JP2018140641A - Method for manufacturing incombustible decorative plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an incombustible decorative plate which exhibits incombustibility and is capable of simplifying procedures without having curing, and to provide a method for manufacturing such incombustible decorative plate.SOLUTION: Provided is an incombustible decorative plate 1 having an adhesive layer 3 and a decorative sheet layer 4 laminated in order on one face of a fire-resistant base material 2. The fire-resistant base material is formed by laminating at least a radiation sheet layer 23 and a paper layer 24 in order on a volcanic vitreous multilayer plate 21. The adhesive layer is formed by desiccating an aqueous emulsion based adhesive composition containing an aqueous emulsion based resin and a crosslinking agent. The adhesive layer formed by desiccating the aqueous emulsion based adhesive composition is, in a heated state, laminated with the decorative sheet.SELECTED DRAWING: Figure 1

Description

  The present invention provides a non-combustible decorative board and non-combustible makeup that can be shortened by omitting the curing period until the next process after laminating a decorative sheet on a flame-retardant substrate. The present invention relates to a method for manufacturing a plate.

  Conventionally, decorative panels that have been combined with decorative materials and base materials using non-combustible base materials, gypsum boards, volcanic glassy multilayer boards, etc., are used for interiors such as building ceilings and wall materials. It is used for various applications such as exterior building materials and furniture. In particular, in order to receive non-combustible material certification, various fire-resistant decorative materials in which metal foil is laminated between such a base material and a decorative material such as a plastic film and a decorative veneer have been developed.

  As a method for bonding the decorative material base material and the decorative sheet, a so-called cold press laminating method in which a water-based emulsion adhesive is applied to the base material and the decorative sheet is overlaid and pressed thereon is applied. It is known that they are laminated by the above (for example, see Patent Document 1). In addition, a non-combustible decorative board in which a flame-retardant base material and a decorative sheet are laminated using an emulsion adhesive is also known (see, for example, Patent Document 2).

  Since these decorative boards use an aqueous emulsion adhesive, they are excellent in environmental load. However, in order to bond using an aqueous emulsion adhesive, it is necessary to dry the moisture in the adhesive and cure it until the next process can be processed. there were. Therefore, there is a problem that not only the lead time becomes long, but also a storage place for the intermediate product has to be secured.

As a method of attaching a decorative sheet that has improved these problems, an acrylic emulsion-type adhesive is applied to a substrate, and a decorative sheet is laminated on the substrate on which the adhesive has been applied via the adhesive, There has also been proposed a method in which a decorative sheet is attached to a substrate by pressing the substrate on which the decorative sheet is laminated in a heated state (see, for example, Patent Document 3).
The sticking method disclosed in Patent Document 3 shortens the curing period and shortens the lead time, but still requires a curing period of about one day. In recent years, while short delivery time and cost reduction are eagerly desired, a flame retardant decorative board and a sticking method at a sufficiently satisfactory level have not yet been found, and further development is desired.

JP 61-273949 A JP 2009-160908 A JP 2009-96165 A

  Therefore, the present invention has been made to solve the above problems, and the object is to have non-flammability, and after the decorative sheet is laminated on the flame retardant substrate, the curing period until the next process is increased. An object of the present invention is to provide a non-combustible decorative board and a method for producing a non-combustible decorative board that can be shortened by omitting the process.

As a result of intensive studies to achieve the above-mentioned problems, the present inventors have found a nonflammable decorative board in which an adhesive layer and a decorative sheet layer are sequentially laminated on one surface of a flame-retardant substrate. The adhesive layer is formed by drying an aqueous emulsion adhesive composition containing an aqueous emulsion resin and a cross-linking agent, and the adhesive layer formed by further drying is a decorative sheet in a heated state. It was found that the above-mentioned problems can be solved by laminating and the present invention was completed.
That is, the gist of the present invention is as follows.
The present invention according to claim 1 is a nonflammable decorative board in which an adhesive layer and a decorative sheet layer are sequentially laminated on one surface of a flame retardant substrate, wherein the flame retardant substrate is volcanic. At least a radiation sheet layer and a paper layer are sequentially laminated on a glassy multilayer board, and an adhesive layer is formed by drying an aqueous emulsion adhesive composition containing an aqueous emulsion resin and a crosslinking agent. A nonflammable decorative board, wherein the adhesive layer formed by drying the aqueous emulsion adhesive composition is laminated with the decorative sheet in a heated state.

  The present invention according to claim 2 is the non-combustible decorative board according to claim 1, wherein the residual moisture content of the adhesive layer formed by drying the aqueous emulsion adhesive composition is 30% by weight. And the water content is less than 10.0 g / m <2>.

  Further, the present invention according to claim 3 is the non-combustible decorative board according to claim 1 or 2, wherein the paper layer of the flame retardant substrate is impregnated with a sealer agent on a paper substrate. It is characterized by being paper.

  Moreover, the present invention according to claim 4 is the nonflammable decorative board according to any one of claims 1 to 3, further comprising a back surface layer on the other surface of the flame retardant substrate. It is a feature.

  Moreover, this invention of Claim 5 is a nonflammable decorative board in any one of Claims 1 thru | or 4. WHEREIN: A radiation sheet layer is formed with the aluminum foil, It is characterized by the above-mentioned. .

  Further, the present invention according to claim 6 is an aqueous emulsion resin on one surface of a flame retardant substrate in which at least a radiation sheet layer and a paper layer are sequentially laminated on a volcanic glassy multilayer board. And a non-flammable decorative board for attaching a decorative sheet via an adhesive layer formed of an aqueous emulsion adhesive composition containing a crosslinking agent, wherein the aqueous emulsion adhesion to the flame retardant substrate Applying the adhesive composition, drying the aqueous emulsion adhesive composition to form an adhesive layer, and heating the decorative sheet through the adhesive layer formed on the flame retardant substrate And a step of laminating simultaneously with pressurization.

