CN116439474A

CN116439474A - Shaper for shoe and cap processing

Info

Publication number: CN116439474A
Application number: CN202310654137.8A
Authority: CN
Inventors: 吴晓芹
Original assignee: Ganzhou Weilichang Textile Co ltd
Current assignee: Ganzhou Weilichang Textile Co ltd
Priority date: 2023-06-05
Filing date: 2023-06-05
Publication date: 2023-07-18

Abstract

The invention relates to the technical field of shoe and clothing production, in particular to a shaper for shoe and cap processing, which comprises a first mounting seat, a mounting frame, a base, a lower die, an electric push rod, an upper die, a heating wire and the like; the mounting bracket is connected with the first mount pad upside, and first mount pad upside middle part is connected with the base, is connected with the bed die on the base, and mounting bracket upper portion is connected with electric putter, and electric putter's extension end is connected with the mould, goes up the mould internal connection and has a plurality of heater strip. The upper die of heating moves downwards and the lower mould cooperation is plastic to the vamp, when the upper die pushes down, upwards rotates through agreeing with piece extrusion clamp splice and can fix a position the vamp centre gripping, avoids vamp skew to influence the plastic effect, and after the plastic is accomplished, the upper die lifting can make the inwards slip of rubber coating board cover on the vamp through strip shaped plate and rotor plate cooperation, and then scribbles the cross-linking auxiliary agent to the vamp and finalize the design.

Description

Shaper for shoe and cap processing

Technical Field

The invention relates to the technical field of shoe wear production, in particular to a shaper for shoe cap processing.

Background

The shoe is mainly divided into a vamp and a sole, and in the vamp processing and production process, the vamp is required to be shaped by a shaper, so that the vamp is kept in a certain shape.

Patent grant publication number CN 108078078B's patent discloses a vamp plastic machine, this vamp plastic machine includes the workstation, be used for softening the softening mechanism of vamp and be used for the plastic mechanism of plastic vamp, plastic mechanism and softening mechanism set up on the workstation, plastic mechanism includes vibration generator, go up the moulding-die, the lower moulding-die, cylinder and support frame, lower moulding-die and support frame are fixed on the workstation, the cylinder is fixed on the support frame and is located the lower moulding-die directly over, vibration generator fixes on the catch bar of cylinder, go up the moulding-die and fix on vibration generator, this vamp plastic machine passes through vibration generator and drives the moulding-die vibrations, and then shake the vamp, shake the fold flat with the vamp, but this vamp plastic machine can't carry out centre gripping location to the vamp, when pushing down the plastic, the vamp is shifted easily, and then influences the plastic effect.

Therefore, we propose a shaper for shoe and cap processing, which can clamp the vamp and shape the vamp, so as to ensure the shaping effect of the vamp.

Disclosure of Invention

In order to overcome the defect that the existing vamp shaping machine cannot clamp and position the vamp, the vamp deviates during shaping and influences shaping effect, the invention provides the shaper for shoe cap processing, which can clamp the vamp and shape the vamp, so as to ensure the shaping effect of the vamp.

The technical implementation scheme of the invention is as follows: the utility model provides a shaper is used in shoe and cap processing, including first mount pad, the mounting bracket, a pedestal, the bed die, electric putter, go up the mould, the heater strip, clamping mechanism and crowded material mechanism, first mount pad upside is connected with the mounting bracket, first mount pad upside middle part is connected with the base, be connected with the bed die on the base, mounting bracket upper portion is connected with electric putter, electric putter's extension end is connected with the mould, go up the mould internal connection and be connected with a plurality of heater strip, be equipped with the clamping mechanism that is used for the centre gripping vamp to fix a position between last mould and the base, clamping mechanism, be equipped with between first mount pad and the mounting bracket and be used for smearing the crowded material mechanism that cross-linking auxiliary agent was decided the design to the vamp.

