom surface is embedded to have first magnet, the roof top surface is embedded to have the second magnet, and the second magnet is the same name magnetic pole with the relative one side of first magnet.

Furthermore, welded connection has two axostylus axostyles on two mounting brackets, and equal bayonet lock is fixed with first sprocket on two axostylus axostyles, the equal bayonet lock of first threaded rod and second threaded rod one end is fixed with the second sprocket, and the cover has engaged with drive chain on the second sprocket on the two and the first sprocket on two mounting brackets.

Furthermore, the communicating column is of a hollow rectangular columnar structure, and the second rubber guide tube, the first rubber inlet groove and the first rubber guide tube are distributed at equal intervals.

A continuous vamp manufacturing process with high precision,

the method comprises the following steps:

firstly, respectively sleeving vamp cloth rolls on a rotating roller in one of the fixed frames, winding and fixing one end of the vamp cloth roll on the rotating roller in the other fixed frame, and simultaneously enabling vamp cloth to be in a tensioning state and to be attached to the front side and the back side of the transverse plate through a tensioning roller;

connecting the rubber inlet pipe with external rubber supply equipment, driving the pressing mechanism and the second vertical plate to horizontally move, and injecting the glue into the bonding groove when the pressing mechanism moves;

thirdly, the pressing plates in the two pressing mechanisms move oppositely and extend into the bonding groove, so that the cloth on the front and back sides of the transverse plate is pressed, tightly attached and bonded into a whole;

fourthly, the cutting plate on the second vertical plate descends and penetrates through the bonding groove, so that the fabric bonded in the bonding groove can be punched;

and fifthly, after the fabric on the transverse plate is completely punched, the rotating roller in the fixing frame rotates, so that the fabric can be continuously conveyed for bonding and shearing.

Through the continuous vamp manufacturing production line and the continuous vamp manufacturing process with high precision, the production line has the beneficial effects that:

the whole body of the shoe is composed of a transverse plate, the transverse plate is provided with a plurality of bonding grooves, the bonding grooves are consistent with the vamp in shape and size, and when bonding is carried out, two fabrics are respectively attached to the front side and the back side of the transverse plate;

the two groups of pressing mechanisms are symmetrically distributed, and when the pressing mechanisms move horizontally, glue can be automatically controlled to be sprayed out of the bonding grooves opposite to the pressing mechanisms, so that when the pressing mechanisms press the fabrics on the two sides of the transverse plate through the pressing plates, the two layers of fabrics can be pressed into the bonding grooves, the two layers of fabrics are pressed and bonded into a whole in the bonding grooves, and the glue is only sprayed at fixed points in a timing manner in the whole bonding process, so that the waste of the glue is avoided, the resources are greatly saved, the cost is reduced, and the glue is beneficial to large-scale production and use;

the second vertical plate can move synchronously with the pressing mechanism, and when the pressing mechanism presses and bonds two layers of fabrics, the cutting plate on the second vertical plate can cut the bonded fabrics, so that the bonding and cutting can be synchronously performed, and the working efficiency is greatly improved;

the pressing plate, the cutting plate and the bonding groove are consistent in shape and size, so that the vamp with the designated size can be cut out when the bonding and punching are carried out on the vamp, the overall processing precision is high, and the qualification rate of manufacturing the vamp is improved;

meanwhile, the vamp fabric is fixed on the two rotating rollers, so that the fabric can be driven to horizontally move on the transverse plate through the rotation of the rotating rollers, and the continuous bonding and cutting operation can be realized, thereby further improving the working efficiency.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which

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

FIG. 2 is a schematic top view of the bracket and the first fixing plate of the present invention;

FIG. 3 is a left side view of the bracket, the first fixing plate and the second fixing plate of the present invention;

FIG. 4 is a schematic top view of the cross plate of the present invention;

FIG. 5 is a schematic longitudinal sectional view of the cross plate and the bonding groove of the present invention;

FIG. 6 is a side view of the bracket and hold-down mechanism of the present invention;

fig. 7 is a schematic view of a bracket and a second riser structure of the present invention;

FIG. 8 is an enlarged view of point A of FIG. 6 according to the present invention;

FIG. 9 is a schematic cross-sectional view of a stationary barrel of the present invention;

FIG. 10 is a bottom view of the cutting board of the present invention.

