CN113229576B - Gluing mechanism for shoes - Google Patents

Abstract

The application discloses a gluing mechanism for shoes, which relates to the technical field of shoe processing equipment and solves the problem that hands are inconvenient to carry out subsequent operation because the hands easily contact glue coated on the sole of a second layer in the overturning process, it includes the gluing machine, one side that the feeding slide was kept away from to the gluing machine is provided with the mounting bracket, be connected with first loading board on the mounting bracket, first loading board rotates to be connected on the mounting bracket, first loading board is in the direction rotation of keeping away from the gluing machine from one side that is close to the gluing machine, the one end that the mounting bracket below was arranged in to first loading board is connected with first turning handle, be connected with the second loading board on the mounting bracket, the second loading board rotates to be connected on the mounting bracket, be connected with the second turning handle on the second loading board, first loading board and second loading board are in the direction pivoted motion trend that is close to each other or keeps away from each other. The glue spreading device has the function of preventing glue on the second-layer sole after glue spreading from adhering to hands.

Description

Gluing mechanism for shoes

Technical Field

The application relates to the technical field of shoe processing equipment, in particular to a gluing mechanism for shoes.

Background

The herringbone slippers generally comprise a first layer of sole, a second layer of sole and a herringbone binding belt, wherein the herringbone shoelace and the first layer of sole are generally matched in an inserting manner in the production process of the herringbone slippers, then the gluing operation is carried out on one surface, contacting the first layer of sole, of the second layer of sole, and then the first layer of sole and the second layer of sole are bonded and fixed, so that the integral structural strength of the herringbone slippers is improved, and at present, gluing operation is carried out on the soles by adopting a gluing machine.

The utility model discloses a utility model patent that grant publication number is CN208321216U discloses a gluing machine for shoes, relate to shoes material machinery technical field, which comprises a body, the inside PLC controller that is provided with of body, the middle part is provided with gluey groove, gluey groove both sides upper portion is provided with the support, the bottom is provided with hydraulic sensor, the support is from last to installing last roller of holding one's face and last roller down in proper order, the motor sets up on the right side of right side support and is connected with last roller, glue the jar setting in the left side of left side support, glue jar and for gluey groove pipe connection, flow control valve sets up on the pipe, flow control valve and hydraulic sensor are connected to the PLC controller.

In view of the above-mentioned related technologies, the inventor thinks that the above-mentioned gluing machine attaches the side of the second sole to be glued to the gluing roller during the process of gluing the side of the second sole to be glued, and after the second sole passes through the space between the face pressing roller and the gluing roller, the second sole needs to be turned over to the gluing side and placed on the conveyor belt, and then the second sole is conveyed, so as to be conveyed to the next processing position. Generally, the gluing machine is in the in-process of using, place the second floor sole between pressure face roller and gluing machine through the manual work, after the second floor sole rubber coating is accomplished, the manual work again overturns the second floor sole, need a workman to place the second floor sole in step between pressure face roller and gluing roller and accomplish the back at the second floor sole rubber coating and take out the second floor sole from between pressure face roller and the gluing roller and overturn, the glue of coating on the second floor sole is contacted easily to the in-process staff at the upset, it is comparatively inconvenient when making the staff carry out subsequent operation.

Disclosure of Invention

In order to make glue on the second floor sole after the rubber coating not be stained with and attach the staff, this application provides a rubberizing mechanism for shoes.

