WO2014204196A1

WO2014204196A1 - Method of manufacturing decoration for shoe

Info

Publication number: WO2014204196A1
Application number: PCT/KR2014/005341
Authority: WO
Inventors: 유흥상
Original assignee: Yu Heung Sang
Priority date: 2013-06-20
Filing date: 2014-06-18
Publication date: 2014-12-24

Abstract

The present invention relates to a method of manufacturing a decoration for a shoe. A method of forming a vacuum-adhered coating layer for a decorative band for a shoe forms a coating layer on the outer surface of a decorative band for a shoe, wherein the coating layer is formed through a vacuum coating method. The present invention forms a coating layer on a decorative band for a shoe through a vacuum coating method so as to have the outstanding effects of providing a sheen for the coating layer and improving appearances. The present invention relates to a method of manufacturing a decoration for a shoe. The method of manufacturing a decoration for a shoe outsole or midsole, with respect to a method for manufacturing a decoration for a shoe in which a decoration is manufactured that is attached to the outer surface of a shoe outsole or midsole, forms a coating layer on a pad made of a polyester material as a decoration. The coating layer is formed through a vacuum coating method such as a sputtering method or an evaporating method. The present invention attaches a decoration to the outsole or midsole of a shoe, and the decoration has a coating layer of a metal material formed on a pad made of a polyester material through a vacuum coating method, so as to have the outstanding effects of providing a sheen for the coating layer and improving appearances through the refraction and reflection of light.

Description

How to make shoe decorations

The present invention relates to a shoe manufacturing method of the shoe, and more particularly to a shoe manufacturing method of emphasizing aesthetics by forming a coating layer by the vacuum coating method on the outer portion of the shoe that is easy to be seen by people in the shoe.

In addition, the present invention relates to a method of manufacturing a decoration of the shoe, and more particularly, the decoration is attached to the exterior portion of the outsole or midsole that is easy to be seen by people in the shoe, the decoration forms a coating layer by a vacuum coating method on the surface The present invention relates to a manufacturing method of a shoe that emphasizes aesthetics.

Various kinds of ornaments are attached to the shoes, and conventional techniques have been developed in the method of attaching the ornaments. As an example, Patent Publication No. 1998-083407 adopts a vacuum method or a semi-vacuum method, and vacuum forming. The device (A) and the hermetic molding device (B) are made of leather and a transparent resin film or a leather material with a sponge to complete a decoration in which a pressurized or atmospheric pressure space is formed in the depression, or the original thickness is applied to the depression. The method of manufacturing a decoration attached to the surface of a shoe or a bag, characterized in that the solution is solved by a method of manufacturing a decorative member formed with a sponge extruded sponge parts are formed on the edge thereof is produced by the manufacturing method The ornament is open to the public.

Korean Utility Model Publication No. 2000-0018205 discloses a shoe, such as a shoe, slippers, sandals, and sneakers, wherein the shoe is provided with a detachable means at a contact portion where the instep of the shoe is in contact with a decoration. In addition, the decoration is characterized in that the plate-shaped or high-frequency heat fusion of the print or figure of the character, or a doll, such as a variety of animals, plants or toys, and the removable means is a snap button, a button or a magic tape Decorative removable shoes are featured.

In addition, Korean Utility Model Registration No. 20-0341093 discloses a shoe ornament characterized in that the ornament detachably attached to the side of the shoe by the coupling means.

On the other hand, as a decoration, there was a method of injection molding a synthetic resin material into a band shape to attach or sew to the shoe surface with an adhesive.

However, the surface of the shoe decorative band is produced by mixing the pigment in the material for aesthetics in this case, the color is monotonous and turbid, even if the coating has a disadvantage that the coating state is not good and the aesthetics are poor.

As described in the prior art in Korean Patent Publication No. 10-0356717, the conventional shoe outsole is a constituent member constituting the lower part of the shoe, and the thickness of the midsole is usually used as a means for mainly protecting the lower part of the foot when wearing shoes. Manufactured thicker than insoles, these outsoles are usually one of the major components supporting the underside of a shoe.

