CN112956787A - Energy-concerving and environment-protective type shoes processing equipment - Google Patents

Abstract

The invention discloses energy-saving and environment-friendly shoe processing equipment, which relates to the technical field of shoe processing equipment and comprises a supporting table, a glue storage mechanism, a sole gluing mechanism, a shoe edge gluing mechanism and a limiting mechanism, wherein the glue storage mechanism is arranged at the top of the supporting table, a lifting disc is arranged right above the glue storage mechanism, three lifting rods arranged at equal angular difference are arranged between the glue storage mechanism and the lifting disc, the top of the lifting disc is also provided with a bearing component connected with the lifting disc, the limiting mechanism is arranged on the bearing component, and the shoe edge gluing mechanism comprises a moving component and a linkage component for driving the moving component to move. The invention improves the positioning stability of the insole, the vamp or the sole to be glued through the limiting mechanism in the gluing process, prevents the situation of tilting or deviation in the subsequent gluing process, improves the gluing effect and efficiency, protects the working environment, reduces the using amount of glue, and achieves the aims of energy conservation and environmental protection.

Description

Energy-concerving and environment-protective type shoes processing equipment

Technical Field

The invention relates to the technical field of shoe processing equipment, in particular to energy-saving and environment-friendly shoe processing equipment.

Background

The shoe refers to a wearing article which is worn on the foot and used for protecting the foot and facilitating walking. Is made of leather, cloth, rubber and other materials. Shoes have a long history of development. Approximately 5000 years ago in the yangshao culture period, the most primitive shoe made of hide appeared. Shoes are a tool for protecting feet of people from being injured. At first, in order to overcome special conditions and prevent feet from being difficult or injured, fur shoes are invented. Shoes with various styles and functions are seen everywhere, the materials of the shoes mainly comprise natural fiber fabrics and leather, more and more chemical synthetic materials are produced in recent times, and 4 types of fabrics (upper materials), linings, bottom materials and auxiliary materials can be divided according to the structure of the shoes.

Chinese patent No. CN204519551U discloses a shoe gluing machine, which relates to the technical field of shoe processing, and comprises a base and a gluing platform, wherein the gluing platform is connected to the base, a gluing component is arranged on the gluing platform, the gluing component comprises a gluing wheel and a pressing wheel which are parallel to each other along the axial line, and a rotary mechanism is driven to rotate the gluing wheel, a glue groove corresponding to the position of the gluing wheel is arranged on the gluing platform, a glue spraying device is fixedly connected in the glue groove, the glue spraying device comprises a nozzle and a pump, the nozzle is fixedly connected with the pump, the nozzle faces the gluing wheel, so that the problem that the above mentioned gluing machine in the current market can have dust, dust or fiber on the outer side wall of the shoe insole and the inclined plane of the shoe or the shoe sole is solved, although the surface of the shoe before coating is subjected to the preliminary cleaning treatment of a brush, however, manual cleaning is slow, and some workers are greedy to save labor and completely fail to achieve the necessary cleaning effect, so that the manufactured shoes are very easy to degum, and the qualification rate of finished products is seriously reduced.

However, the above patent has the following disadvantages in use. Firstly, above-mentioned patent adopts the pinch roller to fix a position the shoe-pad, vamp or the sole of waiting the rubberizing, and its pinch roller is limited with the area of contact between the shoe-pad, vamp or the sole of waiting the rubberizing to can appear the rubber coating wheel and rotate the in-process, treat that certain perk or skew can take place for shoe-pad, vamp or the sole of rubberizing, influence its rubberizing effect and efficiency. In addition, in the above patent, glue is pumped into the spray head through the pump, so that the glue is sprayed onto the surface of the glue spreading wheel through the spray head, and the gluing of the glue spreading wheel is completed, but in the gluing process, in order to ensure that the gluing on the surface of the glue spreading wheel is uniform, the rotation of the glue spreading wheel can enable the glue to splash under the glue spraying of the spray head, so that a large amount of residual glue on a gluing platform can be caused, the working environment is influenced, and the waste of the glue is also caused, and the sponge block is abutted against the glue spreading wheel, so that the redundant glue can be absorbed, and the recovery of the glue is realized; secondly, the bottom rubberizing step of shoe-pad, vamp or sole can only be satisfied in the above-mentioned patent, can not carry out the rubberizing to the welt, and the practicality is lower.