The application provides a rubberizing mechanism for shoes adopts following technical scheme:

a gluing mechanism for shoes comprises a gluing machine, wherein the gluing machine comprises a press roller and a gluing roller, the press roller is arranged above the gluing roller, a gluing box is arranged below the gluing roller of the gluing machine, the gluing machine is rotationally connected inside the gluing box, a feeding sliding plate is installed on one side of the gluing machine, a mounting frame is arranged on one side, away from the feeding sliding plate, of the gluing machine, a first bearing plate is connected onto the mounting frame and is rotationally connected onto the mounting frame, the first bearing plate rotates from one side close to the gluing machine to the direction far away from the gluing machine, a first rotating handle is connected to one end, below the mounting frame, of the first bearing plate, a second bearing plate is connected onto the mounting frame in a rotating manner, a second rotating handle is connected onto the second bearing plate, the first bearing plate and the second bearing plate are in the motion trend of rotating directions close to each other or far away from each other, one side that the gluing machine was kept away from to the mounting bracket is connected with the unloading slide, the unloading slide is perpendicular with the extending direction of feeding slide, and when the upper surface of second loading board and mounting bracket was in same horizontal plane, one side of mounting bracket was provided with and promoted the first cylinder on the unloading slide with the second floor sole on the second loading board, the one end that the mounting bracket was close to the gluing machine is provided with photoelectric switch, and when the face rotated to be in same horizontal plane with the last face of mounting bracket on first loading board, photoelectric switch was triggered to first loading board, photoelectric switch is connected with the gluing machine.

By adopting the technical scheme, when the gluing operation of the second layer of soles is carried out, the second layer of soles passes through the gap between the gluing roller and the dough pressing roller through the feeding sliding plate, at the moment, the upper plate surface of the first bearing plate is placed in a state of being horizontal to the upper plate surface of the mounting frame, the glued second layer of soles drops on the first bearing plate after passing through the dough pressing roller and the gluing roller, then the first bearing plate is driven to rotate relative to the mounting frame through the first rotating handle, meanwhile, the second bearing plate is driven to rotate relative to the mounting frame through the second rotating handle, when the first bearing plate and the second bearing plate are both rotated to a vertically upward state, the first bearing plate inclines towards the second bearing plate, so that the first bearing plate is inclined upwards from one side close to the gluing machine to one side far away from the gluing machine, and the second layer of soles dropping on the first bearing plate is turned over and drops on the second bearing plate, afterwards, rotate first loading board to the direction of being close to the gluing machine, rotate the second loading board to the direction of keeping away from the gluing machine, when the second loading board rotates the upper surface and is in same horizontal plane with the upper surface of mounting bracket on, realize the upset to second floor sole, make the rubberized one side upset of second floor sole to up state, later first cylinder action, the piston rod of drive first cylinder promotes the direction promotion of second floor sole unloading slide, after first loading board starts photoelectric switch, subsequent repeated foretell operation of second floor sole rubberizing, thereby make the rubberized in-process of second floor sole not be stained with the people hand, improve the convenience in the follow-up operation process.

Optionally, the below of mounting bracket is provided with first bull stick, the middle part of first bull stick is connected with the pivot, be provided with the rotatory drive assembly of drive pivot in the pivot, be connected with first horizontal pole between first bull stick and the first turning handle, the both ends of first horizontal pole respectively with first bull stick and first turning handle between articulated, when first bull stick is in the state that is on a parallel with the mounting bracket and first horizontal pole and first bull stick hookup location is in the position of keeping away from first loading board and mounting bracket rotation junction, first loading board is in the state that upwards sets up from a lateral tilt that is close to the gluing machine to keeping away from the gluing machine.

Through adopting above-mentioned technical scheme, through the setting of pivot, first bull stick and first horizontal pole for drive assembly drives the pivot rotation, thereby realizes first loading board periodic motion, makes first loading board be in to the direction swing of keeping away from the gluing machine and to the trend of the direction swing of being close to the gluing machine, realizes improving the convenience in the first loading board motion process.

Optionally, first loading board and second loading board are installed in the crisscross state around, first bull stick is provided with the second bull stick in the relative one side of drive assembly, the one end that first horizontal pole was kept away from to the second bull stick articulates there is the second horizontal pole, the second horizontal pole is articulated with the second turning handle, and when first loading board upper surface was in the state with the upper surface parallel and level of mounting bracket, the upper surface of second loading board was in the state with the upper surface parallel and level of mounting bracket.

