CN216230858U

CN216230858U - Integrated sole device for preparing side wall color-permeable pattern

Info

Publication number: CN216230858U
Application number: CN202121931567.2U
Authority: CN
Inventors: 李周仔
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-17
Filing date: 2021-08-17
Publication date: 2022-04-08
Anticipated expiration: 2031-08-17

Abstract

The utility model relates to the technical field of shoemaking equipment, in particular to a device for integrally preparing a sole with a side wall color-permeable pattern. The rotary table is used for supporting and controlling a forming die; the forming die comprises an upper die mechanism and a lower die mechanism which are movably connected, wherein a first upper die component and a second upper die component which are arranged in a protruding mode are arranged in the upper die mechanism, a first lower die component and a second lower die component which are arranged in a recessed mode are arranged in the lower die mechanism, when the forming die is closed, the first upper die component and the first lower die component form a die cavity of the sole body, and the second upper die component and the second lower die component form a hollow side die cavity; and the nozzle size of the injection gun is consistent with the size of the feed chute. The device for integrally preparing the sole with the side wall color-permeable patterns is used for producing the sole with the side wall color-permeable patterns at one time, does not need a plurality of moulds for preparation, has high production efficiency, can effectively control the sizes of the hollow side edges and the sole body, and avoids the increase of defective rate caused by unstable size control.

Description

Integrated sole device for preparing side wall color-permeable pattern

Technical Field

The utility model relates to the technical field of shoemaking equipment, in particular to a device for integrally preparing a sole with a side wall color-permeable pattern.

Background

In the existing shoe making process, the sole and the shoe body are often required to be manufactured separately, and then the sole and the shoe body are bonded by adopting a cold bonding process, wherein the sole is the most essential part required for preparing any shoe. With the development of society, people have higher and higher requirements on the beauty and diversity of shoes. One of the shoes with hollowed-out patterns on the side is popular, and the shoe has a color different from that of the sole body and is made of different raw materials. However, for the sole composed of a plurality of components made of different colors or even different raw materials, the components such as the hollowed-out side edges and the like are often required to be prepared separately in the preparation process, and then the sole is prepared in a mode of injection molding in a mold for preparing the sole body. On one hand, because the components are combined and bonded to form the final sole, the size control is particularly strict during the preparation of different components, and because the soles are generally made of plastic materials, the size is not easy to control, the stability is required to be improved, and the defective rate is high when different molds are adopted for preparation. On the other hand, in the process of injection molding the sole body, components such as the hollowed-out side edges are prepared and placed in a mold of the sole body, so that the raw materials of the sole body cannot be subjected to melt injection molding at too high temperature, otherwise the size of the formed hollowed-out side edges is affected, the raw materials of the sole body are required to be fully filled in the mold at lower temperature, and the applicant finds that in the process, the raw materials of the sole body are often insufficiently filled, and the product yield is greatly affected.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problem, the utility model provides a sole device for integrally preparing a side wall color-permeable pattern, which comprises

The rotary table is used for supporting and controlling the forming die;

the forming die comprises an upper die mechanism and a lower die mechanism which are movably connected, wherein a first upper die component and a second upper die component which are arranged in a protruding mode are arranged in the upper die mechanism, a first lower die component and a second lower die component which are arranged in a recessed mode are arranged in the lower die mechanism, when the forming die is closed, the first upper die component and the first lower die component are closed to form a die cavity of the sole body, and the second upper die component and the second lower die component are closed to form a hollowed-out side die cavity; the first upper die assembly is provided with a second feeding hole and a third feeding hole which penetrate through the upper die mechanism and are distributed up and down, the back of the first upper die assembly is provided with a first feeding groove, and the second feeding hole is communicated with the third feeding hole through the first feeding groove; the second upper die assembly is provided with a plurality of first feed inlets penetrating through the upper die mechanism, the back of the second upper die assembly is provided with a second feed chute, and the first feed inlets are communicated with the second feed chute;

the injection gun comprises a left gun body and a right gun body, and the size of a nozzle of the left gun body is consistent with that of the first feeding groove; the size of the right gun body is consistent with that of the second feeding groove.