Disclosure of Invention

The invention aims to provide energy-saving and environment-friendly shoe processing equipment to solve the technical problems that a shoe pad, a vamp or a sole to be glued can deviate to a certain extent in the gluing process in the prior art, so that the gluing effect and efficiency are poor, the working environment is affected, and glue waste is serious.

The invention provides energy-saving and environment-friendly shoe processing equipment which comprises a supporting table, a glue storage mechanism, a sole gluing mechanism, a shoe edge gluing mechanism and a limiting mechanism, the glue storage mechanism is arranged at the top of the support table, the sole gluing mechanism is arranged in the glue storage mechanism, a lifting disc which is horizontally arranged is arranged right above the glue storage mechanism, three lifting rods which are arranged with equal angle difference are arranged between the glue storage mechanism and the lifting disc, the shoe edge gluing mechanism is arranged on a lifting disc, the top of the lifting disc is also provided with a bearing component connected with the lifting disc, the limiting mechanism is arranged in the bearing component, the shoe edge gluing mechanism comprises a moving component and a linkage component for driving the moving component to move, the moving assembly is vertically installed at the bottom of the lifting disc, and the linkage assembly is installed on the lifting disc and connected with the moving assembly.

Further, it glues mechanism including the storage and glues bucket, basal disc, bottom substrate, filter screen, rotation motor and rotating vane to deposit, the storage is glued the bucket and is set up between basal disc and brace table, the central part of basal disc is equipped with glues the inside round hole that is linked together of bucket with the storage, bottom substrate and filter screen all are located the round hole, the filter screen is loop configuration and is connected with bottom substrate and basal disc, still be equipped with the zone of heating in the storage is glued the bucket, the outer wall that the bucket was glued in the storage still is equipped with rather than the income of being linked together and glues the port, rotate the motor and install on brace table's interior roof, and rotate the output of motor and be connected with rotating vane's bottom, rotating vane rotates and installs on the interior diapire that the bucket was glued in the.

Further, sole rubberizing mechanism includes pivot, glue spreader, driven bevel gear, initiative bevel gear and driving motor, the pivot is rotated and is installed in the storage glue bucket, the glue spreader is fixed in the pivot to the glue spreader is located the center department of subbase plate, driven bevel gear is fixed and is served at the one end of pivot, driving motor installs on the lateral wall of storage glue bucket, initiative bevel gear is fixed on driving motor's output and meshes mutually with driven bevel gear.

Further, the carrier assembly includes shoe board, overhead gage and two V type framves, the shoe board is located the subbottom board directly over, just the shoe board is located the center department of lifter plate, it forms the guide rail who coincide mutually with sole profile limit to go up between shoe board and the lifter plate, the overhead gage is installed in the top of lifter plate, two V type frame symmetry sets up inside the carrier assembly, and the both ends of every V type frame are connected with the overhead gage, and the well tip of every V type frame is connected with the shoe board.

Further, the removal subassembly includes rubberizing motor, live-rollers, installing frame, guide roller spare and two connection journal stirrup, the one end that the guide roller spare was passed the guide track and the one end of guide roller spare is connected with the top of installing frame, the other end overlap joint of guide roller spare is on the top of lifter plate and last shoe board, the rubberizing motor is fixed on the installing frame, the live-rollers is installed on the output of rubberizing motor, two connect the journal stirrup symmetry to be fixed on the both sides wall of installing frame, be equipped with on the filter screen and supply the live-rollers to move in vertical direction and dodge the hole.

Further, the linkage subassembly includes L template, linkage motor, drive tooth, driven tooth, control line wheel, rotation line wheel and two wire rope, the fixed top that sets up at the lifter plate of L template, the linkage motor is installed at the top of L template, control line wheel and rotation line wheel all rotate and install the below at the lifter plate, and the one end of control line wheel is connected with the output of linkage motor, one wire rope's both ends are connected with a connection journal stirrup and rotation line wheel respectively, another wire rope's both ends are connected with another connection journal stirrup and control line wheel respectively, drive tooth and driven tooth are fixed respectively and are served at one of the one end of control line wheel and rotation line wheel to drive tooth and driven tooth mesh mutually.

Furthermore, stop gear is including driving actuating cylinder, connecting seat and shoes clamp plate, it installs at the top of last shoe board to drive actuating cylinder, shoes clamp plate fixed connection is in the bottom of connecting seat, the output that drives actuating cylinder passes last shoe board and is connected with the connecting seat.

