CN114766784B - Rapid gluing device and method for shoe production - Google Patents

Abstract

The application relates to the technical field of shoe production, in particular to a rapid sizing device for shoe production, and further relates to a use method of the rapid sizing device for shoe production, comprising a conveyor, a rapid sizing module and a rotary table; shoes placing jigs are distributed on the conveying belt of the conveyor at equal intervals and are detachably arranged on the conveying belt of the conveyor; the rotary table is arranged at the side of the conveyor, and the execution part of the rotary table is provided with a cross-shaped bracket which is horizontally arranged; the application discloses a quick gluing module which is provided with a plurality of quick gluing modules and is respectively arranged at each tail end of a cross-shaped support far away from the center, wherein each quick gluing module can respectively correspond to each shoe placement jig on a conveyor up and down, and the quick gluing module comprises a vertical plate, a rectangular fixing frame, a lifting device, an up-down shifting device, a gluing hose, a first lower pressing plate and an extrusion plate.

Description

Rapid gluing device and method for shoe production

Technical Field

The invention relates to the technical field of shoe production, in particular to a rapid gluing device for shoe production, and further relates to a use method of the rapid gluing device for shoe production.

Background

Shoes, which are articles worn on feet to prevent the feet from being damaged, are mostly grass shoes and cloth shoes in the early stage of human civilization, and are commonly seen in leather shoes and sports shoes nowadays; sizing refers to the process of uniformly applying a size (including solvent size, latex, and water size) to a fabric or other carrier surface.

The existing sole gluing device for shoe production has the defects that the gluing cannot be carried out at one time according to the outline of the sole in the gluing process, so that the gluing of the sole is uneven, the follow-up pressing work is not facilitated, the glue is seriously wasted, and therefore, the stamping device and the stamping method for woodwork processing are needed to solve the problems.

Disclosure of Invention

Based on the above, it is necessary to provide a rapid gluing device and a rapid gluing method for shoe production aiming at the problems in the prior art.

In order to solve the problems in the prior art, the invention adopts the following technical scheme:

according to one aspect of the application, the application provides a rapid sizing device for shoe production, which comprises a conveyor, a rapid sizing module and a turntable;

shoes placing jigs are distributed on the conveying belt of the conveyor at equal intervals and are detachably arranged on the conveying belt of the conveyor;

the rotary table is arranged at the side of the conveyor, and the execution part of the rotary table is provided with a cross-shaped bracket which is horizontally arranged;

the quick gluing module is provided with a plurality of tail ends which are respectively arranged at the tail ends of the cross-shaped support far away from the center, and each quick gluing module can respectively correspond to each shoe placement jig on the conveyor up and down;

the vertical plate is arranged at the tail end of the cross-shaped bracket far away from the center;

the lifting device is arranged at one side of the vertical plate far away from the cross-shaped bracket;

The rectangular fixing frame is horizontally arranged on the executing part of the lifting device, and an opening which is matched with the shoe placing jig is arranged at the bottom of the rectangular fixing frame;

the rubberizing hose is arranged in the opening in a surrounding manner, and a plurality of fine holes are formed in the rubberizing hose at equal intervals and close to the outer part of the shoe placement jig;

the first lower pressing plate is horizontally arranged in the rectangular fixing frame and can move up and down;

The shape of the extrusion plate is matched with the inner outline of the shoe placement jig;

the up-down shifting device is arranged on the vertical plate, and an executing part of the up-down shifting device is used for driving the extrusion plate to move up and down.

Preferably, the quick gluing module further comprises a second lower pressing plate, a blanking pin, a first spring, a first abutting ring and a second abutting ring;

The second lower pressing plate is horizontally arranged right above the first lower pressing plate and can be arranged in the rectangular fixing frame in a vertical moving way;

The blanking pins are provided with a pair of blanking pins, the two blanking pins are respectively arranged on two sides of the second pressing plate in a vertical mode, the second pressing plate is provided with a first perforation through which the blanking pins pass, the upper ends of the blanking pins pass through the first perforation to extend upwards, the lower ends of the blanking pins respectively pass through the first blanking plate and the extrusion plate to extend downwards, the first blanking plate and the extrusion plate are respectively provided with a second perforation through which the work blanking pins pass, and the bottom of the blanking pins is provided with an abutting block capable of abutting against the upper surface of the shoe material in the shoe placement jig;

the first abutting ring is coaxially arranged at the top end of the blanking pin;

the second abutting ring is coaxially arranged outside the position, between the first lower pressing plate and the second lower pressing plate, of the blanking pin;

The first spring housing is located the outside of unloading round pin position between second holding down plate and the butt piece, and the one end of first spring can with the bottom butt of second holding down plate, the other end of first spring can with the top butt of butt piece.

Preferably, vertical grooves for moving the two sides of the first lower pressing plate and the second lower pressing plate are respectively formed in two sides of the inner portion of the rectangular fixing frame, first sliding blocks are arranged on two sides of the first lower pressing plate, second sliding blocks are arranged on two sides of the second lower pressing plate, and limiting moving grooves for limiting the first sliding blocks and the second sliding blocks up and down are formed in the vertical grooves.