In a preferred embodiment of the invention, the clamping mechanism comprises a lower pressing plate, a fitting block, a first elastic piece, a clamping block and torsion springs, wherein the lower pressing plate is connected to the rear side of the upper die, the fitting block is connected in the base in a sliding manner, the lower pressing plate moves downwards to be in contact with the fitting block, the first elastic piece is connected between the fitting block and the base, the clamping block is connected to the left side and the right side of the base in a rotating manner, the fitting block moves downwards to be in contact with the clamping block, and two torsion springs are connected between the clamping block and the base.

In a preferred embodiment of the invention, the extruding mechanism comprises a strip-shaped plate, a second elastic piece, a rotating plate, guide rods, a rubberizing plate, a third elastic piece, a connecting rod and a storage component, wherein the upper part of the lower pressing plate is connected with the strip-shaped plate in a sliding mode, the second elastic piece is connected between the strip-shaped plate and the lower pressing plate, the rotating plate is connected at the left part and the right part of the rear side of the mounting frame in a rotating mode, the strip-shaped plate moves downwards to be in contact with the moving plate, the guide rods are connected at the left side and the right side in the mounting frame in a sliding mode, the rubberizing plates are connected with the adjacent guide rods in a sliding mode, the third elastic pieces are connected between the rubberizing plates and the adjacent guide rods, the rear sides of the rubberizing plates are connected with the connecting rod, and the rear ends of the connecting rod extend into the rotating plate.

In a preferred embodiment of the invention, the storage assembly comprises a storage box, a material conveying pipe, a piston plate, wire wheels and pull ropes, wherein the left and right parts of the upper side of the first mounting seat are respectively connected with the storage box, the material conveying pipe is respectively connected between the storage box and the adjacent glue coating plate, the piston plate is respectively connected in the storage box in a sliding manner, the left and right parts of the upper part of the mounting frame are respectively connected with the two wire wheels in a rotating manner, the front and rear parts of the upper side of the piston plate are respectively connected with the pull ropes, and the tail ends of the pull ropes are respectively connected with the adjacent glue coating plate by bypassing the adjacent wire wheels.

In a preferred embodiment of the invention, the buffer mechanism is used for buffering the clamping blocks and comprises a rubber buffer head, a sleeve rod, a contact plate and a fourth elastic piece, wherein the sleeve rod is symmetrically connected to the front and rear parts of the base in a bilateral symmetry manner, the rubber buffer head is connected to the sleeve rod in a sliding manner, the contact plate is connected to the front and rear sides of the clamping blocks and contacts with the adjacent rubber buffer head in an upward rotation manner, and the fourth elastic piece is connected between the rubber buffer head and the adjacent sleeve rod.

In a preferred embodiment of the invention, the invention further comprises an application mechanism for uniformly applying the crosslinking auxiliary agent, the application mechanism comprises a sliding frame, an application block and a fifth elastic piece, the sliding frame is connected to the lower die in a sliding manner, the application block is connected to the inner side of the sliding frame, and two fifth elastic pieces are connected between the sliding frame and the lower die.

In a preferred embodiment of the invention, the device further comprises a scraping mechanism for scraping the redundant crosslinking auxiliary agent on the rubberized plate, wherein the scraping mechanism comprises a sliding rail, a fixed seat and a scraper, the sliding rail is connected to the lower side of the rubberized plate, the fixed seat is connected to the sliding rail in a sliding manner, and the scraper is connected to the fixed seat.

In a preferred embodiment of the invention, the shoe upper cooling device further comprises a cooling mechanism for cooling the shaped shoe upper, wherein the cooling mechanism comprises a second mounting seat, a rotating shaft and a cooling fan, the second mounting seat is connected with the left and right parts of the upper part of the front side of the mounting frame, the rotating shafts are respectively connected to the second mounting seat in a rotating mode, and the cooling fan is respectively connected to the rotating shafts.

In a preferred embodiment of the invention, the feed conveyor pipe is a flexible hose.

The invention has the following advantages: 1. the upper die of heating moves downwards and the lower mould cooperation is plastic to the vamp, when the upper die pushes down, upwards rotates through agreeing with piece extrusion clamp splice and can fix a position the vamp centre gripping, avoids vamp skew to influence the plastic effect, and after the plastic is accomplished, the upper die lifting can make the inwards slip of rubber coating board cover on the vamp through strip shaped plate and rotor plate cooperation, and then scribbles the cross-linking auxiliary agent to the vamp and finalize the design.

