CN215423103U - Sole and automatic processing device of sole - Google Patents

Abstract

The utility model discloses a sole and an automatic processing device thereof, and the technical scheme is as follows: including outsole and insole, the outsole is located the insole lower extreme, it has the district interlayer to mould plastics between outsole and the insole, the outer edge of non-woven fabrics layer is unanimous with the outer edge in outsole top and the outer edge in insole bottom.

Description

Sole and automatic processing device of sole

Technical Field

The utility model relates to the field of shoes, in particular to a sole and an automatic processing device for the sole.

Background

At present, shoes are various in types, and the diversity of the soles is also very rich, and because the appearance of the shoes is beautified, namely, a two-layer sole appears in the market, the colors of the two-layer sole are different, the condition of color permeation and color leakage can appear by applying the common production structure in the market, the appearance of the shoes is greatly damaged, and the survivors are greatly lost, the shoes and the processing device which can solve the problems are not available at present, the soles produced in the market are manually operated at present, manpower is consumed very much, and larger loss can be caused, so that the necessity of designing a sole which can realize the color leakage of the sole and realize the automatic production, an automatic processing device of the sole and a manufacturing method of the sole is very high.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a sole and an automatic processing device thereof, wherein the sole does not run color and realizes automatic production.

In order to achieve the purpose, the utility model provides the following technical scheme:

a sole comprises an outer sole and an inner sole, wherein the outer sole is positioned at the lower end of the inner sole, an area interlayer is injected between the outer sole and the inner sole, and the outer edge of a non-woven fabric layer is consistent with the outer edge of the top of the outer sole and the outer edge of the bottom of the inner sole.

Further, the partition layer can be made of non-woven fabrics or hot melt adhesives or polypropylene.

Furthermore, a plurality of through holes are formed in the inner end of the partition layer.

The utility model provides an automatic processing device for processing the sole, which comprises a shell, a lower die, a first conveyor belt, a second conveyor belt, a first injection nozzle, a first upper die, a vacuum suction pump, a second injection nozzle, a second upper die and a master control platform, wherein two ends of the first conveyor belt are hinged in the shell, the first injection nozzle, the first upper die, the vacuum suction pump, the second injection nozzle and the second upper die are sequentially arranged at the upper end of the first conveyor belt from right to left, the upper ends of the first injection nozzle, the first upper die, the vacuum suction pump, the second injection nozzle and the second upper die are all connected with a moving module, the first injection nozzle and the second injection nozzle are provided with control switches, the moving module and the control switches are respectively and electrically connected with a control chip in the master control platform, the master control platform controls the first injection nozzle, the first upper die, the vacuum suction pump, the second injection nozzle and the second upper die to be sequentially processed in a shoe mold cavity of the lower die, the tail part of the first conveyor belt is butted with a second conveyor belt, the upper end of the second conveyor belt is provided with an oven, the second conveyor belt passes through the oven and then inclines obliquely downwards,

furthermore, the first conveyor belt is provided with a limiting assembly at a position corresponding to the first injection molding nozzle, the first upper die, the vacuum suction pump, the second injection molding nozzle and the second upper die, and the middle end of the first conveyor belt is provided with a hollow part used for extending the limiting assembly.

Further, spacing subassembly includes preceding spacing board, back spacing board, telescopic cylinder, preceding roof and back roof, preceding spacing board and back spacing board lower extreme are connected with telescopic cylinder, clearance and lower mould adaptation between preceding spacing board and the back spacing board, preceding roof and back roof tail end also all connect telescopic cylinder, preceding roof and back roof set up respectively on the casing at clearance both ends, preceding spacing board and the scalable setting of back spacing board are in well kenozooecium.

Furthermore, the outside end of casing is equipped with the district and separates the material case, the district separates the material case and corresponds the setting at the vacuum pump side, be equipped with the recess that matches with the shoes die cavity on the district separates the material case.

Furthermore, the lower ends of the first upper die, the vacuum suction pump and the second upper die are respectively provided with a first lug, a second lug and a third lug which are matched with the shoe cavity.

The utility model has the beneficial effects that:

1. the outer sole and the inner sole are distinguished through the separating layer, and the color leakage of the outer edge can be avoided due to the fact that the separating layer can not enable injection molding materials of the outer sole and the inner sole on the outer edge to be mixed;

2. through the combined arrangement of the shell, the lower die, the first conveyor belt, the second conveyor belt, the first injection nozzle, the first upper die, the vacuum suction pump, the second injection nozzle, the second upper die and the master console, the shoe mold cavity in the lower die is conveyed through the first conveyor belt and the second conveyor belt, and is automatically processed to form the color-fading-free sole after passing through the parts;

3. because after the conveyer belt transportation, the lower mould can be because inertial position produces cheap, consequently through the setting of spacing subassembly, with the lower mould when reacing the assigned position, carry on spacingly to the lower mould, make the processing operation to the shoes die cavity more accurate.