Preferably, an arc-shaped surface capable of abutting against the inner side of the rubberizing hose is formed at the bottom edge of the extrusion plate.

Preferably, the rubberizing hose is provided with the feed liquor pipe in a communicating way, and the feed liquor pipe is provided with an electromagnetic valve.

Preferably, the up-down shifting device comprises a first motor, a bearing sleeve, a rotating shaft, a cam, an inverted U-shaped bracket, a reset rod and a second spring;

the inverted U-shaped support is vertically arranged at the center of the top of the second lower pressing plate, the upper end of the inverted U-shaped support extends upwards through the upper end of the rectangular fixing frame, and a rectangular avoiding opening for avoiding the movement of the inverted U-shaped support is formed in the top of the rectangular fixing frame;

the first motor is arranged at one side of the upper end of the vertical plate, which is far away from the rectangular fixing frame;

The bearing sleeve is arranged on one side of the vertical plate, far away from the upper end of the first motor, the axis of the bearing sleeve is coaxial with the axis of the first motor, and the output shaft of the first motor can rotate and extend outwards through the inner ring of the bearing sleeve;

the cam is vertically arranged on the output shaft of the first motor, the cam is arranged right above the inverted U-shaped bracket, an arc-shaped groove for the cam to rotationally move is formed at the top of the inverted U-shaped bracket, the shape of the arc-shaped groove is matched with the outer contour of the cam, and the arc-shaped groove is always in contact with the cam;

The reset rods are four and are respectively arranged at each corner of the first lower pressing plate in a vertical mode, third through holes for each reset rod to pass through are formed in the first lower pressing plate, and the reset rods are arranged in vertical grooves of the rectangular fixing frame;

The second spring is sleeved outside the reset rod, and two ends of the second spring are respectively abutted with the inner lower ends of the first lower pressing plate and the rectangular fixing frame.

Preferably, the lifting device comprises a linear sliding table and a lifting block;

The linear sliding table is vertically arranged at the center of one side of the vertical plate, which is far away from the cross-shaped bracket;

the lifting block is arranged on the executing part of the linear sliding table, and one end of the lifting block is fixedly connected with the center of the upper end of the rectangular fixing frame.

Preferably, the lifting device further comprises a limit polish rod and a limit sleeve;

the limiting polished rod is provided with a pair of polished rods and is symmetrically arranged on two sides of the vertical plate, which are close to the linear sliding table;

the number of the limiting sleeves is the same as that of the limiting polished rods, the limiting sleeves are sleeved on the limiting polished rods in one-to-one correspondence, and one end of each limiting sleeve is fixedly connected with the upper end of the rectangular fixing frame.

Preferably, the turntable comprises a supporting table, a rotating shaft, a second motor and a sheave transmission mechanism;

the supporting table is arranged beside the conveyor;

The rotating shaft is vertical and can be rotatably arranged at the top of the supporting table, the center of the bottom of the cross-shaped bracket is fixedly connected with the top of the rotating shaft, and the lower end of the rotating shaft penetrates through the top of the supporting table and extends to the inside of the supporting table;

The grooved pulley transmission mechanism is arranged in the supporting table, and an execution part of the grooved pulley transmission mechanism is in transmission connection with one end of the rotating shaft;

The second motor is arranged in the supporting table, and an output shaft of the second motor is in transmission connection with the inside of the grooved pulley transmission mechanism.

According to another aspect of the application, the application also provides a use method of the rapid sizing device for shoe production, comprising the following steps:

s1, installing a required shoe placement jig on a conveying belt of a conveyor according to the size of shoes;

S2, rotating the quick gluing module of the corresponding model to the position right above the conveyor through a rotary table according to the size of the shoe placement jig, so that the quick gluing module can vertically correspond to the placement jig;

s3, approaching the rubberizing hose arranged in the rectangular fixing frame to shoe materials in the shoe placement jig through the lifting device, so that the rubberizing hose is close to the shoe materials;

S4, driving the upper pressing plate, the lower pressing plate and the extrusion plate to move downwards through the up-down shifting device, enabling the extrusion plate to enter between the gluing hoses, extruding the gluing hoses through the extrusion plate, and enabling glue in the gluing hoses to enter gluing positions of shoe materials at one time through holes uniformly distributed in the gluing hoses;

S5, resetting the extruding plate rapidly through the up-down shifting device, injecting glue into the glue feeding hose again, and waiting for the next operation.

Compared with the prior art, the application has the beneficial effects that:

1. According to the application, the required shoe placement jig is arranged on the conveying belt of the conveyor according to the size of the shoe, the quick gluing module of the corresponding model is rotated to the position right above the conveyor through the turntable according to the size of the shoe placement jig, so that the quick gluing module can correspond to the placement jig up and down, the gluing hose arranged in the rectangular fixing frame is close to the shoe material in the shoe placement jig through the lifting device, the gluing hose is close to the shoe material, the upper pressing plate and the lower pressing plate are driven to move downwards through the up-down stirring device, the pressing plate is led to enter between the gluing hoses, the gluing hose is extruded through the pressing plate, glue in the gluing hose is fed into the gluing position of the shoe material at one time through the small holes uniformly distributed on the gluing hose, the pressing plate can be quickly reset through the up-down stirring device, and glue is injected into the gluing hose again, and the problem of how to automatically and uniformly glue the shoe material according to the size of the shoe is solved for the next operation.