Through adopting above-mentioned technical scheme, through the setting of second horizontal pole for first loading board and second loading board realize being close to each other or the motion state of keeping away from each other under the drive of first bull stick and second bull stick, thereby can effectively improve the convenience of the relative mounting bracket rotation in-process of first loading board and second loading board.

Optionally, the first bearing plate and the second bearing plate are both connected with a limiting rod extending along the width direction of the first bearing plate or the second bearing plate.

Through adopting above-mentioned technical scheme, through the setting of gag lever post for the gag lever post can carry on spacingly to second floor sole.

Optionally, the limiting rod slides along the length direction of the first bearing plate or the second bearing plate, a first chute extending along the length direction of the first bearing plate is formed in the first bearing plate, a bolt is connected to the limiting rod in a threaded manner, an end cover abutting against the outer side edge of the first chute is arranged on the bolt, and a second chute extending along the length direction of the second bearing plate is formed in the second bearing plate.

Through adopting above-mentioned technical scheme, through the setting of first spout and second spout for the bolt can drive the gag lever post and slide along the length direction of first loading board or second loading board, through the interval between adjustment gag lever post and first stopper or the second stopper, thereby can realize the supporting role of gag lever post to the second floor sole of different width.

Optionally, the one end that the sizing machine was kept away from to the feeding slide is connected with the frame of placing that supplies the second floor sole to place, place one side of frame bottom and feeding slide contact and set up the export with the feeding slide intercommunication, the position of placing the frame bottom is provided with the drive and places the second cylinder that the second floor sole in the frame promoted to the export direction.

Through adopting above-mentioned technical scheme, treat that gummed second floor sole is placed inside placing the frame, through the setting of export for the second cylinder realizes the impetus in proper order to second floor sole, thereby realizes that the second floor sole removes the continuity to on the feeding slide.

Optionally, an opening extending along the height direction of the placing frame is formed in the side wall of the placing frame, which is far away from the outlet.

Through adopting above-mentioned technical scheme, through open-ended setting for the artifical transport condition that can observe the second floor sole of placing the frame inside, thereby can carry out lasting addition operation.

Optionally, the feeding sliding plate is arranged to be inclined downwards from a side close to the placing frame to a side far away from the placing frame, and the blanking sliding plate is arranged to be inclined downwards from a position close to the mounting frame to a position far away from the mounting frame.

Through adopting above-mentioned technical scheme, through all setting feeding slide and unloading slide into the decurrent state of slope to can effectively improve the relative feeding slide of second floor sole and the convenience of unloading slide removal in-process.

Optionally, the driving assembly includes a first gear disposed between the first rotating rod and the second rotating rod and a second gear engaged with the first gear, a rotating shaft for fixing the first rotating rod and the second rotating rod is disposed at a middle shaft of the first gear, and a driving motor is connected to a middle shaft of the second gear.

Through adopting above-mentioned technical scheme, through the rotation of driving motor to the second gear, it is rotatory to drive first gear to can realize that first gear drives the rotation of first bull stick and second bull stick.

Optionally, be provided with on the gluing machine and supply the pressure face roller to rotate the mount pad of connecting on the gluing machine, one side that the mount pad was kept away from to the pressure face roller is provided with the extension piece, threaded connection has the screw rod that extends to on the gluing machine on the extension piece.

Through adopting above-mentioned technical scheme, when the thickness of second floor sole changed, to the rotatory screw rod of the direction that is close to the gluing machine for the relative mount pad of pressure face roller takes place to rotate, thereby realizes the adjustment of interval between pressure face roller and the gluing roller.