  According to the present invention, the non-flammable decorative board and the non-flammable makeup that can shorten the lead time because the curing period until the next process can be omitted after the decorative sheet is laminated on the flame-retardant base material. A method for manufacturing a plate can be provided. In addition, the shortening of the process also has the effect of reducing the storage space for intermediate products. Furthermore, the use of the aqueous emulsion adhesive composition provides an excellent effect that the environmental load is low.

It is sectional drawing which shows 1st embodiment of the nonflammable decorative board which concerns on this invention. It is sectional drawing which shows other embodiment of the nonflammable decorative board which concerns on this invention. It is the schematic which shows an example of the manufacturing method of the nonflammable decorative board which concerns on this invention.

The above-described present invention will be described in detail below with reference to the drawings.
FIG. 1 is a cross-sectional view showing a first embodiment of a non-combustible decorative board according to the present invention, FIG. 2 is a cross-sectional view showing another embodiment of the non-combustible decorative board according to the present invention, and FIG. 3 is a non-combustible according to the present invention. It is the schematic which shows an example of the manufacturing method of a decorative decorative board, 1, 1 'in a figure is a nonflammable decorative board, 2 is a flame-retardant base material, 21 is a volcanic glassy multilayer board, 22 is a lower layer, 23 is a radiation sheet layer, 24 is a paper layer, 25 is a sealer layer, 3 is an adhesive layer, 31 is an aqueous emulsion adhesive composition, 4 is a decorative sheet layer, 41 is a decorative sheet winding, 5 is a back layer, 6 Is a coating section, 61 is a coating roll, 62 is a metering roll, 7 is a drying section, 71 is a drying furnace, 8 is a stacking section, 81 is a nip roll, and 9 is a transport roll.

FIG. 1 is a cross-sectional view showing a first embodiment of a nonflammable decorative board according to the present invention. The nonflammable decorative board 1 of the present invention has an adhesive layer 3 on one surface of a flame retardant substrate 2. And the decorative sheet layer 4 are sequentially laminated. The flame retardant substrate 2 is obtained by laminating a lower layer 22 made of paper, a radiation sheet layer 23, a paper layer 24, and a sealer layer 25 in this order on a volcanic glassy multilayer board 21.
In addition, the flame-retardant base material 2 should just laminate | stack the radiation sheet layer 23 and the paper layer 24 in order on the volcanic glassy multilayer board 21, but the volcanic glassy multilayer board 21 is sufficient. Therefore, it is preferable to provide a lower layer 22 made of paper quality. 1 shows the sealer layer 25, the paper layer 24 may be impregnated with a sealer agent that forms the sealer layer 25, and the paper layer 24 may be a resin-impregnated paper impregnated with the sealer agent. In this case, although not shown, the sealer layer 25 disappears in FIG. 1 and is combined with the paper layer 24.

[Curing period]
Conventionally, when laminating a flame-retardant substrate and a decorative sheet layer via an adhesive layer made of an aqueous emulsion adhesive composition, moisture in the non-flammable decorative board is evaporated by evaporating water in the aqueous emulsion adhesive composition. A curing period was required until the rate was constant. In addition, there is a problem that when the next process is performed without taking a sufficient curing period because the initial adhesive strength is insufficient, there is a problem that a part of the decorative sheet is rolled up at the end of the non-combustible decorative board, and the curing period is It was difficult to omit. In recent years, short delivery times and cost reductions are eagerly desired, and the shortening of the curing period etc. has been reviewed to reduce the lead time. In the present invention, the curing period refers to a period until processing of the next process is possible without causing a problem such as a part of the decorative sheet being rolled up and peeled off in the next process.

〔Non Flammable〕
In the noncombustible decorative board of the present invention, “noncombustible” is based on the provisions of ISO5660-1 and conforms to the provisions of noncombustible materials.

Below, each layer which comprises the nonflammable decorative board 1 of this invention is demonstrated.
[Flame retardant substrate 2]
The flame retardant substrate 2 is a flame retardant substrate in which at least a radiation sheet layer 23 and a paper layer 24 are sequentially laminated on a volcanic glassy multilayer board 21. Moreover, the lower layer 22 is laminated | stacked as needed. The flame retardant substrate 2 is composed of the following layers. For example, commercially available “Dailite FAL (trade name)” manufactured by Daiken Kogyo Co., Ltd., “Dailite FTL (trade name)”: manufactured by Daiken Kogyo Co., Ltd. can be exemplified.

(Volcanic glassy multilayer board 21)
The volcanic vitreous multilayer board 21 is not particularly limited as long as it complies with JIS A5440 (“incombustible volcanic vitreous multilayer board”). Product name) ”: manufactured by Daiken Kogyo Co., Ltd.,“ Omal (product name) ”: manufactured by Iwakura Chemical Industry Co., Ltd., and the like.

(Radiation sheet layer 23)
The radiation sheet layer 23 is a layer provided for the purpose of preventing warpage and enhancing dimensional stability by imparting non-combustibility and appropriate strength to the non-combustible decorative board 1 of the present invention. . As a radiation sheet used for formation of the radiation sheet layer 23, a metal foil, a graphite sheet, etc. are mentioned preferably, for example. Examples of the metal foil include an aluminum foil, a copper foil, a silver foil, an iron foil, a stainless steel foil, and the like. Among these, from the viewpoint of being easy to process and resistant to corrosion, an aluminum foil, a copper foil, and Stainless steel foil is preferred, and aluminum foil is more preferred.

  As such a radiation sheet, using a Fourier transform infrared spectrophotometer, a value calculated from measured values of the total radiant energy of an ideal black body and a sample at a measurement temperature of 25 ° C. and a measurement wavelength region of 2.5 to 14 μm. When expressed using the emissivity indicated by, the emissivity is preferably 60% or more, and more preferably 70% or more from the viewpoint of imparting incombustibility.