2. The clamp splice upwards rotates and makes contact plate and the contact of rubber buffer head, and the impact force that produces when upwards rotating through the buffer head buffering clamp splice avoids the clamp splice striking to lead to the vamp to warp on the vamp.

3. The sliding frame drives the smearing block to move back and forth, so that the crosslinking auxiliary agent smeared on the vamp can be smeared uniformly.

4. The scraper can scrape the residual cross-linking auxiliary agent on the inner side surface of the gluing plate when moving forwards so as to ensure the subsequent smearing effect.

5. The cooling fan can blow air from different angles to the lower die to accelerate drying and shaping of the vamp.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partially cut-away structure of the present invention.

Fig. 3 is a schematic view showing a first perspective structure of the clamping mechanism of the present invention.

Fig. 4 is a schematic view of a second perspective structure of the clamping mechanism of the present invention.

Fig. 5 is a schematic perspective view of an extrusion mechanism of the present invention.

Fig. 6 is a schematic view of a part of a three-dimensional structure of the extruding mechanism of the present invention.

FIG. 7 is a schematic view of a partially cut-away structure of an extrusion mechanism of the present invention.

Fig. 8 is a schematic perspective view of a buffer mechanism according to the present invention.

FIG. 9 is a schematic view of a partially cut-away structure of a cushioning mechanism of the present invention.

Fig. 10 is a schematic perspective view of the smearing mechanism of the present invention.

Fig. 11 is a schematic perspective view of a scraping mechanism according to the present invention.

Fig. 12 is a schematic perspective view of a cooling mechanism according to the present invention.

Wherein the above figures include the following reference numerals: 1. the first mount pad, 2, the mounting bracket, 3, the base, 4, the lower die, 5, the electric putter, 6, the upper die, 7, the heater strip, 8, the clamping mechanism, 81, the lower platen, 82, the engagement block, 83, the first elastic member, 84, the clamping block, 85, the torsion spring, 9, the extruding mechanism, 91, the strip plate, 92, the second elastic member, 93, the rotating plate, 94, the guide rod, 95, the glue spreading plate, 96, the third elastic member, 97, the connecting rod, 98, the storage box, 99, the conveying pipe, 991, the piston plate, 992, the wire wheel, 993, the pull rope, 10, the buffer mechanism, 101, the rubber buffer head, 102, the loop bar, 103, the contact plate, 104, the fourth elastic member, 11, the painting mechanism, 111, the sliding frame, 112, the painting block, 113, the fifth elastic member, 12, the scraping mechanism, 121, the slide rail, 122, the fixing seat, 123, the scraper, 13, the cooling mechanism, 131, the second mount pad, 132, the rotating shaft, 133, and the cooling fan.

Description of the embodiments

It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, the upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.

Examples

The utility model provides a shaper is used in shoe and cap processing, as shown in fig. 1 and 2, including first mount pad 1, mounting bracket 2, base 3, bed die 4, electric putter 5, go up mould 6, heater strip 7, clamping mechanism 8 and crowded material mechanism 9, mount bracket 2 passes through the bolt and installs first mount pad 1 upside, the bolt has base 3 in the middle part of first mount pad 1 upside, base 3 is located mounting bracket 2, install the bed die 4 that is used for placing the vamp on the base 3, electric putter 5 bolt is in mounting bracket 2 upper position, electric putter's 5 extension end is connected with and is used for pushing down the last mould 6 that carries out the plastic to the vamp, go up mould 6 internal connection has three heater strip 7, be equipped with clamping mechanism 8 between mould 6 and the base 3, clamping mechanism 8 can the centre gripping vamp fix a position, be equipped with crowded material mechanism 9 between clamping mechanism 8, first mount pad 1 and the mounting bracket 2, crowded material mechanism 9 can paint the cross-linking auxiliary agent to the vamp and finalize.