In summary, the present application includes at least one of the following benefits:

1. when the gluing operation of the second layer of soles is carried out, the second layer of soles passes through a gap between the gluing roller and the flour pressing roller through the feeding sliding plate, at the moment, the first bearing plate is placed in a state that the upper plate surface is horizontal to the upper plate surface of the mounting frame, when the glued second layer of soles passes through the flour pressing roller and the gluing roller and falls on the first bearing plate, the first bearing plate is driven to rotate relative to the mounting frame through the first rotating handle, meanwhile, the second bearing plate is driven to rotate relative to the mounting frame through the second rotating handle, after the first bearing plate and the second bearing plate are both rotated to a vertically upward state, the first bearing plate is inclined towards the second bearing plate, so that the first bearing plate is inclined upwards from one side close to the gluing machine to one side far away from the gluing machine, and the second layer of soles falling on the first bearing plate is turned and falls on the second bearing plate, then, the first bearing plate is rotated towards the direction close to the gluing machine, the second bearing plate is rotated towards the direction far away from the gluing machine, when the second bearing plate is rotated to the upper surface and the upper surface of the mounting frame are positioned on the same horizontal plane, the second layer of sole is turned over, so that hands are not attached to the second layer of sole in the gluing process, and convenience in the subsequent operation process is improved;

2. through the setting of second horizontal pole for first loading board and second loading board realize being close to each other or the motion state of keeping away from each other under the drive of bull stick, thereby can effectively improve the convenience of the relative mounting bracket rotation in-process of first loading board and second loading board.

Drawings

FIG. 1 is a schematic structural view of the overall structure of the present embodiment;

FIG. 2 is a schematic structural diagram of the highlighting placement frame structure of the present embodiment;

FIG. 3 is a schematic structural view showing the structure of the glue applicator of the present embodiment;

FIG. 4 is a schematic sectional view showing the structure of the mounting frame of the present embodiment;

FIG. 5 is a schematic view illustrating the movement process of the first carrier plate according to the present embodiment;

FIG. 6 is a schematic view illustrating a state of the second supporting plate according to the present embodiment;

FIG. 7 is a schematic view illustrating a structure of a first supporting plate according to the present embodiment;

FIG. 8 is a schematic structural view of the connection structure of the bump stop of the present embodiment;

FIG. 9 is a schematic view of the first embodiment highlighting the state of the first cylinder movement.

Description of reference numerals: 1. gluing machine; 11. a dough pressing roller; 111. an extension block; 12. a mounting seat; 13. gluing rollers, 14, and gluing boxes; 2. a feeding slide plate; 3. a mounting frame; 4. a blanking sliding plate; 5. a conveyor belt; 6. placing the frame; 61. an outlet; 62. an opening; 7. a second cylinder; 8. a screw; 9. a first bearing plate; 91. a first stem; 92. a first chute; 10. a second carrier plate; 101. a second stem; 102. a second chute; 13. a first rotating rod; 14. a second rotating rod; 15. a first rotating lever; 16. a second rotating rod; 17. a rotating shaft; 18. a first cross bar; 19. a second cross bar; 20. a first gear; 21. a second gear; 22. a drive motor; 23. a photoelectric switch; 24. a limiting rod; 25. a bolt; 251. an end cap; 26. a first cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-9.

The embodiment of the application discloses rubberizing mechanism for shoes. Referring to fig. 1, the gluing mechanism for shoes comprises a gluing machine 1, a feeding sliding plate 2 is arranged on one side of the gluing machine 1, an installation frame 3 is installed on one side, away from the feeding sliding plate 2, of the gluing machine 1, and one end, away from the gluing machine 1, of the installation frame 3 is connected with a blanking sliding plate 4, the extension direction of which is perpendicular to the feeding sliding plate 2. One end of the blanking sliding plate 4, which is far away from the mounting frame 3, is provided with a conveying belt 5 which moves the second-layer sole falling from the blanking sliding plate 4 to the direction far away from the mounting frame 3.