(Paper quality layer 24)
The paper layer 24 absorbs irregularities on the surface of the volcanic glassy multilayer board 21, prevents the decorative sheet layer 4 from floating, improves the adhesion to the decorative sheet layer 4, and has a glossy radiation sheet. Is used, the layer is provided in order to conceal the gloss. Therefore, the paper layer 24 is laminated above the radiation sheet layer 23 when viewed from the decorative sheet layer 4 side of the non-combustible decorative board 1. Further, the paper layer 24 is preferably a resin-impregnated paper in which a paper base material is impregnated with a sealer agent or the like. By using resin-impregnated paper, it is possible to reinforce the interlaminar strength between the fibers of the paper base material or between the layers adjacent to the paper base material and to prevent paper flaking and to smooth the surface of the flame retardant base material 2 In addition, a so-called sealing effect that a uniform coated surface is obtained is also obtained.

  For the paper layer 24, a normal paper base material can be used. As the paper substrate, thin paper, kraft paper, titanium paper or the like can be used.

(Sealer layer 25)
The sealer layer 25 is provided on the paper layer 24 and is provided to provide a sealing effect for preventing the adhesive layer 3 from being impregnated with the adhesive and to strengthen the interlayer strength of the paper base material of the paper layer 24.
The sealer agent for the sealer layer 25 is not particularly limited as long as it can enhance the interlayer strength of the paper substrate and provide a sealing effect. For example, a polyester polyol resin, an acrylic urethane-based resin composed of acrylic polyol and isocyanate, urethane Organic sealers composed of one or more resins selected from resins such as epoxy resins, acrylic resins, polyvinyl butyral, epoxy resins, aminoalkyd resins, silicon oxide, aluminum oxide, zirconium oxide, kaolinite, and One or more inorganic materials selected from the group consisting of titanium dioxide, and resins such as epoxy resins, phenol resins, melamine resins, polyvinyl butyral, acrylic urethane resins, aminoalkyd resins, polyester polyol resins, etc. Materials and water / Or inorganic sealer comprising a composition containing a hydrophilic organic solvent, and mixtures thereof, or aqueous resin composition can be mentioned, water-based resin composition.

As the aqueous resin composition, an aqueous resin composition containing an isocyanate resin, an epoxy resin, a urethane resin, an acrylic resin, an ethylene-vinyl acetate copolymer resin (EVA), or the like can be used. Of these, ethylene-vinyl acetate copolymer resin (EVA), urethane resin, and self-emulsifying polyisocyanate resin are preferable.
When using a self-emulsifying type polyisocyanate resin, the self-emulsifying type polyisocyanate resin is mixed with water-soluble resin such as acrylic resin, epoxy resin, ethylene-vinyl acetate copolymer resin, or water. And preferably used. Sealers are in the form of emulsion systems or solubilization systems.

  The resin solid content of the aqueous resin composition in the sealer is preferably 20 to 60% by mass and more preferably 25 to 50% by mass from the viewpoints of water dispersibility, film-forming property and workability. preferable. When the resin solid content is 20% by mass or more, the cured film-forming property and the paper impregnation property are good, and when it is 60% by mass or less, the water dispersibility and the paper impregnation property are lowered. This is preferable.

In this invention, it is preferable that the application quantity of a sealer agent is 0.5-25 g / m < ² > (solid substance conversion). If the coating amount of the sealer is 0.5 g / m ² or more, it is possible to enhance the interlaminar strength between the fibers of the paper base material of the paper layer 24 or the layer adjacent to the paper base material, and to prevent the paper from coming off. At the same time, a sealing effect for preventing the adhesive layer 3 from penetrating into the paper layer 24 is preferably obtained. Moreover, if it is 25 g / m < ² > or less, it is preferable also in terms of economy and nonflammability. Further, by providing a sealer layer, it is possible to prevent the adhesive layer 3 from being impregnated with the adhesive, so that the amount of adhesive applied can be reduced, the drying time can be shortened, and the flame retardant substrate 2 and the decorative sheet layer 4 It is preferable because the speed of the laminating process can be easily increased.

  FIG. 1 shows an example in which the sealer layer 25 is formed on the paper quality layer 24. However, the paper quality layer 24 is impregnated with the sealer agent that forms the sealer layer 25, and the paper quality layer 24 is impregnated with the sealer agent. Paper is preferable because the interlayer strength of the paper substrate of the paper quality layer 24 is improved. In this case, although not shown, the sealer layer 25 disappears in FIG. 1 and is combined with the paper layer 24.

(Lower layer 22)
The lower layer 22 is provided between the volcanic glassy multilayer board 21 and the radiation sheet layer 23. For the lower layer 22, the same paper base material as that for the paper layer 24 is used.
In addition, the flame-retardant base material 2 should just laminate | stack the radiation sheet layer 23 and the paper layer 24 in order on the volcanic glassy multilayer board 21, but the volcanic glassy multilayer board 21 is sufficient. Therefore, it is preferable to provide the lower layer 22 made of a paper base material.

[Adhesive layer 3]
The adhesive layer 3 is provided for bonding the resin-impregnated paper impregnated with the sealer to the sealer layer 25 of the flame-retardant substrate 2 or the paper layer 24 of the flame-retardant substrate 2 and the decorative sheet layer 4. The layer is formed by drying an aqueous emulsion adhesive composition containing an aqueous emulsion resin and a crosslinking agent. Since the aqueous emulsion adhesive composition does not use an organic solvent, it has a low load on environmental pollution. Examples of the aqueous emulsion resin in the aqueous emulsion adhesive composition include vinyl acetate resins such as ethylene-vinyl acetate, acrylic resins, urethane resins, polyester resins, and epoxy resins. The known emulsion used is appropriately selected depending on the application. The crosslinking agent improves the adhesive strength between the flame retardant substrate 2 and the decorative sheet layer 4 and is preferably contained. As the crosslinking agent, for example, those having an isocyanate group in the molecule and capable of giving a crosslinked structure by a chemical reaction are preferably used, and the aqueous emulsion adhesive composition is preferably a so-called two-component curable type.

