CN116141541A - Shoe waste treatment device - Google Patents

Abstract

The invention discloses a shoe waste treatment device which comprises a horizontal placement plate, a rotary heating table cooling assembly, a rotary vamp clamping and stripping assembly, an extrusion extension type sole fixing assembly, a pushing type extrusion cutting assembly, a hand-operated rotary fixing assembly and a direction adjustable lifting assembly, wherein a rotary scraping assembly is arranged on the rotary heating table cooling assembly; both sides of the upper end of the horizontal placement plate are fixedly provided with vertical support plates. Compared with the prior art, the invention has the advantages that: through the fixed subassembly effect of rotation type heating table cooling module, rotation type vamp clamp stripping-off subassembly and extrusion extension formula sole, can carry out rapid heating to sole edge position, soften the sole and melt the viscose that is used for fixed sole vamp to a certain extent, rotate through pressing from both sides tight vamp, be convenient for quick with sole and vamp separation.

Description

Shoe waste treatment device

Technical Field

The invention relates to the field of shoe waste treatment, in particular to a shoe waste treatment device.

Background

Shoes are indispensable necessities in daily life, and various varieties of linlang are available on the market according to different effects and shapes, but the comfort of wearing and the sufficient protection of feet are the most important no matter how the appearance of the shoes changes.

The Rubber (Rubber) is a high-elasticity polymer material with reversible deformation, is elastic at room temperature, can generate larger deformation under the action of small external force, and can recover the original shape after the external force is removed. Rubber is a completely amorphous polymer with a low glass transition temperature (Tg), often with a large molecular weight, greater than several hundred thousand.

In the production process of rubber shoes, certain defective products can be generated, and then shoe defective product waste materials are required to be treated independently, so that the defective product shoes are treated into a non-wearable state on one hand, the situation that the circulation of the defective product shoes is affected to the public is avoided, and on the other hand, the rubber of the defective product shoes is treated so as to be convenient to recycle.

However, at present, the following disadvantages exist in the treatment of waste rubber shoes: the shoe is generally adhered together by cloth or leather vamp and rubber sole through shoe glue, and when the shoe is separated, the vamp and the sole are separated through a cutter, so that the efficiency of separating the vamp from the sole is low; in order to reduce the occupation space of the sole and facilitate recycling, the sole needs to be crushed, but because the sole made of rubber materials is softer and stronger in flexibility, the traditional crushers (such as a jaw crusher, a gyratory crusher, a cone crusher, a roller crusher, a hammer crusher and a impact crusher) cannot be performed, and the cutter blade is used for cutting small blocks, so that on one hand, the efficiency is low, on the other hand, the cutting size is difficult to control, and the condition that the sizes of excessive crushed rubber particles are inconsistent is easily caused.

Disclosure of Invention

The invention aims to solve the technical problems, and provides a shoe waste treatment device which is convenient for separating shoe uppers from shoe soles and crushing shoe soles quickly, and creatively can heat the edge positions of the shoe soles through the actions of a rotary heating table cooling assembly, a rotary shoe upper clamping and stripping assembly and an extrusion extension type shoe sole fixing assembly, soften the shoe soles and melt shoe glue for fixing the shoe soles and shoe uppers to a certain extent, and the shoe uppers are convenient to separate the shoe soles from the shoe uppers quickly by rotating the clamping shoe uppers.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: the utility model provides a shoe waste treatment device species, includes that the board is placed to the level, rotation type heating table cooling module, rotation type vamp press from both sides tight stripping element, extrudees extension formula sole fixed component, promotes formula extrusion cutting subassembly, hand formula rotation fixed component and direction adjustable lift assembly, be equipped with rotation type on the rotation type heating table cooling module and scrape the material subassembly; both sides of the upper end of the horizontal placement plate are fixedly provided with vertical support plates; the rotary heating table cooling assembly is arranged on the two vertical support plates, the push-type extrusion cutting assembly, the direction-adjustable lifting assembly and the rotary vamp clamping and stripping assembly are arranged on the inner sides of the two vertical support plates, the hand-operated rotary fixing assembly is arranged on the outer side of one of the vertical support plates, and the rotary vamp clamping and stripping assembly is arranged on the outer side of the extrusion extension type sole fixing assembly; the collecting box is arranged on the upper side of the horizontal placing plate.

Further, extrusion extension formula sole fixed subassembly includes slip post one, fixes the piston and the sleeve of slip cap in the piston outside at slip post lower extreme, telescopic lower extreme intercommunication is equipped with fixed box, fixed box's one end is the opening setting, slides in fixed box open-ended one side and is equipped with slip post two, fixed box internal connection is equipped with the gasbag, one side and the sleeve intercommunication of gasbag, the opposite side and the slip post two of gasbag are connected, the other end connection of slip post two is equipped with the supporting shoe, the supporting shoe is the arc structure setting in one side lower extreme that keeps away from slip post two, the supporting shoe is equipped with and sets up to a plurality of fixed bars with slip post two direction unanimity with the lower lateral wall of fixed box all being connected, sleeve upper end connection is equipped with the cover and establishes the spring one in slip post one outside.

Specifically, the tight subassembly that strips of rotation vamp clamp includes that the slip cap establishes the lift ring in the slip column outside, connects two slip columns three and slip cap that establish in the slip column three outside the slip ring lower extreme, the inboard connection of slip ring one is equipped with the conveyer pipe that establishes in the sleeve outside through the bearing cap, telescopic lateral wall is connected and is equipped with driving motor one, driving motor one's output is connected and is equipped with gear one, the lateral wall connection of conveyer pipe is equipped with the gear two that sets up with gear one meshing, the both ends of a slip ring downside are all fixed and are equipped with stripper plate one, two lateral walls of slip ring one all articulate and are equipped with stripper plate two, be equipped with the through-hole on the stripper plate one, the both ends rotation of through-hole is equipped with pivot one, the outside pivoted of pivot one is connected and is equipped with the locating wheel, stripper plate two inboard connection all is equipped with the belt that is connected with the slip column three phase, the outside of conveyer pipe is equipped with the spring two that are connected with lift ring and conveyer ring one respectively, the inboard cover is equipped with the stripper plate two that are equipped with the stripper plate is connected with three on the slip column one.