Referring to fig. 2 and 3, the feed slide 2 is integrally provided so as to be inclined downward from the side away from the gumming machine 1 to the side close to the gumming machine 1. A placing frame 6 is arranged at one end of the feeding sliding plate 2 far away from the gluing machine 1, the bottom edge of the placing frame 6 is fixedly connected with the feeding sliding plate 2, the placing frame 6 is integrally rectangular, an area for stacking and placing second-layer soles from bottom to top is formed inside the placing frame 6, an outlet 61 for moving the second-layer soles to the outside of the placing frame 6 is formed in one side of the placing frame 6 facing the gluing machine 1, an opening 62 extending along the height direction of the placing frame 6 is formed in one side of the placing frame 6 far away from the outlet 61, a second cylinder 7 pushing from the direction of the outlet 61 to the direction of the opening 62 is arranged at the bottom of the opening 62 of the placing frame 6, in the specific machining process, the second-layer soles to be machined are placed inside the placing frame 6, the second cylinder 7 is driven intermittently, so that a piston rod of the second cylinder 7 sequentially pushes the second-layer soles in the placing frame 6 to the position of the gluing machine 1, and continuous feeding of the second layer of sole is realized.

Referring to fig. 2 and 3, a flour pressing roller 11 and a gluing roller 13 are rotatably connected to the gluing machine 1, a glue box 14 is arranged on the lower portion of the gluing roller, a mounting seat 12 is arranged on one side, away from the feeding sliding plate 2, of the flour pressing roller 11, one side, close to the mounting seat 12, of the flour pressing roller 11 is rotatably connected with the gluing machine 1, one side, close to the feeding sliding plate 2, of the flour pressing roller 11 is connected with an extension block 111, a screw rod 8 is connected to the extension block 111 in a threaded manner, one side, close to the tabletop of the gluing machine 1, of the screw rod 8 is abutted to the tabletop of the gluing machine 1, when the thickness of the second-layer sole is changed, the screw rod 8 is rotated in the direction close to the tabletop of the gluing machine 1, the flour pressing roller 11 rotates relative to the mounting seat 12, and therefore the distance between the flour pressing roller 11 and the gluing roller 13 is increased.

Referring to fig. 4 and 5, a first bearing plate 9 and a second bearing plate 10 are rotatably connected to the mounting frame 3, a first rotary rod 13 connected to the first bearing plate 9 is rotated by the first bearing plate 9 in a position where the mounting frame 3 corresponds to the first bearing plate 9, a second rotary rod 14 connected to the second bearing plate 10 in a rotation position where the mounting frame 3 corresponds to the second bearing plate 10 is provided, in an initial state, the upper surface of the first bearing plate 9 and the upper surface of the mounting frame 3 are on the same horizontal plane, one end of the first bearing plate 9 is close to the gluing machine 1, when the first bearing plate 9 rotates relative to the first rotary rod 13, the first bearing plate 9 rotates from a position close to the gluing machine 1 to a direction far away from the gluing machine 1. When the second bearing plate 10 is in the initial state, the upper surface of the second bearing plate 10 and the upper surface of the mounting frame 3 are located on the same horizontal plane, and when the second bearing plate 10 rotates relative to the second rotating rod 14, the second bearing plate 10 rotates from a position far away from the gluing machine 1 to a direction close to the gluing machine 1.

Referring to fig. 4 and 6, when the first bearing plate 9 is in a horizontal state, one end of the first bearing plate 9, which is arranged at the lower side of the mounting frame 3, is connected with a first rotating handle 91, an obtuse angle which is larger than 90 degrees and smaller than 180 degrees is formed between the first rotating handle 91 and the first bearing plate 9, when the second bearing plate 10 is in a horizontal state, one end of the second bearing plate 10, which is arranged at the lower side of the mounting frame 3, is connected with a second rotating handle 101, and an included angle between the second rotating handle 101 and the second bearing plate 10 is also an obtuse angle which is larger than 90 degrees and smaller than 180 degrees.

Referring to fig. 5 and 6, in order to improve convenience and synchronism of the first and second bearing plates 9 and 10 during the turnover process, two first rotating rods 15 and two second rotating rods 16 are installed below the mounting frame 3, the middle portions of the first rotating rods 15 and the second rotating rods 16 are fixedly connected with a rotating shaft 17, a first cross rod 18 is arranged between one end of the first rotating rod 15 and the first rotating handle 91, and two ends of the first cross rod 18 are respectively hinged to the first rotating handle 91 and the first rotating rod 15. A second cross rod 19 is connected between one end of the second rotating rod 16 far away from the first cross rod 18 and the second rotating handle 101, and two ends of the second cross rod 19 are respectively hinged with the second rotating rod 16 and the second rotating handle 101.