In the figure: 1. a support; 2. a transverse plate; 201. a first glue inlet groove; 202. a second glue inlet groove; 3. a fixed mount; 4. a rotating roller; 5. a tension roller; 6. a first fixing plate; 7. a second fixing plate; 8. a first threaded rod; 9. a second threaded rod; 10. a first guide bar; 11. a second guide bar; 12. a positive and negative motor; 13. a hold-down mechanism; 131. a first vertical plate; 132. a first through groove; 133. a hydraulic cylinder; 134. a lifting plate; 135. connecting columns; 136. pressing a plate; 14. a second vertical plate; 15. a second through groove; 16. an air pump; 17. a fixed cylinder; 18. a fixing ring; 19. a first movable column; 20. fixing a column; 21. a first elastic spring; 22. a hole groove; 23. cutting a plate; 24. a first communication pipe; 25. a second communicating pipe; 26. an adhesive groove; 27. a first rubber guide pipe; 28. a second rubber guide pipe; 29. a communicating vessel; 291. a communication cylinder; 292. a sealing piston; 293. a second movable column; 294. a limiting ring; 295. a second elastic spring; 296. a top plate; 30. a side plate; 31. a bump; 32. a mounting frame; 33. a first sprocket; 34. a second sprocket; 35. a drive chain; 36. a communication column; 37. and (4) feeding the rubber pipe.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings, which are illustrated in the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

Referring to fig. 1-10, the present invention provides a technical solution: a continuous vamp manufacturing production line with high precision comprises two supports 1 and a transverse plate 2 welded and fixed on the supports 1, wherein a first fixing plate 6 and a second fixing plate 7 are welded and connected on the two supports 1, fixing frames 3 are arranged on one sides of the two supports 1, the fixing frames 3 are in shaft connection with a group of rotating rollers 4 and a group of tensioning rollers 5, two rolls of fabric are fixed on the rotating rollers 4 in one fixing frame 3 before production, one end of the fabric is pulled to be wound and fixed on the rotating rollers 4 in the other fixing frame 3, and the fabric is in a tensioning state through the tensioning rollers 5, so that the fabric can be attached to the front side and the back side of the transverse plate 2, and meanwhile, the transverse plate can be driven to continuously move on the surface of the transverse plate 2 through rotation of the tensioning rollers 5, continuous operation can be realized, and the working efficiency is high;

the transverse plate 2 is provided with a bonding groove 26, a first glue inlet groove 201 and a second glue inlet groove 202 are formed in the wall body of the transverse plate 2, a first glue guide pipe 27 is inserted into one end of the first glue inlet groove 201, the first glue guide pipe 27 is communicated with a second glue guide pipe 28 through a communicator 29, one end of the second glue inlet groove 202 is communicated with the first glue inlet groove 201, the other end of the second glue inlet groove 202 is communicated with the wall of the bonding groove 26, the second glue guide pipe 28 is connected and communicated with a communicating column 36 in a welding mode, one end of the communicating column 36 is connected and communicated with a glue inlet pipe 37 in a welding mode, the communicating column 36 is of a hollow rectangular columnar structure, and the second glue guide pipe 28, the first glue inlet groove 201 and the first glue guide pipe 27 on the communicating column are distributed at equal intervals;

the communicating vessel 29 comprises a communicating tube 291, the communicating tube 291 is connected with and communicated with the first rubber guiding tube 27 and the second rubber guiding tube 28 in a welding manner, a sealing piston 292 is arranged in the communicating tube 291, a limit ring 294 is connected on the inner wall of the communicating tube 291 in a welding manner, the center of the top surface of the sealing piston 292 is connected with the bottom end of a second movable column 293 in a welding manner, the top end of the second movable column 293 penetrates out of the top of the communicating tube 291 and is connected with a top plate 296 in a welding manner, a second elastic spring 295 is sleeved on the second movable column 293 between the top plate 296 and the top of the communicating tube 291, a convex block 31 is cylindrical, a first magnet is embedded in the bottom surface of the convex block 31, a second magnet is embedded in the top surface of the top plate 296, the opposite surfaces of the second magnet and the first magnet are the same magnetic pole, a rubber inlet tube 37 is connected with an external rubber supply device, so that when the convex block 31 horizontally moves to the top plate 296, the second magnet and the first magnet generate a repulsive force, further pushing the top plate 296 to move vertically downwards, the top plate 296 driving the sealing piston 292 to move downwards through the second movable column 293, so that the sealing piston 292 is attached to the bottom of the communicating cylinder 291, and the communicating part between the first rubber guiding tube 27 and the communicating cylinder 291 can be exposed, the first rubber guiding tube 27 is in a communicating state through the communicating cylinder 291 and the second rubber guiding tube 28, so that the rubber solution enters the communicating column 36 through the rubber inlet tube 37, enters the first rubber guiding tube 27 through the second rubber guiding tube 28 and the communicating cylinder 291, and finally enters the first rubber inlet groove 201 and is sprayed into the bonding groove 26 through the second rubber inlet groove 202, so that the rubber solution can fall onto the surface of the fabric attached to the bottom surface of the transverse plate 2;