Preferably, the direction adjustable lifting assembly comprises a first supporting seat arranged on the inner side of two vertical supporting plates, a second supporting seat arranged on the inner side of the two vertical supporting plates, and a screw rod respectively rotating between the first supporting seats and the second supporting seats on the two sides, wherein the outer sides of the screw rods are fixedly provided with synchronous wheels, the outer sides of the synchronous wheels are connected through synchronous belts, one of the first supporting seats is connected with a second driving motor, the output end of the second driving motor penetrates through the first supporting seat to be connected with the screw rod, the outer side of the screw rod is provided with a sliding block through a threaded sleeve, the inner side of the sliding block is connected with a rotating plate, the upper ends of the second supporting seats are connected with sliding columns four capable of sliding and penetrating through the rotating plate, one ends of the sliding columns far away from a piston are connected with the rotating plate, and one ends of the springs far away from the sleeve are connected with the rotating plate.

Further, the rotary heating table cooling assembly comprises a first pipeline which is connected with one vertical support plate in a penetrating manner through a bearing, a second rotating shaft which is connected with the other vertical support plate in a penetrating manner through a bearing, and a rotating box, wherein two ends of the rotating box are respectively connected with the first pipeline and the second rotating shaft, a plurality of exhaust pipes are uniformly and fixedly arranged on the inner wall of the rotating box, a second pipeline is connected with the outer wall of the rotating box, one end of each exhaust pipe is communicated with the first pipeline, the upper end of the first pipeline is communicated with the second pipeline, one side of the pipeline is close to the first pipeline, a hot air gun and a cold air gun are connected to the outer side of the vertical support plate, a one-way valve is arranged at the output ends of the hot air gun and the cold air gun in a communicating manner, and the other end of the one-way valve is communicated with the first pipeline sequentially through a three-way joint and a rotary joint.

Specifically, push type extrusion cutting assembly includes two fixed plates that are connected with the pivoted plate, fixes the fixed plate second between two fixed plates and the fixed block of being connected in fixed plate first upper end, two the inboard connection of fixed block is equipped with the net sword, evenly be equipped with a plurality of cutting holes on the net sword, it is equipped with the sliding plate to support mutually in the cutting hole, the one end connection of sliding plate is equipped with the slip post five, the slip post five gliding runs through fixed plate second, the outside cover of slip post five is equipped with the spring five that is connected with fixed plate second and sliding plate respectively.

Preferably, the rotary scraping assembly comprises a placing disc which is fixed on the lower side wall in the rotary box and is circular, a second rotating ring which is sleeved on the outer side of the placing disc through a bearing, and a scraping rod which is hinged in the second rotating ring, wherein an electric push rod is hinged on the inner side of the second rotating ring, the other end of the electric push rod is hinged with the scraping rod, a third driving motor is connected with the lower side wall of the rotary box, a third gear is connected and arranged at the output end of the third driving motor in a penetrating mode through the rotary box, and a fourth gear meshed with the third gear is connected and arranged on the outer side wall of the second rotating ring.

Further, hand formula rotation fixed subassembly includes the prism, the crank that is connected with prism one end and fixes the carousel in the prism outside, the gliding one side of keeping away from the rotation box in pivot two of inserting of prism, the inboard connection of carousel is equipped with a plurality of fixed columns, the outside of vertical support board is equipped with the fixed slot with fixed column matched with, the edge position of carousel is equipped with the slip ring through the bearing connection, the lateral wall connection of vertical support board is equipped with the gag lever post that runs through the slip ring that slides, the inboard connection of slip ring is equipped with six springs that are connected with vertical support board.

Specifically, the upper end connection of lift ring is equipped with a plurality of bull's eye wheel.

Preferably, the first extrusion plate is provided with a fixing needle at one side facing the second extrusion plate, and the first extrusion plate is provided with a fixing hole matched with the fixing needle.

Compared with the prior art, the invention has the advantages that:

1. through the fixed subassembly effect of rotary type heating table cooling module, rotary type vamp clamp stripping module and extrusion extension formula sole, can carry out rapid heating to sole edge position, soften sole and a certain extent and melt the shoe glue that is used for fixed sole vamp, rotate through pressing from both sides tight vamp, be convenient for quick separate sole and vamp, cut vamp and sole separation efficiency higher for traditional with the cutter, use safelyr.

2. The effect of extrusion extension formula sole fixed subassembly can advance firm fixed to the sole, when rotatory and the sole breaks away from of vamp, the effectual sole that avoids rotates, carries out the improvement and rotates the effect of separation to the vamp.

3. The rotary vamp clamping and stripping assembly can clamp two sides of a bevel connection position of a vamp, and can stably drive the vamp to rotate to lift the vamp when the sole is fixed, so that the vamp and the sole can be separated quickly.

4. The sole can be cut through the extrusion cutting subassembly of promotion formula, and can keep cutting to accomplish (except that the rubber sole edge position) most rubber granule size is close, avoids cutting the too big or undersize condition of most rubber granule that accomplish.

5. The vamp can be fixed without other extra operations when the sole is supported and fixed by the extension type sole fixing component and the rotary vamp clamping and stripping component, so that the working procedure is effectively saved, and the degree of automation is higher.

6. The rotary heating table cooling assembly can heat the edge position of the sole, is convenient to take down the vamp, can cool down the edge position of the sole, and can harden the rubber sole to a certain extent, so that on one hand, the cutting effect can be improved, and on the other hand, the adhesion of softened rubber on the grid knife during cutting can be reduced.