And the Patent Publication No. 10-0356717 is a technical gist of the shoe outsole (1) in claim 1; The outsole 1 is formed with a concave chamber 2 and sealed with a cushion cover 3 at the upper portion thereof to form an air chamber 4, which is detachable by an opening and closing means 7 in the air chamber 4. An antibacterial air freshener interior room 5 is formed by the built-in wall 12 so that the antimicrobial air freshener 6 can be incorporated therein; An air inflow hole 13 is formed in the upper portion of the antibacterial air freshener interior chamber 5 so that air introduced through the air induction groove 15 and the air discharge hole 14 formed by the interior wall 12 is cushioned. To be discharged onto at least one discharge hole 17 formed at the front side of (3); A plurality of auxiliary inlet chamber 11 is formed in the urine inlet chamber 2, and the cushion cover 3 is a shoe outsole is characterized in that a plurality of buffer projections 16 are formed.

In addition, Korean Patent Laid-Open Publication No. 10-2011-0056806 discloses a shoe outsole divided into a soft part and a hard part to have a length ratio of 4: 6 with respect to the total length, and the soft part corresponds to the front heel of the outsole. The hard part of the outsole corresponds to the heel of the outsole, and the soft part and the hard part are configured to be integrated through the joining by pressure molding, wherein the soft part comprises: rubber raw material 100: accelerator 2: activator 5: staric acid 10: carbon black 30: Graphite 20 is mixed and molded at a weight ratio of lubricant 1, wherein the hard part is mixed and molded at a weight ratio of rubber material 100: accelerator 2: activator 5: stannic acid 10: carbon black 50: lubricant 1 The shoe outsole for improving the convenience of walking is disclosed.

However, the outsole surface has a disadvantage in that the color is monotonous and turbid when the pigment is mixed with the material, and the coating state is not good and the aesthetics are poor even when coated.

As described in the background art in Korean Patent Publication No. 10-0828908, a conventional shoe 5 is composed of an upper 1, an insole 2, a midsole 3 and an outsole 4.

However, not all shoes 5 are provided with the midsole 3 and the outsole 4, and may have only any part depending on the use and function of each shoe 5. That is, the upper 1 is directly coupled to the upper portion of the outsole 4 to manufacture the shoe 5, or the upper 1 is directly coupled to the midsole 3 without the outsole 4 to form the shoe 5. It may be, which will vary depending on the function and use of the shoe (1).

And, according to the structure and material of the midsole (3) and the outsole (4) and upper (1) constituting the sole, various kinds of shoes (5) are produced, for example, in order to be used as jogging shoes 3) and the outsole (4) and the upper (1) is made of a material that is shock-absorbing and lightweight material, and in addition to the midsole (3) in the shoe (5) that requires a function for wear resistance and anti-slip Outsole (4) attached to the bottom of the) is to produce a shoe (5) using a rubber material. As described above, in the shoe 1, the price and price of the shoe 5 as well as the type and function of the shoe 5 are determined according to how the structures, shapes, and materials of the midsole 3 and the outsole 4 forming the sole are configured. Will be.

The outsole 4 and the midsole 3 forming the sole as described above are usually manufactured separately so that the outsole 4 is attached to the bottom of the midsole 3. This is because the soles of the soles and the midsoles of the midsole play different roles in the shoe.

That is, the outsole (4) is mainly made of rubber or non-foamed polyurethane because the material is configured to perform such a function because the main function is to prevent the slip and landing wear due to long time use. On the contrary, the midsole 3 is made of ethylene vinyl acetate or a foamed polyurethane material of a relatively light material because the main purpose is to absorb shock and lighten the weight of the shoe.

On the other hand, in the registration number 10-0828908, the midsole, in the ordinary shoes (5) composed of the upper (1), the insole (2), the midsole (3) and the outsole (4) with respect to the midsole. Nylon injection piece layer of; A polyurethane layer surrounding the outer shell of the nylon injection piece layer; Health shoes Bali having a midsole structure of a triple structure is characterized by consisting of an EVA (EVA) layer surrounding the outer shell of the polyurethane layer is disclosed.

In addition, Korean Patent Laid-Open Publication No. 10-2013-0096660 discloses a method for manufacturing a shoe midsole, comprising: preparing an upper midsole sheet, a lower midsole sheet, and an insertion member; Grind the receiving groove by using a grinding wheel on at least one surface of the upper midsole sheet and the lower midsole sheet so that the insertion member is received between the corresponding surface where the upper midsole sheet and the lower midsole sheet are in contact with each other. Forming; And inserting the insertion member into the receiving groove and laminating the upper midsole sheet and the lower midsole sheet to obtain a midsole.