Referring to fig. 4 and 6, when the position where the first rotating bar 15 is hinged to the first cross bar 18 is close to the first rotating bar 15, the first bearing plate 9 and the second bearing plate 10 are in a state of being at the same level with the upper surface of the mounting frame 3. When the rotating shaft 17 drives the first rotating rod 15 and the second rotating rod 16 to rotate, and the position where the first cross rod 18 is hinged to the first rotating rod 15 rotates to the position away from the first rotating rod 15, the first bearing plate 9 rotates to a vertical upward state, and at this time, the first bearing plate 9 is integrally positioned in a state that the first bearing plate inclines upward from one side close to the gluing machine 1 to one side away from the gluing machine 1.

Referring to fig. 4 and 6, when the rotating shaft 17 continues to drive the first rotating rod 15 to rotate, the first bearing plate 9 is turned to a side close to the gluing machine 1, and gradually returns to a state that the upper surface of the first bearing plate 9 and the upper surface of the mounting frame 3 are in the same horizontal plane.

Referring to fig. 3 and 6, a driving assembly for driving the rotating shaft 17 to rotate is connected to the rotating shaft 17, the driving assembly includes a first gear 20 disposed on the rotating shaft 17 in a penetrating manner and a second gear 21 disposed below the first gear 20 and engaged with the first gear 20, and a driving motor 22 is connected to a central axis of the second gear 21.

Referring to fig. 3 and 4, when the first loading plate 9 is at the same level as the upper surface of the mounting frame 3, a photoelectric switch 23 is installed at a position of the mounting frame 3 corresponding to the end of the first loading plate 9, and the photoelectric switch 23 is connected to the motor of the glue applicator 1. When the first bearing plate 9 shields the photoelectric switch 23, the photoelectric switch 23 is triggered and the gluing machine 1 is driven to work, so that the second-layer soles fall on the first bearing plate 9 through the gluing machine 1. At this time, the driving motor 22 works to drive the first bearing plate 9 and the second bearing plate 10 to turn in the direction close to each other, so that the second layer of soles on the first bearing plate 9 turns over on the second bearing plate 10, and in the process that the rotating rod continues to rotate, the second layer of soles on the second bearing plate 10 turns over to the state that the gluing surface is vertically upward.

Referring to fig. 7 and 8, a limiting rod 24 extending along the width direction of the first bearing plate 9 or the second bearing plate 10 is connected to the first bearing plate 9 and the second bearing plate 10, the limiting rod 24 slides along the length direction of the first bearing plate 9, a first chute 92 extending along the length direction of the first bearing plate 9 is formed in the first bearing plate 9, a bolt 25 is connected to a position where the limiting rod 24 is arranged on the lower plate surface of the first bearing plate 9 in a threaded manner, an end cover 251 abutting against the outer side edge of the first chute 92 is welded and fixed to the bolt 25, when the position of the limiting rod 24 needs to be adjusted, the connection between the bolt 25 and the limiting rod 24 is loosened, the limiting rod 24 is driven by the bolt 25 to slide relative to the first bearing plate 9, when the limiting rod 24 moves to a required position, the bolt 25 is tightened, and the position of the limiting rod 24 is fixed.

Referring to fig. 7 and 8, a second sliding groove 102 for sliding the bolt 25 is formed on the second bearing plate 10, so as to adjust the position of the limiting rod 24 relative to the second bearing plate 10.