the two first fixing plates 6 are connected by welding through first guide rods 10, first threaded rods 8 movably connected with bearings of the two first fixing plates 6 penetrate through the two first fixing plates 6, the first threaded rods 8 are connected with an output shaft key of a positive and negative motor 12, the two second fixing plates 7 are connected by welding through second guide rods 11, a second threaded rod 9 movably connected with the bearing of the two second fixing plates 7 penetrates through the two second fixing plates 7, the second fixing plates 7 and the first fixing plate 6 are both welded with a mounting rack 32, the first threaded rod 8 and the second threaded rod 9 are both provided with a pressing mechanism 13, a side plate 30 is welded on one side of the pressing mechanism 13 on the first threaded rod 8, the bottom surface of the side plate 30 vertically extends downwards to form a convex block 31, the first threaded rod 8 and the first guide rod 10 penetrate through the second vertical plate 14, and the positive and negative motor 12 is fixed on the first fixing plate 6 through bolts;

the two pressing mechanisms 13 are symmetrically arranged about the transverse plate 2, the pressing mechanisms 13 comprise first vertical plates 131, first threaded rods 8 and first guide rods 10 penetrate through the first vertical plates 131, the first vertical plates 131 are in threaded connection with the first threaded rods 8 and are attached to and not fixed with the first guide rods 10, first through grooves 132 are formed in the first vertical plates 131, hydraulic cylinders 133 are fixed on the groove walls of the first through grooves 132 through bolts, the piston rod ends of the hydraulic cylinders 133 are connected with the top surfaces of lifting plates 134 in a welding mode, connecting columns 135 distributed at equal intervals are connected to the bottom surfaces of the lifting plates 134 in a welding mode, the bottom ends of the connecting columns 135 penetrate through the wall bodies of the first vertical plates 131 and are connected with pressing plates 136 in a welding mode, two shaft levers are connected to the two mounting frames 32 in a welding mode, first chain wheels 33 are fixed on the clamping pins of the two shaft levers, and second chain wheels 34 are fixed on the clamping pins of the first threaded rods 8 and one ends of the second threaded rods 9, and the second chain wheel 34 on the two and the first chain wheel 33 on the two mounting brackets 32 are sleeved with the engaged transmission chain 35, when the positive and negative motor 12 operates, it will drive the first threaded rod 8 to rotate axially between the two first fixing plates 6, and then the first threaded rod 8 will drive the first vertical plate 131 thereon to move horizontally along the first guide bar 10, and at the same time, when the first threaded rod 8 rotates, the transmission chain 35 will be driven to rotate on the first chain wheel 33 by the second chain wheel 34, and at the same time, the second threaded rod 9 will be driven to rotate axially between the two second fixing plates 7 by the second chain wheel 34 on the second threaded rod 9, so that the second threaded rod 9 will drive the first vertical plate 131 thereon to move along the second guide bar 11, so that the two first vertical plates 131 can move synchronously, when the first vertical plate 131 on the first threaded rod 8 moves, the side plate 30 can drive the projection 31 to move horizontally, when the projection 31 moves to be aligned with the top plate 296 up and down, the glue solution can be automatically sprayed into the bonding groove 26 opposite to the pressing plate 136, and the glue solution can not be sprayed into the other bonding grooves 26, so that the glue solution can be prevented from being sprayed into the bonding grooves too early and being solidified, the bonding effect between the fabrics is ensured, meanwhile, the glue solution can not be sprayed into the fabrics at the periphery of the bonding groove 26, so that the waste of the glue solution is avoided, after the glue solution is sprayed, the hydraulic cylinders 133 on the two first vertical plates 131 synchronously move, the hydraulic cylinders 133 can push the lifting plates 134 to move in the first through grooves 132, the lifting plates 134 can push the pressing plates 136 to move through the connecting columns 135, so that the pressing plates 136 on the two first vertical plates 131 can extend into the bonding groove 26, the fabrics on the two sides of the transverse plate 2 can be pressed into the bonding grooves 26, the two layers of the fabrics are tightly bonded, and after the two layers of the fabrics are tightly bonded, the hydraulic cylinder 133 drives the pressing plate 136 to reset;

