JPS5851821B2 - Synthetic resin products subjected to vacuum deposition - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to the structure of synthetic resin products subjected to vacuum deposition, and is aimed at increasing the surface strength of synthetic resin products subjected to vacuum deposition.

C) Acrylonitrile-butadiene-styrene copolymer resin (generally referred to as ABS for simplicity), polypropylene resin (generally referred to as PP for simplicity), and ureaphenol When vacuum-depositing a metal such as aluminum or gold on the surface of the substrate 1, which is a product made of synthetic resin, first, a paint using urethane resin, epoxy resin, acrylic resin, etc. is applied to the surface of the substrate 1. Apply under: 7
-) 2 is formed in the form of a film, and this undercoat 2
A vacuum-deposited layer 3 is formed by vacuum-depositing a metal such as aluminum or gold on the surface.

The vacuum-deposited layer 3 thus formed on the surface of the substrate 1 via the undercoat 2 is simply fine metal particles adhering to the surface of the undercoat 2;
It can be easily peeled off from the surface of Undercoat 2 by rubbing it lightly with your fingertips.

Therefore, conventionally, the substrate 1 is coated via this undercoat 2.
In order to protect the vacuum-deposited layer 3 formed on the surface of the vacuum-deposited layer 3 and at the same time prevent its peeling, a paint such as urethane resin, epoxy resin, or acrylic resin is further applied on the surface of the vacuum-deposited layer 3 to form a top coat. was forming.

However, since all of the paints used for the above-mentioned top coats have synthetic resin as a base material, they cannot be dried and baked at high temperatures, and therefore, it has not been possible to obtain sufficient film strength with any of them.

Moreover, since the top coat does not have sufficient hardness, the surface gloss or appearance of the vacuum-deposited product is poor and the product lacks a metallic feel.

The present invention was devised to eliminate the drawbacks of the conventional examples described above, and basic embodiments of the present invention will be described below with reference to the drawings.

As described above, the present invention provides a form in which the vacuum vapor deposited layer 3 is coated on the surface of the vacuum vapor deposited layer 3 formed on the surface of the substrate 1 via the undercoat 2 to prevent adhesion. It is coated with an unnecessary cured film 4, and the cured film 4 is made of a paint that hardens when irradiated with electron beams, radiation, or ultraviolet rays and strongly adheres to the vacuum-deposited layer 3.

That is, a liquid paint that is cured by irradiation with electron beams, radiation, or ultraviolet rays and strongly adheres to the vacuum-deposited layer 3 is uniformly applied directly onto the surface of the vacuum-deposited layer 30 by an appropriate means, and this vacuum-deposited layer is By irradiating the paint coated on the surface of layer 3 with electron beam radiation or ultraviolet rays, a cured film 4 is formed on the surface of vacuum-deposited layer 3 in a short period of about 1 second.

The paint forming the cured film 4 is cured by irradiation, so it contains almost no solvent.

Therefore, the paint is applied on the surface of the metal vacuum-deposited layer 30.
Even after adhesion, the substrate 1 as a synthetic resin product and the vacuum-deposited layer 3 undergo no change, deterioration, or dissolution, and the coating is accomplished without any adverse effects at all.

As a result, the excellent decorative properties of the vacuum-deposited layer 3 can be exhibited without deteriorating.

Furthermore, since the coating material forming the cured film 4 is cured by irradiation, high temperatures are not required.

Therefore, the substrate 1, the vacuum deposited layer 3. Undercoat 2 is
The vacuum-deposited layer 3 does not undergo any wrinkles or tears due to thermal expansion due to temperature changes.

In particular, it is possible to reliably prevent the base body 1, which has already been formed into a predetermined shape, from being thermally deformed in order to form the cured film 4.

Furthermore, since the molecular bonds of the cured film 4 are three-dimensional network bonds, its hardness is extremely high.

That is, high-temperature baking has a hardness comparable to that of painting, which increases the wear resistance of the product surface, making the product less likely to be damaged, and further ensuring the protection of the vacuum-deposited layer 3.

Moreover, since the surface of the product is excellent in terms of gloss, the decorative effect on the external appearance due to the metallic appearance of the vacuum-deposited layer 3 is further enhanced.

Since the curing of the above-mentioned paint is completed in about one second by irradiation with electron beams, radiation, ultraviolet rays, etc., the operation in step 1 to complete the cured film 4 can be easily accomplished in a short time. It is.

As is clear from the above description, the present invention is a vacuum-deposited synthetic resin product that has extremely high surface hardness, is hard to scratch, and has a glossy surface with a rich metallic feel. The cured film 4 can be easily formed in a short period of time, so it can be achieved much more quickly and easily than conventional products, and has many excellent effects as a vacuum-deposited synthetic resin product. It is something that demonstrates the.

[Brief explanation of the drawing]

The drawing is an enlarged vertical view showing the basic structure of the present invention. Explanation of symbols: 1: Substrate, 2: Undercoat, 3: Vacuum deposited layer, 4: Cured film.

Claims (1)

[Claims] 1. Paints such as urethane resin, epoxy resin, or acrylic resin are used on the surface of the substrate 1, which is a synthetic resin product such as acrylic resin, butadiene, and styrene copolymer resin, polypropylene resin, and ureaphenol resin. a vacuum-deposited undercoat 2 made of a metal such as aluminum or gold;
A vacuum-deposited synthetic resin product made by sequentially laminating a cured film 4 using a paint mainly made of a resin material that strongly adheres to the surface.