7. The hand-operated rotating and fixing assembly can fix and rotate the rotating box, so that the rubber sole can be conveniently placed when being cut, the cut rubber sole can be turned over and poured out after being cut, the hand-operated rotating and fixing assembly is convenient to adjust, the hand-operated rotating and fixing assembly is inserted into the fixing groove through the fixing column, and the rotating box is fixed more stably and accurately in position.

8. When taking off broken rubber, can effectually avoid rubber granule adhesion through rotatory scraping the material subassembly, discharge the rubber granule more smooth and easy in collecting the box, and avoid the remaining condition of rubber granule.

9. The lifting component with adjustable direction can lift the rotary vamp clamping and stripping component, the extrusion extension type sole fixing component and the pushing type extrusion cutting component, so that the lifting of the rotary plate can be realized to fix the sole vamp and provide driving force for different functions of sole cutting blocks.

Drawings

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

Fig. 2 is a perspective view of a rotary vamp clamping and stripping assembly and an extrusion extension type sole fixing assembly according to the present invention.

FIG. 3 is a schematic perspective view of another perspective view of the rotary vamp clamping and stripping assembly and the compression and extension type sole fixing assembly of the present invention.

Fig. 4 is a schematic front view of the rotary vamp clamping and peeling assembly and the compression and extension type sole fixing assembly of the present invention.

FIG. 5 is a schematic left side view of a rotary vamp clamping and stripping assembly and an extrusion-extension type sole fixing assembly of the present invention.

FIG. 6 is a schematic view of the cross-sectional structure of the position A-A of FIG. 4 in accordance with the present invention.

FIG. 7 is a schematic view of the structure of the invention in section at position B-B in FIG. 5.

Fig. 8 is an enlarged view of the position a in fig. 1 according to the present invention.

Fig. 9 is an enlarged view of the B position of fig. 1 according to the present invention.

Fig. 10 is an enlarged view of the C-position of fig. 1 according to the present invention.

Fig. 11 is an enlarged view of the D position of fig. 1 according to the present invention.

Fig. 12 is an enlarged view of the E-position of fig. 1 according to the present invention.

Fig. 13 is an enlarged view of the F position in fig. 1 according to the present invention.

Fig. 14 is a schematic structural view of a rotary scraping assembly according to the present invention.

Fig. 15 is a schematic structural view of a hand-operated rotary fixing assembly according to the present invention.

Fig. 16 is a schematic view of the structure of the grid cutter of the present invention.

As shown in the figure: 1. placing the plate horizontally; 2. a rotary heating table cooling assembly; 3. a rotary vamp clamping and stripping assembly; 4. an extruded extensible sole securing assembly; 5. a push-type extrusion cutting assembly; 6. a hand-operated rotary fixing assembly; 7. a direction adjustable lifting assembly; 8. a rotary scraping assembly; 9. a vertical support plate; 10. a sliding column I; 11. a piston; 12. a sleeve; 13. a fixed box; 14. an air bag; 15. a sliding column II; 16. a support block; 17. a fixing strip; 18. a lifting ring; 19. a sliding column III; 20. rotating the first ring; 21. a positioning wheel; 22. a first supporting seat; 23. a second supporting seat; 24. a screw; 25. a slide block; 26. a rotating plate; 27. a sliding column IV; 28. a first pipeline; 29. a second rotating shaft; 30. rotating the box; 31. an exhaust pipe; 32. a second pipeline; 33. a heat gun; 34. a cold air gun; 35. a first fixing plate; 36. a second fixing plate; 37. a grid knife; 38. a sliding plate; 39. a sliding column V; 40. placing a tray; 41. rotating a second ring; 42. a scraping rod; 43. an electric push rod; 44. a third driving motor; 45. a prism; 46. a turntable; 47. fixing the column; 48. a slip ring; 49. a limit rod; 50. a bullseye wheel; 51. fixing the needle; 52. a rotary tube; 53. driving a first motor; 54. a first extrusion plate; 55. and a second extruding plate.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

In the description of the present invention, it should be understood that the terms "center," "lateral," "upper," "lower," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more. In addition, the term "include" and any variations thereof are intended to cover a non-exclusive inclusion.

Referring to fig. 1, a shoe waste treatment device comprises a horizontal placement plate 1, a rotary heating table cooling component 2, a rotary vamp clamping and stripping component 3, an extrusion extension type sole fixing component 4, a pushing type extrusion cutting component 5, a hand-operated rotary fixing component 6 and a direction adjustable lifting component 7, wherein a rotary scraping component 8 is arranged on the rotary heating table cooling component 2; both sides of the upper end of the horizontal placement plate 1 are fixedly provided with vertical support plates 9; the rotary heating table cooling assembly 2 is arranged on two vertical support plates 9, the push type extrusion cutting assembly 5, the direction adjustable lifting assembly 7 and the rotary vamp clamping and peeling assembly 3 are arranged on the inner sides of the two vertical support plates 9, the hand-operated rotary fixing assembly 6 is arranged on the outer side of one of the vertical support plates 9, and the rotary vamp clamping and peeling assembly 3 is arranged on the outer side of the extrusion extension type sole fixing assembly 4; the collecting box is placed to the upside of board 1 is placed to the level, heat and refrigerate the sole through rotary heating platform cooling module 2, rotary vamp clamp stripping module 3 and extrusion extension formula sole fixed subassembly 4 are fixed and are taken off the vamp to the sole, promotion formula extrusion cutting subassembly 5 cuts the sole, direction adjustable lifting assembly 7 can press from both sides rotary vamp clamp stripping module 3, extrusion extension formula sole fixed subassembly 4, promotion formula extrusion cutting subassembly 5 go up and down, and then can the rotor plate 26 lift realization is fixed to the sole vamp and is provided the drive force to the different functions of sole cutting piece, hand formula rotation fixed subassembly 6 can be fixed and rotatory to rotation box 30.

