JP2017094545A - Decorative plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a decorative plate excellent in an effect such as antiviral property while controlling an influence on designability to be small.SOLUTION: There is provided a decorative plate 10 which has a substrate, a surface layer resin layer 12 laminated on one surface or both surfaces of the substrate, and an antiviral resin 13 formed of an acidic functional group fixed to the surface layer resin layer 12 and a resin base, where preferably, the organic antiviral agent 13 is fixed onto the surface layer resin layer 12, a part of the antiviral resin 13 is exposed from the surface layer resin layer 12, and the acidic functional group is at least one functional group selected from a sulfonic acid group, a phosphate group and a carboxyl group.SELECTED DRAWING: Figure 1

Description

The present invention relates to a decorative board.

Conventionally, a decorative board having functionalities such as antifouling property and antibacterial property has been provided by adding or applying a functional substance such as a photocatalyst to a surface layer of a decorative board such as a melamine decorative board.

Patent Document 1 proposes a manufacturing method for obtaining an antibacterial polyester decorative board by applying an unsaturated polyester resin to which an antibacterial agent made of a calcium-based ceramic fired powder having an antibacterial metal supported on the surface of paper is applied. Has been.

Patent Document 2 discloses an impregnated paper obtained by impregnating and drying a thermosetting resin liquid carrying an antibacterial metal and adding a calcium-based ceramic fired powder to the surface of the decorative board. There has been proposed a thermosetting resin decorative board characterized by being hot-pressed on a base material so as to constitute a layer.

Japanese Patent Application Laid-Open No. 07-304619 JP-A-6-279218

The decorative plates described in Patent Document 1 and Patent Document 2 have the following problems.
That is, in Patent Document 1 and Patent Document 2, since an antibacterial metal is supported on an inorganic substance such as ceramic, a large amount of inorganic substance such as ceramic is required in addition to the actually functioning antibacterial metal. . For this reason, when the content of the antibacterial metal is increased in order to exhibit sufficient antibacterial and antiviral properties, a large amount of an inorganic substance is required, and the design of the decorative board is deteriorated.

This invention is made | formed in view of such a problem, and it aims at providing the decorative board excellent in effects, such as antiviral property, keeping the influence which acts on designability small.

The decorative board of the present invention comprises a substrate, a surface resin layer laminated on one or both surfaces of the substrate, and an antiviral resin comprising an acidic functional group fixed to the surface resin layer and a resin substrate. It is characterized by having.

In the decorative board of the present invention, an antiviral resin comprising an acidic functional group and a resin base is fixed to the surface resin layer, and thus has an effect such as antiviral properties. Further, since the antiviral resin is made of the same resin material as the surface resin layer, it is difficult for light to scatter at the interface between the surface resin layer and the antiviral resin, and the influence on the design of the decorative board can be reduced.

In the decorative board of the present invention, it is preferable that the antiviral resin is fixed to the surface resin layer, and a part of the antiviral resin is exposed from the surface resin layer.

When a part of the antiviral resin is exposed from the surface resin layer, the effect such as antiviral properties is large and the effect is sustained for a long period of time.

The acidic functional group used in the present invention is not particularly limited, and examples thereof include at least one functional group selected from a sulfonic acid group, a phosphoric acid group, and a carboxyl group.

The sulfonic acid group, phosphoric acid group, and carboxyl group are particularly excellent in antiviral properties, and can impart a high antiviral effect to the decorative board of the present invention.

In the decorative board of the present invention, the resin substrate is preferably a polymer of a monomer having a vinyl group.

Since the polymer of the monomer which has the said vinyl group is synthesize | combined by addition polymerization, there are no by-products, such as water, and an antiviral resin with high transparency can be obtained. For this reason, the influence which it has on the designability of a decorative board can be made small.

The monomer having a vinyl group is preferably at least one monomer selected from styrene, methacrylic acid, methacrylic acid ester, divinylbenzene, and trivinylbenzene.
Styrene, methacrylic acid, methacrylic acid ester, divinylbenzene, and trivinylbenzene can provide an antiviral resin with particularly high transparency. Further, divinylbenzene and trivinylbenzene can be crosslinked by adding to the monomer to form a three-dimensional network structure. By forming a three-dimensional network structure, it becomes difficult to be decomposed and durability can be increased.

FIG. 1 is a schematic cross-sectional view schematically showing a decorative board according to an embodiment of the present invention.

