WATER-WASHABLE MASKING COATING SOLUTION FOR POST-PROCESSING SHOE SOLE AND METHOD FOR USING COATING SOLUTION

Abstract

The present invention is to develop a wet masking coating solution which is used to protect a shoe sole from contaminants and dust generated during a post-processing treatment of the shoe sole, such as laser etching or hot knife. The present invention proposes a water-washable masking coating solution for post-processing a shoe sole which can be perfectly removed just when the masking coating solution dried after post-processing treatment of the shoe sole is washed with water, thereby making consecutive work and mass production possible. Moreover, the present invention proposes a method for using the water-washable masking coating solution.

Claims

1. A water-washable masking coating solution for post-processing a shoe sole consisting of polyvinyl alcohol.

2. The water-washable masking coating solution according to claim 1, wherein the polyvinyl alcohol is 80 to 95% mol in degree of saponification.

3. The water-washable masking coating solution according to claim 1, wherein the polyvinyl alcohol is 95 to 99.9% mol in degree of saponification.

4. The water-washable masking coating solution according to claim 1, wherein the polyvinyl alcohol is mixed with water.

5. The water-washable masking coating solution according to claim 4, consisting of 1 to 50 wt % of polyvinyl alcohol and 50 to 99 wt % of water.

6. A method for using a masking coating solution to protect a shoe sole from contaminants and dust when the shoe sole is post-treated, the method comprising the steps of: manufacturing a masking coating solution by mixing polyvinyl alcohol, which is 80 to 95% mol in degree of saponification, and water; coating the coating solution onto a part of the shoe sole to be post-processed and drying the coated solution; post-processing the shoe sole on which the coating solution is dried through a general method; and washing the post-processed shoe sole with water.

7. A method for using a masking coating solution to protect a shoe sole from contaminants and dust when the shoe sole is post-treated, the method comprising the steps of: manufacturing a masking coating solution by mixing polyvinyl alcohol, which is 95 to 99.9% mol in degree of saponification, and water; coating the coating solution onto a part of the shoe sole to be post-processed and drying the coated solution; post-processing the shoe sole on which the coating solution is dried through a general method; washing the post-processed shoe sole with water; and filtering the polyvinyl alcohol, which did not dissolved in water in the washing step, with a general filter to reuse water.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0015] Reference will be now made in detail to preferred embodiments of the disclosure with reference to the attached drawings. It will be understood that representative embodiments of the present invention will be proposed in the detailed description in order to achieve the technical objects and that other embodiments proposable in the present invention will be substituted with description of the present invention.

[0016] The present invention is to develop a wet masking coating solution which is used to protect a shoe sole from contaminants and dust generated during a post-processing treatment of the shoe sole, such as laser etching or hot knife. The present invention proposes a water-washable masking coating solution for post-processing a shoe sole which can be perfectly removed just when the masking coating solution dried after post-processing treatment of the shoe sole is washed with water, thereby making consecutive work and mass production possible. Moreover, the present invention proposes a method for using the water-washable masking coating solution.

[0017] There are two kinds of water-washable masking coating solution: one being polyvinyl alcohol (hereinafter, called PVA) with high solubility and the other being PVA with low solubility.

[0018] Preferably, the PVA with high solubility is 80 to 95% mol in degree of saponification. So, the PVA with high solubility is a masking coating solution which is perfectly removed when the PVA which is coated and dried on the surface of the shoe sole is washed with water after the post-processing treatment. The PVA with low solubility is 95 to 99.9% mol in degree of saponification. So, the PVA with low solubility is a masking coating solution which is not soluble in water but is moistened and is removed in the form of a film of a solid state when the PVA which is coated and dried on the surface of the shoe sole is washed with water after the post-processing treatment, thereby continuously reusing the water by filtering through a general filter.

[0019] Hereinafter, the present invention will be described in detail in accordance with the preferred embodiments, but is not limited by the preferred embodiments.

Embodiment 1

[0020] In the first preferred embodiment of the present invention, the masking coating solution, which is made of PVA with high solubility, out of the water-washable masking coating solutions according to the present invention will be described in detail.