In the utility model, after the upper die mechanism and the lower die mechanism are closed, color master batch for preparing the hollowed side edges is injected into the hollowed side edge die cavity from a first feed inlet through the right gun body, then the upper die mechanism and the lower die mechanism are stood at normal temperature and pressure and cooled and formed to obtain the hollowed side edges, then the hollowed side edges are taken out and placed in the first upper die assembly and the first lower die assembly to be closed to form the sole body die, then the upper die mechanism and the lower die mechanism are closed, the color master batch for preparing the soles is injected into the hollowed side edge die cavity from the second feed inlet and the third feed inlet through the left gun body at high pressure, the color master batch for preparing the hollowed side edges is injected into the hollowed side edge die cavity from the first feed inlet through the right gun body, then the upper die mechanism and the lower die mechanism are stood at normal temperature and pressure for a period of time to be cooled and formed, and the final side wall color-penetrating sole is obtained from the sole body die cavity, and obtaining the hollowed-out side edges from the hollowed-out side edge die cavity, analogizing, and placing the hollowed-out side edges in the die cavity of the sole body to prepare the sole product with the lower side wall color-permeable pattern.

Furthermore, glue overflow ports which are symmetrical up and down are arranged on the first lower die assembly and the first upper die assembly, when the forming die is closed, the glue overflow ports form a glue overflow cavity, and the glue overflow cavity is connected with the die cavity of the sole body. The applicant finds that in the process of closing and injecting the color master batch materials by the upper die mechanism and the lower die mechanism, the injection time is short, the injection pressure is high, but due to the fact that the die cavity structure is irregular, the phenomenon of insufficient filling and edge remaining is easy to occur when the materials flow in the die cavity, and therefore the defective rate is improved. The applicant finds that the problem of insufficient filling of the raw materials can be effectively solved by respectively arranging the corresponding glue overflow ports on the upper die assembly and the lower die assembly, so that the raw materials are fully filled in the die cavity, and redundant materials are discharged into the glue overflow cavity formed by the glue overflow ports, thereby avoiding the problem.

Furthermore, the second feed inlet is arranged on one side of the glue overflow cavity, the third feed inlet is arranged on one side far away from the glue overflow cavity, and the size of the second feed inlet is larger than that of the third feed inlet.

Further, the second feed opening and the third feed opening are arranged in a funnel shape.

Further, the size of the upper end of the second feed inlet is larger than that of the bottom end of the second feed inlet; the size of the upper end of the third feeding port is smaller than that of the bottom end. The upper end refers to the direction towards the outside of the die cavity of the sole body, and the lower end refers to the direction towards the inside of the die cavity of the sole body.

Further, the radius of the lower end circumference of the second feeding hole is at least 1.5 times that of the lower end circumference of the third feeding hole; furthermore, the radius of the lower end circumference of the second feeding hole is 2 times of the radius of the lower end circumference of the third feeding hole.

The applicant has found that since the components such as the hollowed-out side edges are prepared and placed in the mold of the sole body during the injection molding of the sole body, the raw material of the sole body is required not to be melt-injection-molded at too high a temperature, and the material does not exhaust the gas in the mold cavity when flowing in the process. In addition, in order to accelerate the filling of materials in the die cavity, more than one feeding hole is arranged, so that the materials entering from different feeding holes are exhausted in a non-directional manner under the action of high pressure, gas is coated by the materials, a certain amount of bubbles are reserved in the formed sole body, and the production yield is influenced. The applicant finds that the two feed inlets are funnel-shaped, so that the injection pressure can be further increased, then the size of the feed inlet (third feed inlet) far away from the glue overflow cavity is set to be smaller than that of the feed inlet (second feed inlet) near the glue overflow opening, so that the pressure of the third feed inlet is higher than that of the second feed inlet, the gas at the third feed inlet is discharged towards the second feed inlet, the third feed inlet is fully filled with the material, then the gas is pushed into the glue overflow cavity under the action of high pressure, therefore, the gas is effectively prevented from being coated by the material, even if the coated gas is finally pushed into the glue overflow cavity, the final product can be obtained by cutting off the part in the glue overflow cavity, and the yield is remarkably improved.

