JPH0353993B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field The present invention relates to an improvement in a coating method by pasting a coating film as a form of coating method, and relates to a method for producing a strong and beautiful coating film quickly and with good operability.

BACKGROUND ART As a form of surface treatment by painting for various techniques, a method is used in which a paint film is formed in advance and the film is affixed to a base material. The purpose of this method is to make the process more or less dry compared to the conventional wet method, which involves applying and drying or curing a coating liquid, improving operability and quickly forming even relatively thick thin films. This is a method that is often adopted. The following are the main methods of forming paint films that have been adopted or proposed for this purpose. (a) Non-woven fabric impregnation method: A non-woven fabric of about 15 to 30 g/ ^m2 is impregnated with a thermosetting resin in a solution state and dried to form a paint film (generally called "overlay paper").
shall be.

(b) Non-woven fabric coating method: A thermosetting resin is applied in powder form to a non-woven fabric weighing about 15 to 30 g/m ² , and after hot melting, it is cooled to form a paint film.

(c) Film coating method: Applying a soft thermoplastic resin or thermosetting resin liquid to a releasable film such as polyester film to create a transferable film (generally called ``hot stamping'') ).

(d) Paint sheet method with adhesive: A coating film is prepared in advance and an adhesive is applied on top of it to form a film (stick-on coating method).

However, each of the coating methods in which the paint film obtained as described above is applied to a substrate has several disadvantages. That is, in the cases of (a) and (b) above, since a nonwoven fabric is used, the transparency of the coating film is poor and the defoaming property is also poor. Also
In the case of (a), the coating film is sticky and is not easy to handle. In the case of (c), the solid coating film formed on the release film is brittle in the case of thermoplastic resin, and remains sticky in the case of thermosetting resin, making it difficult to handle. do not have. In the case of (d), the coating film is adhered with a pressure-sensitive adhesive having a weak adhesive strength, so it is also impossible to provide a coating film with good durability.

Purpose of the Invention The present invention eliminates the drawbacks of the above-mentioned coating method in which a paint film is formed in advance and is attached to a base material, forms a paint film that is easy to handle, and uses the same to improve durability. The main object of this invention is to provide a method for providing a coating film with a certain quality.

Summary of the Invention The coating method of the present invention was developed to achieve the above object, and more specifically, it is characterized by including the following steps.

(a) forming a pressure-sensitive adhesive layer on the temporary support film; (b) dispersing a thermosetting solid paint powder onto the pressure-sensitive adhesive layer; and (iii) dispersing the thermosetting solid. (d) The laminate film obtained in (a) to (c) above is heated onto the base material through the thermosetting solid paint powder fusing layer. (e) a step of peeling off the release film from the integrated product;

The coating method of the present invention has the following features in that a coating layer formed in advance on a temporary support film is transferred to a base material.
It can be said that this method is similar to the film coating method (c) among the above-mentioned conventional techniques. However, in the method (c) above, since the paint itself has film-forming properties, the durability of the resulting paint film decreases or the handling property deteriorates due to residual stickiness. In contrast, in this invention, since the essential part of coating film formation on the temporary support film is performed by the pressure-sensitive adhesive, the coating itself has sufficient solidity to be handled and hardens. It becomes possible to employ a thermosetting resin that can provide a durable coating film, and the above-mentioned object is achieved.

DETAILED DESCRIPTION OF THE INVENTION Typical embodiments of the coating method of the present invention will be described with reference to the accompanying drawings.

According to the method of the present invention, first, as shown in FIG. After spraying thermosetting paint powder from the base, it is heated and fused together.
A thermosetting solid paint powder fused layer 3 is formed.

As the temporary support film 1, a film having a thickness of about 10 to 200 μm, such as polyester, polyethylene, polypropylene, vinylon, fluororesin, etc., is suitably used, but paper may be used as long as it has appropriate smoothness and flexibility. , metal foil, or any other film or sheet material can be used.

The pressure-sensitive adhesive layer 2 is used to support the thermosetting paint powder sprinkled thereon and to help form the layer.As the pressure-sensitive adhesive, a commonly used rubber-based adhesive is used. Adhesives can be suitably used. The thickness of the pressure-sensitive adhesive layer 2 is not particularly limited as long as the above objective can be achieved, but a range of 10 to 100 g/m ² is generally preferably used.

The thermosetting solid paint constituting layer 3 includes epoxy resin, polyester resin, acrylic resin,
Alternatively, thermosetting resins that are solid at room temperature and easily powdered, such as mixtures of these, are used as the main component, and if necessary,
A suitable amount of coloring agent is added to this. The solid paint fusion layer 3 is formed by applying, for example, 100 meshes below (passing) the paint mainly composed of these thermosetting resins.
of powder, depending on the required coating thickness, e.g.
It is obtained by dispersing it on the pressure-sensitive adhesive layer 2 at a rate of ~200 g/m ² and heating it to about 90-110° C. depending on the resin used. At this time, in order to help form the layer 3 uniformly, it is preferable to heat the layer 3 while pressing it with a material having a releasable surface, such as a polyester film. Without this heat fusing step, only one layer of the thermosetting paint powder would be retained on the pressure sensitive adhesive layer 2, but by heat fusing, multiple layers of paint powder would be retained. This ensures that the required coating thickness is maintained.