the second vertical plate 14 is connected with the first threaded rod 8 in a screwed manner, the second vertical plate is jointed with the first guide rod 10 and is not fixed, a second through groove 15 is arranged on the second vertical plate 14, an air pump 16 is fixed on the top wall of the second vertical plate 14 through a bolt, a fixed cylinder 17 is welded on the wall of the second through groove 15, a fixed ring 18 is arranged in the fixed cylinder 17, the air outlet of the air pump 16 is connected with one end of a first communicating pipe 24 in a screw thread sealing manner, the other end of the first communicating pipe 24 is closed and is welded and communicated with a second communicating pipe 25, a fixed column 20 is welded and connected on the inner wall of the top end of the fixed cylinder 17, a first movable column 19 penetrates through the wall body at the bottom end of the fixed cylinder 17, a hole groove 22 for inserting the fixed column 20 is arranged on the first movable column 19, the bottom end of the first movable column 19 penetrates through the wall body of the second vertical plate 14, the bottom end of the first movable column 19 penetrates through the cutting plate 23 and is welded and connected with the cutting plate 23, the inner wall of the fixed ring 18 is welded with the outer wall of the first movable column 19, the first movable column 19 between the fixed ring 18 and the bottom end of the fixed cylinder 17 is sleeved with a first elastic spring 21, the second communicating pipe 25 is welded with the wall of the fixed cylinder 17 and communicated with the wall of the fixed cylinder 17, when the first threaded rod 8 rotates axially, the second vertical plate 14 can be driven to move horizontally along the first guide rod 10, when the second vertical plate 14 moves to the upper part of the adhered fabric, the air pump 16 starts to work, the air pump 16 injects air into each fixed cylinder 17 through the first communicating pipe 24 and the second communicating pipe 25, so that the air pressure of the fixed cylinder 17 rises to push the fixed ring 18 and the first movable column 19 to move downwards in the fixed cylinder 17, the first movable column 19 drives the cutting plate 23 to move downwards synchronously, when the cutting plate 23 moves to the adhesion groove 26, the adhered fabric in the adhesion groove 26 can be subjected to punching operation, and when the first movable column 19 moves, can move along fixed column 20 through hole slot 22, before accomplishing die-cut operation, fixed column 20 can not shift out from hole slot 22, after accomplishing die-cut operation, fixed column 20 can shift out from hole slot 22, the air in the fixed cylinder 17 can be spout from hole slot 22 like this, and then when cutting board 23 is die-cut the back, and the surface fabric card is in cutting board 23, the air of spun can blow off the surface fabric from cutting board 23 in from hole slot 22 this moment, can avoid cutting board 23 in the too much surface fabric of card income, the normal stable of going on of operation of cutting has been guaranteed.

Furthermore, the cross sections of the pressing plate 136 and the cutting plate 23 are consistent with the shape and size of the bonding groove 26, the bottom surface of the side wall of the cutting plate 23 is in a knife edge shape, and the pressing plate 136 and the cutting plate 23 are structurally designed, so that when the fabric is pressed into the bonding groove 26 by the two pressing plates 136, the fabric can be pressed and bonded into a shoe surface shape, and meanwhile, after the cutting plate 23 moves downwards, the fabric pressed and bonded can be cut down, so that the cut fabric is the shoe surface required to be manufactured, the whole manufacturing process is integral, the precision is high, and the integral processing quality is favorably improved.

