CN219214171U

CN219214171U - Sole thermoforming device

Info

Publication number: CN219214171U
Application number: CN202220313560.2U
Authority: CN
Inventors: 刘尚玉; 谢兰芬
Original assignee: Dongguan Zhenfei Automation Machinery Co ltd
Current assignee: Dongguan Zhenfei Automation Machinery Co ltd
Priority date: 2022-02-16
Filing date: 2022-02-16
Publication date: 2023-06-20
Anticipated expiration: 2032-02-16

Abstract

The utility model relates to a sole thermoforming device, which is provided with a rack, wherein the rack is provided with an electric cabinet, an upper heating component, a lower heating component, a mould moving platform component, a cooling component and a material placing and taking platform, and is a four-station sole forming machine formed by a heating zone, a cooling zone, a material placing zone and a material taking zone; the heating area is wrapped with a closed type non-contact type heating, the cooling area adopts an up-and-down flowing circulating water source, the wrapped and closed type circulating water cooling is carried out on the die moving platform assembly, the heating and the cooling are uniform, impurities such as dust and dust are effectively isolated, the forming quality and the cleanliness are high, the die is directly combined on a flow line conveying line of automatic production, continuous and circulating online production can be carried out by one person taking care of and operating the die, the structure is simple, and the cost is saved; the automation degree is high, the number of the devices can be formulated according to the working environment, the productivity requirement and the number of workers, and a plurality of devices can be combined; is suitable for processing soles of various styles.

Description

Sole thermoforming device

Technical Field

The utility model relates to the technical field related to sole forming equipment, in particular to a sole thermoforming device.

Background

When living conditions are increasingly improved, pursuit of shoes is also gradually improved, for example, the shoes are comfortable, the shoes are selected when most people and women are at home or in outdoor activities, soles of the shoes and the shoes are formed by single-layer forming or double-layer material composite forming, a forming process of the shoes is generally that a first-layer forming sole is mainly formed by foaming, a forming process of a second-layer forming sole is formed by composite forming, the first-layer forming sole is mainly placed into a die, then the second-layer sole forming material is placed into the die, heat is transmitted to an upper die plate and a lower die plate of equipment through an external heating, the whole die is heated in a contact mode, after the temperature of the die is increased, the heat on the second-layer sole forming material is transmitted to the second-layer sole forming material, the second-layer sole forming material is melted by a heat transmission mode, the second-layer sole forming material after melting and the first-layer forming sole after foaming are combined into a whole, the composite forming mode is heated in an open type, the heating time is long, the die is heated by the whole, the die is heated by the large, the heat is not easy to manufacture the sole, the sole is difficult to be manufactured in the environment-friendly condition, the environment-friendly equipment is large in the manufacturing condition, the heat is difficult to ensure the manufacturing cost is large, the equipment is difficult to be manufactured, and the floor is difficult to be manufactured, and the environment-friendly, and the equipment is difficult to be manufactured, and the cost is easy to be free.

In addition, the sole mold is mainly cooled through open water spraying after molding, because the external heating is adopted in the heating, dust and the like in the air cannot be isolated when the water spraying is used for cooling, oil which is not recovered in time can be mixed with the water and the dust, dust and the like in the air, so that the molded sole mold is polluted, a large amount of stains are formed, the quality of a molded product is affected, the cleaning cost is required to be additionally added, and the working efficiency is low.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides the sole thermal forming device which is uniform in heating, high in forming quality, cost-saving, energy-saving, environment-friendly and high in working efficiency, and the sole thermal forming device is used for solving the problems of non-uniform heating, unstable forming quality, high cost, high energy consumption and low working efficiency.

In order to achieve the above object, the technical scheme provided by the utility model is as follows: the sole thermoforming device comprises a frame, wherein an electric cabinet, an upper heating assembly, a lower heating assembly, a mould motion platform assembly, a cooling assembly and a material releasing and taking platform are sequentially arranged on the frame from top to bottom, and the sole thermoforming device is characterized in that: the frame including set up in left side board, right side board in the frame both sides, set up in the front bezel of front side, be the 2 back door plant subassemblies of distribution setting from top to bottom, back door plant subassembly is including being 2 door bodies that the setting of splitting, be provided with the connection dog between the 2 back door plant subassemblies of group, the left side board outside is provided with left baffle, go up heating element and set up in electric cabinet bottom, the mould motion platform subassembly includes the mould subassembly, sets up in putting and get material platform rear side top and the horizontal pushing component and the vertical pushing component of right side top, heating element and cooling module set up respectively in putting and get material platform top left rear side and right rear side down, go up heating element, heating element and put and get material platform top left rear side cooperation and form the heating zone down, cooling module and put and get material platform top right rear side cooperation and form the cooling zone, the mould subassembly activity sets up in heating element and cooling module top down.