The above-described coating powder spraying and heat-fusion steps can be repeated as necessary.

The thus obtained laminate film 10 having a thermosetting solid coating adhesive layer 3 as shown in FIG.
is laminated with a base material 20 made of an arbitrary material via the solid paint fusion layer 3. Preferred examples of the base material include R/C plywood and P/B plywood, as shown in Figure 2.
Base plate 4 made of any material such as plywood, metal plate, inorganic plate, etc.
Examples include a wooden material 20 on which a decorative wood material 30 such as a decorative board such as a board with natural wood or a board with artificial wood grain, a printed decorative material, a decorative material with a colored synthetic resin sheet pasted, etc. is pasted.

Next, the laminate of the laminate film 10 and the base material is heated to a temperature suitable for curing the thermosetting paint 3, for example.
By maintaining the coating at 130-150° C. under a pressure of 5-20 kg/m ² , the paint 3 is cured and the whole is integrated (FIG. 3).

At this time, it is also a preferable embodiment to use a laminated adhesive of wood thin pieces as the substrate 20 and simultaneously cure the laminated adhesive to form a plywood at the time of heating and pressurizing for curing the paint 3.

Next, when the temporary support sheet 1 is peeled off from the laminate, the temporary support sheet 1 may be separated by itself or generally by collective failure in the pressure sensitive adhesive layer 2 as shown in FIG. 1 and a part of the pressure sensitive adhesive 2 will peel off.

Furthermore, if necessary, the remaining pressure-sensitive adhesive is removed by mechanical grinding or wiping with a solvent, or by further applying an appropriate topcoat 6, etc.
As shown in FIG. 5, a coating material according to the present invention is obtained.

As mentioned above, in this invention, a thermosetting paint powder is spread onto a temporary support film through a pressure-sensitive adhesive layer, and after the paint powder is fused, it is transferred to a base material and cured. Employing bonding provides a coating method that uses a solid paint film that is easy to handle, yet provides a durable coating. The method of the invention is particularly suitable for providing relatively thick and robust basecoat coatings.

Hereinafter, the present invention will be explained in more detail with reference to Examples. In the following description, all "parts" mean "parts by weight."

EXAMPLE The coating method of the present invention was carried out in substantially the manner described in FIGS. 1-5.

That is, the thickness of the temporary support film 1 is 50 μm.
A rubber-based pressure-sensitive adhesive (Konishi GPX-2) was applied thereon at a rate of 50 g/m ² and dried at 25° C. for 1 hour. Next, on this pressure-sensitive adhesive, a composition of 100 parts of an epoxy resin (Epicron N-680, manufactured by Dainippon Ink) and 5 parts of the same curing agent (imidazole 2E4ME, manufactured by Shikoku Kasei) was applied, and from the particles below 100 meshes, The epoxy paint powder was sprayed at a rate of 200 g/m ² and held at 100°C for 2 minutes to form a paint fusion layer 3 that adhered well to the temporary support film 1 as shown in Figure 1.
A laminate film 10 that was easy to handle was obtained.

Next, this laminate film was laminated via the paint fusing layer 3 on a 10 mm thick R/C plywood to which a 0.5 mm thick American walnut decorative plywood was pasted, and heated at 130°C and 10 kg/cm. ^2. Heat for 10 minutes,
Pressurized. The polyester film could be easily peeled off from the resulting laminate along with a portion of the pressure sensitive adhesive. Furthermore, when the remaining pressure-sensitive adhesive was removed from this laminate by paper grinding, a hardened paint layer was formed that firmly adhered to the base material, and by further applying urethane clear paint, painted plywood with a smooth and beautiful appearance was created. was gotten.

[Brief explanation of drawings]

1 to 5 are schematic cross-sectional views in the thickness direction of each material for explaining typical process combinations of the coating method of the present invention. DESCRIPTION OF SYMBOLS 1...Temporary support film, 2...Pressure sensitive adhesive layer, 3...Thermosetting solid paint powder fusion layer, (3a
...layer after curing under heat and pressure), 4... base plate, 5
... Decorative material layer, 6 ... Top coat layer, 10 ... Laminate film, 20 ... Base material.

Claims (1)

[Scope of Claims] 1. A coating method characterized by including the following steps. (a) forming a pressure-sensitive adhesive layer on the temporary support film; (b) dispersing a thermosetting solid paint powder onto the pressure-sensitive adhesive layer; and (iii) dispersing the thermosetting solid. (d) The laminate film obtained in (a) to (c) above is heated onto the base material through the thermosetting solid paint powder fusing layer. (e) a step of peeling off the release film from the integrated product; 2. The coating method according to claim 1, wherein the step (c) is performed under pressure. 3. The coating method according to claim 1 or 2, wherein the base material is wood. 4. The coating method according to claim 3, wherein the temperamental base material is a laminated adhesive of wood flakes, and the integral curing of these wood flake laminates is also achieved during the integration by heating and pressing.