The adhesive layer 3 can be formed by applying and drying the aqueous emulsion adhesive composition by a known method such as gravure coating, bar coating, spray coating, roll coating, reverse roll coating, or comma coating. The coating amount of the aqueous emulsion adhesive composition is preferably 2 to 30 g / m ² (solid basis), 5 to 20 g / m ² (solid basis) is more preferable. The residual moisture content of the adhesive layer 3 formed by drying the aqueous emulsion adhesive composition is preferably less than 30% by weight and less than 10.0 g / m ² . If the residual moisture content is 30% by weight or more, or the moisture content is 10.0 g / m ² or more, sufficient initial adhesive force is hardly obtained, and a curing period may be required until the next process is performed.

Moreover, it is preferable to mix | blend a thickener with the water-based emulsion adhesive composition which forms the adhesive bond layer 3. FIG. By adding a thickener to the aqueous emulsion adhesive composition, thixotropy can be obtained, application suitability can be improved, and a low coating amount can be achieved. As will be described later by reducing the coating amount, the residual moisture content of the adhesive layer 3 can be less than 30% by weight and the moisture content of the adhesive layer 3 can be less than 10.0 g / m @ 2 with a short drying time. The production speed of the plate can be increased. Furthermore, by realizing low coating amount, aluminum hydroxide has been blended in the aqueous emulsion adhesive composition in the past in order to impart good nonflammability to the nonflammable decorative board. This makes it possible to reduce the cost. As the thickener, a water-soluble resin that is usually used as a thickener can be used. Among them, acrylic thickeners, cellulose derivatives, polyethers, urethane-modified polyethers, etc. Thickeners are preferred.
The blending amount may be blended so as to obtain a suitable viscosity according to the coating method, but is about 0.001 to 5.0% by weight with respect to the entire aqueous emulsion adhesive composition. . If the amount is too large, the viscosity becomes high and it becomes difficult to reduce the coating amount.

[Decorative sheet layer 4]
The decorative sheet layer 4 is provided in order to impart designability to the incombustible decorative board 1 of the present invention. As a decorative sheet used for the decorative sheet layer 4, a resin sheet or the like usually used for a decorative plate can be used without limitation. As a resin forming the resin sheet, for example, polyethylene terephthalate ( PET) and other polyester resins; polyethylene, polypropylene, polybutene, ethylene-propylene copolymer resins, ethylene-propylene-butene copolymer resins, polyolefin resins such as olefin-based thermoplastic elastomers; acrylic-modified urethane resins, polyesters Modified polyurethane resins, polyurethane resins such as vinyl chloride-vinyl acetate copolymer modified urethane resins; acrylic resins; polycarbonate resins; polystyrene resins; vinyl chloride resins, vinyl acetate resins, and vinyl chloride-acetic acids Vinyl copolymerization Can be mentioned resins may be used singly or in combination of two or more of these.

  Moreover, as a decorative sheet, it can also be used as a doubling sheet | seat obtained by pinching | interposing a pattern between the colored resin sheet which consists of said resin, and a transparent resin sheet. In this case, the resin used for the colored resin sheet and the transparent resin sheet may be the same or different, and a polyolefin-based resin can be preferably used. As a combination of resins, polyethylene-polyethylene, polyethylene-polypropylene, or polypropylene -A combination of polypropylene is preferred. For example, the doubling sheet is provided with a primer layer by performing corona discharge treatment on the surface of the resin sheet A made of the resin, and after the solid layer and / or the pattern layer are printed on the resin sheet A, the resin made of the resin The sheet B is obtained by pressure bonding by a lamination method such as extrusion lamination, dry lamination, wet lamination, thermal lamination, or the like.

  Moreover, it is preferable to form a surface protective layer (not shown) made of an ionizing radiation curable resin on the surface of the resin sheet B. By making the decorative sheet provided with a surface protective layer made of ionizing radiation curable resin, as shown in FIG. In the case of lamination, since the single-piece flame-retardant substrate 2 is supplied with a small interval, the interval portion becomes a step, and only the decorative sheet layer 4 in the step, so when the nip roll 81 is crimped, Although the decorative sheet layer 4 is stretched, by providing the surface protective layer, the stretching can be eased, so that the operation of the next process becomes easy. Known ionizing radiation curable resins can be used. In addition, from the viewpoint of design properties, the decorative sheet layer 4 can also be embossed on the surface.

FIG. 2 is a cross-sectional view showing another embodiment of the nonflammable decorative board according to the present invention. The nonflammable decorative board 1 ′ of the present invention has an adhesive layer on one surface of the flame retardant substrate 2. 3 and the decorative sheet layer 4 are laminated in order, and the back surface layer 5 is laminated on the other surface of the flame-retardant substrate 2. Others are the same as those of the first embodiment, and the same reference numerals are given and description thereof is omitted.
As shown in FIG. 2, the back surface layer 5 is a layer provided on the other surface of the flame retardant substrate 2 as necessary via a back surface adhesive layer (not shown). As the back surface layer 5, a paper sheet, a resin sheet, a sheet obtained by laminating these sheets, and the like used for a normal decorative board can be applied. In particular, a moisture-proof sheet with moisture-proof property applied to the sheet is preferable. By applying the moisture-proof sheet to the back surface layer 5, foreign matter (volcanic property of the flame-retardant base material) can be used in post-processing work, transportation work or on-site construction work. The generation of white powder or the like due to the glassy multilayer board can be prevented, and the occurrence of warpage of the nonflammable decorative board 1 ′ can be reduced.