As a further aspect of the present utility model, it is characterized in that: the novel reinforced plastic plate is characterized in that a plurality of cross beams are arranged between the left side plate and the right side plate from top to bottom, each cross beam comprises a first cross beam, a second cross beam, a third cross beam, a fourth cross beam and a fifth cross beam, decorative plates are arranged on the outer side of each second cross beam, the first cross beam and the second cross beams are designed front and back, a first connecting block and a second connecting block are arranged between the first cross beams and the second cross beams, hooks are arranged on the second cross beams, first reinforcing ribs are arranged between the second cross beams and the fourth cross beams, and second reinforcing ribs are arranged between the third cross beams and the front baffle.

As a further aspect of the present utility model, it is characterized in that: the electric cabinet comprises a cabinet body, a display screen and an operation button assembly are arranged on the front side of the cabinet body, and a fan is arranged on the left side of the cabinet body.

As a further aspect of the present utility model, it is characterized in that: the upper heating assembly comprises a first fixing plate, a temperature measuring sensor and a lamp tube, wherein the lamp tube is arranged at the bottom of the first fixing plate, and the temperature measuring sensor is arranged at the top of the first fixing plate.

As a further aspect of the present utility model, it is characterized in that: the lower heating assembly comprises a second fixing plate, a wrapping type outer cover, an infrared lamp tube and a first lifting driving piece, wherein the wrapping type outer cover is arranged at the top of the second fixing plate, the infrared lamp tube is arranged on the inner side of the wrapping type outer cover, the first lifting driving piece is arranged at the bottom of the second fixing plate and is connected with the wrapping type outer cover, the first lifting driving piece drives the wrapping type outer cover and the 2 infrared lamp tube to do vertical linear motion, and the first lifting driving piece is arranged as one of an air cylinder and a motor.

As a further aspect of the present utility model, it is characterized in that: the novel multifunctional sole comprises a sole assembly and is characterized in that the die assembly comprises a movable platform, 4 bull's eye movable bearings are arranged at the bottom of the movable platform, a sole die is arranged in the middle of the movable platform, the sole die comprises an upper die, a middle die and a lower die, a lock catch is arranged between the upper die and the lower die, a clamping ring is arranged on the outer side of the lock catch, the upper die, the middle die and the lower die are mutually matched to form cavities, the number of the cavities is 2, and the transverse pushing assembly and the longitudinal pushing assembly are of the same structure.

As a further aspect of the present utility model, it is characterized in that: the transverse pushing components and the longitudinal pushing components are distributed and arranged in a mutually perpendicular mode.

As a further aspect of the present utility model, it is characterized in that: the horizontal pushing assembly comprises a synchronous transmission mechanism, a precise screw rod and a first guide rod, wherein the first guide rod is symmetrically arranged into 2 rods on the left side and the right side of the precise screw rod, the synchronous transmission mechanism comprises a stepping motor, a driving wheel, a driven wheel and a synchronous belt, and the stepping motor drives the horizontal pushing assembly to do horizontal linear motion along the precise screw rod and the first guide rod.

As a further aspect of the present utility model, it is characterized in that: the cooling assembly comprises an upper seat assembly and a lower seat assembly, the upper seat assembly comprises an upper seat fixing plate, a waterway plate and a water baffle plate, the waterway plate is arranged at the bottom of the upper seat fixing plate, the water baffle plate is arranged at the bottom of the waterway plate, an upper seat water inlet is formed in the waterway plate, an upper seat water outlet is formed in the water baffle plate, the lower seat assembly comprises a lower seat fixing plate and a water tank, the water tank is arranged on the upper side of the lower seat fixing plate, a second guide rod is arranged between the water tank and the lower seat fixing plate, a second lifting driving piece is arranged at the bottom of the lower seat fixing plate, a lower seat water inlet and a plurality of lower seat water outlets are formed in the water tank, and the second lifting driving piece is arranged as one of an air cylinder or a motor.

As a further aspect of the present utility model, it is characterized in that: the discharging and taking platform comprises a first transverse guide rail and a second transverse guide rail which are transversely distributed, a first longitudinal guide rail, a second longitudinal guide rail, a third longitudinal guide rail and a waste water collecting tank basin which are longitudinally distributed, wherein the waste water collecting tank basin is arranged on the front side of the bottom of the discharging and taking platform, 2-4 waste water collecting tank basins are transversely distributed, the left front side of the top of the second transverse guide rail, the left front side of the top of the first longitudinal guide rail, the left front side of the top of the second longitudinal guide rail, the right front side of the top of the discharging and taking platform are matched to form a discharging area, and the right front side of the top of the second transverse guide rail, the right front side of the top of the discharging and taking platform is matched to form a discharging area.