Referring to fig. 1, 2, 3, 4, 5, 6 and 7, the extrusion-extension-type sole fixing assembly 4 includes a first sliding column 10, a piston 11 fixed at the lower end of the first sliding column 10, and a sleeve 12 slidably sleeved outside the piston 11, a fixing box 13 is disposed at the lower end of the sleeve 12, one end of the fixing box 13 is an opening, a second sliding column 15 is slidably disposed at one side of the opening of the fixing box 13, an air bag 14 is disposed in the connection of the fixing box 13, one side of the air bag 14 is communicated with the sleeve 12, the other side of the air bag 14 is connected with the second sliding column 15, a supporting block 16 is disposed at the other end of the second sliding column 15, the lower end of one side of the supporting block 16 far from the second sliding column 15 is in an arc structure, so that the supporting block 16 slides smoothly on the sole, the lower side walls of the support block 16 and the fixed box 13 are respectively connected with a plurality of fixing strips 17 which are consistent with the second sliding column 15 in direction and are arranged in a plurality of ways, so that the support block 16 can slide on the upper side of the sole smoothly, the effect of fixing the sole to avoid the rotation of the sole is better, the upper end of the sleeve 12 is connected with a first spring sleeved on the outer side of the first sliding column 10, the piston 11 is driven to move downwards in the process of moving downwards the first sliding column 10, the sleeve 12 is driven to move downwards through the shoe opening in the shoe by the friction force of the side surface of the piston 11, when the fixing strips 17 are contacted and abutted against the sole in the shoe, the first sliding column 10 continuously moves downwards, the air in the sleeve 12 is extruded by the piston 11, the extruded air fills the air bag 14, the air bag 14 horizontally increases to extrude the second sliding column 15 to slide, meanwhile, the second sliding column 15 drives the support block 16 to slide in the direction away from the shoe opening until the sole slides to one end far away from the shoe opening, at this time, the supporting blocks 16 and the fixing strips 17 at the lower side of the fixing box 13 simultaneously squeeze the two ends of the sole in the shoe respectively, so as to firmly support and fix the shoe and avoid the situation that the sole rotates when unscrewing the vamp.

The rotary vamp clamping and stripping assembly 3 comprises a lifting ring 18 sleeved on the outer side of a first sliding column 10, two third sliding columns 19 connected to the lower end of the lifting ring 18 and a first rotating ring 20 sleeved on the outer side of the third sliding columns 19, a rotating pipe 52 sleeved on the outer side of a sleeve 12 through a bearing is connected on the inner side of the first rotating ring 20, a first driving motor 53 is connected on the outer side wall of the sleeve 12, a first gear is connected on the output end of the first driving motor 53, a second gear meshed with the first gear is connected on the outer side wall of the rotating pipe 52, a first extruding plate 54 is fixedly arranged at two ends of the lower side of the first rotating ring 20, a second extruding plate 55 is hinged on two outer side walls of the first rotating ring 20, a through hole is arranged on the first extruding plate 54, a first rotating shaft is rotatably arranged at two ends of the through hole, the outside rotation of the first rotating shaft is connected with a positioning wheel 21, the inner side of the second extruding plate 55 is connected with a belt connected with a third sliding column 19, the belt is sleeved on the outer side of the positioning wheel 21, the outer side of the third sliding column 19 is sleeved with a second spring connected with a lifting ring 18 and a first rotating ring 20 respectively, the inner side of the second extruding plate 55 is connected with a third spring connected with a first extruding plate 54, the upper side of the first rotating ring 20 is connected with a limiting pipe arranged on the outer side of the third sliding column 19, the upper end of the lifting ring 18 is connected with a plurality of bullnose wheels 50, the first extruding plate 54 is connected with a fixing needle 51 on one side facing the second extruding plate 55, the first extruding plate 54 is provided with a fixing hole matched with the fixing needle 51, the first extruding plate 54 moves in a shoe opening on a vamp in the process of downward movement of the sleeve 12, the second extrusion plate 55 moves outside the shoe opening on the shoe upper, in the process of moving down the rotating plate 26, the first sliding column 10 and the piston 11 move down simultaneously, when the rotating plate 26 extrudes the bull's eye wheel 50, the first extrusion lifting ring 18 moves down, the first rotating ring 20 is unchanged in height, the first lifting ring 18 moves down to drive the third sliding column 19 to move down to push the belt, the belt slides on the positioning wheel 21, the second extrusion plate 55 is pulled to rotate towards the first extrusion plate 54 to extrude the inner wall and the outer wall of the shoe upper, at the moment, the fixing needle 51 penetrates the shoe upper to be inserted into the fixing hole, the shoe upper is fixed more firmly, the lifting ring 18 is limited through the limiting pipe, the shoe upper is prevented from being damaged due to excessive extrusion of the second spring, the first extrusion plate 54 and the second extrusion plate 55 clamp the shoe upper when the lifting ring 18 just abuts against the limiting pipe, after the heating of the edge position of the shoe sole is completed, the first driving motor 53 is opened, the first rotation pipe 52 is driven by the first extrusion plate 54 and the second extrusion plate 55 is driven to rotate, and the shoe upper 55 is driven to rotate at the same time, and the first extrusion plate 54 and the second plate 55 is driven to rotate to separate on the shoe upper.