[0021] First, mix 1 to 50 wt % of PVA which is 80 to 95% mol in degree of saponification and 50 to 99 wt % of water to manufacture the masking coating solution.

[0022] Next, coat the masking coating solution onto the surface of the shoe sole, namely, a part to be post-processed, using a sprayer and dry the coated masking coating solution. After that, carry out the general post-processing treatment, such as laser etching or hot knife, to the shoe sole.

[0023] After that, wash off the masking coating solution, which is coated on the surface of the shoe sole in the form of a film, with water so as to easily remove the film layer (masking coating solution) stuck to the shoe sole together with contaminants.

[0024] As described above, because the present invention uses water-soluble PVA, preferably, PVA which is 80 to 95% mol in degree of saponification, the masking coating solution coated on the shoe sole can be easily removed together with contaminants and enhance productivity of products due to consecutive work.

Embodiment 2

[0025] In the second preferred embodiment of the present invention, the masking coating solution, which is made of PVA with low solubility, out of the water-washable masking coating solutions according to the present invention will be described in detail.

[0026] First, mix 1 to 50 wt % of PVA which is 95 to 99.9% mol in degree of saponification and 50 to 99 wt % of water to manufacture the masking coating solution.

[0027] Next, coat the masking coating solution onto the surface of the shoe sole, namely, a part to be post-processed, using a sprayer and dry the coated masking coating solution. After that, carry out the general post-processing treatment, such as laser etching or hot knife, to the shoe sole. After that, remove the masking coating solution, which is coated on the surface of the shoe sole in the form of a film, with water. In this instance, because the film layer (masking coating solution) which is stuck to the shoe sole floats on the water because being PVA which does not dissolve well in water, the water (wastewater) can be recycled and reused when being filtered using a general filter.

[0028] As described above, because the present invention uses PVA with low solubility, when the masking coating solution coated on the shoe sole is removed through physical shock, the coating solution floats on the water in the form of the film and the water (wastewater) is filtered to be continuously recycled. Therefore, the masking coating solution according to the second preferred embodiment can prevent environmental pollution better than that according to the first preferred embodiment.

[0029] Hereinafter, results of a filtering test of the water-washable masking coating solutions manufactured through the methods according to the first and second preferred embodiments of the present invention will be described in detail.

1. Filtering Test Method

[0030] 1) Respectively manufacture the masking coating solution made of soluble PVA and the masking coating solution made of insoluble PVA through the methods according to the first and second preferred embodiments of the present invention.

[0031] 2) Coat the two kinds of the masking coating solutions onto eight shoe soles using a sprayer, and dry them at about 50 C. for ten minutes.

[0032] 3) Wash the dried specimens in water of 4 kg at temperature of 555 C.

[0033] 4) Measure PVA solids in the water.

[0034] 5) Pass washing water through a 150 mesh filter and measure the PVA solids.

[0035] 6) Measure weight of the solids before and after filtering to measure a filtration rate.

[0036] 7) For the test, the masking coating solutions of about 6 g were coated on 1,250 shoe soles per hour in water of 1 ton in a washing tub, and then, the test was carried out on the assumption of concentration generated while washing.

2. Results of Filtering Test

[0037]

TABLE-US-00001 TABLE 1 Measurement of solids Weight Weight Division (g) (g) Sol- Filtra- Product Related with before after ids tion name filter filtration filtration (5) rate Soluble PVA Before 15.19 0.015 0.099 0.0 application filtration 150 mesh 2 15.28 0.015 0.098 0.6 folds Insoluble PVA Before 15.16 0.01 0.066 0.0 application filtration 150 mesh 2 15.19 0.005 0.033 50.1 folds

[0038] As shown in the table 1, in case of the masking coating solution made of soluble PVA, residues were not observed after washing, and the solid contents before and after filtration were measured almost identically. Furthermore, in case of the masking coating solution made of insoluble PVA, residues were generated after washing, and just about 50% of the residues were filtered.