2. According to the application, the second lower pressing plate moves downwards, the second lower pressing plate drives the first lower pressing plate to move downwards simultaneously through the mutual matching of the blanking pin, the first spring, the first abutting ring and the second abutting ring, the abutting block arranged at the bottom of the blanking pin contacts the upper surface of the shoe material in advance, the blanking pin moves upwards through the mutual matching of the first spring and the first abutting ring, the shoe material can be fixed through the abutting block, after the sizing is finished, the first lower pressing plate and the second lower pressing plate are compounded, meanwhile, the blanking pin is driven to be compounded, the blanking pin is abutted downwards against the shoe material, the shoe material is prevented from adhering to a sizing hose, and the technical problem of how to prevent the shoe material from adhering to the sizing hose during sizing is solved.

3. According to the application, the first sliding blocks arranged on two sides of the first lower pressing plate and the second sliding blocks arranged on two sides of the second lower pressing plate respectively move along the corresponding limit moving grooves, so that the first lower pressing plate and the second lower pressing plate are more stable when moving, and the technical problem of how to enable the first lower pressing plate and the second lower pressing plate to be more stable when moving up and down is solved.

4. According to the application, the glue-applying hose can be extruded better through the arc-shaped surface formed at the edge of the bottom of the extrusion plate, so that the glue in the glue-applying hose can be extruded uniformly, and the technical problem of how to extrude the glue in the glue-applying hose uniformly through the extrusion plate is solved.

5. According to the application, the electromagnetic valve is used for opening the liquid inlet pipe, glue is filled in the glue feeding hose, and then the electromagnetic valve is used for closing the liquid inlet pipe, so that the technical problem of how to fill glue in the glue feeding hose is solved.

6. According to the application, the cam is driven to rotate by the output shaft of the first motor, and the first lower pressing plate, the second lower pressing plate and the inverted U-shaped support are always upwards under the action of the reset rod and the spring, so that the cam is always contacted with the arc-shaped groove formed at the top of the inverted U-shaped support, and when the cam rotates, the first lower pressing plate, the second lower pressing plate and the pressing plate are repeatedly moved up and down by being mutually matched with the arc-shaped groove formed on the inverted U-shaped support, so that the pressing plate can be quickly contacted with a rubberizing hose, the rubberizing efficiency is improved, and the technical problem of how to drive the pressing plate to be matched with the rubberizing hose by the up-down stirring device is solved.

7. According to the application, the lifting block is driven to move upwards or downwards by the execution part of the linear sliding table, and meanwhile, the rectangular fixing frame is driven to move upwards or downwards, so that the technical problem of how to drive the rectangular fixing frame to move upwards or downwards by the lifting device is solved.

8. The rectangular fixing frame is fixed with the rectangular fixing frame through the limiting sleeve and then vertically moves on the limiting polish rod in a limiting mode through the limiting sleeve, so that the rectangular fixing frame is more stable when moving up and down, and the technical problem of how to enable the rectangular fixing frame to be more stable when moving up and down is solved.

9. According to the application, the sheave transmission mechanism is driven by the second motor to move and drive the rotating shaft and the cross-shaped support to rotate in a clearance way, and the cross-shaped support drives all the quick gluing modules to rotate in a clearance way along the axis of the rotating shaft until the required quick gluing modules are moved to the position right above the conveyor to stop, so that the technical problem of how to drive all the quick gluing modules to rotate in a clearance way through the turntable is solved.

Drawings

FIG. 1 is a top plan view of the structure of the present application;

FIG. 2 is a front elevational view of the structure of the present application;

FIG. 3 is a perspective view of the structure of the present application;

FIG. 4 is a perspective view of the turntable and the quick glue module of the present application;

FIG. 5 is a left side view of the turntable and quick glue module of the present application;

FIG. 6 is a perspective view of the fast glue module of the present application;

FIG. 7 is a second perspective view of the fast glue module of the present application;

FIG. 8 is a perspective view of a fast glue module according to the present application;

FIG. 9 is a top view of the instant application quick glue module;

FIG. 10 is a cross-sectional view taken along line A-A of FIG. 9 in accordance with the present application;

FIG. 11 is a perspective view in section along A-A of FIG. 9 of the present application;

FIG. 12 is a cross-sectional view taken along line B-B of FIG. 9 in accordance with the present application;

fig. 13 is a flow chart of the present application.