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

(1) when the shoe sole gluing device works, the shoe sole, the vamp or the sole to be glued are placed on the base substrate, then the limiting mechanism works to realize the comprehensive positioning of the shoe sole, the vamp or the sole to be glued, the positioning stability of the shoe sole, the vamp or the sole to be glued is improved, the situation that the shoe sole, the vamp or the sole to be glued is tilted or deviated in the subsequent gluing process is prevented, and the gluing effect and efficiency are improved.

(2) When the automatic shoe edge gluing device works, firstly, a shoe pad, a shoe upper or a shoe sole to be glued is placed on a base substrate, then the shoe pad, the shoe upper or the shoe sole to be glued is positioned through a limiting mechanism, a linkage assembly drives a moving assembly to move on a guide rail, and the automatic shoe edge gluing step is completed.

(3) The bottom surface gluing step of the insole to be glued on the bottom substrate is realized through the work of the sole gluing mechanism, wherein the glue storage barrel can carry out the automatic gluing step on the glue spreader only by keeping a certain glue amount.

(4) The heating layer and the rotating motor which are arranged in the glue storage barrel drive the rotating blades to rotate, so that glue in the glue storage barrel can be heated and stirred in real time, and the glue is prevented from solidifying to influence the subsequent processing steps.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a schematic view of a second angular perspective structure according to the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a cross-sectional view of the present invention;

FIG. 6 is a partial perspective view of the present invention;

fig. 7 is a side view of fig. 6.

Reference numerals:

1. a support table; 2. a glue storage mechanism; 21. a glue storage barrel; 22. a base plate; 23. a base substrate; 24. a filter screen; 241. avoiding holes; 25. rotating the motor; 26. rotating the blade; 27. a heating layer; 28. an adhesive inlet port; 3. a sole gluing mechanism; 31. a rotating shaft; 32. glue spreading roller; 33. driven bevel gears; 34. driving bevel gears; 35. a drive motor; 4. a shoe edge gluing mechanism; 41. a moving assembly; 411. gluing a motor; 412. a rotating roller; 413. installing a frame; 414. a guide roller member; 415. connecting the support lug; 42. a linkage assembly; 421. an L-shaped plate; 422. a linkage motor; 423. a driving tooth; 424. a driven tooth; 425. a control wire wheel; 426. rotating the wire wheel; 427. a wire rope; 5. a limiting mechanism; 51. a driving cylinder; 52. a connecting seat; 53. a shoe press plate; 6. a lifting plate; 7. a lifting rod; 8. a load bearing assembly; 81. a shoe plate is put on; 82. a top support; 83. a V-shaped frame; 84. and (4) guiding the track.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The embodiment of the invention provides energy-saving and environment-friendly shoe processing equipment which comprises a supporting table 1, a glue storage mechanism 2, a sole gluing mechanism 3, a shoe edge gluing mechanism 4 and a limiting mechanism 5, wherein the glue storage mechanism 2 is arranged at the top of the supporting table 1, the sole gluing mechanism 3 is arranged in the glue storage mechanism 2, a lifting disc 6 which is horizontally arranged is arranged right above the glue storage mechanism 2, three lifting rods 7 which are arranged at equal angle difference are arranged between the glue storage mechanism 2 and the lifting disc 6, the shoe edge gluing mechanism 4 is arranged on the lifting disc 6, a bearing component 8 connected with the lifting disc 6 is further arranged at the top of the lifting disc 6, the limiting mechanism 5 is arranged in the bearing component 8, the shoe edge gluing mechanism 4 comprises a moving component 41 and a linkage component 42 for driving the moving component 41 to move, the moving component 41 is vertically arranged at the bottom of the lifting disc 6, the linkage assembly 42 is mounted on the lifting plate 6 and connected with the moving assembly 41.

In the working process of the invention, the insole, the vamp or the sole to be glued are placed on the base substrate 23, then the limit mechanism 5 is used for completing the overall positioning of the insole, the vamp or the sole to be glued, the positioning stability of the insole, the vamp or the sole to be glued is improved, the situation of tilting or deviation in the subsequent gluing process is prevented, the gluing effect and the gluing efficiency are improved, in addition, the linkage assembly 42 is used for driving the moving assembly 41 to move, the automatic gluing step of the shoe edge is completed, the versatility of the device is further improved, the sole gluing mechanism 3 works to realize the step of gluing the bottom surface of the insole to be glued on the base substrate 23, wherein, the three lifting rods 7 lift and drive the moving assembly 41 to move in the vertical direction, the automatic gluing step is realized, compared with the prior art adopting a spray head, the phenomenon that the gluing splashes to cause the working environment pollution can not occur, and the working efficiency is improved, the use amount of glue is further reduced, and the aims of energy conservation and environmental protection are fulfilled.