Hereinafter, a decorative board according to an embodiment of the present invention will be described in detail.
FIG. 1 is a schematic cross-sectional view schematically showing a decorative board of the present invention.

The decorative board 10 of the present invention comprises a substrate (not shown), a surface resin layer 12 made of melamine resin or the like laminated on the surface of the substrate, and an antiviral resin 13 fixed in the surface resin layer 12. Have.

The board | substrate used for the decorative board of this invention is not specifically limited, Incombustible base materials, such as a core paper and a magnesia cement generally used for a decorative board, etc. can be used. The core paper may be a single core or a laminate in which a plurality of core papers are stacked. The number of core papers is not particularly limited, but can be 1 to 20 sheets. As the core paper, for example, aluminum hydroxide paper can be used. The core paper can be impregnated with a phenol resin. Moreover, a core paper and a magnesia cement incombustible base material can be laminated to form a substrate.

The magnesia cement incombustible base material can be used as a substrate by using it alone or by laminating it at the center of the core paper. The magnesia cement incombustible plate is manufactured by mixing magnesium oxide (MgO) and magnesium chloride (MgCl ₂ ), adding aggregate and water, kneading, and forming into a plate shape. As the aggregate, inorganic fibers such as rock wool and glass wool, and organic fibers such as wood chips and pulp can be used. Moreover, in order to raise the intensity | strength of a magnesia cement incombustible board, the glass fiber layer formed in mesh shape etc. can be provided as an intermediate | middle layer.

The method for forming the surface resin layer on the substrate surface composed of a plurality of or a single core paper and / or magnesia cement incombustible base material is not particularly limited, and can be performed by a general method. For example, a method of laminating melamine resin impregnated paper on one side or both sides of the substrate and hot pressing can be used. If the said method is used, the melamine resin of a melamine resin impregnation paper will osmose | permeate core paper, a curing reaction will advance there, and the adhesive force of the melamine resin impregnation paper with respect to a core paper will express.

The resin that can be used for the surface resin layer constituting the decorative board of the present invention includes melamine resin, diallyl phthalate (DAP) resin, polyester resin, olefin resin, vinyl chloride resin, acrylic resin, epoxy resin, urethane resin. Phenol resin, silicone resin, fluororesin, guanamine resin and the like. In these, it is desirable to use a melamine resin.

Melamine resin is a resin with improved dimensional stability and toughness without impairing optical and visual properties such as translucency. As the melamine resin, known resins can be adopted as long as they are resins having melamine and its derivatives as monomers. The melamine resin may be a resin composed of a single monomer or a copolymer composed of a plurality of monomers. Examples of the melamine derivative include derivatives having a functional group such as an alkoxymethyl group such as an imino group, a methylol group, a methoxymethyl group, or a butoxymethyl group. Further, a compound obtained by reacting a lower alcohol with a melamine derivative having a methylol group and partially or completely etherified can be used as a monomer. Monomethylol melamine, dimethylol melamine, trimethylol melamine, tetramethylol melamine, pentamethylol melamine, hexamethylol melamine and other derivatives having a methylol group (hereinafter referred to as “methylolated melamine”) are copolymerized with melamine as a crosslinking agent. Can be used.

The melamine resin-impregnated paper is produced by impregnating a melamine resin with a predetermined impregnation rate in a pattern paper, and then heating and drying. The pattern paper can be impregnated with the melamine resin by immersing the pattern paper in a melamine resin-containing solution using, for example, an aqueous formaldehyde solution as a solvent. Further, in order to impart bending workability to the melamine resin-impregnated paper, it is possible to impregnate a solution containing a plasticizer together with the melamine resin. As the plasticizer, for example, ε-caprolactam, acetoguanamine, p-toluenesulfonic acid amide, urea and the like can be used. For example, titanium paper is used as the pattern paper. The basis weight of the pattern paper can be set to 80 to 150 g / m ² in consideration of the thickness and weight of the pattern paper. The temperature for heating and drying can be set to 100 to 150 ° C. in order to firmly fix the melamine resin to the pattern paper.

The antiviral resin constituting the decorative board of the present invention comprises an acidic functional group and a resin substrate. Examples of the acidic functional group include a sulfonic acid group, a phosphoric acid group, a carboxyl group, a hydroxyl group, and a nitro group. Of these, sulfonic acid groups, phosphoric acid groups, and carboxyl groups are preferred.