Drawings

FIG. 1 is a schematic perspective view of a sole according to the present invention;

FIG. 2 is a schematic plan view of the partition in FIG. 1;

FIG. 3 is a schematic plan view of the partition in FIG. 1;

FIG. 4 is a schematic perspective view of an automated processing apparatus according to the present invention;

FIG. 5 is a reference view showing a state in which the first upper die of FIG. 4 is used;

FIG. 6 is a reference view showing a state in which the hollow suction pump of FIG. 4 is used;

fig. 7 is a reference view showing a state in which the second upper die of fig. 4 is used.

Reference numerals: 1. an inner sole; 2. an outer sole; 3. a zone separation layer; 30. a through hole; 4. a first conveyor belt; 40. a hollow part; 41. a front limiting plate; 42. a rear limiting plate; 43. a front top plate; 44. a rear roof panel; 45. a telescopic cylinder; 46. a master control console; 47. a lower die; 470. a shoe cavity; 5. a second conveyor belt; 50. an oven; 6. a first injection molding nozzle; 7. a first upper die; 70. a first bump; 8. a vacuum pump; 80. a second bump; 81. separating the material box; 810. a groove; 9. a second injection molding nozzle; 10. a second upper die; 100. a third bump; 11. a moving module; 12. a housing.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 to 3, the working principle of the present embodiment is as follows: be equipped with between inner sole 1 and the outsole 2 and distinguish interlayer 3, distinguish interlayer 3 when injection moulding, the outer edge of inner sole 1 and outsole 2 can be blocked by non-woven fabrics or hot melt adhesive or polypropylene promptly the colour on the outer edge of inner sole 1 and outsole 2 can not mix because of injection moulding and run the look.

The sole comprises an outer sole 2 and an inner sole 1, wherein the outer sole 2 is positioned at the lower end of the inner sole 1, a partition layer 3 is injected between the outer sole 2 and the inner sole 1, and the outer edge of a non-woven fabric layer is consistent with the outer edge of the top of the outer sole 2 and the outer edge of the bottom of the inner sole 1.

An injection molding separation layer 3 is arranged between the outer sole 2 and the inner sole 1, and the colors of the outer edge of the inner sole 1 and the outer edge of the outer sole 2 cannot be mixed and run due to injection molding due to the separation of the separation layer 3.

As a modified embodiment, the separation layer 3 may be made of nonwoven fabric or hot melt adhesive or polypropylene.

The non-woven fabric or the hot melt adhesive or the polypropylene is used as a partition, the realized partition effect is better, and the effects of adhering the inner sole 1 and the outer sole 2 are better.

Referring to fig. 2 to 3, as a modified embodiment, the inner end of the partition layer 3 is provided with a plurality of through holes 30.

Through distinguishing 3 inner of interlayer and being equipped with through-hole 30, the inside of inner sole 1 can mutually melt with outer sole 2 is inside, and 1 outer end of inner sole is incompatible with 2 outer ends of outer sole, has strengthened the firmness of moulding plastics of inner sole 1 with outer sole 2 promptly and can not advance again and run the look.

Referring to fig. 4-7, the automatic processing device for processing the shoe sole provided by the utility model comprises a housing 12, a lower die 47, a first conveyor belt 4, a second conveyor belt 5, a first injection nozzle 6, a first upper die 7, a vacuum suction pump 8, a second injection nozzle 9, a second upper die 10 and a general control platform 46, wherein two ends of the first conveyor belt 4 are hinged in the housing 12, the first injection nozzle 6, the first upper die 7, the vacuum suction pump 8, the second injection nozzle 9 and the second upper die 10 are sequentially arranged at the upper end of the first conveyor belt 4 from right to left, the upper ends of the first injection nozzle 6, the first upper die 7, the vacuum suction pump 8, the second injection nozzle 9 and the second upper die 10 are all connected with a mobile module 11, the first injection nozzle 6 and the second injection nozzle 9 are provided with control switches, the mobile module 11 and the control switches are respectively and electrically connected with a control chip in the general control platform 46, the master control console 46 controls the first injection molding nozzle 6, the first upper die 7, the vacuum suction pump 8, the second injection molding nozzle 9 and the second upper die 10 to be sequentially processed in the shoe mold cavity 470 of the lower die 47, the tail part of the first conveyor belt 4 is in butt joint with the second conveyor belt 5, the upper end of the second conveyor belt 5 is provided with an oven 50, and the second conveyor belt 5 passes through the oven 50 and then inclines towards the lower oblique direction.

