KR20180100774A - shoe having functional part integrated with sole and method of making the same - Google Patents

Abstract

Disclosed in the present invention are a shoe and a manufacturing method of the same. More specifically, the shoe comprises: a midsole; an upper joined to a peripheral portion of the midsole to be placed thereabove; and a sole which has an upper side joined to the midsole and the upper, and includes a functional part integrally embedded therein, and has a lower part joined to a sole bottom. In particular, the functional part embedded in the sole is an insulation layer or a phase change layer and can be embedded in the sole via insert injection. In particular, the sole can be injection molded integrally with the midsole and the upper thereabove and the sole bottom therebelow, by allowing a part at which the midsole and the upper are joined above the sole to form a part of the mold; allowing the sole bottom below the sole to form a part of the mold; and injection molding a fluid sole material while the sole bottom is placed on the bottom of the mold. According to the present invention, by using functional layers needed, such as an insulation layer and a phase change layer, the present invention can inhibit outside heat or coldness from entering the shoe being worn; can enhance pleasantness by maintaining the temperature therein; can facilitate the production when installing the functional layer in the sole; and can effectively prevent the functional layer from separating and prevent aerogel from degrading and leaking to the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shoe having a functional part integrated with a sole,

The present invention relates to a shoe, and more particularly, to a shoe having a functional portion such as a heat insulating layer or a phase change material layer and a method of manufacturing the same.

The shoe protects the foot from external heat or cold, damage from contact with an external object, and positively functions to mitigate impact on the foot when moving. Therefore, these functions are considered when making shoes.

An insulation layer can be installed on the shoe's window or upper so that the heat or cold air from the ground, the ground, snow, rain, air can be blocked, and the temperature of the foot can be kept within a comfortable range.

Korean Patent No. 10-1366100 and Korean Patent No. 10-1643568 disclose an example in which an airgel, which is one of the insulating layers, is installed on the outsole of a shoe.

In these prior arts, there has been disclosed an example of preparing an outsole of a shoe outsole by preparing a part made of aerogels on the mold while using an injection process in the production of a shoe outsole, filling a cell of a rubber sheet of a honeycomb structure with an airgel, And the pads are inserted into the outsole of a shoe so as to be used.

However, in these examples, the airgel had to be used to form a single part, and then the part had to be combined with one of the sole shoes to make shoes.

For example, when making a shoe, prepare the middle, upper, sole and sole bottom as in the normal shoe manufacturing process, and form the upper part of the shoe by joining the midsole and upper, and the outsole by combining the sole body and the sole bottom And the shoe upper is joined to the shoe upper part using an adhesive or other mechanical method.

Therefore, when the sole containing the aerogel is combined with other parts of the shoe, for example, the sole floor or the middle part of the upper part of the shoe, the user wears the shoe and the shoe is bent and stretched according to the movement. There is a greater risk that layer separation will occur between the respective components.

In addition, in the case of an airgel, excellent heat insulating performance can be exhibited. However, in order to uniformly distribute and maintain the airgel on the sole of the shoes, it is necessary to impregnate the airgel with other materials or to form a cell space with other materials and fill the cells, It was necessary to wrap the outside of the other material with a cloth or sheet made of the airgel fine powder so as not to leak.

Of course, in such cases, in order to prevent layer separation in the parts constituting the sole of the shoe sole and to prevent the undifferentiation of the airgel, it is possible to use a method such as using an excellent adhesive used for the shoe sole or the airgel shape maintenance. However, It is difficult to prevent such a problem.

In addition, although the heat insulating layer such as an airgel may function to block heat or cold air, it is difficult to provide a function of positively creating a comfortable space at a comfortable temperature during the use time by supplying heat or cool air itself.

Registration No. 10-1366100: Shoe outsole with aerogels and method of making same. Registration No. 10-1643568: Method of manufacturing an aerogel-applied shoe outsole using an injection process and shoe outsole made by this method. Patent Application No. 10-2016-0165860: Phase Transformation Insulating Fabric, Apparatus for its Manufacturing and Appropriate for Manufacturing,

Disclosure of the Invention The present invention has been made to solve the problems in the conventional shoe making as described above, and it is an object of the present invention to provide a shoe sole that is easy to manufacture when a necessary functional layer is installed in a shoe sole and has a structure capable of preventing layer separation, And a method of manufacturing the shoe.

It is another object of the present invention to provide a shoe having a structure capable of forming a solid sole as a whole and capable of enhancing the effect of a heat shield, and a manufacturing method thereof.