However, the conventional midsole surface has a disadvantage in that the color is monotonous and turbid when the pigment is mixed with the material, and the coating state is not good and the aesthetics are poor even when coated.

Accordingly, the present invention has been made to solve the above problems, and to provide a shoe manufacturing method of the shoe layer to improve the gloss and aesthetics by forming a coating layer on the shoe decorative band by a vacuum coating method.

In addition, the present invention has been made to solve the above problems, the decoration is attached to the shoe outsole or midsole, the decoration is formed by a vacuum coating method of a metallic coating layer on the pad of polyester material to refraction of light And it is to provide a method of manufacturing a decoration of the shoe that can be polished by the reflection and improve the aesthetics.

The present invention relates to a shoe manufacturing method of the shoe, the method of forming a vacuum coating layer of the shoe decorative band, the coating layer is formed on the outer surface of the shoe decorative band, characterized in that the coating layer is formed by a vacuum coating method.

The present invention relates to a method of manufacturing a shoe ornament, in the shoe manufacturing method of the shoe manufacturing a decoration that is attached to the outer surface of the shoe outsole or midsole, the decoration is a coating layer formed on a polyester pad, the coating layer is spatter It is characterized by being formed by the vacuum coating method of the turing method or the evaporating method.

Therefore, the present invention has a remarkable effect that the coating layer is formed on the decorative band of the shoe by a vacuum coating method so that the coating layer is glossy and improves aesthetics.

In addition, the present invention is a decoration attached to the shoe outsole or midsole, the decoration is formed by coating a metallic coating layer on the pad of the polyester material by vacuum coating method, the coating layer is glossy and aesthetical by refraction and reflection of light There is a significant effect that can be improved.

1 is a perspective view of the decorative band for shoes according to the present invention

2 is a layout view of a vacuum coating apparatus used in the present invention

3 is a schematic diagram of a vacuum coating apparatus installed with a sputter module, a linear ion source and a thermal evaporation source used in the present invention.

Figure 4 is a schematic cutaway view of the vacuum coating apparatus installed Sputte rmodule, Linear ion source and Thermal evaporation source used in the present invention

5 is an exploded schematic view of a vacuum coating apparatus installed with a sputter module, a linear ion source and a thermal evaporation source used in the present invention.

Figure 6 is a schematic plan view of a vacuum coating apparatus installed with a sputter module, a linear ion source and a thermal evaporation source used in the present invention

7 is an enlarged partial view of FIG. 6.

8 is a perspective view of a conventional shoe outsole

Figure 9 is a polyester material decorative pads produced by the method for manufacturing a decoration of the present invention shoes

10 is a polyester material microfiber cloth prepared by the method for manufacturing a decoration of the present invention shoes

11 is a perspective view of a conventional shoe

12 is a side view of the midsole used in the present invention

Figure 13 is a plan view of the midsole used in the present invention

400: chamber

500: linear ion source

100: sputter 110: resistance heating type evaporation source

The present invention relates to a method of manufacturing a shoe ornament, the method of forming a vacuum coating layer of the shoe decorative band, forming a coating layer on the outer surface of the shoe decorative band, the coating layer by a vacuum coating method of the sputtering method or evaporating method It is characterized by being formed.

In addition, the coating layer is made of a base layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer is a sputtering method In the case of Ti, Zr, Ag, Au, Cu, Si, it is characterized in that formed by selecting two or more components of the even number.

In addition, in the case of the sputtering method C ₂ H ₂ or a reactive gas (reactive gas) or O ₂ is injected into the vacuum chamber or N ₂ or Ar gas, which is an inert gas, is injected into the vacuum chamber.

In addition, the coating layer is made of a base layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer is evaporating In the case of the method, it is formed by selecting two or more components of SiO _2, Nb ₂ O ₃ , Nb ₂ O ₅ , SiO, SiO ₂ , Z ₂ O, ZrO ₂ , TiO, TiO ₂ in even units. .

The present invention relates to a shoe ornament manufacturing method of manufacturing a shoe that is attached to the outer surface of the shoe sole or midsole, the decoration is a coating layer formed on a polyester pad, the coating layer is a sputtering method or vacuum evaporation method It is characterized by being formed by a coating method.

In addition, the coating layer is made of a base coating layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer is a sputtering method In the case of Ti, Zr, Ag, Au, Cu, Si, It is characterized in that formed by selecting two components of Sn.

In the case of the sputtering method, C ₂ H ₂ , N ₂ , O ₂ , or Ar gas is injected into the vacuum chamber as a reactive gas.