[Back layer 5]
As a moisture-proof sheet used for the back layer 5, for example, two paper layers are passed through a high density polyethylene resin (hereinafter referred to as HDPE) or a polypropylene resin (hereinafter referred to as PP) having a density of 0.941 g / cm ³ or more. Preferably, a sandwich layered paper layer / HDPE / paper layer and paper layer / PP / paper layer three-layer structure by the extrusion method is preferred. As the paper layer, printing paper for building materials with a basis weight of 20-50 g / m ² , pure white paper impregnated with latex or synthetic resin, or thin paper (so-called inter-paper spacing) in which synthetic resin is mixed to enhance interlayer strength Reinforced paper) and the like are preferably used. If the basis weight is 20 to 50 g / m ² , it is not too flexible, so that wrinkles are unlikely to occur during the laminating process, and peeling from the paper layer and moisture do not easily permeate.

  The moisture-proof sheet has a moisture permeability of 30 g / m 2 · 24 hr or less, preferably a moisture permeability of 15 g / m 2 · hr or less. Therefore, the thickness of HDPE or PP is about 15 to 30 μm. preferable. Of course, low-density polyethylene resin (hereinafter referred to as LDPE) can be used instead of HDPE or PP, but it is necessary to increase the thickness in order to obtain the same degree of moisture resistance. Further, in order to improve moisture resistance, a moisture-proof sheet may be provided with a synthetic resin base material having a vapor deposition layer in which a metal such as aluminum or an inorganic material such as silicon oxide or aluminum oxide is deposited. The vapor deposition layer can be formed on the synthetic resin substrate by a known vapor deposition method. In this case, ester resin, urethane resin, acrylic resin, polycarbonate resin, vinyl chloride-vinyl acetate copolymer, polyvinyl butyral system for the purpose of improving the adhesion between the moisture-proof sheet and the flame retardant substrate 2 It is preferable to provide the adhesion primer layer using a resin or a mixture of two or more nitrocellulose resins.

〔Production method〕
An example of the method for producing a nonflammable decorative board of the present invention will be described with reference to FIG.
As shown in FIG. 3, the nonflammable decorative board 1 of the present invention includes a step of applying an aqueous emulsion adhesive composition 31 to the flame retardant substrate 2 in the application unit 6, and a flame retardant group in the drying unit 7. The step of drying the aqueous emulsion adhesive composition 31 applied to the material 2 to form the adhesive layer 3 and the makeup via the adhesive layer 3 formed on the flame retardant substrate 2 in the laminated part 8 A step of heating and pressing the sheet layer 4 and laminating at the same time. Since these steps are performed in-line, the temperature drop of the adhesive layer 3 heated in the drying furnace 71 of the drying unit 7 can be suppressed, and the decorative sheet layer 4 and the heat-pressing are performed in the laminated unit 8 while being heated. Therefore, an excellent initial adhesive force can be obtained, and the curing period can be omitted.

First, in the application part 6, the aqueous | water-based emulsion adhesive composition 31 is 2-30 g / m < ² > (solid) on the flame-retardant base material 2 while sending the flame-retardant base material 2 supplied with the sheet | seat with the conveyance roll 9. FIG. It is applied by a roll coat method at a coating amount of about a minute equivalent). The applicator 6 is a top feed system in which an applicator roll 61 and a metering roll 62 are brought close to each other, and the aqueous emulsion adhesive composition 31 is supplied from above between the rolls. The coating roll 61 rotates in the forward direction (indicated by the arrow in FIG. 3) and the forward direction, that is, the counterclockwise direction in FIG. 3, and the metering roll 62 similarly counterclockwise. It is rotating. The setting of the coating amount is performed by setting a gap between the coating roll 61 and the metering roll 62 that are brought close to each other and setting the rotation speed of the roll. Of course, it goes without saying that the coating amount is greatly influenced by factors such as the concentration and viscosity of the aqueous emulsion adhesive composition. By configuring the coating unit 6 as described above, in the vicinity of the coating roll 61 and the metering roll 62, a force for pulling the aqueous emulsion adhesive composition 31 in the opposite direction is applied to make the surface uniform and stable. Application becomes possible.

  The application unit 6 further includes another application unit in which the application roll 61 and the metering roll 62 are brought close to each other in the downstream direction of the flame retardant substrate 2, and the aqueous emulsion adhesive composition 31 can be applied twice. It has a configuration. The number of application portions may be one, but if there are two application portions, the uniformity of the coating film can be obtained, and a low application amount can be easily obtained. The coating method is not limited to roll coating, and gravure coating, bar coating, spray coating, reverse roll coating, comma coating, and the like can also be used.

The flame retardant substrate 2 to which the aqueous emulsion adhesive composition 31 is applied is conveyed in the direction of the arrow by the conveying roll 9 and fed into the drying unit 7, and the flame retardant substrate 2 is conveyed to the conveying roll 9 in the drying furnace 71. The adhesive layer 3 is formed on the flame retardant substrate 2 by being dried while being conveyed. The drying furnace 71 is, for example, a hot air blowing system heated by a heat source such as gas, steam, or far infrared rays. The furnace temperature can usually be set at 80 ° C. to 300 ° C., and is appropriately set in consideration of conditions such as the solid content concentration of the aqueous emulsion adhesive composition, the coating amount, and the speed at which the flame retardant substrate is conveyed. However, in the present invention, the residual moisture content of the adhesive layer 3 formed by drying in the drying unit 7 is less than 30% by weight and the moisture content is less than 10.0 g / m ^2. Thus, it is preferable to control the drying conditions.

Thereafter, the sheet is sent to the stacking unit 8 by the transport roll 9. In the stacking unit 8, the decorative sheet winding 41 mounted on the supply unit is continuously fed to the stacking unit 8 by a transport roll and a guide roll (not shown) while being rewound, and is supplied while being transported by the transport roll 9. The adhesive layer 3 formed on the flame retardant substrate 2 is laminated while being heated and pressed by the nip roll 81. As heating temperature, it is 40 to 200 degreeC normally. In this way, the adhesive layer 3 has a residual moisture content of less than 30% by weight and a moisture content of less than 10.0 g / m ² , and is heated so that tack can be obtained in the adhesive layer 3. By laminating at the same time as pressing, an excellent initial adhesive force can be obtained, and the curing period can be omitted.
Accordingly, for example, the next process such as cutting and cutting to a specified dimension, assembling of fittings, furniture, storage, and the like can be performed, so that the lead time can be shortened.