Specifically, glue storage mechanism 2 includes glue storage barrel 21, basal disc 22, bottom substrate 23, filter screen 24, rotation motor 25 and rotating blade 26, glue storage barrel 21 sets up between basal disc 22 and supporting bench 1, the central part of basal disc 22 is equipped with the round hole that is linked together with glue storage barrel 21 inside, bottom substrate 23 and filter screen 24 all are located the round hole, filter screen 24 is loop configuration and is connected with bottom substrate 23 and basal disc 22, still be equipped with zone of heating 27 in the glue storage barrel 21, glue storage barrel 21's outer wall still is equipped with rather than the income gluey port 28 that is linked together, and glue volume in glue storage barrel 21 is certain through going into gluey port 28 and keeping, and the automatic rubberizing step of subsequent sole rubberizing mechanism 3 of being convenient for can make removal subassembly 41 retrieve through filter screen 24 and flow to glue storage barrel 21 in treating shoe-pad, vamp or the sole rubberizing in-process, the use amount of glue has been reduced, the rotating electrical machines 25 is installed on the interior roof of a supporting bench 1, and the output of rotating electrical machines 25 is connected with rotating vane 26's bottom, rotating vane 26 rotates and installs on the interior diapire of glue storage bucket 21, drives rotating vane 26 through zone of heating 27 and the rotating electrical machines 25 that set up in glue storage bucket 21 and rotates, can be in real time to glue heating and stirring that is located glue storage bucket 21, prevents that glue from solidifying, influences subsequent processing step.

Specifically, sole rubberizing mechanism 3 includes pivot 31, glue spreader 32, driven bevel gear 33, initiative bevel gear 34 and driving motor 35, pivot 31 rotates and installs in glue storage barrel 21, glue spreader 32 fixes on pivot 31 to glue spreader 32 is located the center department of base plate 23, driven bevel gear 33 is fixed in one of pivot 31 and is served, driving motor 35 installs on glue storage barrel 21's lateral wall, initiative bevel gear 34 is fixed on driving motor 35's output and is engaged with driven bevel gear 33 mutually, rotates through driving motor 35 drive rather than the initiative bevel gear 34 that the output is connected, drives the driven bevel gear 33 who meshes with initiative bevel gear 34 mutually and rotates, drives the epaxial glue spreader 32 of pivot 31 and rotates, realizes the automatic rubberizing step to the insole bottom surface of treating on being located base plate 23 immediately, and meanwhile, because of the glue volume in glue storage barrel 21 keeps certain, therefore, when the glue spreader 32 rotates to glue the bottom surface of the insole to be glued, glue can be continuously and uniformly adhered to the surface of the glue spreader 32, and the continuous glue supplying and gluing step is realized.

Specifically, the bearing component 8 includes an upper shoe plate 81, a top bracket 82 and two V-shaped frames 83, the upper shoe plate 81 is located right above the bottom substrate 23, the upper shoe plate 81 is located at the center of the lifting disc 6, a guide rail 84 matched with the outline of the sole is formed between the upper shoe plate 81 and the lifting disc 6, the top bracket 82 is installed at the top of the lifting disc 6, the two V-shaped frames 83 are symmetrically arranged inside the bearing component 8, two ends of each V-shaped frame 83 are connected with the top bracket 82, the middle end of each V-shaped frame 83 is connected with the upper shoe plate 81, the linkage component 42 drives the moving component 41 to move along the guide rail 84, and therefore the moving component 41 can automatically glue the sole edge on the bottom substrate 23.