In order to achieve the above object,

An upper part coupled to the upper part of the middle, and a sole coupled to the middle part and the upper part, integrally incorporating the functional part, and a lower part joined to the sole bottom.

In the present invention, the functional part incorporated in the sole may be a heat insulating layer or a phase change layer and may be embedded in the sole through insert injection.

In the present invention, the sole is made up of a part of the mold coupled with the upper part of the sole and the bottom part of the sole forms a part of the mold, and the outsole material of the fluidity is injected, Or may be injection molded integrally with the bottom.

In this case, the sole bottom and the midsole are made of the same material as the sole material, so that the sole of the sole, the sole, and the sole bottom can be easily formed integrally, and the polyurethane foam can be used as the sole material. At this time, when the polyurethane foam is injected into the mold, it is preferable to have a sufficiently high temperature so that the surface of the bottom of the sole and the bottom of the sole is partially melted or softened so that the boundary is not distinguished.

The functional part of the present invention includes a plurality of unit pieces formed by laminating a functional material made of a heat insulating material or a heat radiating material so as to be spaced apart from each other and having an upper shell and a sheath covering both upper and lower sides so as to overlap with a plurality of spaced apart unit bodies, There is a region where there is no functional material between the spaced-apart unit members and only the outer cloth or sheet overlaps. In this region, there exists a portion where upper and lower outer-surface cloths or sheets are tightly fixed by sewing or adhesion, The unit cell space is divided so that the alternating movement of the unit body between the unit cell spaces is limited, and holes can also be formed in the space so that the material constituting the sole body passes.

Alternatively, the functional part of the present invention may comprise an aerogel blanket or an integrated aerogel lining having a plurality of perforated holes distributed in a shape and area overlapping at least part of the shoe soles.

In order to achieve the above object,

Preparing a shoe sole, preparing a shoe sole, forming a shoe sole with the upper part of the shoe forming the upper part of the sole mold, the sole bottom forming the lower part of the sole mold, And molding the sole by an insert injection method in which the sole material is injected into the mold in a state in which the functional part is placed in close contact with the floor and the function part is disposed in the mold.

According to the present invention, necessary functional layers such as a heat insulating layer and a phase change material layer can be used to suppress the penetration of external heat or cool air during use or to enhance the comfort through maintenance of the internal temperature.

According to the present invention, when a necessary functional layer such as a heat insulating layer or a phase change material layer is provided on a sole of a shoe so as to facilitate manufacture, it is possible to prevent functional layer separation, microfinefaction of an airgel, and leakage to the outside.

According to the present invention, it is possible to provide a shoe and a method for manufacturing the shoe, which can form a stable sole as a whole and function as a functional part stably.

1 is a front sectional view showing a schematic configuration of a shoe according to an embodiment of the present invention,
FIG. 2 is a front sectional view showing a mold structure for injection molding of a sole body for forming an embodiment of the present invention,
3 and 4 are a plan view and a side sectional view showing an example of a fabric for forming a functional layer according to an embodiment of the present invention,
5 is a plan view showing a functional layer according to another embodiment of the present invention,
6 is a flow chart illustrating an embodiment of the method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

1 is a front sectional view showing a configuration of a shoe according to the present invention.

The shoe is generally composed of an upper portion and a lower portion. The upper portion is composed of a middle 13 and an upper portion 11 and the lower portion is composed of a sole including a sole body 15 and a sole lower portion 17. In the inside of the sole, the functional part 30 is provided as one layer.

The upper part is formed by bending the lower end of the upper part 11 inward and bonding the peripheral part of the middle part 13 with the adhesive layer 20. The upper 11 covers the upper surface of the foot of the shoe. The upper 11 may be made of leather, artificial leather, cloth or synthetic resin, and may have various shapes and configurations. The middle window 13 is mainly formed by injection molding a polyurethane foam or the like, but can also be formed in various ways with various shapes and structures.

The sole bottom (17) is made of a material which is very tough and hard and durable, and the sole body (15) is made of a soft material as compared with the sole lower side (17). Here, the same material, for example, polyurethane foam was used to increase the mutual bonding force. The sole lower part 17 is made of polyurethane and the sole body 15 is made of polyurethane foam by injection molding.

An airgel layer constituting the functional part 30 when the sole body 15 is formed is formed in the sole body 15 provided with the aerogel layer in the insert injection form first inside the mold when the sole body 15 is formed by injection molding, .

