JPH0474569A - Surface film structure of glass material and coating method - Google Patents

Abstract

PURPOSE:To obtain the surface film structure of a glass material having high close adhesiveness and excellent durability as compared with a conventional product by forming an auxiliary film layer based on an acrylic resin to the surface of glass and forming a main film layer to the surface of the auxiliary film layer. CONSTITUTION:An auxiliary film layer 2 based on an acrylic resin is formed to the surface of a glass material 1 and a main film layer 2 is formed to the surface of the auxiliary film layer 2. As a result, the close adhesiveness of the main film layer becomes high as compared with conventional one. When the surface film structure of this glass material is used, the surface film structure of the glass material suitable for the so-called building material excellent in durability can be obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a surface coating structure of glass plate materials and a coating method therefor.

[Conventional technology]

Glass plates used as building materials are also required to have excellent colors and diverse patterns.

On the other hand, in the past, a method of directly painting a glass plate was considered as a method of adding a color pattern to a glass plate.

[Problem to be solved by the invention]

However, in such conventional painting methods, since the coating was simply applied directly to the surface of the glass plate, the adhesion of the coating film was weak, making it impossible to obtain a durable coating film. This has the disadvantage that it cannot be converted into

An object of the present invention is to eliminate such disadvantages.

[Means for solving the above problems]

In order to solve the above problems, in the surface coating structure of a glass material according to the present invention, an auxiliary coating layer containing acrylic resin as a main component is formed on the surface of the glass material, and the surface of this auxiliary coating layer is The main coating layer is formed on the top.

Furthermore, in order to solve the above problems, in the method for surface coating glass materials according to the present invention, an auxiliary agent containing acrylic resin as a main component is applied to the surface of the glass material, and after this auxiliary agent dries, The main coating is applied to the surface of this auxiliary agent, and then baked.

[Action of the invention]

Since the surface coating structure of the glass material according to the present invention is configured as described above, the adhesion of the main coating film is higher than that of conventional ones, as shown in FIGS. 2 and 3. be.

Furthermore, since the method for coating the surface of a glass material according to the present invention is configured as described above, the surface coating structure can be easily manufactured.

[Explanation of Examples]

Hereinafter, the present invention will be explained in detail based on FIG.

In the figure, 1 is a glass plate (corresponding to the [glass material] of this invention). Reference numeral 2 denotes an auxiliary coating layer, which is formed in close contact with the surface of the glass plate 1. This auxiliary coating layer 2 is transparent and contains acrylic resin as a main component. 3 is a main coating layer, which is formed in close contact with the surface of the auxiliary coating layer 2. This main coating layer 2 has various patterns depending on the color.
For example, it can be formed into a plain pattern, a random thread pattern, a stone pattern, a granite pattern, etc.

Next, a method for manufacturing such a surface coating structure will be explained.

(No skin pattern coating) Wipe the surface of the glass plate 1 with a cloth moistened with thinner. After that, wipe it with a dry cloth and use an auxiliary agent mainly composed of acrylic resin (acrylic resin dissolved in toluene, concentration 40%).
~50% by weight). After this auxiliary material is dried and solidified, a paint (GL-L600 Sleekton, GC-L thinner, viscosity 20 seconds [1 measured by capillary viscosity meter]) is sprayed.

Then, bake at about 170°C for about 30 minutes. Then, a pear skin pattern is obtained. Note that in order to obtain a non-colored skin pattern, paints of various colors may be sprayed before the baking.

FIG. 3 shows the results of a substrate test for adhesion of the coating film obtained by this method.

Moreover, FIG. 2 shows the test results of the coating film by the conventional method.

The test method was to scratch the surface of the paint film in a 2mm grid.

D, . . . are attached, and an adhesive tape is once attached to the surface with the scratches D, . In addition, in the figure,
S is the peeled part of the paint film. From FIG. 2 and FIG. 3, it can be seen that the coating film of the present invention is less likely to peel off and has better adhesion than the coating film produced by the conventional method.