Referring to fig. 8, one end of the mounting frame 3, which is far away from the gluing machine 1, is welded with the blanking sliding plate 4, the extending direction of the blanking sliding plate 4 is perpendicular to the extending direction of the feeding sliding plate 2, one side of the mounting frame 3 is provided with a first cylinder 26, when a piston rod of the first cylinder 26 extends out, the first cylinder 26 pushes the second layer of soles on the second bearing plate 10 to the blanking sliding plate 4, so that the second layer of soles on the second bearing plate 10 is pushed. The second layer of soles, which are glued, are transported by the conveyor belt 5 to the next working step for subsequent working operations. Unloading slide 4 sets up to the one end slope that is close to conveyer 5 from the one end of being connected with mounting bracket 3 and sets up downwards, improves the convenience of second floor sole data send process.

Referring to fig. 8, a movement sequence is set among the first air cylinder 26, the second air cylinder 7 and the driving motor 22, after the piston rod of the first air cylinder 26 is recovered, the piston rod of the second air cylinder 7 is pushed out, and then the driving motor 22 works, so that the automation of the whole gluing process is effectively improved.

The application embodiment a gluing mechanism for shoes implements the principle and is:

when the gluing operation of the second layer of soles is required, the second layer of soles to be glued is placed in the placing frame 6, the second layer of soles is driven by the second air cylinder 7 to be pushed towards the gluing machine 1, after the gluing operation of the gluing machine 1 is carried out on the second layer of soles, the second layer of soles fall on the first bearing plate 9, the first bearing plate 9 is turned over towards the direction far away from the gluing machine 1 under the driving of the first rotating rod 15, when the position where the first rotating rod 15 is hinged with the first cross rod 18 is at the position far away from the first rotating rod 15, the first bearing plate 9 is inclined upwards from the position close to the gluing machine 1 to the position far away from the gluing machine 1, so that the second layer of soles arranged on the first bearing plate 9 are turned over to the second bearing plate 10, the gluing surface of the second layer of soles is upward, and when the upper surface of the second bearing plate 10 is flush with the upper surface of the mounting frame 3, the first cylinder 26 pushes the sole to push towards the direction of the discharging sliding plate 4, the sole is conveyed to the next processing procedure through the conveying belt 5, the second layer sole is turned over through the first bearing plate 9 and the second bearing plate 10, and therefore the possibility that glue on the second layer sole after gluing is adhered to hands can be effectively avoided.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a rubberizing mechanism for shoes, includes gluing machine (1), gluing machine (1) is including pressure face roller (11) and rubberizing roller (13), the top of rubberizing roller (13) is arranged in pressure face roller (11), gluing machine (1) is provided with in the below of rubberizing roller (13) and glues box (14), rubberizing machine (1) swivelling joint is in the inside of gluing box (14), its characterized in that: a feeding sliding plate (2) is installed on one side of the gluing machine (1), a mounting frame (3) is arranged on one side, away from the feeding sliding plate (2), of the gluing machine (1), a first bearing plate (9) is connected onto the mounting frame (3) in a rotating mode, the first bearing plate (9) rotates from one side close to the gluing machine (1) to the direction away from the gluing machine (1), a first rotating handle (91) is connected to one end, below the mounting frame (3), of the first bearing plate (9), a second bearing plate (10) is connected onto the mounting frame (3) in a rotating mode, the second rotating handle (101) is connected onto the second bearing plate (10), and the first bearing plate (9) and the second bearing plate (10) are in the direction rotating movement trend of being close to or away from each other, one side that gluing machine (1) was kept away from in mounting bracket (3) is connected with unloading slide (4), unloading slide (4) are perpendicular with the extending direction of feeding slide (2), one side of mounting bracket (3) is provided with first cylinder (26), and when second loading board (10) and the upper surface of mounting bracket (3) were in same horizontal plane, second layer sole on with second loading board (10) promoted to unloading slide (4) on first cylinder (26), the one end that mounting bracket (3) are close to gluing machine (1) is provided with photoelectric switch (23), when first loading board (9) upper plate rotated to be in same horizontal plane with the upper plate of mounting bracket (3) when, first loading board (9) triggered photoelectric switch (23), photoelectric switch (23) are connected with gluing machine (1).