Specifically, the removal subassembly 41 includes rubberizing motor 411, rotation roller 412, installing frame 413, guide roll piece 414 and two connection lugs 415, the one end of guide roll piece 414 is passed guide track 84 and guide roll piece 414's one end and is connected with the top of installing frame 413, the other end overlap joint of guide roll piece 414 is on the top of lifter plate 6 and last shoe board 81, rubberizing motor 411 is fixed on installing frame 413, rotation roller 412 is installed on the output of rubberizing motor 411, two connect the lug 415 symmetry and fix on the both sides wall of installing frame 413, drive rotation roller 412 through rubberizing motor 411 and rotate, drive the installing frame 413 that is connected with two connection lugs 415 and remove along guide track 84 under the drive of linkage subassembly 42, and satisfy the automatic rubberizing step in the shoe limit of sole, be equipped with on the filter screen 24 and supply rotation roller 412 to dodge hole 241 that moves in the vertical direction, the lifting of the three lifting rods 7 drives the rotating roller 412 to move downwards from the avoiding hole 241 to enter the glue storage barrel 21, so that the glue supply step is completed, and the filter screen 24 can recover redundant glue to achieve the effect of preliminary energy conservation.

Specifically, the linkage assembly 42 includes an L-shaped plate 421, a linkage motor 422, a driving tooth 423, a driven tooth 424, a control pulley 425, a rotating pulley 426 and two steel wire ropes 427, the L-shaped plate 421 is fixedly arranged on the top of the lifting disc 6, the linkage motor 422 is arranged on the top of the L-shaped plate 421, the control pulley 425 and the rotating pulley 426 are both rotatably arranged below the lifting disc 6, one end of the control pulley 425 is connected with the output end of the linkage motor 422, two ends of one steel wire rope 427 are respectively connected with one connecting lug 415 and the rotating pulley 426, two ends of the other steel wire rope 427 are respectively connected with the other connecting lug 415 and the control pulley 425, the driving tooth 423 and the driven tooth 424 are respectively fixed on one end of the control pulley 425 and one end of the rotating pulley 426, the driving tooth 423 and the driven tooth 424 are engaged with each other, the control pulley 425 connected with the output end thereof is driven by the linkage motor 422 to rotate, the driving tooth 423 on the control wire wheel 425 is driven to rotate, the rotating wire wheel 426 connected with the driven tooth 424 is driven to rotate reversely under the meshing of the driving tooth 423 and the driven tooth 424, so that the rope winding of one steel wire rope 427 and the rope unwinding of one steel wire rope 427 are realized, the mounting frame 413 connected with the two connecting support lugs 415 moves along the guide track 84, the driving mode reduces the use number of motors, reduces the energy consumption and the equipment cost, and can simultaneously drive the gluing motor 411 and the rotating roller 412 on the mounting frame 413 to synchronously move, thereby completing the automatic shoe edge gluing step of the sole.

Specifically, stop gear 5 is including driving actuating cylinder 51, connecting seat 52 and shoes clamp plate 53, drive actuating cylinder 51 and install the top at last shoe board 81, shoes clamp plate 53 fixed connection is in the bottom of connecting seat 52, the output that drives actuating cylinder 51 passes last shoe board 81 and is connected with connecting seat 52, moves down to shoe clamp plate 53 on the position of waiting to glue on base plate 23 through driving actuating cylinder 51 and supports the pressure location to shoe-pad, vamp or the sole of waiting to glue that lies in connecting seat 52, prevents that the condition of perk or skew from appearing in follow-up welt rubberizing from taking place, improves its rubberizing efficiency and effect.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides an energy-concerving and environment-protective type shoes processing equipment which characterized in that: comprises a supporting table (1), a glue storing mechanism (2), a sole gluing mechanism (3), a shoe edge gluing mechanism (4) and a limiting mechanism (5), wherein the glue storing mechanism (2) is arranged at the top of the supporting table (1), the sole gluing mechanism (3) is arranged in the glue storing mechanism (2), a lifting disc (6) which is horizontally arranged is arranged right above the glue storing mechanism (2), a lifting rod (7) which is provided with three equal angle differences is arranged between the glue storing mechanism (2) and the lifting disc (6), the shoe edge gluing mechanism (4) is arranged on the lifting disc (6), the top of the lifting disc (6) is also provided with a bearing component (8) connected with the lifting disc, the limiting mechanism (5) is arranged inside the bearing component (8), and the shoe edge gluing mechanism (4) comprises a moving component (41) and a linkage component (42) which drives the moving component (41) to move, the moving assembly (41) is vertically arranged at the bottom of the lifting disc (6), and the linkage assembly (42) is arranged on the lifting disc (6) and connected with the moving assembly (41).