Compared with the prior art, the utility model has the beneficial effects that:

the sole thermoforming device is provided with the rack, the rack is sequentially provided with the electric cabinet, the upper heating component, the lower heating component, the mould moving platform component, the cooling component and the material placing and taking platform from top to bottom, and the machine is convenient to operate, simple in structure and beneficial to saving cost; the upper heating component, the lower heating component and the left rear side of the top of the material placing and taking platform are matched to form a heating zone, which is a wrapping closed type non-contact type heating zone, is uniformly heated, can precisely heat the part which actually needs to work, and has low energy consumption; the cooling assembly and the right rear side of the top of the material placing and taking platform are matched to form a cooling area, the cooling area adopts an up-and-down flowing circulating water source, the mold moving platform assembly is wrapped with closed circulating water for cooling, cooling is uniform, the parts which actually need to be operated can be precisely cooled, impurities such as dust and dust in the air are effectively isolated, the quality and the cleanliness of the formed product are high, the energy consumption is greatly reduced, the circulating water can be dried by positive pressure gas after cooling, and the working efficiency is high; the material placing and taking platform comprises second transverse guide rails which are transversely distributed and are longitudinally distributed, a first longitudinal guide rail, a second longitudinal guide rail and a third longitudinal guide rail which are longitudinally distributed and designed, the second transverse guide rails, the first longitudinal guide rail, the second longitudinal guide rail and the left front side of the top of the material placing and taking platform are matched to form a material placing area, the right front side of the top of the material placing and taking platform is matched to form a material taking area, and the heating area, the cooling area, the material placing area and the material taking area form a simple and flexible four-station sole forming machine with small occupied area; the automation degree is high, the number of the devices can be formulated according to the working environment, the productivity requirement and the number of workers, and a plurality of devices can be combined; in the combined production process of a plurality of devices, each device can be independently set with different temperatures, the temperature can be controlled more accurately, the quality and the efficiency of products are improved, in the combined production process, products with different production conditions and different production parameters can be set, and different product dies can be replaced as required, and corresponding parameters can be adjusted timely and flexibly, so that the combined production device is suitable for processing soles with various styles.

Drawings

FIG. 1 is a schematic perspective view of a novel thermal device for sole construction;

FIG. 2 is a schematic diagram showing a second perspective structure of a sole thermoforming apparatus according to the present utility model;

FIG. 3 is a schematic perspective view of a frame of a sole thermoforming apparatus according to the present utility model;

FIG. 4 is a schematic view of the internal structure of the whole machine of the sole thermoforming apparatus of the present utility model;

FIG. 5 is a schematic perspective view of an electric cabinet of a sole thermoforming apparatus according to the present utility model;

FIG. 6 is a schematic perspective view of a heating assembly of a sole thermoforming apparatus according to the present utility model;

FIG. 7 is a schematic perspective view of a heating assembly under a sole thermoforming apparatus according to the present utility model;

FIG. 8 is a schematic perspective view of a mold assembly of a sole thermoforming apparatus according to the present utility model;

FIG. 9 is a schematic perspective view of a lateral pushing assembly of a sole thermoforming apparatus according to the present utility model;

FIG. 10 is a schematic perspective view of an upper assembly of a sole thermoforming apparatus according to the present utility model;

FIG. 11 is a schematic perspective view of a lower seat assembly of a sole thermoforming apparatus according to the present utility model.

Description of elements in the drawings: 1-a frame; 11-left side plate; 111-a first beam; 112-a second beam; 113-a third cross beam; 114-a fourth cross member; 115-a fifth cross member; 116-decorative plate; 12-right side plate; 121-a first connection block; 122-a second connection block; 123-hooking; 124-first stiffener; 125-second reinforcing ribs; 13-front baffle; 14-a rear door panel assembly; 141-door body; 142-connecting a stop block; 15-left baffle; 2-an electric cabinet; 21-a cabinet body; 22-a display screen; 23-operating a button assembly; 24-fans; 3-an upper heating assembly; 31-a first fixing plate; 32-a temperature measurement sensor; 33-a lamp tube; 4-a lower heating assembly; 41-a second fixing plate; 42-wrap-around cover; 43-infrared lamp tube; 44-a first lift drive; 5-a mold motion platform assembly; 51-a mold assembly; 511-a movable platform; 512-bullseye movable bearing; 513-sole mold; 514-upper layer mold; 515-middle layer mold; 516-lower layer mold; 517-locking buckle; 518-a snap ring; 519-cavity; 52-a transverse pushing assembly; 53-a longitudinal pushing assembly; 54-synchronous transmission mechanism; 541-a stepper motor; 542-driving wheel; 543-driven wheel; 544-synchronous belt; 55-a precise screw rod; 56-a first guide bar; 6-a cooling assembly; 61-an upper seat assembly; 611-upper seat fixing plate; 612—waterway plate; 613-a water baffle; 614-upper water inlet; 615-upper seat water outlet; 62-a lower seat assembly; 621-lower seat fixing plate; 622-a sink; 623-a second guide bar; 624-a second lift drive; 625-lower seat water inlet; 626-lower water outlet; 7, a material discharging and taking platform; 71-a first transverse rail; 72-a second transverse rail; 73-a first longitudinal rail; 74-a second longitudinal rail; 75-a third longitudinal rail; 76-a waste water collecting basin; 8-heating zone; 9-a cooling zone; 10-a discharging area; 20-a material taking area.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 11, in the embodiment of the utility model, a thermal forming device for a sole includes a frame 1, wherein the frame 1 is provided with an electric cabinet 2, an upper heating component 3, a lower heating component 4, a mold moving platform component 5, a cooling component 6 and a material placing and taking platform 7 from top to bottom in sequence, and is characterized in that: the machine frame 1 is including setting up in left side board 11, right side board 12 of frame 1 both sides, set up in the preceding baffle 13 of front side, be 2 back door plant subassembly 14 of distributing the setting from top to bottom, back door plant subassembly 14 is including being 2 door bodies 141 that the setting of splitting, be provided with between 2 back door plant subassembly 14 of group and connect dog 142, the left side board 11 outside is provided with left baffle 15, go up heating element 3 and be provided with electric cabinet 2 bottom, mould motion platform subassembly 5 includes mould subassembly 51, sets up in the horizontal pushing component 52 and the vertical pushing component 53 of putting and getting material platform 7 rear side top and right side top, lower heating element 4 and cooling element 6 set up respectively in putting and get material platform 7 top left rear side and right rear side, go up heating element 3, lower heating element 4 and put the cooperation of platform 7 top left rear side and form heating zone 8, cooling element 6 and put the cooperation of platform 7 top right rear side and form cooling zone 9, mould subassembly 51 activity sets up in lower heating element 4 and cooling element 6 top and getting material. The whole panel beating welding fastening mode that adopts of frame 1 can make the board more steady, and whole equipment area is little, and operating space is nimble, can carry out the formulation of equipment quantity according to operational environment, productivity demand, the number of workers, arranges in a flexible way many equipment, in addition, the design of the door body 141, the cleanness, the detection and the maintenance of equipment of being more convenient for.