Further, the fixed cylinder 17 is hollow cylindrical, the fixed cylinder 17 and the second communicating pipes 25 are in consistent number and correspond to each other one by one, the inner wall of the fixed cylinder 17 is in seamless fit with the outer circular wall of the fixed ring 18, the first movable column 19, the fixed column 20 and the hole groove 22 are coaxial, the outer wall of the fixed column 20 is in seamless fit with the inner wall of the hole groove 22, the hole groove 22 penetrates through the first movable column 19, when the fixed column 20 is inserted into the hole groove 22 in the first movable column 19, the top surfaces of the first movable column 19 and the fixed ring 18 are matched with the inner wall of the fixed cylinder 17 to form a closed cavity, when the air pump 16 injects air into the cavity, the air pressure pushes the first movable column 19 and the fixed ring 18 to go downwards, when the air pump 16 starts to release pressure and exhaust air, the first movable column 19 can be driven to reset through the fixed ring 18 under the elastic force of the first elastic spring 21, so that the first movable column 19 can drive the cutting plate 23 to vertically reciprocate, the fabric can be continuously cut.

Further, bonding groove 26 is rectangular array distribution on diaphragm 2, and the cell wall section of bonding groove 26 is circular-arc, and the cell wall structural design of bonding groove 26 for when two clamp plates 136 impress the surface fabric to bonding groove 26 in, can reduce the friction between surface fabric and the bonding groove 26 cell wall, avoid the surface fabric wearing and tearing to break, and then guaranteed that subsequent operation of tailorring is normally gone on.

Further, the sealing piston 292 is in seamless fit with the inner wall of the communicating cylinder 291, the thickness of the sealing piston 292 is larger than the diameters of the first rubber guide tube 27 and the second rubber guide tube 28, the first rubber guide tube 27 and the second rubber guide tube 28 are coaxial, the first rubber guide tube 27 is in sealing adhesion with the wall of the first rubber inlet groove 201, when the top plate 296 is located at the upper part and the lower part of the bump 31 and aligned, the second elastic spring 295 is in a natural state, and the sealing piston 292 is abutted to the limiting ring 294 through the second movable column 293, so that the sealing piston 292 can block the communicating part between the first rubber guide tube 27 and the second rubber guide tube 28 and the communicating cylinder 291, further, the first rubber guide tube 27 and the second rubber guide tube 28 are in a broken circuit state, the rubber liquid is prevented from passing through, and the structure is reasonable.

A continuous vamp manufacturing process with high precision,

the method comprises the following steps:

firstly, respectively sleeving vamp cloth rolls on a rotating roller 4 in one fixing frame 3, winding and fixing one end of each vamp cloth roll on the rotating roller 4 in the other fixing frame 3, and simultaneously enabling vamp cloth to be in a tensioning state and to be attached to the front side and the back side of a transverse plate 2 through a tensioning roller 5;

connecting the rubber inlet pipe 37 with external rubber supply equipment, driving the pressing mechanism 13 and the second vertical plate 14 to horizontally move, and injecting the glue into the bonding groove 26 when the pressing mechanism 13 moves;

thirdly, the pressing plates 136 in the two pressing mechanisms 13 move oppositely and extend into the bonding groove 26, so that the cloth on the front and back sides of the transverse plate 2 is pressed, attached and bonded into a whole;

fourthly, the cutting plate 23 on the second vertical plate 14 descends and penetrates through the adhesive groove 26, so that the adhered fabric in the adhesive groove 26 can be cut off;

fifthly, after the fabric on the transverse plate 2 is completely punched, the rotating roller 4 in the fixed frame 3 rotates, so that the fabric can be continuously conveyed to carry out bonding and shearing operation.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are used in a broad sense, and for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. Those skilled in the art can understand the above specific meanings included in the present invention according to specific situations.