When the device is used, a worker places the vamp needing to be shaped on the lower die 4, then the worker controls the electric push rod 5 to extend, then drives the upper die 6 to move downwards to cover on the vamp, heats the upper die 6 through the heating wire 7 to shape the vamp, and in the process of moving downwards the upper die 6, the clamping mechanism 8 can clamp the vamp, and then positions the vamp to prevent the vamp from deviating, after the shaping is finished, the electric push rod 5 drives the upper die 6 to move upwards, and when the upper die 6 moves upwards, the crosslinking auxiliary agent is coated on the vamp to shape through the extruding mechanism 9.

As shown in fig. 1, 3 and 4, the clamping mechanism 8 comprises a lower pressing plate 81, a fitting block 82, a first elastic member 83, a clamping block 84 and a torsion spring 85, wherein the lower pressing plate 81 is bolted at the rear side of the upper die 6, the fitting block 82 is slidably connected in the base 3, the lower pressing plate 81 moves downwards to be in contact with the fitting block 82, the first elastic member 83 is connected between the front part and the rear part of the fitting block 82 and the base 3, the left side and the right side of the base 3 are respectively connected with the clamping block 84 for clamping shoe uppers for positioning through bearings, the fitting block 82 moves downwards to press the clamping block 84 to rotate upwards, and the torsion spring 85 is connected between the front part and the rear part of the clamping block 84 and the base 3.

When the device is used, the upper die 6 moves downwards to drive the lower pressing plate 81 to move downwards, when the lower pressing plate 81 moves downwards to be in contact with the engaging block 82, the lower pressing plate 81 continues to move downwards to press the engaging block 82 to slide downwards, the first elastic piece 83 deforms, the engaging block 82 slides downwards to press the clamping block 84, the clamping block 84 rotates upwards to clamp the vamp, the vamp is further positioned, the torsion spring 85 deforms, after the shaping is finished, the upper die 6 moves upwards to drive the lower pressing plate 81 to move upwards, at this time, under the action of resetting of the first elastic piece 83, the engaging block 82 slides upwards to reset, and under the action of resetting of the torsion spring 85, the clamping block 84 rotates downwards to reset downwards to loosen the vamp, so that the vamp can be automatically clamped to position the vamp when the upper die 6 is pressed downwards to perform shaping, and the vamp offset is avoided to influence the shaping effect.

As shown in fig. 1, 5, 6 and 7, the extruding mechanism 9 comprises a strip plate 91, a second elastic member 92, a rotating plate 93, a guide rod 94, a glue spreading plate 95, a third elastic member 96, a connecting rod 97, a storage box 98, a conveying pipe 99, a piston plate 991, a wire guide wheel 992 and a pull rope 993, wherein the strip plate 91 is slidably connected to the upper part of the lower pressing plate 81, the lower part of the rear side of the strip plate 91 is obliquely arranged, the second elastic member 92 is connected between the strip plate 91 and the lower pressing plate 81, the rotating plate 93 is symmetrically and rotatably connected to the rear side of the mounting frame 2, the strip plate 91 moves downwards to be in contact with the moving plate 93, the guide rods 94 are welded to the left side and the right side in the mounting frame 2, the glue spreading plate 95 for spreading the crosslinking auxiliary agent on the shoe upper is slidably connected to the guide rods 94, the gluing device comprises a gluing plate 95 and a plurality of adjacent guide rods 94, wherein third elastic pieces 96 are connected between the gluing plate 95 and the adjacent guide rods 94, connecting rods 97 are welded on the rear sides of the gluing plate 95, the rear ends of the connecting rods 97 extend into a rotating plate 93, a storage box 98 for containing cross-linking auxiliary agents is bolted to the upper side of a first mounting seat 1 in a bilateral symmetry mode, a conveying pipe 99 is connected between the storage box 98 and the adjacent gluing plate 95, the conveying pipe 99 is a telescopic hose, piston plates 991 are connected in the storage box 98 in a sliding mode, lead wheels 992 are connected to the left and right portions of the upper portion of a mounting frame 2 in a bilateral symmetry mode through bearings, pull ropes 993 are connected to the front and rear portions of the upper side of the piston plates 991, and tail ends of the pull ropes 993 are connected with the adjacent gluing plate 95 by bypassing the adjacent lead wheels 992.