2. The gluing mechanism for shoes according to claim 1, wherein: the below of mounting bracket (3) is provided with first bull stick (15), the middle part of first bull stick (15) is connected with pivot (17), be provided with the rotatory drive assembly of drive pivot (17) on pivot (17), be connected with first horizontal pole (18) between first bull stick (15) and first turning handle (91), the both ends of first horizontal pole (18) articulate respectively between with first bull stick (15) and first turning handle (91), when first bull stick (15) are in the state that is on a parallel with mounting bracket (3) and first horizontal pole (18) and the hookup location of first bull stick (15) are in the position of keeping away from first loading board (9) and mounting bracket (3) rotation junction, first loading board (9) are in the state that upwards sets up from one side that is close to gluing machine (1) to the lopsidedness of keeping away from gluing machine (1).

3. The gluing mechanism for shoes according to claim 2, wherein: first loading board (9) and second loading board (10) are installed in the crisscross state around, first bull stick (15) are provided with second bull stick (16) in the relative one side of drive assembly, the one end that first horizontal pole (18) were kept away from in second bull stick (16) articulates there is second horizontal pole (19), second horizontal pole (19) are articulated with second turning handle (101), and when first loading board (9) upper surface was in the state with the upper surface parallel and level of mounting bracket (3), the upper surface of second loading board (10) was in the state with the upper surface parallel and level of mounting bracket (3).

4. The gluing mechanism for shoes according to claim 1, wherein: and the first bearing plate (9) and the second bearing plate (10) are both connected with a limiting rod (24) extending along the width direction of the first bearing plate (9) or the second bearing plate (10).

5. The gluing mechanism for shoes according to claim 4, wherein: the utility model discloses a bearing plate, including gag lever post (24), first loading board (9) or second loading board (10), the length direction of gag lever post (24) along first loading board (9) or second loading board (10) slides, set up first spout (92) that extend along first loading board (9) length direction on first loading board (9), threaded connection has bolt (25) on gag lever post (24), be provided with end cover (251) of butt at first spout (92) outside border on bolt (25), set up second spout (102) that extend along the length direction of second loading board (10) on second loading board (10).

6. The gluing mechanism for shoes according to claim 1, wherein: the one end that gluing machine (1) was kept away from in feeding slide (2) is connected with the frame (6) of placing that supplies the second floor sole to place, place frame (6) bottom and one side of feeding slide (2) contact and offer export (61) with feeding slide (2) intercommunication, the position of placing frame (6) bottom is provided with second cylinder (7) that the drive placed the second floor sole in frame (6) and promoted to export (61) direction.

7. The gluing mechanism for shoes according to claim 6, wherein: an opening (62) extending along the height direction of the placing frame (6) is formed in the side wall of one side, far away from the outlet (61), of the placing frame (6).

8. The gluing mechanism for shoes according to claim 6, wherein: the feeding sliding plate (2) is arranged to be inclined downwards from one side close to the placing frame (6) to one side far away from the placing frame (6), and the blanking sliding plate (4) is arranged to be inclined downwards from the position close to the mounting frame (3) to the position far away from the mounting frame (3).

9. The gluing mechanism for shoes according to claim 2, wherein: the driving assembly comprises a first gear (20) arranged between the first rotating rod (15) and the second rotating rod (16) and a second gear (21) meshed with the first gear (20), a rotating shaft (17) used for fixing the first rotating rod (15) and the second rotating rod (16) is arranged at the middle shaft of the first gear (20), and a driving motor (22) is connected at the middle shaft of the second gear (21).

10. The gluing mechanism for shoes according to claim 1, wherein: go up and be provided with on gum machine (1) and supply pressure face roller (11) to rotate mount pad (12) of connecting on gum machine (1), one side that mount pad (12) were kept away from in pressure face roller (11) is provided with extension piece (111), threaded connection has screw rod (8) that extend to on gum machine (1) on extension piece (111).

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