Furthermore, a plurality of positioning bulges are arranged on the upper die mechanism, and a plurality of positioning grooves matched with the positioning bulges in position and size are arranged on the lower die mechanism. In order to avoid the situation that the device appears inaccurate when using the back closure for a long time, influence the shape and the size of goods, set up arch and recess respectively on last die mechanism and lower die mechanism and fix a position, dimensional stability when guaranteeing to close.

Furthermore, a pattern hollow-out body is arranged on the side edge of the second lower die assembly. The specific shapes of the hollow bodies are not limited, and the specific pattern hollow bodies can be set along with the hollow design of the required hollow sides.

Furthermore, the central point of the second upper die assembly is provided with a groove, and correspondingly, the central point of the second lower die assembly is provided with a bulge matched with the groove.

Furthermore, the upper die mechanism and the lower die mechanism are rotatably connected through a rotating shaft.

Further, a first locking piece is arranged on the side edge of the upper die mechanism or the lower die mechanism, a second locking piece matched with the first locking piece is arranged on the side edge of the lower die mechanism or the upper die mechanism, and when the forming die is closed, the first locking piece and the second locking piece are used for locking the forming die.

Furthermore, an elastic component in the vertical direction is arranged on one side, far away from the rotating shaft, of the upper die mechanism or the lower die mechanism. And after the material is molded in the cavity, the first locking piece and the second locking piece are opened, so that the upper die mechanism or the lower die mechanism is bounced open by the elastic part, and the semi-finished product and the finished product in the upper die mechanism or the lower die mechanism can be taken out.

Further, the upper die mechanism or the lower die mechanism is provided with an exhaust hole. And the air in the cavity is exhausted when the upper die mechanism and the lower die mechanism are closed.

The technical scheme provided by the utility model has the following beneficial effects:

the device for integrally preparing the sole with the side wall color-permeable patterns can be used for producing the sole with the side wall color-permeable patterns at one time, a plurality of molds are not needed for preparation, the production efficiency is high, the sizes of the hollowed-out side edges and the sole body can be effectively controlled, and the increase of defective rate caused by unstable size control is avoided. In addition, preparation side wall penetrating color pattern sole device in this application is through the ingenious setting to feed inlet, excessive mouthful of gluing etc. effectively solves the filling of color masterbatch material in the die cavity inadequately, or cladding gas scheduling problem, effectively promotes the yield of goods.

Drawings

FIG. 1 is a schematic structural view of a sole device for integrally preparing a side wall color-permeable pattern according to the present invention.

The automatic glue-pouring device comprises an upper die mechanism 1, an exhaust hole 2, a positioning protrusion 3, a groove 4, a first feed inlet 5, a pattern hollowed-out body 6, a second lower die assembly 7, a positioning groove 8, a lower die mechanism 9, a first lower die assembly 10, a second feed inlet 11, a first upper die assembly 12, a third feed inlet 13, a glue overflow port 14, a second upper die assembly 15, a protrusion 16, a rotating shaft 17 and an elastic component 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The utility model is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

The technical scheme provided by the utility model comprises a device for integrally preparing the sole with the side wall color-permeable patterns.

Referring to fig. 1, it includes a turntable table for supporting and controlling a molding die;

the forming die comprises an upper die mechanism 1 and a lower die mechanism 9 which are movably connected, a first upper die component 12 and a second upper die component 15 which are arranged in a protruding mode are arranged in the upper die mechanism 1, a first lower die component 10 and a second lower die component 7 which are arranged in a recessed mode are arranged in the lower die mechanism 9, when the forming die is closed, the first upper die component 12 and the first lower die component 10 are closed to form a die cavity of a sole body, and the second upper die component 15 and the second lower die component 7 are closed to form a hollowed-out side die cavity; the first upper die assembly 12 is provided with a second feed port 11 and a third feed port 13 which penetrate through the upper die mechanism and are distributed up and down, the back of the first upper die assembly 12 is provided with a first feed groove, and the second feed port 11 and the third feed port 13 are communicated through the first feed groove; a plurality of first feed inlets 5 penetrating through the upper die mechanism are formed in the second upper die assembly 15, a second feed groove is formed in the back face of the second upper die assembly 15, and the first feed inlets 5 are communicated with the second feed groove;