The reference numerals in the figures are: 1-a conveyor; 2-a quick gluing module; 3-a turntable; 4-shoe placement jig; 5-a cross-shaped bracket; 6-risers; 7-a rectangular fixing frame; 8-lifting device; 9-up-down shifting means; 10-sizing a hose; 11-a first lower platen; 12-extruding a plate; 13-pores; 14-a second lower platen; 15-blanking pins; 16-a first spring; 17-a first abutment ring; 18-a second abutment ring; 19-an abutment block; 20-vertical grooves; 21-a first slider; 22-a second slider; 23-limiting the moving groove; 24-arc surface; 25-liquid inlet pipe; 26-an electromagnetic valve; 27-a first motor; 28-bearing sleeve; 29-; 30-cam; 31-an inverted U-shaped bracket; 32-a reset lever; 33-a second spring; 34-an arc-shaped groove; 35-a linear sliding table; 36-lifting blocks; 37-limiting a polish rod; 38-limiting sleeve; 39-a support table; 40-rotating shaft; 41-a second motor; 42-sheave drive mechanism.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

As shown in fig. 1 to 13, the present application provides:

the rapid gluing device for shoe production is characterized by comprising a conveyor 1, a rapid gluing module 2 and a turntable 3;

Shoes placing jigs 4 are distributed on the conveying belt of the conveyor 1 at equal intervals, and the shoes placing jigs 4 are detachably arranged on the conveying belt of the conveyor 1;

The turntable 3 is arranged at the side of the conveyor 1, and the execution part of the turntable is provided with a cross-shaped bracket 5 which is horizontally arranged;

each quick gluing module 2 is provided with a plurality of tail ends which are respectively arranged at the positions, far away from the center, of the cross-shaped support 5, each quick gluing module 2 can respectively correspond to each shoe placement jig 4 on the conveyor 1 up and down, and each quick gluing module 2 comprises a vertical plate 6, a rectangular fixing frame 7, a lifting device 8, a up-down shifting device 9, a gluing hose 10, a first lower pressing plate 11 and a squeezing plate 12;

The vertical plate 6 is arranged at the tail end of the cross-shaped bracket 5 away from the center;

the lifting device 8 is arranged on one side of the vertical plate 6 far away from the cross-shaped bracket 5;

the rectangular fixing frame 7 is horizontally arranged on the executing part of the lifting device 8, and an opening which is matched with the shoe placing jig 4 is arranged at the bottom of the rectangular fixing frame 7;

the rubberizing hose 10 is arranged in the opening in a surrounding way, and a plurality of fine holes 13 are formed on the rubberizing hose 10 close to the outer part of the shoe placement jig 4 at equal intervals;

The first lower pressing plate 11 is arranged in the rectangular fixing frame 7 in a horizontal mode and can move up and down;

the shape of the extrusion plate 12 is matched with the inner outline of the shoe placement jig 4;

the up-down shifting device 9 is arranged on the vertical plate 6, and an executing part of the up-down shifting device 9 is used for driving the extrusion plate 12 to move up and down.

Based on the above embodiments, the technical problem to be solved by the present application is how to automatically and uniformly glue shoe materials at one time according to the size of shoes. Therefore, according to the application, the required shoe placement jig 4 is arranged on the conveying belt of the conveyor 1 according to the size of the shoes, the corresponding type of quick sizing modules 2 are rotated to the position right above the conveyor 1 through the rotary table 3 according to the size of the shoe placement jig 4, each quick sizing module 2 is an independent quick sizing module 2, the shapes and the sizes of the sizing hoses 10 in all the quick sizing modules 2 are different, so that the quick sizing hoses can correspond to the placement jig up and down, the sizing hoses 10 arranged in the rectangular fixing frame 7 are close to the shoe materials in the shoe placement jig 4 through the lifting device 8, the sizing hoses 10 are close to the shoe materials, the upper pressing plate and the lower pressing plate 12 are driven to move downwards through the up-down stirring device 9, the pressing plate 12 is enabled to enter between the sizing hoses 10, the sizing hoses 10 are extruded through the pressing plate 12, the glue in the sizing hoses 10 enter the sizing positions of the shoe materials at one time through the small holes 13 uniformly distributed on the sizing hoses 10, the pressing plate 12 can be rapidly stirred up-down, and the sizing hoses 10 are reset again, and the sizing hoses 10 are required to be injected up-down.

Further:

The quick gluing module 2 further comprises a second lower pressing plate 14, a blanking pin 15, a first spring 16, a first abutting ring 17 and a second abutting ring 18;

the second lower pressing plate 14 is horizontally arranged right above the first lower pressing plate 11, and the second lower pressing plate 14 can be arranged in the rectangular fixing frame 7 in an up-and-down moving way;

The blanking pins 15 are provided with a pair, the two blanking pins 15 are respectively arranged on two sides of the second pressing plate 14 in a vertical mode, the second pressing plate 14 is provided with a first perforation through which the blanking pins 15 pass, the upper ends of the blanking pins 15 pass through the first perforation to extend upwards, the lower ends of the blanking pins 15 respectively pass through the first blanking plate and the extrusion plate 12 to extend downwards, the first blanking plate and the extrusion plate 12 are respectively provided with a second perforation through which the blanking pins 15 pass, and the bottom of the blanking pins 15 is provided with an abutting block 19 capable of abutting against the upper surface of the shoe material in the shoe placement jig 4;

the first abutting ring 17 is coaxially arranged at the top end of the blanking pin 15;

The second abutting ring 18 is coaxially arranged outside the position of the blanking pin 15 between the first lower pressing plate 11 and the second lower pressing plate 14;

The first spring 16 is sleeved outside the position, between the second lower pressure plate 14 and the abutting block 19, of the blanking pin 15, one end of the first spring 16 can abut against the bottom of the second lower pressure plate 14, and the other end of the first spring 16 can abut against the top of the abutting block 19.