Referring to fig. 1, fig. 8, fig. 9 and fig. 10, the adjustable lifting assembly 7 of direction is including setting up the supporting seat one 22 in the inboard of two vertical support plates 9, setting up the supporting seat two 23 in the inboard of two vertical support plates 9 and rotating the screw rod 24 between the supporting seat one 22 of both sides and the supporting seat two 23 respectively, two the outside of screw rod 24 is all fixed and is equipped with the synchronizing wheel, two the synchronizing wheel outside is connected through the hold-in range drive, one of them supporting seat one 22 is connected and is equipped with driving motor two, driving motor two's output runs through supporting seat one 22 and is connected with screw rod 24, two the outside of screw rod 24 all is equipped with slider 25 through the thread bush, two the inboard pivoted connection of slider 25 is equipped with rotor plate 26, two the upper end of supporting seat two 23 is all connected and is equipped with the slip post four 27 that can slide and run through rotor plate 26, the slip post one 10 is being kept away from piston 11's one end and rotor plate 26 is connected, spring one is connected with rotor plate 26 in the one end of keeping away from sleeve 12, through opening driving motor two rotor plates's rotation, and driving motor two and synchronous drive motor two and two rotor plates 24 drive the rotation plates 26 simultaneously, can slide the outside the rotor plate 26 when the rotor plate 25 is rotated by two, and the rotation plate 26 is rotated by the side 25, and the free to rotate the side is rotated, and can slide plate 26 can be rotated when the outside the rotor plate 26 is rotated and the side and is rotated, and the outside and the side 26 is rotated.

Referring to fig. 1, 9, 12 and 13, the rotary heating stage cooling assembly 2 includes a first pipe 28 penetrating and connected with one of the vertical support plates 9 through a bearing, a second rotating shaft 29 penetrating and connected with the other vertical support plate 9 through a bearing, and a rotary box 30, two ends of the rotary box 30 are respectively connected with the first pipe 28 and the second rotating shaft 29, a plurality of exhaust pipes 31 are uniformly and fixedly arranged on the inner wall of the rotary box 30, a second pipe 32 is connected with the outer wall of the rotary box 30, one end of the exhaust pipe 31 is communicated with the second pipe 32, the upper end of the first pipe 28 is communicated with the second pipe 32, a hot air gun 33 and a cold air gun 34 are connected with the outer side of the vertical support plate 9 near one side of the first pipe 28, the output ends of the hot air gun 33 and the cold air gun 34 are all communicated with the first pipe 28 through a three-way joint and a rotary joint, hot air or cold air flows in the first pipe 28 through the three-way valve, the three-way joint and the rotary joint, and the hot air gun 33 is discharged from the second pipe 32 through the second pipe 32 and aligned with the air pipe 32, and the sole can be solidified and the sole can be cooled by the sole, and the sole can be softened by the sole, and the sole can be quickly cooled and the sole, and the sole can be softened by the sole, and the sole by the sole, and the soles can be the soles by the soles and the soles.

Referring to fig. 1, 10, 11 and 16, the push-type extrusion cutting assembly 5 includes two first fixing plates 35 connected with the rotating plate 26, a second fixing plate 36 fixed between the two first fixing plates 35, and a fixing block connected to the upper end of the first fixing plate 35, wherein the inner sides of the two fixing blocks are connected with a grid knife 37, a plurality of cutting holes are uniformly formed in the grid knife 37, a sliding plate 38 is abutted against the cutting holes, one end of the sliding plate 38 is connected with a sliding column five 39, the sliding column five 39 slides through the second fixing plate 36, springs five connected with the second fixing plate 36 and the sliding plate 38 are sleeved outside the sliding column five 39, when the cooled sole is cut, the push-type extrusion cutting assembly 5 is downward through the rotation of the rotating plate 26, the rotating plate 26 is matched with the first fixing plate 35 and the second fixing plate 36 to drive the grid knife 37 to move downward to cut the sole, the cut rubber particles are stored in the cutting holes, when the rotating plate 26 lifts, the rubber particles are automatically pushed by the spring five to push the rubber particles out of the cutting holes, and the rubber particles are effectively prevented from being blocked in the cutting holes.

Referring to fig. 1, 13 and 14, the rotary scraping assembly 8 includes a circular placement tray 40 fixed on the lower side wall of the rotary box 30, a second rotary ring 41 sleeved on the outer side of the placement tray 40 through a bearing, and a scraping rod 42 hinged in the second rotary ring 41, an electric push rod 43 is hinged on the inner side of the second rotary ring 41, the other end of the electric push rod 43 is hinged with the scraping rod 42, a third driving motor 44 is connected on the lower side wall of the rotary box 30, an output end of the third driving motor 44 penetrates through the rotary box 30 and is provided with a third gear, an outer side wall of the second rotary ring 41 is connected with a fourth gear meshed with the third gear, the second rotary shaft 29 and the first pipeline 28 rotate on the vertical support plate 9, the rotary box 30 can be overturned to enable cut rubber particles to drop downwards, the scraping rod 42 is driven to rotate on the inner side of the placement tray 40 by opening the electric push rod 43, the third driving gear and the fourth rotary ring 41 is driven to rotate on the outer side of the placement tray 40 by opening the rotation of the third driving motor 44, and the fourth gear is matched with the rotation of the third gear to drive the second rotary ring 41 to drive the scraping rod 42 to soften the rubber 40 and prevent the rubber particles from being solidified on the placement tray 40 after the rubber is cooled and placed on the scraping tray is left.

Please refer to 1, fig. 9 and fig. 15, hand formula rotation fixed subassembly 6 includes prismatic 45, the crank that is connected with prismatic 45 one end and the carousel 46 of fixing in prismatic 45 outside, prismatic 45 gliding inserts one side of keeping away from rotation box 30 in pivot two 29, the inboard connection of carousel 46 is equipped with a plurality of fixed columns 47, vertical support plate 9's outside is equipped with the fixed slot with fixed column 47 matched with, the border position of carousel 46 is equipped with sliding ring 48 through the bearing connection, vertical support plate 9's lateral wall connection is equipped with the gag lever post 49 that slides and runs through sliding ring 48, sliding ring 48 is in the firm slip in the gag lever post 49 outside, sliding ring 48 inboard connection is equipped with the spring six that is connected with vertical support plate 9, and when rotating rotation box 30 is through holding the crank, pulls fixed column 47 in the fixed slot, and the prismatic 45 slides in the one end of pivot two 29, rotates prismatic 45 through holding the crank 45, and then drives rotation box 30 rotation, realizes rotating plate 26's upset, and is in the fixed plate 26 towards the fixed slot of rotating plate 48, and then rotates the fixed column 48 in the fixed slot of rotating plate 48, and then the fixed column 48 is fixed in the fixed slot of rotating plate 48, and the fixed plate 48 is rotated in the fixed plate 48, and then fixed column 48 is rotated in the fixed slot of rotating plate 48.