Preferably, in the above-mentioned sole thermoforming device, a plurality of beams are disposed between the left side plate 11 and the right side plate 12 from top to bottom, the beams include a first beam 111, a second beam 112, a third beam 113, a fourth beam 114 and a fifth beam 115, a decorative board 116 is disposed on the outer side of the second beam 112, the first beam 111 and the second beam 112 are designed front and back, a first connecting block 121 and a second connecting block 122 are disposed between the first beam 111 and the second beam 112, a hook 123 is disposed on the second beam 112, a first reinforcing rib 124 is disposed between the second beam 112 and the fourth beam 114, and a second reinforcing rib 125 is disposed between the third beam 113 and the front baffle 13. When the pushing-out mould moving platform assembly 5 enters the right side of the top of the material placing and taking platform 7 to take materials, the clamping ring 518 automatically opens the upper mould 514 in the sole mould 513 along the direction of an operator along the hook 123 in an radian manner, and the product is taken out without being manually opened.

Preferably, in the above-mentioned thermal forming device for shoe soles, the electric cabinet 2 includes a cabinet body 21, a display screen 22 and an operation button assembly 23 are disposed on the front side of the cabinet body 21, and a fan 24 is disposed on the left side of the cabinet body 21. The time and temperature of heating or cooling can be set according to different sole materials or sole thicknesses by operating the button assembly 23, and the set conditions or working progress can be known in time by the display screen 22.

Preferably, in the above-mentioned sole thermoforming device, the upper heating assembly 3 includes a first fixing plate 31, a temperature sensor 32, and a lamp tube 33, the lamp tube 33 is disposed at the bottom of the first fixing plate 31, and the temperature sensor 32 is disposed at the top of the first fixing plate 31. The lamp tube 33 can be optionally an infrared lamp tube as a heating source for closed heating, has small shape and low requirement on heating space, and can heat a small area or a targeted area within a certain range.

Preferably, the lower heating assembly 4 includes a second fixing plate 41, a wrapping type outer cover 42, an infrared lamp tube 43 and a first lifting driving member 44, the wrapping type outer cover 42 is disposed at the top of the second fixing plate 41, the infrared lamp tube 43 is disposed at the inner side of the wrapping type outer cover 42, the first lifting driving member 44 is disposed at the bottom of the second fixing plate 41 and connected with the wrapping type outer cover 42, the first lifting driving member 44 drives the wrapping type outer cover 42 and the 2 infrared lamp tube 43 to perform up-down rectilinear motion, and the first lifting driving member 44 is one of an air cylinder or a motor. Wherein, the design of the wrapping type outer cover 42 can make the heat not easily lost, and the first lifting driving member 44 can select a motor or an air cylinder to realize a lifting mode according to the requirement or budget of the customer, and after the heating is completed, the transverse pushing assembly 52 automatically pushes the mold moving platform assembly 5 to the right side of the top of the material placing and taking platform 7 for cooling.