  Moreover, although the flame-retardant base material 2 is supplied continuously, since it is a sheet, the space | interval within about 100 mm generate | occur | produces before and behind the flame-retardant base material 2. FIG. The non-combustible decorative board 1 conveyed from the laminated portion 8 is connected by a decorative sheet (decorative sheet layer 4), and the decorative sheet is cut within the space before and after the flame-retardant substrate 2, and the non-combustible sheet The decorative board 1 is manufactured. Note that, in the laminated portion 8, the interval becomes a step, and only the decorative sheet layer 4 is formed at the step, and therefore, the decorative sheet layer 4 is stretched when being pressed by the nip roll 81, and the cutting work may be inferior. In this case, by forming a surface protective layer (not shown) made of an ionizing radiation curable resin on the surface of the decorative sheet layer 4, stretching of the decorative sheet layer 4 is eased, so that the cutting operation is facilitated.

  The obtained incombustible decorative board can be used for interior and exterior building materials such as ceilings and wall materials of buildings, doors, furniture and the like. In particular, by using the non-combustibility of the non-combustible decorative panel of the present invention, it is suitably used for building materials around kitchens such as sinks, gas stoves, hoods, and other buildings where non-combustibility is required under the Building Standards Act. be able to.

  EXAMPLES Next, the present invention will be described in more detail with reference to examples. However, the present invention is not limited to these examples, and all the categories not departing from the gist of the present invention are included in the present invention. is there.

(Evaluation method)
About the nonflammable decorative board obtained by each Example and the comparative example, it evaluated by the following method.
(1) Evaluation of total calorific value About the incombustible decorative board manufactured in each example and comparative example, the total calorific value (MJ / 20) after the start of heating using a cone calorimeter tester based on ISO5660-1. m ² ) was obtained. If the total calorific value is 8 MJ / m ² or less, it is acceptable.
(2) Evaluation of maximum exothermic rate About the nonflammable decorative board manufactured in each Example and Comparative Example, using a cone calorimeter tester based on ISO5660-1, as the maximum exothermic rate for 20 minutes after the start of heating, 200 kW Time over / m ² was determined in seconds. If it does not exceed 200 kW / m ² for 10 seconds or more, it is acceptable.
(3) Evaluation of base material cracks For the decorative plates produced in each Example and Comparative Example, using a cone calorimeter tester based on ISO5660-1, the base material after completion of the test for 20 minutes after the start of heating. The presence or absence of cracks or holes was confirmed and evaluated according to the following criteria.
○ There were no cracks or holes penetrating to the back side. Pass.
X There were many cracks and holes penetrating to the back surface. Fail.
(4) Comprehensive incombustibility evaluation In the evaluation of the total calorific value, the evaluation of the maximum heat generation rate, and the evaluation of cracks in the base material, ○ which passed in any evaluation, even one in any evaluation does not meet the acceptance criteria The total incombustibility evaluation was performed with x as the mark.
(5) Measurement of peeling strength Using a Tensilon tensile tester (made by Orientec), it is difficult to make a decorative sheet at a tensile speed of 200 mm / min and a peel angle of 180 ° for the non-combustible decorative boards produced in each of the examples and comparative examples. The peel strength at the time of peeling off the flammable substrate was measured and defined as the peeling strength.
(6) Measurement of residual moisture content and water content of adhesive layer Using a constant temperature and humidity chamber with two samples having the same area as the flame retardant substrate and the flame retardant substrate coated with an aqueous emulsion, After drying each sample under each drying condition, its weight was measured, and the weight difference was defined as the adhesive layer weight. Further, for each sample, the total dry mass (total dry weight) of the adhesive layer was measured according to the JAS plywood standard, and the residual moisture content and the moisture content were calculated by the following equations.
W1: Weight of adhesive layer after drying under each drying condition W2: Total dry weight of adhesive layer Water content of adhesive layer (g / m ² ) = W1-W2
Residual moisture content of adhesive layer (%) = [(W1-W2) / W1] × 100

[Example 1]
Reinforced paper with a basis weight of 23 g / m ² (“FIX-30 (trade name)” manufactured by Sanko Paper Co., Ltd.), aluminum foil with a thickness of 20 μm, and a reinforced paper with a basis weight of 23 g / m ² ( “FIX-30 (trade name)” (manufactured by Sanko Paper Co., Ltd.) was laminated by a dry lamination method via a two-component curable urethane adhesive to produce an intermediate of a flame retardant substrate. The application amount of the two-component curable urethane adhesive was 4 g / m ² (solid content basis, organic content 4 g / m ² ).
Next, on one side of a 3 mm thick volcanic glassy multilayer board (trade name: DAILIGHT, manufactured by Daiken Kogyo Co., Ltd.), a two-component curable urethane adhesive is 40 g / m ² (based on solid content). , on coated at a coverage of the organic content 35 g / m ^2), wherein together by bonding one sheet interval reinforced paper of intermediate to produce a flame-retardant substrate, other volcanic vitreous multilayered plate Separately prepared paper with a basis weight of 23 g / m ² (“FIX-30 (trade name)” manufactured by Sanko Paper Co., Ltd.) and paper with a basis weight of 23 g / m ² (“ FIX-30 (trade name): manufactured by Sanko Paper Co., Ltd.) and a moisture-proof sheet as a back layer obtained by sandwich lamination by an extrusion method using a polypropylene resin having a thickness of 25 μm, applied amount 40 g / m ² (solid) Layered) via a two-component curable urethane adhesive

A water-soluble acrylic resin (“SA-95 (trade name)”: Chuo Rika Kogyo Co., Ltd.) is formed on the other inter-paper reinforced paper of the intermediate of the flame retardant base material obtained by laminating the obtained moisture-proof sheet on the back surface. Manufactured, Tg: 30 ° C.) and a curing agent (“EX-8 (trade name)”: Chuo Rika Kogyo Co., Ltd., epoxy resin) are blended at a ratio of 100: 10 (mass ratio), and water is added to 55 mass. The sealer obtained by diluting part was applied by spray coating at a coating amount of 3.5 g / m ² (solid content basis, organic content: 3.5 g / m ² ). Drying was performed at 100 ° C. for 30 seconds while impregnating the inter-paper reinforced paper. The sealer had a viscosity of 10 mPas (20 ° C.).