In addition, the coating layer is made of a base coating layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer is evaporating The method is characterized in that formed by selecting two components of SiO _2, Nb ₂ O ₃ , Nb ₂ O ₅ , SiO, SiO ₂ , Z ₂ O, ZrO ₂ , TiO, TiO ₂ .

In addition, the decoration is a coating layer is formed on a microfiber cloth made of polyester microfiber, the coating layer is characterized in that formed by the vacuum coating method of the sputtering method or evaporator writing method.

The present invention is described in detail by the accompanying drawings as follows. 1 is a perspective view of the decorative band for shoes according to the present invention, FIG. 2 is a layout view of a vacuum coating device used in the present invention, and FIG. 3 is a schematic diagram illustrating a vacuum coating device installed with a sputter module, a linear ion source and a thermal evaporation source used in the present invention. 4 is a schematic cutaway view of a vacuum coating apparatus installed with a sputte rmodule, a linear ion source and a thermal evaporation source used in the present invention, and FIG. 5 is an exploded schematic view of a vacuum coating apparatus installed with a sputter module, a linear ion source and a thermal evaporation source used in the present invention. 6 is a schematic plan view of a vacuum coating apparatus installed with a sputter module, a linear ion source and a thermal evaporation source used in the present invention, FIG. 7 is a partially enlarged view of FIG. 6, FIG. 8 is a perspective view of a conventional shoe outsole, and FIG. 9 is the present invention. Decorative pad made of polyester material produced by the shoe manufacturing method of the shoe, Figure 10 is a polyester produced by the manufacturing method of the shoe of the present invention Terex microfiber cloth, Figure 11 is a conventional shoe perspective view, Figure 12 is a midsole side photograph used in the present invention, Figure 13 is a midsole planar photograph used in the present invention.

The present invention is to form a vacuum coating layer on the outer surface of the decorative band for shoes. The coating layer is formed on the outer surface of the decorative band for shoes is excellent in aesthetics. The shoe decorative band is injection-molded with synthetic resins such as PP and PE, and a coating layer is formed on the surface of the injection-molded product by a vacuum coating method.

The shoe decorative band of the present invention is a length of about 4 ~ 6cm, a width of about 1cm band, injection-molded with synthetic resin, such as PP, PE, there is flexibility. The left and right side surfaces of the band are inclined to form an aesthetic sense. And the upper and lower sides of the decorative band for shoes to form a plurality of triangular teeth in the longitudinal direction to have a more aesthetic sense. On the other hand, the left side protrudes in the lateral direction, but the end is formed in the vertical direction with the end, and the right side protruding in the lateral direction, but the end is formed in the direction inclined to the side.

After the vacuum coating layer is formed on the surface of the band manufactured as described above, it is attached to the left and right sides of the shoe upper surface or the front instep using a sewing or adhesive.

The vacuum coating method is to easily form a vacuum coating layer on the shoe decorative band or the outsole or midsole synthetic resin material using a sputtering method or an evaporating method.

The coating layer is composed of a base layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer is a sputtering method Is formed by selecting two components of Ti, Zr, Ag, Au, Cu, Si, Sn. When three or more components of the multilayer coating layer are glossy, the gloss becomes dark and dark. And by selecting the two components to sequentially form a coating layer on the base layer, it is possible to form a more coating layer by repeating the multilayer coating layer operation. In other words, as an example, the base layer component may be formed of Al, and the multilayer coating layer may be formed by selecting Ti and Zr. In addition, the multilayer coating layer forming operation may be repeated. For example, the base layer component may be formed of Al, and the multilayer coating layer may be sequentially formed of Ti, Zr, Ti, or Zr.

In addition, in the case of the sputtering method, C ₂ H ₂ or O ₂ gas, which is a reactive gas, is injected into the vacuum chamber, or N ₂ or Ar gas, which is an inert gas, is injected into the vacuum chamber.

Among the coating layers formed as described above, the base layer reflects light, and the multilayer coating layer refracts the light, so that the coating layer has an aesthetic gloss as a whole.