In the decorative board of the present invention, although the antiviral resin exhibits a certain antiviral effect even if it is embedded in the surface resin layer, the antiviral resin is fixed on the surface of the surface resin layer. It is desirable that a part of the antiviral resin is exposed from the surface resin layer.

When a part of the antiviral resin is exposed from the surface resin layer, the effect such as antiviral properties is large and the effect is sustained for a long period of time.

In the decorative board of the present invention, the average particle size of the antiviral resin is preferably 0.1 μm to 55 μm.

In the decorative board of the present invention, the average particle size of the antiviral resin is preferably 0.1 to 55 μm, and more preferably 0.5 to 5 μm. When the average particle diameter of the antiviral resin is 0.1 to 55 μm, the antiviral properties are exhibited, the antiviral resin is difficult to fall off, and unevenness is not easily formed on the surface resin layer. The influence on the designability can be reduced. When the average particle size of the antiviral resin is less than 0.1 μm, the antiviral resin tends to be embedded in the surface resin layer, and the effect of the antiviral resin tends to be difficult to be exhibited. If it exceeds 55 μm, irregularities are likely to be formed in the surface resin layer, which tends to cause defects in appearance and design. When the average particle diameter of the ceramic particles of the decorative board is 0.5 to 5 μm, the functionality as a functional substance is exhibited, and the appearance and design of the decorative board are not conspicuous.

In the decorative board of the present invention, the resin substrate is preferably a polymer of a monomer having a vinyl group.

Since the polymer of a monomer having a vinyl group is synthesized by addition polymerization, there is no by-product such as water, and an antiviral resin having high transparency can be obtained. For this reason, the influence which it has on the designability of a decorative board can be made small.

The monomer having a vinyl group is preferably at least one monomer selected from styrene, methacrylic acid, methacrylic acid ester, divinylbenzene, and trivinylbenzene.
Styrene, methacrylic acid, methacrylic acid ester, divinylbenzene, and trivinylbenzene can provide an antiviral resin with particularly high transparency. Further, divinylbenzene and trivinylbenzene can be crosslinked by adding to the monomer to form a three-dimensional network structure. By forming a three-dimensional network structure, it becomes difficult to be decomposed and durability can be increased.

In the decorative board of the present invention, the antiviral resin comprising an acidic functional group and a resin substrate is not particularly limited. For example, the cation exchange resin may be used as it is or after being pulverized and used finely. it can. The cation exchange resin is similarly configured to have an acidic functional group on the resin substrate, and can be used as the antiviral resin of the present invention.

Next, the manufacturing method of the decorative board of this invention is demonstrated.
First, a surface resin layer is formed on a substrate surface made of a plurality of or a single core paper and / or a magnesia cement incombustible base material. Since the said board | substrate, its manufacturing method, and the said surface layer resin layer were demonstrated in description of the decorative board of this invention, it abbreviate | omits here.

As described in the decorative board of the present invention, the method of forming the surface resin layer on the substrate surface is not particularly limited and can be performed by a general method. As a specific method for forming the surface resin layer, for example, a lamination step of laminating a resin-impregnated paper such as a melamine resin on one or both sides of a substrate made of a core paper laminate, and a resin-impregnated paper such as a melamine resin are laminated. And a method including a hot-pressure forming step of hot-pressing the formed substrate. If the said method is used, the melamine resin of a melamine resin impregnation paper will osmose | permeate core paper, a curing reaction will advance there, and the adhesive force of the melamine resin impregnation paper with respect to a core paper will express.

As a heating condition at the time of hot pressing, the temperature of the decorative board can be 125 to 150 ° C., and as a pressing condition, 1.96 to 9.80 MPa (20 to 100 kg / cm ² ). Can do. When the temperature is less than 125 ° C. or when the pressure is less than 1.96 MPa, the adhesion of the resin-impregnated paper to the substrate is insufficient, and peeling tends to occur. On the other hand, when the temperature exceeds 150 ° C. or when the pressure exceeds 9.80 MPa, cracks may occur.

When fixing the antiviral resin on the surface resin layer, the antiviral resin and the resin used as the surface resin layer are melamine resin, diallyl phthalate (DAP) resin, polyester resin, olefin resin, vinyl chloride. Resin, acrylic resin, epoxy resin, urethane resin, phenol resin, silicone resin, fluorine resin, guanamine resin, etc. are mixed with diluent, dispersant, solvent, etc. to prepare a paste-like mixture, and this mixture is brushed The anti-virus resin can be applied to the surface resin layer by means of spraying, etc., heated and dried, and the antiviral resin is fixed to the newly formed surface resin layer.