Based on the above embodiments, the technical problem to be solved by the present application is how to prevent the shoe material from adhering to the sizing hose 10 during sizing. Therefore, the second lower pressing plate 14 moves downwards, the second lower pressing plate 14 drives the first lower pressing plate 11 to move downwards simultaneously through the mutual matching of the blanking pin 15, the first spring 16, the first abutting ring 17 and the second abutting ring 18, the abutting block 19 arranged at the bottom of the blanking pin 15 contacts the upper surface of the shoe material in advance, the blanking pin 15 moves upwards through the mutual matching of the first spring 16 and the first abutting ring 17, the shoe material can be fixed through the abutting block 19, after the sizing is finished, the first lower pressing plate 11 and the second lower pressing plate 14 are compounded, the blanking pin 15 is driven to be compounded simultaneously, the blanking pin 15 abuts against the shoe material downwards, and the shoe material is prevented from being adhered to the feeding pipe.

Further:

vertical grooves 20 for moving the two sides of the first lower pressing plate 11 and the second lower pressing plate 14 are respectively formed on two sides of the inner portion of the rectangular fixing frame 7, first sliding blocks 21 are arranged on two sides of the first lower pressing plate 11, second sliding blocks 22 are arranged on two sides of the second lower pressing plate 14, and limiting moving grooves 23 for limiting the first sliding blocks 21 and the second sliding blocks 22 to move up and down are formed in the vertical grooves 20.

Based on the above-described embodiments, the technical problem to be solved by the present application is how to make the first lower plate 11 and the second lower plate 14 more stable when moving up and down. Therefore, the first sliding blocks 21 arranged at two sides of the first lower pressing plate 11 and the second sliding blocks 22 arranged at two sides of the second lower pressing plate 14 respectively move along the corresponding limit moving grooves 23, so that the first lower pressing plate 11 and the second lower pressing plate 14 are more stable in moving.

Further:

An arcuate surface 24 capable of abutting against the inside of the sizing hose 10 is formed at the bottom edge of the squeeze plate 12.

Based on the above embodiment, the technical problem to be solved by the present application is how to uniformly extrude the glue in the glue hose 10 through the extrusion plate 12. For this reason, the present application can better squeeze the glue applying hose 10 through the arc surface 24 formed at the bottom edge of the squeeze plate 12, so that the glue in the glue applying hose 10 can be uniformly squeezed out.

Further:

The rubberizing hose intercommunication is provided with feed liquor pipe 25, is provided with solenoid valve 26 on the feed liquor pipe 25.

Based on the above embodiment, the technical problem to be solved by the present application is how to inject glue into the glue hose 10. For this purpose, the liquid inlet pipe 25 of the present application may be communicated with the interior of the glue tank, the glue tank is filled with glue for supplying the glue, and it should be noted that the glue tank is not a design part of the present application, so that the liquid inlet pipe 25 is opened by the electromagnetic valve 26 and the glue is filled into the glue hose 10 after the glue in the glue hose 10 is used up, and then the liquid inlet pipe 25 is closed by the electromagnetic valve 26.

Further:

The up-down shifting device 9 comprises a first motor 27, a bearing sleeve 28, a cam 30, an inverted U-shaped bracket 31, a reset rod 32 and a second spring 33;

The inverted U-shaped bracket 31 is vertically arranged at the center of the top of the second lower pressing plate 14, the upper end of the inverted U-shaped bracket 31 extends upwards through the upper end of the rectangular fixing frame 7, and a rectangular avoiding opening for avoiding the movement of the inverted U-shaped bracket 31 is formed in the top of the rectangular fixing frame 7;

the first motor 27 is arranged on one side of the upper end of the vertical plate 6 away from the rectangular fixing frame 7;

The bearing sleeve 28 is arranged on one side of the vertical plate 6 far away from the upper end of the first motor 27, the axis of the bearing sleeve 28 is coaxial with the axis of the first motor 27, and the output shaft of the first motor 27 can rotate and extend outwards through the inner ring of the bearing sleeve 28;

The cam 30 is vertically arranged on the output shaft of the first motor 27, the cam 30 is arranged right above the inverted U-shaped bracket 31, an arc-shaped groove 34 for the cam 30 to rotationally move is formed at the top of the inverted U-shaped bracket 31, the shape of the arc-shaped groove 34 is matched with the outer contour of the cam 30, and the arc-shaped groove 34 is always in contact with the cam 30;

The reset rods 32 are four and are respectively arranged at each corner of the first lower pressing plate 11 in a vertical mode, a third through hole for each reset rod 32 to pass through is formed in the first lower pressing plate 11, and the reset rods 32 are arranged in the vertical grooves 20 of the rectangular fixing frames 7;

The second spring 33 is sleeved outside the reset rod 32, and two ends of the second spring 33 are respectively abutted with the first lower pressing plate 11 and the inner lower end of the rectangular fixing frame 7.