The working principle and the use flow of the invention are as follows:

the waste shoes which need to be separated into vamps and soles are placed on the placing tray 40, the shoe openings on the vamps are placed below the fixed box 13, the two screws 24 are driven to rotate by opening the rotation of the driving motor II and matching with the synchronous wheels and the synchronous belt, so that the sliding blocks 25 are driven to lift, the rotating plate 26 can be driven to lift, when the rotating plate 26 slides on the outer side of the sliding column IV 27, the rotating plate 26 can stably lift and does not rotate, and when the rotating plate 26 is required to rotate, the rotating plate 26 slides out on the outer side of the sliding column IV 27, so that the rotating can be freely performed; when the soles are required to be fixed, the rotating plate 26 is required to slide on the outer side of the sliding column IV 27, meanwhile, the rotating vamp clamping and stripping assembly 3 and the extrusion extension type sole fixing assembly 4 rotate on the lower side of the rotating plate 26, and the rotating plate 26 can drive the rotating vamp clamping and stripping assembly 3, the extrusion extension type sole fixing assembly 4 and the push type extrusion cutting assembly 5 to lift when lifted;

when the sole needs to be fixed, the lifting of the rotating plate 26 drives the sliding column I10 to lift, the piston 11 is driven to move downwards in the process of moving downwards the sliding column I10, the sleeve 12 is driven to move downwards through the shoe opening by the friction force of the side surface of the piston 11, when the fixing strip 17 is contacted and propped against the sole in the shoe, the sliding column I10 continuously moves downwards, the air in the sleeve 12 is extruded by the piston 11, the air is filled with the air bag 14, the air bag 14 horizontally increases to extrude the sliding column II 15 to slide, meanwhile, the sliding column II 15 drives the supporting block 16 to slide in the direction away from the shoe opening until the supporting block 16 slides to one end of the sole away from the shoe opening, and at the moment, the fixing strip 17 at the lower side of the supporting block 16 and the fixing box 13 simultaneously respectively extrudes the two ends of the sole in the shoe to firmly support and fix the shoe, so that the sole is prevented from rotating when screwing down the vamp;

In the process of downward movement of the sleeve 12, the first extrusion plate 54 moves in the shoe opening of the vamp, the second extrusion plate 55 moves outside the shoe opening of the vamp, in the process of downward movement of the rotating plate 26, the first sliding column 10 and the piston 11 simultaneously move downward, when the rotating plate 26 extrudes the bull's eye wheel 50, the first extrusion lifting ring 18 moves downward, at the moment, the first rotating ring 20 is unchanged in height, the lifting ring 18 moves downward to drive the third sliding column 19 to move downward to push the belt, the belt slides on the positioning wheel 21, the second extrusion plate 55 is pulled to rotate towards the first extrusion plate 54 so as to extrude the inner wall and the outer wall of the vamp to be fixed, at the moment, the fixing needle 51 penetrates through the vamp to be inserted into the fixing hole, the vamp is fixed more firmly, the lifting ring 18 is limited by the limiting tube, damage caused by excessive extrusion of the second spring is avoided, and when the lifting ring 18 is just propped against the limiting tube, the first extrusion plate 54 and the second extrusion plate 55 clamp the vamp;

after the fixing of the sole is completed, the edge position of the sole needs to be heated, hot air flows in the first pipeline 28 through the one-way valve, the three-way joint and the rotary joint by opening the hot air gun 33, is discharged in the exhaust pipe 31 through the second pipeline 32 and is aligned to the edge position of the sole, the adhesive connected with the vamp on the sole and the sole can be softened through hot air, the stability of the vamp and the sole is reduced, after the heating of the edge position of the sole is completed, the first driving motor is started, the first rotating pipe is driven to rotate by matching with the first gear and the second gear, the first rotating ring 20 is driven to rotate, and meanwhile, the first extruding plate 54 and the second extruding plate 55 are driven to rotate, so that the vamp is driven to be separated on the sole;

After the vamp and the sole are separated, the rotating plate 26 is lifted, the sliding column 10 is lifted, the rotating plate 26 and the sleeve 12 are respectively extruded under the action of the spring I, the piston 11 can slide upwards relative to the sleeve 12 in the sleeve 12, air in the air bag 14 is extracted, the air bag 14 contracts and pulls the sliding column II 15 to contract in the fixed box 13, the distance between the supporting block 16 and the fixed box 13 is reduced, meanwhile, when the rotating plate 26 moves upwards and the bullnose wheel 50 are separated, the lifting ring 18 is pushed upwards under the action of the spring II, the belt does not pull the extruding plate II, the pushing extruding plate II 55 rotates and the extruding plate I54 is separated under the action of the spring III, the separated vamp is conveniently removed manually through tweezers, after the air in the air bag 14 is completely extracted, the piston 11 can drive the sleeve 12 to continuously lift, the fixed box 13, the supporting block 16 and the sliding column II 15 are driven to lift, until the rotating plate 26 slides out at the upper end of the sliding column IV 27, the rotating pushing extruding cutting assembly 5 moves downwards, the rotating plate 26 moves downwards again, and the sliding column IV is pushed downwards, the cutting assembly is firmly and the sole assembly is pushed downwards, and the sole assembly is firmly slid downwards;