Preferably, in the above-mentioned sole thermoforming device, the mold assembly 51 includes a

movable platform

511, 4 bull's eye movable bearings 512 are provided at the bottom of the movable platform 511, a sole mold 513 is provided in the middle of the movable platform 511, the sole mold 513 includes an upper mold 514, a middle mold 515 and a lower mold 516, a lock catch 517 is provided between the upper mold 514 and the lower mold 516, a snap ring 518 is provided at the outer side of the lock catch 517, the upper mold 514, the middle mold 515 and the lower mold 516 are mutually matched to form a cavity 519, the number of the cavities 519 is 2, and the transverse pushing assembly 52 and the longitudinal pushing assembly 53 are set to have the same structure. Wherein, upper die 514, middle level die 515 and lower floor's die 516 constitute three die structures of tearing open, be convenient for the placement of the sole shaping material of first layer foaming shaping sole, second or more layer number, the dismantlement of the product after the complex shaping is accomplished of being convenient for also can be according to customer's requirement customization or change, the design of sinking shaping that three die structures formed, the design of 800 ℃ high temperature resistant paint on rethread upper die 514, middle level die 515 and the lower floor's die 516 for sole shaping heating conduction is faster, the cooling effect is better.

Preferably, in the above-mentioned sole thermoforming apparatus, the transverse pushing assemblies 52 and the longitudinal pushing assemblies 53 are disposed in a mutually perpendicular arrangement. By the design of the transverse pushing component 52, the transverse movement of the mould moving platform component 5 can be realized; by the design of the longitudinal pushing assembly 53, the longitudinal movement of the mold motion platform assembly 5 can be achieved.

Preferably, in the above-mentioned sole thermoforming device, the horizontal pushing component 52 includes a synchronous transmission mechanism 54, a precise screw 55 and a first guide rod 56, the first guide rod 56 is symmetrically disposed on the left and right sides of the precise screw 55, the synchronous transmission mechanism 54 includes a stepping motor 541, a driving wheel 542, a driven wheel 543 and a synchronous belt 544, and the stepping motor 541 drives the horizontal pushing component 52 to make a horizontal linear motion along the precise screw 55 and the first guide rod 56. The design of the stepping motor 541 and the precise screw 55 facilitates the precise pushing of the mold motion platform assembly 5.

Preferably, in the above-mentioned sole thermoforming device, the cooling module 6 comprises an upper seat module 61 and a lower seat module 62, the upper seat module 61 comprises an upper seat fixing plate 611, a waterway plate 612 and a water baffle 613, the waterway plate 612 is arranged at the bottom of the upper seat fixing plate 611, the water baffle 613 is arranged at the bottom of the waterway plate 612, an upper seat water inlet 614 is arranged on the waterway plate 612, an upper seat water outlet 615 is arranged on the water baffle 613, the lower seat module 62 comprises a lower seat fixing plate 621 and a water tank 622, the water tank 622 is arranged at the upper side of the lower seat fixing plate 621, a second guide rod 623 is arranged between the water tank 622 and the lower seat fixing plate 621, a second lifting driving piece 624 is arranged at the bottom of the lower seat fixing plate 621, a lower seat water inlet 625 and a plurality of lower seat water outlets 626 are arranged on the lower seat fixing plate 622, and the second lifting driving piece 624 is arranged as one of a cylinder or a motor. The second lifting driving member 624 can selectively adopt a motor or an air cylinder to realize lifting mode according to the requirement or budget of a customer, so as to cool the die assembly after the completion of the heating molding, and the design of the upper seat assembly 61 and the lower seat assembly 62 realizes the functions of upper and lower water circulation, and can selectively configure a water drying mechanism according to the requirement of the customer, and can also enable the lower seat water outlet 626 to be in butt joint with a freezing water tower of the customer for cooling.

Preferably, in the above-mentioned sole thermoforming device, the material placing and taking platform 7 includes a first transverse guide 71 and a second transverse guide 72 which are arranged in a transverse distribution manner, a first longitudinal guide 73, a second longitudinal guide 74, a third longitudinal guide 75 which are arranged in a longitudinal distribution manner, and a waste water collecting basin 76 which is arranged at the front side of the bottom of the material placing and taking platform 7, 2-4 waste water collecting basins 76 are arranged in a transverse distribution manner, the left front side of the top of the material placing and taking platform 7 is matched with the second transverse guide 72, the first longitudinal guide 73, the second longitudinal guide 74, and the right front side of the top of the material placing and taking platform 7 to form the material placing and taking area 10, and the right front side of the top of the material placing and taking platform 7 is matched with the second transverse guide 72, the second longitudinal guide 74, the third longitudinal guide 75, and the material placing and taking area 20. The bullseye movable bearing 512 can realize the longitudinal movement of the die movement platform assembly 5 on the left side of the top of the material placing and taking platform 7 through the first longitudinal guide rail 73 and the second longitudinal guide rail 74, so that the placement of the sole composite material and the first layer sole molding product is facilitated; the bullnose movable bearing 512 can realize the transverse movement of the die moving platform assembly 5 on the left side of the top of the material placing and taking platform 7 through the first transverse guide rail 71 and the second transverse guide rail 72, so that the die moving platform assembly can smoothly enter the right side of the top of the material placing and taking platform 7 for cooling after the composite forming of soles is finished; the bullseye movable bearing 512 can realize the longitudinal movement of the die moving platform assembly 5 on the right side of the top of the material placing and taking platform 7 through the second longitudinal guide rail 74 and the third longitudinal guide rail 75, so that the product after the composite molding cooling is convenient to discharge.

