JPH01281927A - Sheeny foamed sheet and its manufacture - Google Patents

Abstract

PURPOSE:To obtain the sheeny foamed sheet having a metal-deposited layer without cracks and a stereo effect pattern by a method in which a transfer layer containing a heat resistant resin layer embedded with a metal-deposited layer is formed as a transfer sheet, and while said transfer layer is transferred onto a foamable base, said base is foamed. CONSTITUTION:The transfer sheet composed of a transfer sheet-base 1 and a transfer layer 2 is provided. The transfer layer 2 is composed of a releasing layer 21, a pattern printing layer 22, a heat resistant resin layer 23, a metal- deposited layer 24, a heat resistant resin layer 25, a foam-suppressing ink layer 26 and an adhering varnish layer 27. This transfer sheet is lapped on a foamable base 3, and its transfer is achieved under heating and pressurizing, and then the transfer sheet-base 1 is torn off and removed. Then the releasing layer 21 is coated with transparent resin as a top coat layer 4. Next, the whole is heated at least at the foaming temperature of the base 3, and the top coat layer 4 is dried and then the base 3 is foamed. Thus, the sheeny foamed sheet having the metal-deposited layer without cracks and a three dimensional pattern, is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a foamed sheet provided with a glittering effect by a metal vapor-deposited layer, and a method for producing the same. In more detail, for example, it is a material that has a cushioning property, such as a foamed PVC sheet, and is given a shine, and is made of foam that is suitable for home kitchens, store regulations, and building materials such as wall coverings. It relates to a sheet and its manufacturing method.

<Prior Art> Foamable sheets formed by printing ink containing a pearl pigment or metal powder on the surface of the foam sheet or kneading pearl pigment or metal powder have been known for some time. However, these sheets do not have a shiny appearance due to the reflection of light such as illumination light, and in the method of kneading pearl pigments and metal powders, these pigments and powders adhere to the inside of the hatch and are difficult to clean.

On the other hand, it is well known that the metal vapor deposited layer provided on the base material Saw 1 reflects light and has a glittering effect. There is still no known product with a metal vapor-deposited layer.

<Problems to be Solved by the Invention> When a metal vapor deposited layer is formed on a foamed sheet (2) and this (1) is foamed, cracks occur in the metal vapor deposited layer due to the flow of the resin due to the foaming, and the metal vapor deposited layer becomes white or A rainbow pattern appears and the original shine is lost.

The purpose of the present invention is to solve these problems and provide a foamed sheet having a crack-free metal vapor deposited layer and a method for manufacturing the same. An object of the present invention is to provide a glittering foam sheet having a pattern.

<Means for Solving the Problems> In order to achieve this object, the present invention has developed a sheet metal material in which a heat-resistant resin layer in which a metal vapor deposited layer is embedded is laminated on the foamed surface of a base material that has cushioning properties through foaming. We also provide a sheet with an opaque pattern formed on the metal layer of this sort through a transparent resin layer.

Furthermore, as a method for manufacturing this sheet, a transfer layer including a surface 1 thermal resin layer in which a metal vapor deposition layer is embedded is formed on a transfer sheet base to form a transfer sheet, and the transfer layer is transferred to a foamable base G. , provides a method for foaming.

Effect> According to the present invention, since the metal vapor deposited layer is embedded and integrated with the thermal resin on the first side, cranks due to the foaming of the base (e) will not occur, and the metal vapor deposition layer will not be produced due to the foaming while maintaining the brightness. A metal vapor deposited layer that conforms to the resulting unevenness is obtained.

Further, according to the second aspect of the invention, the patterned portion made of opaque ink blocks light and does not cause any fouling, so that a shadow is formed on the non-wearing surface. This shadow makes the pattern look like a raised pattern.

Furthermore, according to the invention of claim 3, it is possible to easily provide a metal vapor deposition layer even on a thick base material, and even when a thermosetting resin is used as the heat-resistant resin, the resin is coated before foaming the base material. Can be hardened.

<Example> The present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view of the transfer sheet 1M, and FIG. 2 is a cross-sectional view of the glitter foam sheet.