2. The energy-saving and environment-friendly shoe processing equipment according to claim 1, characterized in that: glue storage mechanism (2) comprises a glue storage barrel (21), a base plate (22), a bottom base plate (23), a filter screen (24), a rotating motor (25) and a rotating blade (26), wherein the glue storage barrel (21) is arranged between the base plate (22) and a support platform (1), the central part of the base plate (22) is provided with a round hole communicated with the inside of the glue storage barrel (21), the bottom base plate (23) and the filter screen (24) are both positioned in the round hole, the filter screen (24) is of an annular structure and is connected with the bottom base plate (23) and the base plate (22), a heating layer (27) is further arranged in the glue storage barrel (21), the outer wall of the glue storage barrel (21) is further provided with a glue inlet port (28) communicated with the glue storage barrel, the rotating motor (25) is arranged on the inner top wall of the support platform (1), and the output end of the rotating motor (25) is connected with the bottom end of the rotating blade (26), the rotating blade (26) is rotatably arranged on the inner bottom wall of the glue storage barrel (21).

3. The energy-saving and environment-friendly shoe processing equipment according to claim 2, characterized in that: sole rubberizing mechanism (3) are including pivot (31), glue spreader (32), driven umbrella tooth (33), initiative umbrella tooth (34) and driving motor (35), pivot (31) rotate to be installed in storage glue bucket (21), glue spreader (32) are fixed on pivot (31) to glue spreader (32) are located the center department of base plate (23), one of pivot (31) is fixed in driven umbrella tooth (33) is served, driving motor (35) are installed on the lateral wall of storage glue bucket (21), initiative umbrella tooth (34) are fixed on the output of driving motor (35) and are engaged with driven umbrella tooth (33) mutually.

4. The energy-saving and environment-friendly shoe processing equipment according to claim 2, characterized in that: bearing component (8) are including last shoe board (81), top support (82) and two V type frame (83), go up shoe board (81) and locate subbottom board (23) directly over, just go up shoe board (81) and be located the center department of lifter plate (6), it forms guide rail (84) anastomotic with sole profile limit to go up between shoe board (81) and lifter plate (6), top support (82) are installed in the top of lifter plate (6), two V type frame (83) symmetry sets up inside bearing component (8), and the both ends of every V type frame (83) are connected with top support (82), and the well tip of every V type frame (83) is connected with last shoe board (81).

5. The energy-saving and environment-friendly shoe processing equipment according to claim 4, characterized in that: remove subassembly (41) including rubberizing motor (411), rotation roller (412), installing frame (413), guide roll spare (414) and two connection journal stirrup (415), the one end of guide roll spare (414) is passed guide rail (84) and the one end of guide roll spare (414) and is connected with the top of installing frame (413), the other end overlap joint of guide roll spare (414) is on the top of lifter plate (6) and last shoe board (81), rubberizing motor (411) are fixed on installing frame (413), rotation roller (412) are installed on the output of rubberizing motor (411), two connect journal stirrup (415) symmetry and fix on the both sides wall of installing frame (413), be equipped with on filter screen (24) and supply rotation roller (412) to move in vertical direction and dodge hole (241).

6. The energy-saving and environment-friendly shoe processing equipment according to claim 5, characterized in that: the linkage assembly (42) comprises an L-shaped plate (421), a linkage motor (422), a driving tooth (423), a driven tooth (424), a control wire wheel (425), a rotating wire wheel (426) and two steel wire ropes (427), wherein the L-shaped plate (421) is fixedly arranged at the top of the lifting disc (6), the linkage motor (422) is arranged at the top of the L-shaped plate (421), the control wire wheel (425) and the rotating wire wheel (426) are both rotatably arranged below the lifting disc (6), one end of the control wire wheel (425) is connected with the output end of the linkage motor (422), two ends of one steel wire rope (427) are respectively connected with one connecting lug (415) and the rotating wire wheel (426), two ends of the other steel wire rope (427) are respectively connected with the other connecting lug (415) and the control wire wheel (425), the driving tooth (423) and the driven tooth (424) are respectively fixed at one end of the control wire wheel (425) and one end of the rotating wire wheel (426), and the driving teeth (423) and the driven teeth (424) are engaged.

7. The energy-saving and environment-friendly shoe processing equipment according to claim 5, characterized in that: stop gear (5) are including driving actuating cylinder (51), connecting seat (52) and shoes clamp plate (53), drive actuating cylinder (51) and install the top at last shoe board (81), shoes clamp plate (53) fixed connection is in the bottom of connecting seat (52), the output that drives actuating cylinder (51) passes last shoe board (81) and is connected with connecting seat (52).

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