Example 1

Referring to fig. 1 to 11, in the embodiment of the utility model, a thermal forming device for a sole includes a frame 1, wherein the frame 1 is provided with an electric cabinet 2, an upper heating component 3, a lower heating component 4, a mold moving platform component 5, a cooling component 6 and a material placing and taking platform 7 from top to bottom in sequence, and is characterized in that: the machine frame 1 is including setting up in left side board 11, right side board 12 of frame 1 both sides, set up in the preceding baffle 13 of front side, be 2 back door plant subassembly 14 of distributing the setting from top to bottom, back door plant subassembly 14 is including being 2 door bodies 141 that the setting of splitting, be provided with between 2 back door plant subassembly 14 of group and connect dog 142, the left side board 11 outside is provided with left baffle 15, go up heating element 3 and be provided with electric cabinet 2 bottom, mould motion platform subassembly 5 includes mould subassembly 51, sets up in the horizontal pushing component 52 and the vertical pushing component 53 of putting and getting material platform 7 rear side top and right side top, lower heating element 4 and cooling element 6 set up respectively in putting and get material platform 7 top left rear side and right rear side, go up heating element 3, lower heating element 4 and put the cooperation of platform 7 top left rear side and form heating zone 8, cooling element 6 and put the cooperation of platform 7 top right rear side and form cooling zone 9, mould subassembly 51 activity sets up in lower heating element 4 and cooling element 6 top and getting material.

A plurality of cross beams are arranged between the left side plate 11 and the right side plate 12 from top to bottom, each cross beam comprises a first cross beam 111, a second cross beam 112, a third cross beam 113, a fourth cross beam 114 and a fifth cross beam 115, decorative plates 116 are arranged on the outer side of the second cross beam 112, the first cross beam 111 and the second cross beam 112 are designed front and back, a first connecting block 121 and a second connecting block 122 are arranged between the first cross beam 111 and the second cross beam 112, hooks 123 are arranged on the second cross beam 112, first reinforcing ribs 124 are arranged between the second cross beam 112 and the fourth cross beam 114, and second reinforcing ribs 125 are arranged between the third cross beam 113 and the front baffle 13.

The electric cabinet 2 comprises a cabinet body 21, a display screen 22 and an operation button assembly 23 are arranged on the front side of the cabinet body 21, and a fan 24 is arranged on the left side of the cabinet body 21.

The upper heating assembly 3 comprises a first fixing plate 31, a temperature measuring sensor 32 and a lamp tube 33, wherein the lamp tube 33 is arranged at the bottom of the first fixing plate 31, and the temperature measuring sensor 32 is arranged at the top of the first fixing plate 31.

The lower heating component 4 comprises a second fixing plate 41, a wrapped outer cover 42, an infrared lamp tube 43 and a first lifting driving piece 44, wherein the wrapped outer cover 42 is arranged at the top of the second fixing plate 41, the infrared lamp tube 43 is arranged on the inner side of the wrapped outer cover 42, the first lifting driving piece 44 is arranged at the bottom of the second fixing plate 41 and is connected with the wrapped outer cover 42, the first lifting driving piece 44 drives the wrapped outer cover 42 and the infrared lamp tube 43 to do vertical linear motion, and the first lifting driving piece 44 is one of an air cylinder and a motor.

The mold assembly 51 comprises a

movable platform

511, 4 bull's eye movable bearings 512 are arranged at the bottom of the movable platform 511, a sole mold 513 is arranged in the middle of the movable platform 511, the sole mold 513 comprises an upper mold 514, a middle mold 515 and a lower mold 516, a lock catch 517 is arranged between the upper mold 514 and the lower mold 516, a clamping ring 518 is arranged on the outer side of the lock catch 517, the upper mold 514, the middle mold 515 and the lower mold 516 are mutually matched to form a cavity 519, the number of the cavities 519 is 2, and the transverse pushing assembly 52 and the longitudinal pushing assembly 53 are of the same structure.

The transverse pushing components 52 and the longitudinal pushing components 53 are arranged in a mutually perpendicular manner.

The horizontal pushing assembly 52 comprises a synchronous transmission mechanism 54, a precise screw rod 55 and a first guide rod 56, the first guide rod 56 is symmetrically arranged on the left side and the right side of the precise screw rod 55, the synchronous transmission mechanism 54 comprises a stepping motor 541, a driving wheel 542, a driven wheel 543 and a synchronous belt 544, and the stepping motor 541 drives the horizontal pushing assembly 52 to move horizontally and linearly along the precise screw rod 55 and the first guide rod 56.