When the device is used, the lower pressing plate 81 moves downwards to drive the strip plate 91 to move downwards, when the strip plate 91 moves downwards to be in contact with the rotating plate 93, the rotating plate 93 is blocked by the mounting frame 2 and cannot rotate upwards, so that the strip plate 91 continues to move downwards and is extruded by the rotating plate 93 to slide forwards, the second elastic piece 92 deforms, when the strip plate 91 moves downwards to be separated from the rotating plate 93, the strip plate 91 slides backwards and resets under the action of the reset of the second elastic piece 92, after the shaping is finished, the lower pressing plate 81 moves upwards to drive the strip plate 91 to move upwards, when the strip plate 91 moves upwards to be in contact with the rotating plate 93 again, the strip plate 91 continues to rotate upwards to extrude the upper end of the rotating plate 93 to swing outwards, the lower end of the rotating plate 93 swings inwards, the lower end of the rotating plate 93 swings inwards to drive the glue coating plate 95 to slide inwards to cover the vamp through the connecting rod 97, the third elastic piece 96 deforms, the glue coating plate 95 slides inwards and pulls the piston plate 991 to slide upwards through the pull rope 993, and then the crosslinking auxiliary agent in the storage box 98 is extruded into the glue coating plate 95 through the conveying pipe 99, the crosslinking auxiliary agent is coated on the vamp to be shaped through the glue coating plate 95, after the strip-shaped plate 91 moves upwards to be separated from the rotating plate 93, the glue coating plate 95 slides outwards to reset under the reset action of the third elastic piece 96, the rotating plate 93 is driven to reversely reset through the connecting rod 97, the glue coating plate 95 slides outwards to enable the pull rope 993 to be loosened, and the piston plate 991 slides downwards to reset under the action of gravity, so that the crosslinking auxiliary agent can be coated on the vamp to be shaped automatically after shaping.

Examples

On the basis of embodiment 1, as shown in fig. 1, 8 and 9, the buffer mechanism 10 is further included, the buffer mechanism 10 can buffer the clamping block 84, the buffer mechanism 10 includes a rubber buffer head 101, a loop bar 102, a contact plate 103 and a fourth elastic member 104, the loop bar 102 is symmetrically welded at the front and rear parts of the base 3, the rubber buffer head 101 for buffering the clamping block 84 is slidably connected in the loop bar 102, the contact plate 103 is welded at the front and rear sides of the clamping block 84, the contact plate 103 rotates upwards and contacts with the adjacent rubber buffer head 101, and the fourth elastic member 104 is connected between the rubber buffer head 101 and the adjacent loop bar 102.

When the device is used, the clamp block 84 rotates upwards to drive the contact plate 103 to rotate upwards, when the contact plate 103 rotates upwards to be in contact with the rubber buffer head 101, the rubber buffer head 101 can slide left and right in the loop bar 102 under the action of the fourth elastic piece 104 so as to buffer the impact force generated when the clamp block 84 rotates upwards, and the clamp block 84 is prevented from being impacted on the vamp to cause the vamp to deform.

As shown in fig. 1 and 10, the coating mechanism 11 is further included, the coating mechanism 11 can uniformly coat the crosslinking assistant, the coating mechanism 11 includes a sliding frame 111, a coating block 112 and a fifth elastic member 113, the sliding frame 111 is slidably connected to the lower die 4, the inner side of the sliding frame 111 is connected with the coating block 112 for uniformly coating the crosslinking assistant, and the fifth elastic member 113 is connected between the left and right parts of the sliding frame 111 and the lower die 4.

When the device is used, after the glue spreading plate 95 slides outwards to be opened, a worker can push the sliding frame 111 to slide back and forth on the lower die 4, the fifth elastic piece 113 deforms and resets, the sliding frame 111 slides back and forth to drive the smearing block 112 to move back and forth, and the smearing block 112 moves back and forth to smear the crosslinking auxiliary agent coated on the vamp uniformly.

