JPH0532039A - Transfer foil for applying pattern simultaneously with molding - Google Patents

Abstract

PURPOSE:To obtain the above transfer foil capable of being efficiently softened by short-time low temp. heating. CONSTITUTION:A polyester film with thickness of 38mum is used as a base film 1 and a release layer 5 wherein iron oxide with a particle size of 2mum is dispersed in an acrylic resin as a heat ray absorbent in a ratio of 40% is provided on the base film 1. Next, a pattern layer 3 consisting of an acrylic vinyl resin and yellow pigment is partially provided on the release layer 5. Further, an adhesive layer 4 composed of an acrylic resin is formed to obtain a transfer foil for forming a pattern simultaneously with molding.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transfer foil for simultaneous painting with molding which can be efficiently softened by heating at low temperature for a short time.

[0002]

2. Description of the Related Art Conventionally, a method for producing a simultaneously painted article is a transfer foil in which a release layer, a pattern layer and an adhesive layer are formed on a base film, and the entire circumference of the transfer foil is parted by one mold. After fixing by clamping on the surface, then by placing a heater near the fixed transfer foil to heat and soften the transfer foil, and performing preforming along the inner surface of the mold by vacuum and / or air pressure means, The mold was closed, the molten resin was injected from the other mold side, transferred onto the surface of the molded product, and the base film was peeled off.

[0003]

However, since the conventional transfer foil has a low heat ray absorption rate, it is hard to be softened, and the method for producing the simultaneously-imprinted product requires time and high temperature for heating the transfer foil. SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and provide a transfer foil for simultaneous painting with molding, which can be efficiently softened by heating at low temperature for a short time.

[0004]

In order to achieve the above object, the transfer foil for simultaneous forming and molding of the present invention has a release layer, a pattern layer and an adhesive layer formed on a base film, of which at least one layer is formed. The heat ray absorbent having a high heat ray absorption rate is configured to be dispersed.

Further, the transfer foil for simultaneous molding and painting of the present invention is
A release layer, a pattern layer, and an adhesive layer are formed on the base film, and a resin layer in which a heat ray absorbent having a high heat ray absorption coefficient is dispersed is provided between the base film and the release layer and in at least one of the layers. Configured as follows.

Further, the transfer foil for simultaneous painting with molding of the present invention is
A release layer, a pattern layer, and an adhesive layer are formed on the base film, and a heat ray absorbent having a high heat ray absorption rate is dispersed in at least one layer of the release layer, the pattern layer, and the adhesive layer, and at least one layer between the base film and the release layer. The resin layer in which the heat ray absorbent having a high heat ray absorption rate is dispersed is provided.

In each of the above constitutions, copper oxide, manganese dioxide, cobalt oxide, chromium oxide, iron oxide, lead sulfide,
Semiconductor particles selected from nickel sulfide were used as the heat ray absorbent.

In each of the above constitutions, a black pigment selected from carbon black, acetylene black and graphite is used as a heat ray absorbent.

The present invention will be described in more detail below with reference to the drawings. FIG. 1 is a cross-sectional view showing an embodiment of the transfer foil for simultaneous molding and painting of the present invention. 2 and 3 are cross-sectional views showing another embodiment of the transfer foil for simultaneous molding and painting of the present invention. Reference numeral 1 is a base film, 2 is a release layer, 3 is a pattern layer, 4 is an adhesive layer, and 7 is a release layer in which a heat ray absorbent is dispersed.

As the base film 1, those which are used as the base film 1 of a normal transfer foil for simultaneous painting with a molding such as a polyethylene terephthalate film, a polypropylene film, a polyethylene film and a nylon film are used.

On the base film 1, a release layer 2, a pattern layer 3 and an adhesive layer 4 are formed. As the release layer 2, a resin such as an acrylic resin, a hydrocarbon resin, an olefin chloride resin, or a wax such as a paraffin wax or a synthetic wax is used. The release layer 2 is formed by a normal printing method such as a gravure printing method or a screen printing method, or a roll coater method.