The cooling assembly 6 comprises an upper seat assembly 61 and a lower seat assembly 62, the upper seat assembly 61 comprises an upper seat fixing plate 611, a waterway plate 612 and a water baffle 613, the waterway plate 612 is arranged at the bottom of the upper seat fixing plate 611, the water baffle 613 is arranged at the bottom of the waterway plate 612, an upper seat water inlet 614 is arranged on the waterway plate 612, an upper seat water outlet 615 is arranged on the water baffle 613, the lower seat assembly 62 comprises a lower seat fixing plate 621 and a water tank 622, the water tank 622 is arranged on the upper side of the lower seat fixing plate 621, a second guide rod 623 is arranged between the water tank 622 and the lower seat fixing plate 621, a second lifting driving piece 624 is arranged at the bottom of the lower seat fixing plate 621, a lower seat water inlet 625 and a plurality of lower seat water outlets 626 are arranged on the water tank 622, and the second lifting driving piece 624 is one of an air cylinder or a motor.

The material placing and taking platform 7 comprises a first transverse guide rail 71 and a second transverse guide rail 72 which are transversely distributed, a first longitudinal guide rail 73, a second longitudinal guide rail 74 and a third longitudinal guide rail 75 which are longitudinally distributed, and a waste water collecting tank basin 76 which is arranged on the front side of the bottom of the material placing and taking platform 7, wherein 2 waste water collecting tank basins are transversely distributed, the left front side of the top of the material placing and taking platform 7 is matched with the second transverse guide rail 72, the left front side of the top of the first longitudinal guide rail 73, the left front side of the top of the material placing and taking platform 74, and the right front side of the top of the material placing and taking platform 7 is matched with the right front side of the top of the material placing and taking platform 7 to form a material placing and taking area 20.

Example 2

The mold assembly 51 comprises a

movable platform

The material placing and taking platform 7 comprises a first transverse guide rail 71 and a second transverse guide rail 72 which are transversely distributed, a first longitudinal guide rail 73, a second longitudinal guide rail 74 and a third longitudinal guide rail 75 which are longitudinally distributed, and a waste water collecting tank basin 76 which is arranged on the front side of the bottom of the material placing and taking platform 7, wherein 3 waste water collecting tank basins are transversely distributed, the left front side of the top of the material placing and taking platform 7 is matched with the second transverse guide rail 72, the left front side of the top of the first longitudinal guide rail 73, the left front side of the top of the material placing and taking platform 74, and the right front side of the top of the material placing and taking platform 7 is matched with the right front side of the top of the material placing and taking platform 7 to form a material placing and taking area 20.

Example 3

The mold assembly 51 comprises a

movable platform

The material placing and taking platform 7 comprises a first transverse guide rail 71 and a second transverse guide rail 72 which are transversely distributed, a first longitudinal guide rail 73, a second longitudinal guide rail 74 and a third longitudinal guide rail 75 which are longitudinally distributed, and a waste water collecting tank basin 76 which is arranged on the front side of the bottom of the material placing and taking platform 7, wherein 4 waste water collecting tank basins 76 are transversely distributed, the left front side of the top of the material placing and taking platform 7 is matched with the second transverse guide rail 72, the left front side of the top of the first longitudinal guide rail 73, the left front side of the top of the material placing and taking platform 74 to form a material placing and taking area 10, and the right front side of the top of the material placing and taking platform 7 is matched with the right front side of the top of the material placing and taking platform 7 to form a material taking area 20.

The foregoing detailed description is directed to a specific embodiment of the utility model, but not limited to the details of the construction and the method of operation, the utility model is not limited to the details of construction and the method of operation, but is to be accorded the full scope of the claims.

Claims

1. A sole thermoforming device, characterized in that: including frame (1), frame (1) has set gradually electric cabinet (2), upper heating assembly (3), lower heating assembly (4), mould motion platform subassembly (5), cooling module (6) and put and get material platform (7), its characterized in that from top to bottom: the utility model provides a cooling zone, including frame (1), frame (1) including set up in left side board (11), right side board (12) of frame (1) both sides, set up in front bezel (13) of front side, be 2 back door plant subassembly (14) of distributing the setting from top to bottom, back door plant subassembly (14) are including being 2 door bodies (141) that set up to the side, be provided with between 2 back door plant subassembly (14) of group and connect dog (142), left side board (11) outside is provided with left baffle (15), go up heating module (3) and set up in electric cabinet (2) bottom, mould motion platform subassembly (5) include mould subassembly (51), set up in horizontal pushing components (52) and the vertical pushing components (53) of putting material platform (7) rear side top and right side top, heating module (4) and cooling module (6) set up respectively in material platform (7) top left rear side and right rear side of putting, go up heating module (3), heating module (4) and cooling module (7) top left rear side cooperation formation (8), cooling module (6) and cooling module (6) top cooperation formation heating module (6) top cooling module (9) and cooling zone top.

2. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: be provided with a plurality of crossbeams from top to bottom between left side board (11) and right side board (12), the crossbeam includes first crossbeam (111), second crossbeam (112), third crossbeam (113), fourth crossbeam (114) and fifth crossbeam (115), second crossbeam (112) outside is provided with decorative board (116), first crossbeam (111) and second crossbeam (112) are the design around being, be provided with first connecting block (121) and second connecting block (122) between first crossbeam (111) and second crossbeam (112), be provided with couple (123) on second crossbeam (112), be provided with first strengthening rib (124) between second crossbeam (112) and fourth crossbeam (114), be provided with second strengthening rib (125) between third crossbeam (113) and front bezel (13).

3. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: the electric cabinet (2) comprises a cabinet body (21), a display screen (22) and an operation button assembly (23) are arranged on the front side of the cabinet body (21), and a fan (24) is arranged on the left side of the cabinet body (21).

4. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: the upper heating assembly (3) comprises a first fixing plate (31), a temperature measuring sensor (32) and a lamp tube (33), wherein the lamp tube (33) is arranged at the bottom of the first fixing plate (31), and the temperature measuring sensor (32) is arranged at the top of the first fixing plate (31).

5. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: the lower heating assembly (4) comprises a second fixing plate (41), a wrapping type outer cover (42), an infrared lamp tube (43) and a first lifting driving piece (44), wherein the wrapping type outer cover (42) is arranged at the top of the second fixing plate (41), the infrared lamp tube (43) is arranged on the inner side of the wrapping type outer cover (42), the first lifting driving piece (44) is arranged at the bottom of the second fixing plate (41) and is connected with the wrapping type outer cover (42), the first lifting driving piece (44) drives the wrapping type outer cover (42) and the 2 infrared lamp tube (43) to do vertical linear motion, and the first lifting driving piece (44) is arranged as one of an air cylinder or a motor.

6. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: the novel shoe sole comprises a shoe sole assembly and is characterized in that the shoe sole assembly (51) comprises a movable platform (511), 4 bull's eye movable bearings (512) are arranged at the bottom of the movable platform (511), a shoe sole die (513) is arranged in the middle of the movable platform (511), the shoe sole die (513) comprises an upper die (514), a middle die (515) and a lower die (516), a lock catch (517) is arranged between the upper die (514) and the lower die (516), a clamping ring (518) is arranged on the outer side of the lock catch (517), the upper die (514), the middle die (515) and the lower die (516) are mutually matched to form a cavity (519), the number of the cavities (519) is 2, and the transverse pushing assembly (52) and the longitudinal pushing assembly (53) are of the same structure.

7. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: the transverse pushing components (52) and the longitudinal pushing components (53) are distributed and arranged in a mutually perpendicular mode.

8. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: the horizontal pushing assembly (52) comprises a synchronous transmission mechanism (54), a precise screw rod (55) and a first guide rod (56), wherein the first guide rod (56) is symmetrically arranged on the left side and the right side of the precise screw rod (55) to form 2 bars, the synchronous transmission mechanism (54) comprises a stepping motor (541), a driving wheel (542), a driven wheel (543) and a synchronous belt (544), and the stepping motor (541) drives the horizontal pushing assembly (52) to do horizontal linear motion along the precise screw rod (55) and the first guide rod (56).

9. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: the cooling assembly (6) comprises an upper seat assembly (61) and a lower seat assembly (62), the upper seat assembly (61) comprises an upper seat fixing plate (611), a waterway plate (612) and a water baffle plate (613), the waterway plate (612) is arranged at the bottom of the upper seat fixing plate (611), the water baffle plate (613) is arranged at the bottom of the waterway plate (612), an upper seat water inlet (614) is arranged on the waterway plate (612), an upper seat water outlet (615) is arranged on the water baffle plate (613), the lower seat assembly (62) comprises a lower seat fixing plate (621) and a water tank (622), the water tank (622) is arranged on the upper side of the lower seat fixing plate (621), a second guide rod (623) is arranged between the water tank (622) and the lower seat fixing plate (621), a second lifting driving piece (624) is arranged at the bottom of the lower seat water inlet (625) and a plurality of lower seat water outlets (626), and the second lifting driving piece (624) is arranged in one cylinder or the other cylinder.

10. A shoe sole thermoforming apparatus as claimed in claim 1, wherein: put and get material platform (7) including being first transverse guide (71), second transverse guide (72) that transverse distribution set up, be first longitudinal guide (73), second longitudinal guide (74), third longitudinal guide (75) of longitudinal distribution design and set up in putting waste water collecting vat basin (76) of getting material platform (7) bottom front side, waste water collecting vat basin (76) are transverse distribution and are provided with 2-4, second transverse guide (72), first longitudinal guide (73), second longitudinal guide (74) and put the cooperation of getting material platform (7) top left front side and form blowing district (10), second transverse guide (72), second longitudinal guide (74), third longitudinal guide (75) and put the cooperation of getting material platform (7) top right front side and form and get material district (20).