The working principle of the embodiment is as follows: the lower die 47 is sequentially placed on the first conveyor belt 4, the first conveyor belt 4 drives and conveys the lower die 47 to the lower end of the first injection molding spray head 6, the limiting component is lifted to limit the lower die 47, the master control console 46 controls a control switch to open the spray head for injection molding, the master control console 46 controls the limiting component to fall after injection molding, the first conveyor belt 4 continues to drive the lower die 47 to move, when the lower die 47 moves to the lower end of the first upper die 7, the limiting component is lifted to limit the lower die 47, the master control console 46 controls the moving module 11 to drive the first upper die 7 to press down, the first bump 70 is inserted into a die cavity of the lower die 47, the inner side surface of the outer sole 2 is subjected to preliminary injection molding, the master control console 46 controls the limiting component to fall after molding, the first conveyor belt 4 continues to drive the lower die 47 to move, when the lower die 47 moves to the bottom of the hollow suction pump, the limiting component limits the lower die 47, the master control console 46 controls the moving module 11 to drive the hollow suction pump to suck 810 non-woven fabric from a groove of the partition material box 81, the non-woven fabrics are placed into the upper end of the outer sole 2 formed by injection molding in the mold cavity or the manual direct mold cavity by the air suction pump in the process of injection molding, hot melt adhesive or polypropylene is injected into the upper end of the outer sole 2 or the manual direct mold cavity, the main control console 46 controls the limiting component to fall, the first conveyor belt 4 continues to drive the lower mold 47 to move to the lower end of the second injection molding nozzle 9, the limiting component is lifted to limit the lower mold 47, the main control console 46 controls the control switch to open the nozzle to perform injection molding on the surface of the non-woven fabrics or the hot melt adhesive or the polypropylene, the main control console 46 controls the limiting component to fall after the injection molding, the first conveyor belt 4 continues to drive the lower mold 47 to move, when the lower mold 47 moves to the lower end of the second upper mold 10, the limiting component is lifted to limit the lower mold 47, the main control console 46 controls the moving module 11 to drive the second upper mold 10 to press downwards, the third bump 100 is inserted into the mold cavity of the lower mold 47, the outer side surface of the inner sole 1 is subjected to injection molding, and the limiting component initially falls after the molding, the master control station 46 continuously controls the first conveyor belt 4 to move, the lower die 47 is moved onto the second conveyor belt 5, the second conveyor belt 5 passes through the oven 50 to form an integral sole, and the lower die 47 with the sole is conveyed out through the second conveyor belt 5.

The mobile module 11 is not described in detail in the present invention.

The first upper die 7, the hollow suction pump and the second upper die 10 sequentially process the shoe mold cavity 470 of the lower die 47 after being conveyed by the first conveyor belt 4, and the distributed processing enables the surface of the injection molding material injected by the first injection nozzle 6 to be preliminarily molded after the first upper die 7 is processed, and the injection molding material cannot be mixed with the injection molding material of the second injection nozzle 9 to run out after the second upper die 10 is processed.

As a modified specific embodiment, the first conveyor belt 4 is provided with a limiting assembly at a position corresponding to the first injection nozzle 6, the first upper die 7, the vacuum suction pump 8, the second injection nozzle 9 and the second upper die 10, and the middle end of the first conveyor belt 4 is provided with a hollow part 40 for extending the limiting assembly.

Through the setting of well kenozooecium 40 and spacing subassembly, can be used for the removal of spacing lower mould 47 more nimble, and spacing subassembly can be controlled by grand console 46, realizes automated operation.

As a modified specific embodiment, the limiting assembly comprises a front limiting plate 41, a rear limiting plate 42, a telescopic cylinder 45, a front top plate 43 and a rear top plate 44, the lower ends of the front limiting plate 41 and the rear limiting plate 42 are connected with the telescopic cylinder 45, a gap between the front limiting plate 41 and the rear limiting plate 42 is matched with a lower die 47, the tail ends of the front top plate 43 and the rear top plate 44 are also connected with the telescopic cylinder 45, the front top plate 43 and the rear top plate 44 are respectively arranged on the shell 12 at two ends of the gap, and the front limiting plate 41 and the rear limiting plate 42 are telescopically arranged in the hollow part 40.