A water-based emulsion type urethane resin / vinyl copolymer resin resin adhesive (“CVC (trade name)”) is used as the main agent on the other inter-paper reinforced paper coated with the intermediate sealer of the flame retardant substrate. : Manufactured by Konishi Co., Ltd., adhesive composition: urethane resin / vinyl copolymer resin resin 35% by mass / water 65% by mass), polyisocyanate compound (100% by mass) and aluminum hydroxide in the crosslinker 100: 5: The aqueous emulsion adhesive composition blended at 15 (mass ratio) was applied at a coating amount of 30 g / m ² (wet) and dried with hot air in a drying oven at a temperature of 180 ° C. for 15 seconds to form an adhesive layer (organic content: 10 g / m ² ), and a polyolefin having a surface protective layer made of an ionizing radiation curable resin on the surface of 120 μm thick prepared separately and heated in a hot air and heated. Tin-based decorative sheet (basis weight: 135 g / m ² , organic content: 110 g / m ² , “WS series (trade name)” manufactured by Dai Nippon Printing Co., Ltd.), and heated to 90 ° C. of the laminated part A non-combustible decorative board was obtained by applying heat and pressure from the polyolefin-based decorative sheet surface with a nip roll so that the surface protective layer was exposed. The evaluation results of the obtained noncombustible decorative board are shown in Table 1.
In addition, the organic content on the aluminum foil of the obtained noncombustible decorative board was 181.5 (35 + 23 + 3.5 + 10 + 110) g / m ² .

[Example 2]
A nonflammable decorative board was produced in the same manner as in Example 1 except that the coating amount of the aqueous emulsion adhesive composition was changed to 20 g / m ² (wet). The evaluation results of the obtained noncombustible decorative board are shown in Table 1. In addition, the organic content of the obtained adhesive layer was 7 g / m ² .

[Comparative Example 1]
In Comparative Example 1 and Example 1, the coating amount of the aqueous emulsion adhesive composition was 91 g / m ² (wet), and the drying temperature of the aqueous emulsion adhesive composition was at room temperature (20 ° C.). Otherwise, a nonflammable decorative board was produced in the same manner as in Example 1. The evaluation results of the obtained noncombustible decorative board are shown in Table 1. In addition, the organic content of the obtained adhesive layer was 30 g / m ² .

[Comparative Example 2]
In Comparative Example 2 and Example 1, a nonflammable decorative board was prepared in the same manner as in Example 1 except that the coating amount of the aqueous emulsion adhesive composition was 91 g / m @ 2 (wet). The evaluation results of the obtained noncombustible decorative board are shown in Table 1.

  About the incombustible decorative board obtained in Examples 1 and 2 and Comparative Examples 1 and 2, as a next process after 1 hour, cutting of a product size (cutting with a panel saw) was performed to produce a joinery. The non-combustible decorative plates 1 and 2 were able to work without any problems, and the curing process could be omitted. It was difficult for the non-combustible decorative boards of Comparative Examples 1 and 2 to continue working because part of the decorative sheet was wrinkled at the end of the non-combustible decorative board during the next process.

DESCRIPTION OF SYMBOLS 1, 1 'Nonflammable decorative board 2 Flame retardant base material 21 Volcanic glassy multilayer board 22 Lower layer 23 Radiation sheet layer 24 Paper quality layer 25 Sealer layer 3 Adhesive layer 31 Aqueous emulsion adhesive composition 4 Cosmetic sheet layer 41 Cosmetic sheet winding 5 Back layer 6 Application unit 61 Application roll 62 Measuring roll 7 Drying unit 71 Drying unit 8 Laminating unit 81 Nip roll 9 Transport roll

The present invention has a non-flammable, and after laminating the decorative sheet to the flame-retardant substrate manufacturing method of shortening capable not retardancy veneer step by omitting the curing period until the next step About.

  Conventionally, decorative panels that have been combined with decorative materials and base materials using non-combustible base materials, gypsum boards, volcanic glassy multilayer boards, etc., are used for interiors such as building ceilings and wall materials. It is used for various applications such as exterior building materials and furniture. In particular, in order to receive non-combustible material certification, various fire-resistant decorative materials in which metal foil is laminated between such a base material and a decorative material such as a plastic film and a decorative veneer have been developed.

  As a method for bonding the decorative material base material and the decorative sheet, a so-called cold press laminating method in which a water-based emulsion adhesive is applied to the base material and the decorative sheet is overlaid and pressed thereon is applied. It is known that they are laminated by the above (for example, see Patent Document 1). In addition, a non-combustible decorative board in which a flame-retardant base material and a decorative sheet are laminated using an emulsion adhesive is also known (see, for example, Patent Document 2).

  Since these decorative boards use an aqueous emulsion adhesive, they are excellent in environmental load. However, in order to bond using an aqueous emulsion adhesive, it is necessary to dry the moisture in the adhesive and cure it until the next process can be processed. there were. Therefore, there is a problem that not only the lead time becomes long, but also a storage place for the intermediate product has to be secured.