Based on the above embodiment, the technical problem to be solved by the present application is how to drive the squeeze plate 12 to cooperate with the sizing hose 10 through the up-down shifting device 9. Therefore, the application drives the cam 30 to rotate through the output shaft of the first motor 27, and the first lower pressing plate 11, the second lower pressing plate 14 and the inverted U-shaped bracket 31 are always upwards under the action of the reset rod 32 and the spring, so that the cam 30 is always contacted with the arc-shaped groove 34 formed at the top of the inverted U-shaped bracket 31, and when the cam 30 rotates, the first lower pressing plate 11, the second lower pressing plate 14 and the pressing plate 12 are repeatedly moved up and down through being matched with the arc-shaped groove 34 formed on the inverted U-shaped bracket 31, so that the pressing plate 12 can be quickly contacted with the rubberizing hose 10, thereby increasing the rubberizing efficiency.

Further:

The lifting device 8 comprises a linear sliding table 35 and a lifting block 36;

the linear sliding table 35 is vertically arranged at the center of one side of the vertical plate 6 away from the cross-shaped bracket 5;

The lifting block 36 is arranged on the executing part of the linear sliding table 35, and one end of the lifting block 36 is fixedly connected with the center of the upper end of the rectangular fixing frame 7.

Based on the above embodiment, the technical problem to be solved by the present application is how to drive the rectangular fixing frame 7 to move up or down by the lifting device 8. For this purpose, the application drives the lifting block 36 to move up or down through the execution part of the linear sliding table 35, and simultaneously drives the rectangular fixing frame 7 to move up or down.

Further:

The lifting device 8 also comprises a limit polish rod 37 and a limit sleeve 38;

The limiting polished rod 37 is provided with a pair of limiting polished rods and is symmetrically arranged on two sides of the vertical plate 6 close to the linear sliding table 35;

The number of the limiting sleeves 38 is the same as that of the limiting polish rods 37, the limiting polish rods 37 are sleeved with the limiting sleeves in one-to-one correspondence, and one end of each limiting sleeve 38 is fixedly connected with the upper end of the rectangular fixing frame 7.

Based on the above embodiment, the technical problem to be solved by the present application is how to make the rectangular fixing frame 7 more stable when moving up and down. Therefore, the application is fixed with the rectangular fixing frame 7 through the limiting sleeve 38, and then moves vertically on the limiting polish rod 37 through the limiting sleeve 38 in a limiting way, so that the rectangular fixing frame 7 moves up and down more stably.

Further:

the turntable 3 comprises a supporting table 39, a rotating shaft 40, a second motor 41 and a sheave transmission mechanism 42;

The supporting table 39 is erected beside the conveyor 1;

The rotating shaft 40 is vertically and rotatably arranged at the top of the supporting table 39, the bottom center of the cross-shaped bracket 5 is fixedly connected with the top of the rotating shaft 40, and the lower end of the rotating shaft 40 penetrates through the top of the supporting table 39 and extends into the supporting table 39;

the grooved pulley driving mechanism 42 is arranged in the supporting table 39, and an executing part of the grooved pulley driving mechanism 42 is in driving connection with one end of the rotating shaft 40;

The second motor 41 is disposed inside the support table 39, and an output shaft of the second motor 41 is in transmission connection with the inside of the sheave transmission mechanism 42.

Based on the above embodiment, the technical problem to be solved by the present application is how to drive all the fast glue dies to rotate through the turntable 3. Therefore, the sheave driving mechanism 42 is driven by the second motor 41 to move and drive the rotating shaft 40 and the cross-shaped support 5 to rotate in a clearance way, and the cross-shaped support 5 simultaneously drives all the quick gluing modules 2 to rotate in a clearance way along the axis of the rotating shaft 40 until the required quick gluing modules 2 are moved to the position right above the conveyor 1 to stop.

The application method of the rapid gluing device for shoe production comprises the following steps of:

s1, installing a required shoe placement jig 4 on a conveying belt of a conveyor 1 according to the sizes of shoes;

S2, rotating the quick gluing module 2 of the corresponding model to the position right above the conveyor 1 through the rotary table 3 according to the size of the shoe placement jig 4 so that the quick gluing module can correspond to the placement jig up and down;

s3, approaching the rubberizing hose 10 arranged in the rectangular fixing frame 7 to shoe materials in the shoe placement jig 4 through the lifting device 8, so that the rubberizing hose 10 is close to the shoe materials;

S4, driving the upper pressing plate, the lower pressing plate and the extrusion plate 12 to move downwards through the up-down shifting device 9, enabling the extrusion plate 12 to enter between the gluing hoses 10, extruding the gluing hoses 10 through the extrusion plate 12, and enabling glue in the gluing hoses 10 to enter a gluing position of shoe materials at one time through fine holes 13 uniformly distributed in the gluing hoses 10;

s5, the extrusion plate 12 can be quickly reset through the up-down shifting device 9, glue is injected into the glue feeding hose 10 again, and the next operation is performed.