The functional unit 30 includes a functional material unit 33 such as an airgel solid powder such that it forms a quilting or a quilt, and a plurality of the functional units 30 are arranged at a substantially constant thickness between the two sheets 31, 33) are not placed and the peripheral portion and the intermediate portion region in which the two sheets 31 are overlapped are adhered or stitched by a method such as fusion or adhesion to form a plurality of cells and a through hole 35 is formed in the middle Can be produced.

 Fig. 2 is a front sectional view showing a molding structure for injection molding of a sole body for explaining a forming method of the present invention. Fig.

Here, in preparing the mold 40 for forming the sole, the upper part of the shoe constitutes a part of the mold, the lower part of the sole forms the part of the mold, and the other part is the mold wall 41 The whole mold is made up. An injection port 43 for injecting a polyurethane foam sole material is formed in a part of the side mold wall 41 and a discharge port 45 for air discharge is formed in another part of the side mold wall 41 .

A heat insulating layer (aerogel layer) constituting the functional part 30 of the present invention is provided substantially horizontally in an empty space inside the mold 40.

In this state, high-temperature polyurethane foam having high fluidity is injected into the injection port 43 to fill the entire void space inside the mold 40 with the polyurethane foam. The heat insulating layer is buried in the polyurethane foam, and the midsole 13 and the sole bottom 17 of the shoe upper portion are in direct contact with the polyurethane foam. State.

In this state, when the polyurethane foam is solidified and the side wall mold 41 is removed, the midsole 13 and the upper surface of the shoe sole bottom 17 of the shoe upper bottom surface of the shoe are integrally formed with the polyurethane foam sole body It becomes a single shoe itself.

1 and 2 will be described in more detail. In this configuration, the airgel layer constituting the function unit 30 is fused with only the upper and lower sheets 31 without aerogels between the unit bodies 33 filled with aerogels And a plurality of through holes 35 are formed in the connecting portion region.

Therefore, when the polyurethane foam in a flowing state to form the sole body 15 is injected into the injection port 43, the polyurethane foam above and below the EO gel layer is connected through the through hole 35, and through these polyurethane foam and airgel The layers are in a very well fixed state without mutual position variation.

 In such a configuration in which a plurality of polyurethane foam connection portions are formed through the through hole 35 of the airgel layer, when the user uses a shoe to make a plurality of bent and unfolded shape changes, the airgel layer is separated from the polyurethane foam sole It is possible to effectively prevent the phenomenon that the airgel particulates are bundled to one side or that the airgel particulates are bundled to one side in the airgel layer.

FIGS. 3 and 4 are a plan view and a side sectional view showing an example of an airgel material end which can be used in the shoe making of the present invention. Referring to these figures, the raw material of the insulating material is formed to be long in a certain width, and a plurality of circular unit pieces (laminating unit 210) are arranged in the longitudinal direction and the width direction in the raw material of the insulating material. Each of the circular unit bodies is formed by laminating each of the airgel unit bodies 110 up and down. The periphery of the laminating sheet constituting the circular unit body is adhered or fused to the airgel unit body 110 so as not to escape the airgel fine powder, Respectively. Of course, the laminating sheet is made of a material that can not permeate through the airgel fine powder. The seam 330 is formed on the outer cloth 300 or the sheet covering the circular unit so that the circular unit 210 does not move freely within the thermal insulation material and the uniform arrangement and distribution density is maintained. A through hole 340 is formed through the laminating sheet.

In this case, only the form in which the upper and lower lamination sheets have the airgel unit between the upper and lower lamination sheets is used. However, the airgel unit and the phase change material may be overlapped with each other to form a circular unit have.

3 and Fig. 4, the functional part of the present invention is an airgel blanket having a shape and an area overlapping at least a part of the shoe soles and having a plurality of perforated holes dispersed therein, Lt; RTI ID = 0.0 > aerogel < / RTI > lining.

For example, the functional unit 410 may be formed to cover only the heel portion, not the entire shoe sole as shown schematically in FIG. 5, or may cover only the forefoot portion, and polyurethane foam, etc., By passing the functional part up and down to fix the functional part, a plurality of holes 420 for fixing the relative position between the sole body and the functional part can be evenly distributed over the entire area of the functional part.

Here, airgel blanket or airgel laminating is already commercialized, airgel blanket is made by impregnating fabric with airgel, and airgel laminating is lamination of thin and constant thickness airgel molding or airgel impregnated material with impermeable sheet Is generally maintained.