In the description herein, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a continuous type vamp manufacturing line with high accuracy, includes two supports to and the diaphragm of welded fastening on the support, two equal welded connection has first fixed plate and second fixed plate on the support, and two support one sides all are provided with the mount, mount upper shaft coupling has a set of rotatory roller and a set of tensioning roller, its characterized in that: the diaphragm is provided with a bonding groove, a first glue inlet groove and a second glue inlet groove are formed in the wall body of the diaphragm, a first glue guide pipe is inserted into one end of the first glue inlet groove, the first glue guide pipe is communicated with a second glue guide pipe through a communicating device, one end of the second glue inlet groove is communicated with the first glue inlet groove, the other end of the second glue inlet groove is communicated with the wall of the bonding groove, the second glue guide pipe is welded and communicated with the communicating column, and one end of the communicating column is welded and communicated with the glue inlet pipe;

2. A continuous upper manufacturing line with high precision according to claim 1, characterized in that: two hold-down mechanism sets up about the diaphragm symmetry, and hold-down mechanism is including the first riser, run through first threaded rod and first guide bar on the first riser, be threaded connection between first riser and the first threaded rod, laminate mutually and not fixed with first guide bar, first logical groove has been seted up on the first riser, and the bolt fastening has the pneumatic cylinder on the cell wall in first logical groove, the tailpiece of the piston rod and the lifter plate top surface welded connection of pneumatic cylinder, and lifter plate bottom surface welded connection have the spliced pole that is equidistant distribution, the spliced pole bottom runs through first riser wall body and welded connection has the clamp plate, and clamp plate and cutting plate cross section are unanimous with bonding groove shape size, and the lateral wall bottom surface of cutting plate is the sword form.

3. A continuous upper manufacturing line with high precision according to claim 1, characterized in that: the fixed cylinder is in a hollow cylindrical shape, the fixed cylinder and the second communicating pipes are in consistent number and correspond to each other one by one, the inner wall of the fixed cylinder is in seamless fit with the outer circular wall of the fixed ring, the first movable column, the fixed column and the hole groove are coaxial, the outer wall of the fixed column is in seamless fit with the inner wall of the hole groove, and the hole groove penetrates through the first movable column.

4. A continuous upper manufacturing line with high precision according to claim 1, characterized in that: the bonding grooves are distributed on the transverse plate in a rectangular array, and the cross sections of the groove walls of the bonding grooves are arc-shaped.

5. A continuous upper manufacturing line with high precision according to claim 1, characterized in that: the communicating vessel comprises a communicating cylinder, the communicating cylinder is connected with the first rubber guide tube and the second rubber guide tube in a welded mode and communicated with the first rubber guide tube and the second rubber guide tube in a welded mode, a sealing piston is arranged in the communicating cylinder, a limiting ring is connected to the inner wall of the communicating cylinder in a welded mode, the center of the top face of the sealing piston is connected with the bottom end of the second movable column in a welded mode, the top end of the second movable column penetrates out of the top of the communicating cylinder and is connected with a top plate in a welded mode, and a second elastic spring is sleeved on the second movable column between the top plate and the top of the communicating cylinder.

6. A continuous upper manufacturing line with high precision according to claim 5, characterized in that: the sealing piston is in seamless fit with the inner wall of the communicating cylinder, the thickness of the sealing piston is larger than the diameters of the first rubber guide tube and the second rubber guide tube, the first rubber guide tube and the second rubber guide tube are coaxial, and the first rubber guide tube is in sealing bonding with the groove wall of the first rubber inlet groove.

7. A continuous upper manufacturing line with high precision according to claim 5, characterized in that: the lug is cylindrical, and the lug bottom surface is embedded to have first magnet, the roof top surface is embedded to have the second magnet, and the one side that second magnet and first magnet are relative is the same name magnetic pole.

8. A continuous upper manufacturing line with high precision according to claim 1, characterized in that: two equal welded connection has two axostylus axostyles on the mounting bracket, and equal bayonet lock is fixed with first sprocket on two axostylus axostyles, the equal bayonet lock of first threaded rod and second threaded rod one end is fixed with the second sprocket, and the cover has engaged with drive chain on the second sprocket on the two and the first sprocket on two mounting brackets.

9. A continuous upper manufacturing line with high precision according to claim 1, characterized in that: the communicating column is of a hollow rectangular columnar structure, and the second rubber guide pipe, the first rubber inlet groove and the first rubber guide pipe on the communicating column are distributed at equal intervals.

10. A manufacturing process of a continuous vamp with high precision is characterized in that:

the method comprises the following steps:

fourthly, the cutting board on the second vertical board goes downwards and penetrates through the bonding groove, so that the fabric bonded in the bonding groove can be punched;