In the present invention, in the case of the evaporating method, the base coating layer is a layer formed of any one of Al, Cr, Cu, Ni, Si, W, and Sn, and the multilayer coating layer is SiO _2, Nb ₂ O. _It is formed by selecting two components of ₃ , Nb ₂ O ₅ , SiO, SiO ₂ , Z ₂ O, ZrO ₂ , TiO, TiO ₂ . When three or more components of the multilayer coating layer are glossy, the gloss becomes dark and dark. As in the sputtering method, a multilayer coating layer having two components may be repeatedly formed on one base coating layer. That is, as an example, the base layer component may be formed of Al, and the multilayer coating layer may be formed by selecting SiO _{2 and} Nb ₂ O ₃ . In addition, the multilayer coating layer forming operation may be repeated, for example, the base layer component may be formed of Al, and the multilayer coating layer may be sequentially formed of SiO _2, Nb ₂ O _3, SiO _{2, and} Nb ₂ O ₃ . will be.

On the other hand, the vacuum coating apparatus used in the present invention can be efficiently implemented by mounting a resistive heating evaporation source (thermal evaporation source) in the center of the chamber in the conventional sputter vacuum coating method.

A linear ion source is installed on the chamber wall to perform pre-treatment and cleaning of samples using Ar.

In addition, the sputtering method used in the present invention refers to conventional sputtering technology. Specifically, sputtering refers to an electric field applied to a cathode in which an ar cation (positive ion) formed in a plasma state is mounted on a sputter module. It accelerates toward the target on the cathode and collides with it, causing the atoms that make up the target to pop out.

Since sputtering does not have a heating process, it is possible to deposit even a solid solution metal such as tungsten. In general vacuum deposition, since the metal is heated to a high temperature to evaporate, in the case of an alloy, the vapor pressure of each of the component metals are different, causing problems. However, sputtering can easily make a thin film not only metal but also inorganic materials such as quartz.

The sputtering apparatus is composed of a simple two-pole electrode and causes a glow discharge while flowing argon (Ar) gas. When the material to be deposited is made into a circular or rectangular target and a negative high voltage is applied thereto, a thin film is formed by stacking target atoms protruding by the collision of Ar + ions on the facing substrate.

Sputtering has a high adhesion strength between the thin film and the substrate because the velocity of the flying target atoms is about 100 times faster than the evaporation method. In addition to the two-pole sputtering, there is a four-pole sputtering method for generating a plasma between the substrate and the target to the cathode and the anode, an RF method using a high frequency, and recently a magnetron sputtering method using a magnetic field in addition to an electric field.

In addition, the basic principle of the sputtering method and the resistance heating method is described in the registration number 20-0185068, which is a pre-applied application, the basic principle of the sputtering method and the resistance heating method. To quote the configuration, the sputtered target is clamped to the cathode of the sputter module.

Here, the evaporator is coated by melting and evaporating the coating material in a resistive heating or electron beam method, and the sputtering target sputters and scatters the coating material to deposit the deposit.

The resistance heating method uses a heating method using a current to flow through the resistor to generate Joule heat. In this case, both a direct method of heating a current directly through an object and an indirect method of transferring heat from a heating element to a heated object by radiative convection conduction can be adopted.

In the plasma or glow discharge, the plasma or glow discharge zone is formed by the spark of high pressure voltage supplied from the inert injection gas and the power supply device between the above discharge means. In this state, the inner cylinder is rotated and the etching is performed while the discharge zone is applied to the coating portion of the coated body seated on the jig, and at the same time, the coating material melted by the sputtering target and the evaporator is scattered or sputtered. As a result, a multilayer thin film is formed on the deposit.

Summarizing the deposition process of the deposit, after mounting the substrate (deposit) to be deposited on the jig of the inner cylinder, the vacuum deposition chamber is evacuated through the vacuum exhaust device, and when the inside of the chamber reaches a constant vacuum state, the jig is It is a common method that the deposition material in which the portion to be deposited to be deposited is melted or sputtered from the sputtering target or evaporator is uniformly deposited on the surface of the deposit.

Therefore, the present invention has a remarkable effect that the coating layer of the metallic material formed on the decorative band for the shoe by vacuum coating method to improve the glossiness and improve the aesthetics by the refraction and reflection of light.

According to the present invention, a decoration is mounted on an outer surface of a shoe outsole or a midsole, and the decoration is a polyester pad, and a vacuum coating layer is formed on a surface thereof. After the vacuum coating layer is formed on the polyester pad, it is cut and cut into a desired shape, or after cutting into a desired shape in advance, a vacuum coating layer may be formed.