When spacing, the total console 46 control money limiting plate rises earlier lower mould 47 and contradicts behind preceding limiting plate 41, and back limiting plate 42 plays transverse orientation raising through telescopic cylinder 45, then extends to the inboard simultaneously through preceding roof 43 and back roof 44, extends to the assigned position and stops, plays longitudinal positioning, realizes whole spacing effect, makes things convenient for processing operation more.

As a modified embodiment, the outer end of the housing 12 is provided with a separating material tank 81, the separating material tank 81 is correspondingly arranged at the side of the vacuum pump 8, and the separating material tank 81 is provided with a groove 810 matched with the shoe mold cavity 470.

The vacuum suction pump 8 is driven by the moving module 11 to suck the partition material of the partition material box 81 into the shoe mold cavity 470 by the vacuum suction pump 8.

As a modified embodiment, the lower ends of the first upper mold 7, the vacuum pump 8 and the second upper mold 10 are provided with a first projection 70 and a second projection 80 and a third projection 100, respectively, which match the shoe cavity 470.

Through the arrangement of the first bump 70, the second bump 80 and the third bump 100, when the first upper die 7, the vacuum suction pump 8 and the second upper die 10 process the die cavity, the structure of the shoe cavity 470 can be completely met, and the effect that the injection molded sole is smoother and firmer is achieved.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (7)

1. A sole, includes outsole (2) and insole (1), its characterized in that: the outer sole (2) is located the lower end of the inner sole (1), an area interlayer (3) is injected between the outer sole (2) and the inner sole (1), and the outer edge of the non-woven fabric layer is consistent with the outer edge of the top of the outer sole (2) and the outer edge of the bottom of the inner sole (1).

2. A sole as claimed in claim 1, wherein: the inner end of the partition layer (3) is provided with a plurality of through holes (30).

3. An automated processing device for processing the shoe sole of claim 1, wherein: comprises a shell (12), a lower die (47), a first conveyor belt (4), a second conveyor belt (5), a first injection molding nozzle (6), a first upper die (7), a vacuum suction pump (8), a second injection molding nozzle (9), a second upper die (10) and a master control platform (46), wherein two ends of the first conveyor belt (4) are hinged in the shell (12), the first injection molding nozzle (6), the first upper die (7), the vacuum suction pump (8), the second injection molding nozzle (9) and the second upper die (10) are sequentially arranged at the upper end of the first conveyor belt (4) from right to left, the upper ends of the first injection molding nozzle (6), the first upper die (7), the vacuum suction pump (8), the second injection molding nozzle (9) and the second upper die (10) are all connected with a moving module (11), and control switches are arranged on the first injection molding nozzle (6) and the second injection molding nozzle (9), remove module (11) and control switch respectively with the control chip electric connection in the master control platform (46), master control platform (46) control first shower nozzle (6), first last mould (7), vacuum suction pump (8), second shower nozzle (9) and the second of moulding plastics are gone up mould (10) and are processed in shoes die cavity (470) of lower mould (47) in proper order, first conveyer belt (4) afterbody and second conveyer belt (5) butt joint, second conveyer belt (5) upper end is equipped with oven (50), second conveyer belt (5) pass oven (50) backward slope below to one side.

4. The automated sole processing apparatus of claim 3, wherein: the position of the first conveyor belt (4) corresponding to the first injection molding nozzle (6), the first upper die (7), the vacuum suction pump (8), the second injection molding nozzle (9) and the second upper die (10) is provided with a limiting assembly, and the middle end of the first conveyor belt (4) is provided with a hollow part (40) used for extending the limiting assembly.

5. The automatic processing device of the sole according to claim 4, characterized in that: spacing subassembly includes preceding spacing board (41), back spacing board (42), telescopic cylinder (45), preceding roof (43) and back roof (44), preceding spacing board (41) and back spacing board (42) lower extreme are connected with telescopic cylinder (45), clearance and lower mould (47) adaptation between preceding spacing board (41) and the back spacing board (42), preceding roof (43) and back roof (44) tail end also all connect telescopic cylinder (45), preceding roof (43) and back roof (44) set up respectively on casing (12) at clearance both ends, preceding spacing board (41) and back spacing board (42) are scalable to be set up in well kenozooecium (40).

6. The automated sole processing apparatus of claim 3, wherein: the outer side end of the shell (12) is provided with a separating material box (81), the separating material box (81) is correspondingly arranged on the side edge of the vacuum suction pump (8), and a groove (810) matched with the shoe cavity (470) is formed in the separating material box (81).

7. The automated sole processing apparatus of claim 3, wherein: the lower ends of the first upper die (7), the vacuum suction pump (8) and the second upper die (10) are respectively provided with a first lug (70), a second lug (80) and a third lug (100) which are matched with the shoe cavity (470).

Images