According to the application, a required shoe placement jig 4 is arranged on a conveying belt of a conveyor 1 according to the size of shoes, a quick gluing module 2 of a corresponding model is rotated to the position right above the conveyor 1 through a turntable 3 according to the size of the shoe placement jig 4, the quick gluing module can correspond to the placement jig up and down, a gluing hose 10 arranged in a rectangular fixing frame 7 is close to shoe materials in the shoe placement jig 4 through a lifting device 8, the gluing hose 10 is close to the shoe materials, a top-bottom pressing plate and a pressing plate 12 are driven to move downwards through a top-bottom toggle device 9, the pressing plate 12 is led to enter between the gluing hoses 10, the gluing hose 10 is pressed through the pressing plate 12, glue in the gluing hose 10 is fed into a gluing position of the shoe materials at one time through pores 13 uniformly distributed on the gluing hose 10, the pressing plate 12 can be reset quickly through the top-bottom toggle device 9, glue is injected into the gluing hose 10 again, and how to glue is automatically and uniformly glued once according to the size of the shoes is solved for next operation.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims (8)

1. The rapid gluing device for shoe production is characterized by comprising a conveyor (1), a rapid gluing module (2) and a turntable (3);

Shoes placing jigs (4) are distributed on the conveying belt of the conveyor (1) at equal intervals, and the shoes placing jigs (4) are detachably arranged on the conveying belt of the conveyor (1);

The turntable (3) is arranged at the side of the conveyor (1), and a cross-shaped bracket (5) which is horizontally arranged is arranged at the execution part of the turntable (3);

the quick gluing module (2) is provided with a plurality of tail ends which are respectively arranged at the tail ends of the cross-shaped support (5) far away from the center, each quick gluing module (2) can respectively correspond to each shoe placement jig (4) on the conveyor (1) up and down, and the quick gluing module (2) comprises a vertical plate (6), a rectangular fixing frame (7), a lifting device (8), an up-down stirring device (9), a gluing hose (10), a first lower pressing plate (11) and an extrusion plate (12);

the vertical plate (6) is arranged at the tail end of the cross-shaped bracket (5) far away from the center;

The lifting device (8) is arranged at one side of the vertical plate (6) far away from the cross bracket (5);

The rectangular fixing frame (7) is horizontally arranged on the executing part of the lifting device (8), and an opening which is matched with the shoe placing jig (4) is arranged at the bottom of the rectangular fixing frame (7);

The rubberizing hose (10) is arranged in the opening in a surrounding way, and a plurality of fine holes (13) are formed on the rubberizing hose (10) close to the outer part of the shoe placement jig (4) at equal intervals;

The first lower pressing plate (11) is horizontally arranged in the rectangular fixing frame (7) and can move up and down;

The shape of the extrusion plate (12) is matched with the inner outline of the shoe placement jig (4);

the up-down shifting device (9) is arranged on the vertical plate (6), and an executing part of the up-down shifting device (9) is used for driving the extrusion plate (12) to move up and down;

the quick gluing module (2) further comprises a second lower pressing plate (14), a blanking pin (15), a first spring (16), a first abutting ring (17) and a second abutting ring (18);

The second lower pressing plate (14) is horizontally arranged right above the first lower pressing plate (11), and the second lower pressing plate (14) can be arranged in the rectangular fixing frame (7) in an up-down moving way;

The blanking pins (15) are provided with a pair of blanking pins (15), the two blanking pins (15) are respectively arranged on two sides of the second blanking plate (14) in a vertical mode, a first perforation through which the blanking pins (15) pass is formed in the second blanking plate (14), the upper ends of the blanking pins (15) extend upwards through the first perforation, the lower ends of the blanking pins (15) respectively extend downwards through the first blanking plate and the extrusion plate (12), second perforation through which the blanking pins (15) pass are respectively formed in the first blanking plate and the extrusion plate (12), and an abutting block (19) capable of abutting against the upper surface of the shoe in the shoe placement jig (4) is arranged at the bottom of the blanking pins (15);

the first abutting ring (17) is coaxially arranged at the top end of the blanking pin (15);

The second abutting ring (18) is coaxially arranged outside the position, between the first lower pressing plate (11) and the second lower pressing plate (14), of the blanking pin (15);

The first spring (16) is sleeved outside the position, between the second lower pressing plate (14) and the abutting block (19), of the blanking pin (15), one end of the first spring (16) can be abutted with the bottom of the second lower pressing plate (14), and the other end of the first spring (16) can be abutted with the top of the abutting block (19);

An arc-shaped surface (24) which can be abutted against the inner side of the rubberizing hose (10) is formed at the bottom edge of the extruding plate (12).

2. The rapid gluing device for shoe production according to claim 1, wherein vertical grooves (20) for moving the two sides of the first lower pressing plate (11) and the second lower pressing plate (14) are respectively formed on two sides of the inner portion of the rectangular fixing frame (7), first sliding blocks (21) are arranged on two sides of the first lower pressing plate (11), second sliding blocks (22) are arranged on two sides of the second lower pressing plate (14), and limiting moving grooves (23) for limiting up-down movement of the first sliding blocks (21) and the second sliding blocks (22) are formed in the vertical grooves (20).