(Coating film with a scattering pattern) Wipe the surface of the glass plate 1 with a cloth moistened with thinner. After that, wipe it with a dry cloth and use an auxiliary agent mainly composed of acrylic resin (acrylic resin dissolved in toluene, concentration 40%).
~50% by weight). After this auxiliary material dries and solidifies, the paint (pigment for silk printing) is applied at an air pressure of 0.3 k.
g/cf to form a random yarn pattern. Thereafter, an appropriate coating material (solvent: thinner, viscosity: 17 to 19 seconds [measured by a capillary viscosity meter]) is spray-painted onto the random thread pattern. At this time, if the painting is done quickly using slow-drying thinner, the paint and the paint with the random thread pattern will mix, making it possible to express a unique pattern and eliminate the unevenness of the painted surface. be able to. Then, bake at about 170°C for about 30 minutes. As a result, a random thread pattern is obtained.

In addition, since pigments for silk printing were used to form the disordered yarn pattern, it became possible to form thick lines and large-shaped disordered yarn patterns that were previously impossible.

Moreover, it is also possible to form a marble pattern on the surface of a glass plate by this method.

(Stone coating film) Wipe the surface of the glass plate 1 with a cloth moistened with thinner. After that, wipe it with a dry cloth and use an auxiliary agent mainly composed of acrylic resin (acrylic resin dissolved in toluene, concentration 40%).
~50% by weight). After this auxiliary material dries and solidifies, it is sprayed with appropriate paint for general painting. thinner(
Before the solvent) dries, add paint (solvent: thinner, viscosity 1
A stone grain pattern is formed on the general coating for 8 seconds [by capillary viscometer 1) while spraying at an air pressure of 0.3 kg/cYll. Then, bake at about 170°C for about 30 minutes. As a result, a stone pattern is obtained.

(Granite pattern coating film) Wipe the surface of the glass plate with a cloth moistened with thinner (. After that, wipe with a dry cloth and apply an auxiliary agent whose main component is acrylic resin (acrylic resin dissolved in toluene, concentration 40～
50% by weight). After this auxiliary material dries and solidifies, it is sprayed with appropriate paint for general painting. And about 1
After leaving it for 5 minutes, apply paint (solvent: thinner, viscosity 1
Paint particles are dropped onto the general coating using an air pressure of 0.3 kg/cffl for 8 seconds [1) using a capillary viscometer. Repeat this process with different paint colors.

Thereafter, a clear coating (viscosity 18 seconds [measured by a capillary viscosity meter]) is applied and baked at about 170°C for about 30 minutes. Then, a granite pattern is obtained.

〔Effect of the invention〕

In the surface coating structure of the glass material according to this invention,
An auxiliary coating layer containing acrylic resin as the main component was formed on the surface of the glass material, and a main coating layer was formed on the surface of this auxiliary coating layer. The adhesion of the coating film is higher than that of conventional coatings.

Therefore, by using the surface coating structure of a glass material of the present invention, it is possible to obtain a surface coating structure of a glass material that has excellent durability and is suitable for so-called building materials.

Furthermore, in the method for surface coating glass materials according to the present invention,
An auxiliary agent mainly composed of acrylic resin is applied to the surface of the glass material, and after this auxiliary agent dries, a main coating is applied to the surface of this auxiliary agent, and then baked. The membrane structure can be easily manufactured.

[Brief explanation of drawings]

Figure 1 is a cross-sectional view of the surface coating structure of the glass material according to the present invention, Figures 2 and 3 show the test results of the base grain test, Figure 2 is the conventional one, The figure is of this invention. 1... Glass plate material (glass material) 2... Auxiliary coating layer 3... Main coating layer

Claims (2)

[Claims] (1) A surface coating of a glass material characterized in that an auxiliary coating layer containing acrylic resin as a main component is formed on the surface of the glass material, and a main coating layer is formed on the surface of this auxiliary coating layer. Membrane structure. (2) The characteristic is that an auxiliary agent mainly composed of acrylic resin is applied to the surface of the glass material, and after this auxiliary agent dries, a main coating is applied to the surface of this auxiliary agent, and then baked. Surface painting method for glass materials.