The first lower die assembly 10 and the first upper die assembly 12 are provided with glue overflow ports 14 which are symmetrical up and down, when the forming die is closed, the glue overflow ports form glue overflow cavities, and the glue overflow cavities are connected with the die cavity of the sole body. The second feed inlet 11 is arranged on one side of the glue overflow cavity, the third feed inlet 13 is arranged on one side far away from the glue overflow cavity, and the size of the second feed inlet 11 is 2 times that of the third feed inlet 13.

The upper die mechanism 1 is provided with a plurality of positioning protrusions 3, and the lower die mechanism 9 is provided with a plurality of positioning grooves 8 matched with the positioning protrusions 3 in position and size. And a pattern hollow-out body 6 is arranged on the side edge of the second lower die component 7.

A groove 4 is formed in the center of the second upper die assembly 15, and a protrusion 16 matched with the groove 4 is formed in the center of the second lower die assembly 7. The upper die mechanism 1 and the lower die mechanism 9 are rotatably connected through a rotating shaft 17. The side of the upper die mechanism 1 is provided with a first locking piece, the side of the lower die mechanism 9 is provided with a second locking piece matched with the first locking piece, and when the forming die is closed, the first locking piece and the second locking piece are used for locking the forming die.

The upper die mechanism 1 and the lower die mechanism 9 are provided with a vertical elastic member 18 on a side away from the rotating shaft 17. And the upper die mechanism 1 or the lower die mechanism 9 is provided with an exhaust hole 2.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims

1. An integrated sole device for preparing side wall color-permeable patterns is characterized by comprising

The rotary table is used for supporting and controlling the forming die;

2. The device for integrally manufacturing the sole with the side wall color-permeable patterns according to claim 1, wherein the first lower mold assembly and the first upper mold assembly are provided with vertically symmetrical glue overflow ports, and when the forming mold is closed, the glue overflow ports form glue overflow cavities which are connected with the mold cavity of the sole body.

3. The integrated sidewall color-permeable pattern sole device according to claim 2, wherein the second feeding port is disposed at one side of the glue overflow cavity, the third feeding port is disposed at one side far away from the glue overflow cavity, and the size of the second feeding port is larger than that of the third feeding port.

4. The integrated sole device for preparing the side wall color-permeable patterns according to any one of claims 1 to 3, wherein a plurality of positioning protrusions are arranged on the upper die mechanism, and a plurality of positioning grooves matched with the positioning protrusions in position and size are arranged on the lower die mechanism.

5. The integrated sidewall color-permeable pattern sole device according to claim 1, wherein a pattern hollow-out body is arranged on the side edge of the second lower die assembly.

6. The integrated sole device for preparing the side wall color-permeable pattern according to claim 5, wherein a groove is formed at the central position of the second upper die assembly, and a protrusion matched with the groove is formed at the central position of the second lower die assembly.

7. The integrated sole device for preparing the side wall color-permeable pattern according to claim 1, wherein the upper die mechanism and the lower die mechanism are rotatably connected through a rotating shaft.

8. The apparatus for integrally forming the sidewall color-permeable pattern sole according to claim 7, wherein a first locking member is disposed on a side of the upper mold mechanism or the lower mold mechanism, a second locking member is disposed on a side of the lower mold mechanism or the upper mold mechanism, the second locking member is matched with the first locking member, and the first locking member and the second locking member are used for locking the forming mold when the forming mold is closed.

9. The integrated sole device for preparing the side wall color-permeable pattern according to claim 7, wherein the upper mold mechanism or the lower mold mechanism is provided with a vertical elastic component at a side far away from the rotating shaft.

10. The integrated sole device for preparing the side wall color-permeable pattern according to any one of claims 5 to 9, wherein the upper die mechanism or the lower die mechanism is provided with an exhaust hole.