And the polyester pad coating layer is formed on the shoe outsole or the midsole outer surface is excellent in aesthetics. The shoe outsole or midsole is made of synthetic resin such as rubber or PVC, and a decoration having a coating layer formed on a polyester pad on the outsole or midsole is attached by an adhesive or the like.

On the other hand, the present invention is the decoration is a coating layer formed on a microfiber cloth made of conventional polyester microfiber, the coating layer is formed by a vacuum coating method of the sputtering method or evaporating method. The polyester pad or polyester microfiber cloth is a polyester microfiber cloth that can be easily purchased on the market and a detailed description thereof will be omitted.

On the other hand, the present invention is to be able to further form a water repellent coating layer by the conventional water repellent coating method on the coating layer is formed for the vacuum coating method, the conventional well-known water repellent coating method. As described in 0095459, the water-repellent coating solution is a patent application No. 10-2004-018569 (name: coating composition for forming a non-tacky coating film, a preparation method thereof and a surface treatment method using the same), and a patent application agent It is preferable to use the water-repellent coating liquid described in 10-2004-018570 (name: composition for sol-gel coating, preparation method thereof and surface treatment method using the same), but other water-repellent coating liquid may also be used.

The coating method may be dipping, flowing, spraying, brushing, or the like.

In the drying step after the application is finished for 1 to 48 hours. The drying process may be omitted in some cases.

After drying, the substrate coated with the coating solution is heat-treated at a temperature range of 50 to 250 degrees Celsius for 1 minute to 24 hours. Cool to room temperature after heat treatment. The temperature increase rate and the cooling rate may be in the range of 0.5 to 500 degrees per minute. In addition, instead of proceeding with a single temperature change rate at the time of temperature increase and cooling, it may proceed with a multi-step and various temperature change rates.

Therefore, detailed description of the water repellent coating method is omitted.

Therefore, the present invention is attached to the shoe outsole or midsole, the decoration is formed by a vacuum coating method of a metallic coating layer on the pad of polyester material, the coating layer is glossy and aesthetics by the refraction and reflection of light There is a significant effect that can be improved.

Claims

In the shoe decorative band is formed on the coating layer, the coating layer in the method of manufacturing a shoe ornaments formed by the vacuum coating method of the sputtering method or evaporating method,

The coating layer is composed of a base layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer is a sputtering method Method of manufacturing a decoration of the shoe, characterized in that formed by selecting two components of Ti, Zr, Ag, Au, Cu, Si, Sn
The method of claim 1, wherein the sputtering method is C 2 H 2 or a reactive gas (reactive gas) or Method of forming a vacuum coating layer of a shoe decorative band, characterized in that the O 2 is injected into the vacuum chamber or inert gas N 2 or Ar gas into the vacuum chamber.
The method of claim 1, wherein the multilayer coating layer is two of SiO 2 , Nb 2 O 3 , Nb 2 O 5 , SiO, SiO 2 , Z 2 O, ZrO 2 , TiO, TiO 2 in the evaporation method. Vacuum coating layer forming method of the decorative band for shoes, characterized in that formed by selecting the component
In the shoe ornament manufacturing method of manufacturing a shoe that is attached to the shoe outsole or the outer surface of the midsole, the decoration is a coating layer is formed on a polyester pad, the coating layer is in the vacuum coating method of the sputtering method or evaporating method Decorative material manufacturing method of the shoe, characterized in that formed by
The method of claim 4, wherein the coating layer is made of a base coating layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer In the case of the silver sputtering method, the method of manufacturing a shoe ornament, characterized in that formed by selecting two components of Ti, Zr, Ag, Au, Cu, Si, Sn
The method of claim 4, wherein in the case of the sputtering method, C 2 H 2 , N 2 , O 2 , or Ar gas is injected into the vacuum chamber as a reactive gas.
The method of claim 4, wherein the coating layer is made of a base coating layer and a multilayer coating layer, the base coating layer is a layer formed of any one component of Al, Cr, Cu, Ni, Si, W, Sn, the multilayer coating layer In the case of silver evaporating method, it is formed by selecting two components of SiO 2, Nb 2 O 3 , Nb 2 O 5 , SiO, SiO 2 , Z 2 O, ZrO 2 , TiO, TiO 2 . How to make shoe ornaments
The method of claim 4, wherein the decorative material is a coating layer formed on a microfiber cloth made of polyester microfiber yarn, the coating layer is formed by a vacuum coating method of the sputtering method or evaporating method of the shoe Decoration method