The airgel layer function portion of the present invention can be made by cutting the fabric as described above to the shape of the shoe outsole and finishing it by fusing or adhesion such that the airgel does not flow around.

Of course, it is also possible to form these airgel layer functional parts in different orders. For example, first, a plurality of circular unit pieces are arranged in accordance with the shoe outsole (or foot shape), and in this state, the circular unit pieces are laminated with a laminating sheet and cut into a proper shape as necessary, To form an airgel layer functional portion.

On the other hand, aerogels and other heat insulators as well as methods for their production, heat exchangers for heat generation or endotherms, and fabrication thereof are well known in the art, and a detailed description thereof will be omitted do.

6 is a flowchart showing a shoe manufacturing process according to the present invention. 6 and FIG. 2, first, the shoe upper is formed through the coupling between the shoe midsole and the upper shoe (S10), and the sole bottom is prepared by preparing a separate method such as injection molding (S20) The airgel layer function unit to be built in the sole is also prepared (S30). This process is a common process in shoe making, so a detailed description is omitted.

Next, a mold for insole injection molding is prepared (S40). This process includes a process of preparing the mold main body and a process of joining the upper part of the shoe, the sole bottom, and the functional part prepared in advance to the mold main body with the mold main body.

Here, the upper part of the shoe is formed in close contact with the upper part of the shoe so that the upper part of the shoe is in contact with the injection material to be injected, and the bottom of the shoe is brought into close contact with the bottom of the shoe, So that the injection material is prevented from flowing between the bottoms. In some embodiments, the bottom of the flap may be in close contact with the open lower periphery of the mold, as in the case of the upper shoe, to form the mold bottom. The function unit is provided in the corresponding portion of the mold main body so that the function unit is disposed in the empty space inside the mold.

Next, an injection material injection process is performed (S50). In this case, a polyurethane foam is injected into an empty space in the mold, and the functional layer is hardened with the built-in state so as to form a sole body integrally joined with the upper and lower sole floors. An injection port for injecting the injection material and an air outlet for discharging air in the internal space are formed in a part of the side wall of the mold body for injecting the injection material.

When the above operation is completed, the mold body removing process is performed (S60). When the mold body is removed, the finished form of shoes can be obtained immediately from the outsole. Of course, further work is usually done to remove and refine the dirt around the injection molding, the protrusions of the injection port and the air outlet portion, and to further combine the insole and the like.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. That is, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

11: Upper 13:
15: Outsole body 17: Outsole bottom
20: adhesive layer 30: functional part (airgel layer)
31: Sheet 33: Unit
35, 340: through hole 40: mold
41: mold wall 43: inlet
45: outlet 110: airgel unit
210: circular unit 213: sealing part
300: outer cloth 330: seam

Claims (6)

A shoe upper part having a midsole and an upper part coupled to the midsole and positioned above the midsole,
And an upper portion integrally joined to the upper portion of the shoe and integrally incorporating a heat insulating function or a heat dissipating function (including a heat absorbing function), and a lower portion integrally joined to the bottom of the sole. The method according to claim 1,
Wherein the sole body comprises an insert injection system for incorporating the functional part in the mold. The method according to claim 1,
Wherein the functional part comprises an airgel as a heat insulating material or a phase change material as a heat radiating material,
Wherein the sole body is made of polyurethane foam. The method according to claim 1,
The function unit
A plurality of unit pieces formed by laminating a functional material made of a heat insulating material or a heat insulating material are spaced apart from each other,
The upper and lower surfaces of which are covered with a plurality of unit pieces spaced apart from each other,
There is a region in which only the outer cloth or sheet overlaps without the functional material between the spaced-apart unit pieces, and there is a portion in which the outer cloth or sheet on both upper and lower surfaces is tightly fixed to each other, Wherein a hole is formed in the unit space so as to restrict the movement of the unit body between the unit cell spaces and allow the material forming the sole body to pass therethrough. The method according to claim 1,
Wherein the functional part comprises an aerogel blanket or an integrated airgel lining having a shape and an area overlapping at least part of the shoe soles and having a plurality of perforation holes dispersed therein. 6. A method of making shoes of any one of claims 1 to 5,
Preparing the shoe upper part, the functional part and the sole bottom respectively,
Preparing an entire mold for the sole body by engaging the upper portion of the shoe upwardly with the mold body and the bottom portion of the sole with the lower portion and arranging the functional portion in the space between the upper portion of the shoe and the bottom of the sole,
Injecting an injection material into the entire mold and hardening the injection mold,
And removing the mold main body.

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