In order to expose the antiviral resin on the surface of the surface resin layer, the amount of the resin used as the surface resin layer or other resin layer is reduced as much as possible, the amount of the antiviral resin is increased, and the surface resin layer It is desirable to expose the antiviral resin on the surface of the resin layer or the new resin layer. However, if the amount of the resin or the like is too small, the layer containing the antiviral resin is easily peeled off from the surface of the surface resin layer, so care must be taken.
From these points, using a solution containing melamine resin, etc., adding antiviral resin to a solution containing melamine resin, etc., applying a solution prepared so that antiviral resin has a predetermined concentration with a dispersion medium, etc., drying Thus, a method of fixing the antiviral resin is desirable.

The antiviral resin is composed of an acidic functional group and a resin base. For example, a cation exchange resin can be used as it is or after being refined. The cation exchange resin is similarly configured to have an acidic functional group on the resin substrate, and can be used as the antiviral resin of the present invention. As the antiviral resin, for example, a styrene ion exchange resin, a phenol ion exchange resin, or the like can be used. As the styrene ion exchange resin, for example, SK series, UBK series, PK series and the like manufactured by Mitsubishi Chemical Corporation can be used. These ion exchange resins are appropriately pulverized for use.

Example 1
(Primary melamine impregnation process)
A roll paper having a thickness of 0.2 to 0.3 mm is immersed in the melamine resin solution. The roll paper is impregnated with the melamine resin by passing the roll paper while being immersed in the solution so that the temperature of the solution is 20 ° C. and the immersion time is 2 minutes. The moving speed of the roll paper is 10 to 20 cm / second.
(Drying process)
The roll paper that has passed through the melamine solution is dried by a dryer so that the temperature is 100 ° C. and the drying time is 30 seconds.

(Secondary melamine impregnation process)
The roll paper that has undergone the drying step is immersed in a solution made of melamine resin. The roll paper is impregnated with the melamine resin by passing the roll paper while being immersed in the solution so that the temperature of the solution is 20 ° C. and the immersion time is 30 minutes. The moving speed of the roll paper is 10 to 20 cm / second.

(Drying / cutting process)
The roll paper that has passed through the melamine solution is dried by a dryer so that the temperature is 100 ° C. and the drying time is 2 hours. After drying, cut into 910 mm × 1820 mm.

(Antivirus resin production process)
An antiviral resin can be obtained by pulverizing the styrene ion exchange resin. As the styrene ion exchange resin, a copolymer having a sulfonic acid group as a functional group and styrene and divinylbenzene as monomers as a resin base is used. The antiviral resin is pulverized so as to have an average particle diameter of 20 μm.

(Combination process)
Four phenol resin-impregnated core papers having a thickness of 0.3 to 0.4 mm are laminated and thermocompression bonded at a temperature of 143 ° C., a press pressure of 80 kg / cm ² , and a press time (including a temperature increase time) of 50 minutes. Thereby, the board | substrate which has a melamine resin impregnation layer on the surface can be obtained.

An antiviral resin obtained by pulverizing a styrene ion exchange resin is added to a solution containing a melamine resin and mixed well to prepare a mixed solution. Next, using a brush, the liquid mixture containing this melamine resin is applied to the surface of the substrate having the melamine resin-impregnated layer prepared in the above step and dried at 110 ° C. for 2 minutes to newly form a surface resin layer In addition, an antiviral resin can be contained and fixed in the surface resin layer.

10 decorative board 12 surface resin layer 13 antiviral resin

Claims (5)

A substrate,
A surface resin layer laminated on one or both sides of the substrate;
A decorative board comprising an antiviral resin comprising an acidic functional group fixed to the surface resin layer and a resin substrate. The decorative plate according to claim 1, wherein the antiviral resin is fixed to the surface resin layer, and a part of the antiviral resin is exposed from the surface resin layer. The decorative board according to claim 1 or 2, wherein the acidic functional group is at least one functional group selected from a sulfonic acid group, a phosphoric acid group, and a carboxyl group. The decorative board according to any one of claims 1 to 3, wherein the resin substrate is a polymer of a monomer having a vinyl group. The decorative board according to claim 4, wherein the monomer having a vinyl group is one or more monomers selected from styrene, methacrylic acid, methacrylic acid ester, divinylbenzene, and trivinylbenzene.

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