As the pattern layer 3, vinyl chloride-vinyl acetate copolymer / polyamide / polyester / polyacrylic /
A thermoplastic resin such as polyurethane, polyvinyl acetal, polyester urethane, or chlorinated rubber is used as a binder, and a dye or pigment of an appropriate color is contained as a coloring material. The pattern layer 3 is formed by a normal printing method such as a gravure printing method or a screen printing method or a roll coater method.

The adhesive layer 4 needs to be appropriately designed and changed according to the type of injection resin. In such cases, a binder such as acrylic resin, styrene resin, polyamide, etc. may be used. When the injection resin is polyethylene or polypropylene, a binder such as chlorinated polyolefin, chlorinated ethylene vinyl acetate copolymer resin, cyclized rubber or coumarone indene resin can be used. In addition, corresponding to other various injection resin materials,
Saturated polyester resin, nitrified cotton, etc. can also be used. As a method of forming the adhesive layer 4, a gravure printing method,
There are a usual printing method such as a screen printing method and a roll coater method.

A heat ray absorbent having a high heat ray absorption coefficient is dispersed in at least one layer of the peeling layer 2, the pattern layer 3 and the adhesive layer 4 as described above.

As the heat ray absorbent having a high heat ray absorption rate, it is preferable to use semiconductor particles selected from copper oxide, manganese dioxide, cobalt oxide, chromium oxide, iron oxide, lead sulfide and nickel sulfide. Further, a black pigment selected from carbon black, acetylene black and graphite may be used.

Further, instead of dispersing the heat ray absorbent in the release layer 2, the pattern layer 3 and the adhesive layer 4, or by dispersing the heat ray absorbent in the release layer 2, the pattern layer 3 and the adhesive layer 4,
The resin layer 7 in which the heat ray absorbent having a high heat ray absorption rate is dispersed may be provided on at least one of before and after the pattern layer. As the resin in which the heat ray absorbent is dispersed, it is preferable to use polyolefin resin, acrylic resin, vinyl resin, silicone resin, or the like. Further, the resin layer 7 in which the heat ray absorbent is dispersed may be formed only in a portion that needs to be preformed into a complicated shape. As a method of forming the resin layer 7 in which the heat ray absorbent is dispersed, there are a usual printing method such as a gravure printing method and a screen printing method, and a roll coater method.

Further, since the resin binder has a high heat ray emissivity, the radiation characteristics can be improved by controlling the particle size of the heat ray absorbent and reducing the former by the ratio of the resin binder and the heat ray absorbent.

[0018]

【Example】

Example 1 Base film 1 made of 38 μm thick polyester film
And, on top of that, add iron oxide with a particle size of 2 μm in acrylic resin
A release layer 5 dispersed as a heat ray absorbent at a rate of 0% is provided, and a pattern layer 3 made of an acrylic vinyl resin and a yellow pigment is partially provided on the release layer 5 to form an adhesive layer 4 made of an acrylic resin. Then, a transfer foil for simultaneous painting with molding was produced (see FIG. 1).

The transfer foil for simultaneous painting with molding thus obtained could be efficiently softened by heating at low temperature for a short time.

Example 2 Base film 1 made of a polyester film having a thickness of 38 μm
Then, a release layer 2 made of acrylic resin is formed thereon, a pattern layer 3 made of acrylic vinyl resin and blue pigment is partially provided, and carbon black having a particle size of 2 μm is 40% in the acrylic resin. After partially forming a resin layer 7 dispersed as a heat ray absorbent, an adhesive layer 4 made of an acrylic resin was formed to prepare a transfer foil for simultaneous molding and painting (see FIG. 2).

The transfer foil for simultaneous forming and painting thus obtained could be efficiently softened by heating at low temperature for a short time.