3. A rapid sizing device for shoe production according to claim 1, characterized in that the sizing hose (10) is provided with a liquid inlet pipe (25) in communication, and the liquid inlet pipe (25) is provided with an electromagnetic valve (26).

4. The rapid sizing device for shoe production according to claim 1, wherein the up-down shifting device (9) comprises a first motor (27), a bearing sleeve (28), a cam (30), an inverted U-shaped bracket (31), a reset rod (32) and a second spring (33);

The inverted U-shaped support (31) is vertically arranged at the center of the top of the second lower pressing plate (14), the upper end of the inverted U-shaped support (31) penetrates through the upper end of the rectangular fixing frame (7) and extends upwards, and a rectangular avoiding opening for avoiding the movement of the inverted U-shaped support (31) is formed in the top of the rectangular fixing frame (7);

The first motor (27) is arranged on one side of the upper end of the vertical plate (6) far away from the rectangular fixing frame (7);

The bearing sleeve (28) is arranged on one side of the upper end of the vertical plate (6) far away from the first motor (27), the axis of the bearing sleeve (28) is coaxial with the axis of the first motor (27), and the output shaft of the first motor (27) can rotate and extend outwards through the inner ring of the bearing sleeve (28);

The cam (30) is vertically arranged on the output shaft of the first motor (27), the cam (30) is arranged right above the inverted U-shaped bracket (31), an arc-shaped groove (34) for the cam (30) to rotationally move is formed at the top of the inverted U-shaped bracket (31), the shape of the arc-shaped groove (34) is matched with the outer contour of the cam (30), and the arc-shaped groove (34) is always in contact with the cam (30);

the reset rods (32) are four and are respectively arranged at each corner of the first lower pressing plate (11) in a vertical mode, third through holes for each reset rod (32) to pass through are formed in the first lower pressing plate (11), and the reset rods (32) are arranged in vertical grooves (20) of the rectangular fixing frames (7);

the second spring (33) is sleeved outside the reset rod (32), and two ends of the second spring (33) are respectively abutted with the first lower pressing plate (11) and the inner lower end of the rectangular fixing frame (7).

5. A rapid sizing device for shoe production according to claim 1, characterized in that the lifting device (8) comprises a linear sliding table (35) and a lifting block (36);

The linear sliding table (35) is vertically arranged at the center of one side of the vertical plate (6) far away from the cross-shaped bracket (5);

the lifting block (36) is arranged on the executing part of the linear sliding table (35), and one end of the lifting block (36) is fixedly connected with the center of the upper end of the rectangular fixing frame (7).

6. The rapid sizing device for shoe production according to claim 5, wherein the lifting device (8) further comprises a limit polish rod (37) and a limit sleeve (38);

the limiting polished rod (37) is provided with a pair of symmetrical vertical plates (6) which are close to two sides of the linear sliding table (35);

The number of the limiting sleeves (38) is the same as that of the limiting polished rods (37), the limiting sleeves are sleeved on the limiting polished rods (37) in one-to-one correspondence, and one end of each limiting sleeve (38) is fixedly connected with the upper end of the rectangular fixing frame (7).

7. A rapid sizing device for shoe production according to claim 1, characterized in that the turntable (3) comprises a support table (39), a rotation shaft (40), a second motor (41) and a sheave drive mechanism (42);

the supporting table (39) is erected beside the conveyor (1);

The rotating shaft (40) is vertically and rotatably arranged at the top of the supporting table (39), the bottom center of the cross-shaped bracket (5) is fixedly connected with the top of the rotating shaft (40), and the lower end of the rotating shaft (40) penetrates through the top of the supporting table (39) and extends to the inside of the supporting table (39);

The grooved pulley transmission mechanism (42) is arranged in the supporting table (39), and an executing part of the grooved pulley transmission mechanism (42) is in transmission connection with one end of the rotating shaft (40);

the second motor (41) is arranged in the supporting table (39), and an output shaft of the second motor (41) is in transmission connection with the inside of the sheave transmission mechanism (42).

8. A method of using the rapid sizing device for shoe production according to any one of claims 1 to 7, comprising the steps of:

S1, installing a required shoe placement jig (4) on a conveying belt of a conveyor (1) according to the sizes of shoes;

s2, rotating the quick gluing module (2) of the corresponding model to the position right above the conveyor (1) through the rotary table (3) according to the size of the shoe placement jig (4), so that the quick gluing module can vertically correspond to the placement jig;

S3, approaching the rubberizing hose (10) arranged in the rectangular fixing frame (7) to shoe materials in the shoe placement jig (4) through the lifting device (8), so that the rubberizing hose (10) is close to the shoe materials;

S4, driving the upper pressing plate, the lower pressing plate and the extrusion plate (12) to move downwards through the up-down shifting device (9), enabling the extrusion plate (12) to enter between the gluing hoses (10), extruding the gluing hoses (10) through the extrusion plate (12), and enabling glue in the gluing hoses (10) to enter a gluing position of a shoe material at one time through fine holes (13) uniformly distributed in the gluing hoses (10);

s5, resetting the extruding plate (12) rapidly through the up-down shifting device (9), and injecting glue into the glue feeding hose (10) again for the next operation.