The transfer sheet according to the present invention consists of a transfer sheet base 1 and a transfer layer 2. The transfer sheet I/base 1 is to be peeled off and removed from the base material 3 after the transfer, and the transfer layer 2 is to be adhered to and integrated with the base material 3 after the transfer.

As the transfer sorting base 1, a polyester film 11, a resin film with good smoothness such as a polypropylene film, or a composite product made by laminating these resin films with paper or the like as a support can be used.

The transfer layer 2 includes a release layer 21, a pattern printing layer 22, and a heat-resistant resin layer 2.
3. Consists of a metal vapor deposition layer 24, a heat-resistant resin layer 25, a foaming-inhibiting ink layer 26, and an adhesive varnish layer 27.

The peeling layer 21 is for peeling and removing only the transfer sheet base 1 after the transfer, and is made of a resin that has good releasability from the base 1, such as an acrylic resin or a salt-vinyl acetate resin.

The pattern printing layer 22 is intended to give a design to the foam sheet, and is printed with opaque or translucent acrylic or salt-vinyl acetate colored ink.

Opaque ink can be used to block light and create a shadow on the metal vapor deposited layer 24 to provide a three-dimensional effect. By using translucent colored ink, it is possible to obtain a colored metallic pattern by allowing light to pass through.

Note that if an ink with good release properties from the base 1 is used as the ink for the pattern printing layer 22, the order of the release layer 21 and the pattern printing layer 22 can be changed.

The heat-resistant resin layers 23 and 25 have a metal vapor deposition layer 24 between them.
This is to prevent cracks and cracks from forming in the metal vapor deposited layer 24 during foaming. Heat resistant resin layer 23
And 25 may be any transparent resin that does not soften due to heat during foaming, but a curable resin crosslinked by reaction is preferable. For example, it is a two-part curable urethane resin.

The metal shielding layer 24 is for imparting a glittering effect, and can be formed by vacuum-depositing aluminum, soot, copper, roots, etc. by a conventional method.

The foaming suppressing ink layer 26 is for suppressing foaming of the base material, and is made of, for example, a foaming suppressing agent containing 1 to lyazine rings in a salt-vinyl acetate resin that has good adhesion to the heat-resistant resin layer 25 and the adhesive layer 27. The pattern is printed using ink containing .

The adhesive varnish layer 27 adheres the entire transfer layer 2 to the base It 3 and also prevents strong stress from being applied to the heat-resistant resin layer 25 and the metal vapor deposition layer 24 due to softening during foaming. Heat-adhesive resins such as salt-vinyl acetate and acrylic resins can be used.

All of the other layers except the metal vapor deposition layer 24 can be printed or coated by a method such as gravure printing, silk screen printing, offset printing, gravure coating, or roll coating. It is convenient to print or apply the release layer 21, pattern printing layer 22, and heat-resistant resin layer 23 in-line, and the heat-resistant resin layer 25, foam-suppressing ink layer 26, and adhesive varnish layer 27 separately in-line.

This transfer sheet is placed on the foamable base material 3 and transferred under heat and pressure. After the transfer, the transfer sheet base 1 is peeled off and removed.

The foamable base material 3 is one that is later foamed to provide design and cushioning properties, and for example, a sheet of glass fiber paper, amahest paper, etc. coated with a foamable abrasive resin can be used.

The transfer is performed at a temperature at which the foamable base material 3 does not foam. In the case of foamable PVC resin, the surface of this foamable PVC sheet is 1
The transfer sole and the foamable PVC resin are transferred under pressure between rolls at a temperature of 00 to 150°C.

After that, a transparent +
Ai Il finger is applied to form the top coat layer 4. Synopco-1 Layer 4 protects the surface of the foamed sort, and can be made of vinyl chloride resin or the like.

Next, the whole is heated to a temperature higher than the foaming temperature of the base material 3, and the I
- Dry the base coat layer 4 and foam the base material 3. In the case of foamable acetic resin, at 200 to 240°C]
Just heat it for ~3 minutes. Note that the foaming suppressing ink layer 26
Foaming of the base material 3 is suppressed in the area where the bubbles exist, and a concave portion can be formed as shown in the second circle to give unevenness.