Before cutting the sole, the softened sole needs to be cooled, the cutting effect is prevented from being influenced, the softened rubber sole remains on the grid knife 37, cold air flows in the first pipeline 28 through the one-way valve, the three-way joint and the rotary joint by opening the cold air gun 34, is discharged in the exhaust pipe 31 through the second pipeline 32 and is aligned to the edge position of the sole, and the softened sole can be rapidly cooled and solidified through cold air;

when the sole is cut, the pushing type extrusion cutting assembly 5 is enabled to face downwards through the rotation of the rotating plate 26, when the rotating plate 26 moves downwards, the grid knife 37 is driven to move downwards by the aid of the first fixing plate 35 and the second fixing plate 36, cut rubber particles are stored in the cutting holes, when the rotating plate 26 is lifted up, the sliding plate 38 is pushed to automatically push out the rubber particles through the action of the spring five, and therefore the cut rubber particles are effectively prevented from being blocked in the cutting holes;

after the rubber particles are cut, the rotating box 30 is required to be rotated downwards, the cut rubber particles fall and are collected in the collecting box under the action of gravity, when the rotating box 30 is rotated, the crank is held to pull the fixing column 47 out of the fixing groove, the prism 45 slides at one end of the second rotating shaft 29, the crank is manually held to rotate the prism 45, the second rotating shaft 29 is driven to rotate, the rotating box 30 can be driven to rotate, meanwhile, the first pipeline 28 is simultaneously rotated under the action of the rotating joint, overturning of the rotating plate 26 is realized, when the rotating plate 26 is required to be fixed upwards or downwards, the rotating plate 46 is driven to rotate on the inner side of the sliding ring 48 due to the fact that the prism 45 rotates, the fixing column 47 rotates on the outer side of the vertical supporting plate 9, when the fixing column 47 rotates on the outer side of the fixing groove, the sliding ring 48 is loosened through the crank, the sliding ring 48 of the sixth spring slides towards the vertical supporting plate 9, and the fixing column 47 is driven to be inserted into the fixing groove through the matching with the rotating plate 46, and the rotating plate 26 is further rotated by the rotating plate 26;

After the rubber particles are poured downwards by the rotating box 30, the electric push rod 43 is opened to drive the scraping rod 42 to rotate on the inner side of the placing disc 40, the driving motor III 44 is opened to drive the rotating ring II 41 to rotate on the outer side of the placing disc 40 in cooperation with the gear III and the gear IV, the scraping rod is driven to scrape on the placing disc 40, rubber which is softened and cooled and solidified is prevented from remaining on the placing disc 40, and the rubber particles are scraped more thoroughly.

The above is the use flow of this application, and the repeated above-mentioned flow just can be convenient with vamp and sole separation, and can break the sole.

Standard parts used in the invention can be purchased from the market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of all parts adopt conventional means such as mature bolts, rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional modes in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that details are not described in detail in the specification, and the invention belongs to the prior art known to the person skilled in the art.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (10)

1. A shoe waste treatment device seed, characterized in that:

the novel shoe comprises a horizontal placing plate (1), a rotary heating table cooling assembly (2), a rotary vamp clamping and stripping assembly (3), an extrusion extension type sole fixing assembly (4), a pushing type extrusion cutting assembly (5), a hand-operated rotary fixing assembly (6) and a direction adjustable lifting assembly (7), wherein a rotary scraping assembly (8) is arranged on the rotary heating table cooling assembly (2); both sides of the upper end of the horizontal placement plate (1) are fixedly provided with vertical support plates (9);

the rotary heating table cooling assembly (2) is arranged on two vertical support plates (9), the push-type extrusion cutting assembly (5), the direction-adjustable lifting assembly (7) and the rotary vamp clamping and peeling assembly (3) are arranged on the inner sides of the two vertical support plates (9), the hand-operated rotary fixing assembly (6) is arranged on the outer side of one of the vertical support plates (9), and the rotary vamp clamping and peeling assembly (3) is arranged on the outer side of the extrusion extension type sole fixing assembly (4);

The upper side of the horizontal placement plate (1) is provided with a collection box.

2. A shoe waste treatment apparatus according to claim 1, wherein: the utility model provides an extrusion extension formula sole fixed subassembly (4) is including slip post one (10), fix piston (11) and the slip cap of slip post one (10) lower extreme establish sleeve (12) in the piston (11) outside, the lower extreme intercommunication of sleeve (12) is equipped with fixed box (13), the one end of fixed box (13) is the opening setting, and it is equipped with slip post two (15) to slide in one side of fixed box (13) open-ended, fixed box (13) in-connection is equipped with gasbag (14), one side and sleeve (12) intercommunication of gasbag (14), the opposite side of gasbag (14) is connected with slip post two (15), the other end connection of slip post two (15) is equipped with supporting shoe (16), one side lower extreme that is keeping away from slip post two (15) is the arc structure setting, the lower lateral wall of supporting shoe (16) and fixed box (13) all is connected and is equipped with the fixed strip (17) that are a plurality of with slip post two (15) direction, sleeve (12) upper end connection is equipped with one and is equipped with the outside of slip post one (10).