As shown in fig. 1 and 11, the device further comprises a scraping mechanism 12, the scraping mechanism 12 can scrape redundant crosslinking auxiliary agents on the glue spreading plate 95, the scraping mechanism 12 comprises a sliding rail 121, a fixing seat 122 and a scraper 123, the sliding rail 121 is installed on the lower side of the glue spreading plate 95 through bolts, the fixing seat 122 is connected in the sliding rail 121 in a sliding mode, and the scraper 123 attached to the inner side face of the glue spreading plate 95 is welded on the fixing seat 122.

When the device is used, after the gluing of the gluing plate 95 is completed, a worker can push the fixing seat 122 to slide forwards in the sliding rail 121, the fixing seat 122 can drive the scraper 123 to move forwards, and when the scraper 123 moves forwards, the residual crosslinking auxiliary agent on the inner side surface of the gluing plate 95 can be scraped, so that the subsequent smearing effect is ensured, and after the cleaning is completed, the worker controls the fixing seat 122 to drive the scraper 123 to move backwards for resetting.

As shown in fig. 1 and 12, the vamp after shaping is cooled by the cooling mechanism 13, the cooling mechanism 13 comprises a second mounting seat 131, a rotating shaft 132 and a cooling fan 133, the second mounting seat 131 is mounted on the upper left and right symmetrically on the front side of the mounting frame 2 through bolts, the rotating shaft 132 is rotationally connected to the second mounting seat 131, friction is generated between the rotating shaft 132 and the second mounting seat 131, and the cooling fan 133 for cooling the vamp is bolted to the rotating shaft 132.

When the device is used, the cooling fan 133 can blow air to the lower die 4 to accelerate vamp drying and shaping, and meanwhile, the rotating shaft 132 can rotate on the second mounting seat 131, so that a worker can adjust the air blowing angle of the cooling fan 133 according to the requirement.

The foregoing is merely exemplary of the present invention and is not intended to limit the present invention. All equivalents and alternatives falling within the spirit of the invention are intended to be included within the scope of the invention. What is not elaborated on the invention belongs to the prior art which is known to the person skilled in the art.

Claims

1. The utility model provides a shaper is used in shoe and cap processing, including first mount pad (1), mounting bracket (2), base (3), bed die (4), electric putter (5), go up mould (6) and heater strip (7), first mount pad (1) upside is connected with mounting bracket (2), first mount pad (1) upside middle part is connected with base (3), be connected with bed die (4) on base (3), mounting bracket (2) upper portion is connected with electric putter (5), electric putter (5)'s extension end is connected with mould (6), go up mould (6) internal connection and be connected with a plurality of heater strip (7), characterized by, still including clamping mechanism (8) and extrusion mechanism (9), be equipped with between last mould (6) and base (3) and be used for the clamping mechanism (8) that the centre gripping vamp was fixed a position, be equipped with between clamping mechanism (8), first mount pad (1) and mounting bracket (2) and be used for scribbling the extrusion mechanism (9) that cross-linking auxiliary agent is decided to the design.

2. The shaper for shoe and cap processing according to claim 1, wherein the clamping mechanism (8) comprises a lower pressing plate (81), a fitting block (82), a first elastic piece (83), a clamping block (84) and a torsion spring (85), the lower pressing plate (81) is connected to the rear side of the upper die (6), the fitting block (82) is connected to the inner sliding of the base (3), the lower pressing plate (81) moves downwards to be in contact with the fitting block (82), the first elastic piece (83) is connected between the fitting block (82) and the base (3), the clamping block (84) is connected to the left side and the right side of the base (3) in a rotating mode, the fitting block (82) moves downwards to be in contact with the clamping block (84), and two torsion springs (85) are connected between the clamping block (84) and the base (3).