Example 3 Polyethylene terephthalate having a thickness of 38 μm was used as a base film 1, and a resin layer 7 having carbon black having a particle size of 2 μm dispersed as a heat ray absorbent in an acrylic resin at a ratio of 20% was formed on the entire surface thereof. After the formation, a release layer 2 made of acrylic resin is formed, and after partially forming a pattern layer 6 made of iron oxide having a particle diameter of 2 μm dispersed as a heat ray absorbent in the acrylic resin at a ratio of 40%, An adhesive layer 4 made of acrylic resin was formed to produce a transfer foil for simultaneous painting with molding (see FIG. 3).

The thus obtained transfer foil for simultaneous painting with molding could be efficiently softened by heating at low temperature for a short time.

[0024]

EFFECTS OF THE INVENTION In the transfer foil for simultaneous painting with molding of the present invention, a release layer, a pattern layer, and an adhesive layer are formed on a base film, and a heat ray absorbent having a high heat ray absorption coefficient is dispersed in at least one of them. Configured.

The transfer foil for simultaneous painting with molding of the present invention is
A release layer, a pattern layer, and an adhesive layer are formed on the base film, and a resin layer in which a heat ray absorbent having a high heat ray absorption coefficient is dispersed is provided between the base film and the release layer and in at least one of the layers. Configured as follows.

The transfer foil for simultaneous painting with molding of the present invention comprises:
A release layer, a pattern layer, and an adhesive layer are formed on the base film, and a heat ray absorbent having a high heat ray absorption rate is dispersed in at least one layer of the release layer, the pattern layer, and the adhesive layer, and at least one layer between the base film and the release layer. The resin layer in which the heat ray absorbent having a high heat ray absorption rate is dispersed is provided.

In each of the above constitutions, copper oxide, manganese dioxide, cobalt oxide, chromium oxide, iron oxide, lead sulfide,
Semiconductor particles selected from nickel sulfide were used as the heat ray absorbent.

In each of the above constitutions, a black pigment selected from carbon black, acetylene black and graphite was used as the heat ray absorbent.

Therefore, since the resin layer in which the heat ray absorbing agent having a high heat ray absorbing rate is dispersed is provided on the base film, it is possible to efficiently soften the transfer foil for simultaneous painting with molding by heating at low temperature for a short time. Became.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an example of a transfer foil for simultaneous painting with molding of the present invention.

FIG. 2 is a cross-sectional view showing another embodiment of the transfer foil for simultaneous painting with molding of the present invention.

FIG. 3 is a cross-sectional view showing another embodiment of the transfer foil for simultaneous painting with molding of the present invention.

[Explanation of symbols]

1 base film 2 Release layer 3 pattern layers 4 Adhesive layer 5 Release layer in which heat ray absorbent is dispersed 6 Design layer in which heat ray absorbent is dispersed 7 Resin layer in which heat ray absorbent is dispersed

Claims (5)

[Claims] 1. A transfer foil for simultaneous molding and painting, comprising a release layer, a pattern layer, and an adhesive layer formed on a base film, and a heat ray absorbent having a high heat ray absorption coefficient is dispersed in at least one layer of the release layer. 2. A release layer, a pattern layer, and an adhesive layer are formed on a base film, and a heat ray absorbent having a high heat ray absorption coefficient is dispersed between the base film and the release layer and in at least one of the layers. Transfer foil for simultaneous painting with molding, which is provided with a resin layer. 3. A peeling layer, a pattern layer, and an adhesive layer are formed on a base film, and a heat ray absorbent having a high heat ray absorption coefficient is dispersed in at least one layer of the peeling layer, the pattern layer, and the adhesive layer, and between the base film and the peeling layer and between each layer. A transfer foil for simultaneous molding and painting, characterized in that at least one of them is provided with a resin layer in which a heat ray absorbent having a high heat ray absorption rate is dispersed. 4. The molding according to claim 1, wherein the heat ray absorbent is semiconductor particles selected from copper oxide, manganese dioxide, cobalt oxide, chromium oxide, iron oxide, lead sulfide and nickel sulfide. Transfer foil for simultaneous painting. 5. The transfer foil for simultaneous painting with molding according to claim 1, wherein the heat ray absorbent is a black pigment selected from carbon black, acetylene black and graphite.