3. A shoe waste treatment apparatus according to claim 2, wherein: the rotary vamp clamping stripping assembly (3) comprises a lifting ring (18) which is arranged on the outer side of a first sliding column (10) in a sliding manner, two sliding columns (19) which are connected to the lower end of the lifting ring (18) and a first rotating ring (20) which is arranged on the outer side of the sliding columns (19) in a sliding manner in a sleeved manner, wherein a rotating pipe (52) which is arranged on the outer side of a sleeve (12) in a sleeved manner through a bearing is connected to the inner side of the first rotating ring (20), a driving motor (53) is arranged on the outer side wall of the sleeve (12) in a connected manner, a first gear is arranged at the output end of the driving motor (53), a second gear which is meshed with the first gear is connected to the outer side wall of the rotating pipe (52), a first extruding plate (54) is fixedly arranged at two ends of the lower side of the first rotating ring (20), a second extruding plate (55) is hinged to the two outer side walls of the first rotating ring (20), a through hole is arranged on the first extruding plate (54), a rotating shaft (21) is rotatably arranged at the two ends of the through hole, a positioning wheel (21) is arranged on the outer side of the first rotating shaft in a rotating manner, a second extruding plate (55) is connected to the second extruding plate (19) and a third extruding ring (19) is arranged on the outer side of the first rotating ring (19) in a meshed manner, a second extruding ring (20) is arranged on the lower side of the first extruding ring (20), the inner side of the extrusion plate II (55) is connected with a spring III connected with the extrusion plate I (54), and the upper side of the rotating ring I (20) is connected with a limiting pipe arranged on the outer side of the sliding column III (19).

4. A shoe waste treatment apparatus according to claim 3, wherein: the direction adjustable lifting assembly (7) comprises a first supporting seat (22) arranged on the inner side of two vertical supporting plates (9), a second supporting seat (23) arranged on the inner side of the two vertical supporting plates (9) and a screw rod (24) respectively rotating between the first supporting seat (22) and the second supporting seat (23), wherein synchronous wheels are fixedly arranged on the outer sides of the two screw rods (24), the two synchronous wheels are connected through synchronous belt driving, a second driving motor is connected to one supporting seat (22), the output end of the second driving motor penetrates through the first supporting seat (22) to be connected with the screw rod (24), sliding blocks (25) are arranged on the outer sides of the two screw rods (24) through threaded sleeves, rotating plates (26) are connected to the inner sides of the two sliding blocks (25), sliding columns (27) capable of penetrating through the rotating plates (26) in a sliding mode are connected to the upper ends of the second supporting seats (23), one ends of the sliding columns (10) are connected with the rotating plates (26) through synchronous belts, and one ends of the springs (12) are connected with one ends of the rotating plates (26) through the other ends of the springs.

5. A shoe waste treatment apparatus according to claim 4, wherein: the utility model provides a rotary heating platform cooling module (2) include with one of them vertical support board (9) through bearing through connection pipeline one (28), with another vertical support board (9) through bearing through connection's pivot two (29) and rotate box (30), the both ends of rotating box (30) are connected with pipeline one (28) and pivot two (29) respectively, the even fixed a plurality of exhaust pipes (31) that are equipped with of rotation box (30) inner wall, the outer wall connection of rotating box (30) is equipped with pipeline two (32), the one end and pipeline two (32) of exhaust pipe (31) are linked together, the upper end and pipeline two (32) of pipeline one (28) are linked together, be close to pipeline one (28) one side the outside connection of vertical support board (9) is equipped with hot air gun (33) and cold air gun (34), the output of hot air gun (33) and cold air gun (34) all communicates and is equipped with the check valve, the other end of check valve loops through joint and rotary joint and pipeline one (28) intercommunication.

6. A shoe waste treatment apparatus according to claim 5, wherein: the pushing type extrusion cutting assembly (5) comprises two first fixed plates (35) connected with a rotating plate (26), two second fixed plates (36) fixed between the two first fixed plates (35) and fixed blocks connected with the upper ends of the first fixed plates (35), grid cutters (37) are connected and arranged on the inner sides of the fixed blocks, a plurality of cutting holes are uniformly formed in the grid cutters (37), sliding plates (38) are arranged in the cutting holes in a propping mode, one end of each sliding plate (38) is connected with a sliding column five (39), the sliding column five (39) penetrates through the second fixed plates (36) in a sliding mode, and springs five connected with the second fixed plates (36) and the sliding plates (38) are sleeved on the outer sides of the sliding columns five (39) respectively.

7. A shoe waste treatment apparatus according to claim 6, wherein: the rotary scraping assembly (8) comprises a placing disc (40) which is fixed on the lower side wall in a rotary box (30) and is circular, a rotating ring II (41) which is sleeved on the outer side of the placing disc (40) through a bearing, and a scraping rod (42) which is hinged in the rotating ring II (41), wherein an electric push rod (43) is hinged on the inner side of the rotating ring II (41), the other end of the electric push rod (43) is hinged with the scraping rod (42), a driving motor III (44) is connected with the lower side wall of the rotary box (30), a gear III is connected and arranged at the output end of the driving motor III (44) in a penetrating mode through the rotary box (30), and a gear IV meshed with the gear III is connected on the outer side wall of the rotating ring II (41).

8. A shoe waste treatment apparatus according to claim 7, wherein: the hand-operated rotating and fixing assembly (6) comprises a prism (45), a crank connected with one end of the prism (45) and a rotary table (46) fixed on the outer side of the prism (45), wherein the prism (45) is inserted into one side, far away from the rotating box (30), of a rotating shaft II (29), a plurality of fixing columns (47) are connected to the inner side of the rotary table (46), fixing grooves matched with the fixing columns (47) are formed in the outer side of the vertical support plate (9), a sliding ring (48) is arranged at the edge position of the rotary table (46) through bearing connection, a limiting rod (49) penetrating through the sliding ring (48) in a sliding mode is arranged on the outer side wall of the vertical support plate (9), and a spring six connected with the vertical support plate (9) is connected to the inner side of the sliding ring (48).

9. A shoe waste treatment apparatus according to claim 8, wherein: the upper end of the lifting ring (18) is connected with a plurality of bull's eye wheels (50).

10. A shoe waste treatment apparatus according to claim 9, wherein: the first extrusion plate (54) is connected with a fixing needle (51) at one side facing the second extrusion plate (55), and a fixing hole matched with the fixing needle (51) is formed in the first extrusion plate (54).

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