3. The shaper for shoe and cap processing according to claim 2, wherein the material extruding mechanism (9) comprises a strip-shaped plate (91), a second elastic piece (92), a rotating plate (93), a guide rod (94), a gluing plate (95), a third elastic piece (96), a connecting rod (97) and a storage component, the upper portion of the lower pressing plate (81) is connected with the strip-shaped plate (91) in a sliding mode, the second elastic piece (92) is connected between the strip-shaped plate (91) and the lower pressing plate (81), the rotating plate (93) is connected with the left and right parts of the rear side of the mounting frame (2) in a rotating mode, the strip-shaped plate (91) moves downwards to be in contact with the moving plate (93), the guide rods (94) are connected with the left and right sides in the mounting frame (2), the gluing plate (95) are connected with the gluing plate (95) in a sliding mode, the third elastic piece (96) is connected between the gluing plate (95) and the adjacent guide rods (94), the rear side of the gluing plate (95) is connected with the connecting rod (97), the rear end of the connecting rod (97) is extended into the rotating plate (93), and the storage component for crosslinking is arranged on the first mounting seat (1).

4. The shaper for shoe and cap processing according to claim 3, wherein the storage assembly comprises a storage box (98), a conveying pipe (99), a piston plate (991), a wire guide wheel (992) and a pull rope (993), wherein the left part and the right part of the upper side of the first installation seat (1) are respectively connected with the storage box (98), the conveying pipe (99) is respectively connected between the storage box (98) and an adjacent gluing plate (95), the piston plate (991) is respectively connected in the storage box (98), the left part and the right part of the upper part of the installation frame (2) are respectively connected with two wire guide wheels (992) in a rotating manner, the front part and the rear part of the upper side of the piston plate (991) are respectively connected with the pull rope (993), and the tail end of the pull rope (993) is respectively connected with the adjacent gluing plate (95) by bypassing the adjacent wire guide wheel (992).

5. The shaper for shoe and cap processing according to claim 4, further comprising a buffer mechanism (10) for buffering the clamping blocks (84), wherein the buffer mechanism (10) comprises a rubber buffer head (101), a sleeve rod (102), a contact plate (103) and a fourth elastic piece (104), the sleeve rod (102) is symmetrically connected to the front and rear parts of the base (3), the rubber buffer head (101) is slidably connected in the sleeve rod (102), the contact plate (103) is connected to the front and rear sides of the clamping blocks (84), the contact plate (103) rotates upwards to be in contact with the adjacent rubber buffer head (101), and the fourth elastic piece (104) is connected between the rubber buffer head (101) and the adjacent sleeve rod (102).

6. The shaper for shoe and cap processing according to claim 5, further comprising an application mechanism (11) for applying the crosslinking assistant uniformly, wherein the application mechanism (11) comprises a sliding frame (111), an application block (112) and a fifth elastic member (113), the sliding frame (111) is connected to the lower die (4) in a sliding manner, the application block (112) is connected to the inner side of the sliding frame (111), and two fifth elastic members (113) are connected between the sliding frame (111) and the lower die (4).

7. The shaper for shoe and cap processing according to claim 6, further comprising a scraping mechanism (12) for scraping off redundant crosslinking auxiliary agents on the rubberized plate (95), wherein the scraping mechanism (12) comprises a sliding rail (121), a fixing seat (122) and a scraper (123), the sliding rail (121) is connected to the lower side of the rubberized plate (95), the fixing seat (122) is connected to the sliding rail (121) in a sliding manner, and the scraper (123) is connected to the fixing seat (122).

8. The shaper for shoe and cap processing according to claim 7, further comprising a cooling mechanism (13) for cooling the shaped shoe upper, wherein the cooling mechanism (13) comprises a second mounting seat (131), a rotating shaft (132) and a cooling fan (133), the second mounting seat (131) is connected to both left and right parts of the upper portion of the front side of the mounting frame (2), the rotating shaft (132) is connected to both the second mounting seat (131) in a rotating manner, and the cooling fan (133) is connected to both the rotating shaft (132).

9. A shaper for shoe cap manufacture according to claim 8, wherein the feed conveyor (99) is a flexible hose.