Test example> As a transfer sheet base, 2
A composite paper with a 0μ polypropylene layer was used.

On the polypropylene layer of this transfer sheet base, in order:
The pattern printing layer, release layer, and heat-resistant transparent resin layer were printed in-line using a gravure printing machine.

The design of the pattern printing layer is a three-color abstract pattern using sand grain as the material, using opaque white, translucent yellow, and blue salt-vinyl acetate inks, and the depth of the printing plate is only the white board. 60μ, other versions are 3
It was set to 5μ.

The release layer was made of a medium of the same type as the ink medium used for the pattern printing layer, and a plate depth of 60 was used.

The heat-resistant resin layer was a transparent two-component curing urethane resin with a plate depth of 60 μm.

Aluminum with a thickness of 600 angstroms was vacuum-deposited on this heat-resistant resin layer.

Next, a heat-resistant resin layer, a foam-suppressing ink layer, and an adhesive varnish layer were printed in-line using a gravure printing machine.

The heat-resistant resin layer was a transparent two-component curing type urethane resin, and the adhesive varnish layer was a salt-vinyl acetate-based varnish with a plate depth of 60 μm.

After that, the heat-resistant resin layer is cured and cross-linked to form Aluminum 1.
The layer and the heat-resistant resin layers on both sides were firmly integrated to form a transfer sheet.

On the other hand, a glass fiber paper is used as a support, and a thickness of 200
The base material was a sheet on which a foamable PVC resin layer of μ was formed. With the surface of this base material maintained at 120[deg.] C., transfer sheet 1- was stacked on top of the other, pressure was applied between rolls for transfer, and only the transfer sorting base was peeled off and removed.

Next, apply 10% of transparent PVC paste to the pattern surface (transfer surface).
Apply to a thickness of 0μ, insert into a 220°C foaming oven for 2 minutes,
A building material was obtained by foaming the foamed PVC layer twice.

The obtained embedding +1 has a metal vapor deposited layer with a glittery feel on the plain part, and has a self-supporting layer with high concealability, a yellow color with a metallic luster,
The grain pattern is well-balanced in the front, and since the self-supporting part has a step between the transparent resin layer and the aluminum vapor deposition layer, the shadow of the self-supporting part can be seen depending on the angle, giving it an excellent three-dimensional design effect. It was a cushion-related abduction.

<Effects> (1) According to the invention of claim 1, a foam sheet having a metal vapor deposited layer on the foamed surface can be obtained without cracks occurring in the metal vapor deposited layer, so cushioning properties with extremely excellent shine can be obtained. sheets are obtained.

(2) According to the invention of claim 2, in addition to the effect of (1) above, a pattern with rich three-dimensional effect can be obtained.

(3) According to the third aspect of the invention, the sheet of (1) above can be obtained using a thick base material.

The drawings show embodiments of the present invention, in which the first drawing is a cross-sectional view of a transfer sheet, and the second drawing is a cross-sectional view of a foam sheet.

1... Transfer sheet base 2... Transfer layer 21... Peeling Ji 22... Pattern printing layer 23... Heat resistant resin layer 24... Metal vapor deposited layer 25... Heat resistant resin layer 26... ...Foaming suppression ink layer 27...
Adhesive varnish layer 3...Base material 4...Top coat Figure 1

Claims (3)

[Claims] (1) A glitter foam sheet characterized in that a heat-resistant resin layer in which a metal vapor-deposited layer is embedded is laminated on the foamed surface of a base material that has cushioning properties due to foaming. (2) The glitter foam sheet according to claim 1, wherein an opaque pattern is formed on the metal vapor deposited layer via a transparent resin layer. (3) A transfer sheet is formed by forming a transfer layer including a heat-resistant resin layer embedded with a metal vapor deposition layer on the transfer sheet base,
A method for producing a glitter foam sheet, which comprises transferring a transfer layer to a foam base material and foaming the sheet.