As a method of attaching a decorative sheet that has improved these problems, an acrylic emulsion-type adhesive is applied to a substrate, and a decorative sheet is laminated on the substrate on which the adhesive has been applied via the adhesive, There has also been proposed a method in which a decorative sheet is attached to a substrate by pressing the substrate on which the decorative sheet is laminated in a heated state (see, for example, Patent Document 3).
The sticking method disclosed in Patent Document 3 shortens the curing period and shortens the lead time, but still requires a curing period of about one day. In recent years, while short delivery time and cost reduction are eagerly desired, a flame retardant decorative board and a sticking method at a sufficiently satisfactory level have not yet been found, and further development is desired.

JP 61-273949 A JP 2009-160908 A JP 2009-96165 A

Therefore, the present invention has been made to solve the above problems, and the object is to have non-flammability, and after the decorative sheet is laminated on the flame retardant substrate, the curing period until the next process is increased. and to provide a manufacturing method of shortening that can not retardancy veneer step by omitting.

As a result of intensive studies to achieve the above-mentioned problems, the present inventors have found a nonflammable decorative board in which an adhesive layer and a decorative sheet layer are sequentially laminated on one surface of a flame-retardant substrate. The adhesive layer is formed by drying an aqueous emulsion adhesive composition containing an aqueous emulsion resin and a cross-linking agent, and the adhesive layer formed by further drying is a decorative sheet in a heated state. It was found that the above-mentioned problems can be solved by laminating and the present invention was completed.
That is, the gist of the present invention is as follows.
The present invention according to claim 1 is a cross-linked aqueous emulsion resin on one surface of a flame retardant substrate in which at least a radiation sheet layer and a paper layer are laminated in order on a volcanic glassy multilayer board. A method for producing a non-combustible decorative board in which a decorative sheet is attached via an adhesive layer formed of an aqueous emulsion adhesive composition containing an agent , wherein the aqueous emulsion adhesive composition is applied to the flame retardant substrate. Applying the product, drying the aqueous emulsion adhesive composition to form an adhesive layer, and heating and pressing the decorative sheet through the adhesive layer formed on the flame-retardant substrate And a step of laminating at the same time, and the residual moisture content of the adhesive layer formed by drying the aqueous emulsion adhesive composition is less than 30% by weight, and the water content is 10.0 g / m ^2. characterized in that it is less than A method of manufacturing incombustible decorative plate for.

The present invention according to claim 2 is the method for producing a non-combustible decorative board according to claim 1, wherein the decorative sheet is a resin sheet .

According to a third aspect of the present invention, in the method for manufacturing a nonflammable decorative board according to the first or second aspect, a surface protective layer made of an ionizing radiation curable resin is formed on the surface of the decorative sheet. it is characterized in that there.

According to the present invention, has a non-flammable, and after laminating the decorative sheet to the flame-retardant substrate, production of non-resistant decorative laminate that can shorten the lead time can be omitted the curing period until the next step A method can be provided. In addition, the shortening of the process also has the effect of reducing the storage space for intermediate products. Furthermore, the use of the aqueous emulsion adhesive composition provides an excellent effect that the environmental load is low.

It is sectional drawing which shows 1st embodiment of the nonflammable decorative board which concerns on this invention. It is sectional drawing which shows other embodiment of the nonflammable decorative board which concerns on this invention. It is the schematic which shows an example of the manufacturing method of the nonflammable decorative board which concerns on this invention.

The above-described present invention will be described in detail below with reference to the drawings.
FIG. 1 is a cross-sectional view showing a first embodiment of a non-combustible decorative board according to the present invention, FIG. 2 is a cross-sectional view showing another embodiment of the non-combustible decorative board according to the present invention, and FIG. 3 is a non-combustible according to the present invention. It is the schematic which shows an example of the manufacturing method of a decorative decorative board, 1, 1 'in a figure is a nonflammable decorative board, 2 is a flame-retardant base material, 21 is a volcanic glassy multilayer board, 22 is a lower layer, 23 is a radiation sheet layer, 24 is a paper layer, 25 is a sealer layer, 3 is an adhesive layer, 31 is an aqueous emulsion adhesive composition, 4 is a decorative sheet layer, 41 is a decorative sheet winding, 5 is a back layer, 6 Is a coating section, 61 is a coating roll, 62 is a metering roll, 7 is a drying section, 71 is a drying furnace, 8 is a stacking section, 81 is a nip roll, and 9 is a transport roll.

FIG. 1 is a cross-sectional view showing a first embodiment of a nonflammable decorative board according to the present invention. The nonflammable decorative board 1 of the present invention has an adhesive layer 3 on one surface of a flame retardant substrate 2. And the decorative sheet layer 4 are sequentially laminated. The flame retardant substrate 2 is obtained by laminating a lower layer 22 made of paper, a radiation sheet layer 23, a paper layer 24, and a sealer layer 25 in this order on a volcanic glassy multilayer board 21.
In addition, the flame-retardant base material 2 should just laminate | stack the radiation sheet layer 23 and the paper layer 24 in order on the volcanic glassy multilayer board 21, but the volcanic glassy multilayer board 21 is sufficient. Therefore, it is preferable to provide a lower layer 22 made of paper quality. 1 shows the sealer layer 25, the paper layer 24 may be impregnated with a sealer agent that forms the sealer layer 25, and the paper layer 24 may be a resin-impregnated paper impregnated with the sealer agent. In this case, although not shown, the sealer layer 25 disappears in FIG. 1 and is combined with the paper layer 24.

[Curing period]
Conventionally, when laminating a flame-retardant substrate and a decorative sheet layer via an adhesive layer made of an aqueous emulsion adhesive composition, moisture in the non-flammable decorative board is evaporated by evaporating water in the aqueous emulsion adhesive composition. A curing period was required until the rate was constant. In addition, there is a problem that when the next process is performed without taking a sufficient curing period because the initial adhesive strength is insufficient, there is a problem that a part of the decorative sheet is rolled up at the end of the non-combustible decorative board, and the curing period is It was difficult to omit. In recent years, short delivery times and cost reductions are eagerly desired, and the shortening of the curing period etc. has been reviewed to reduce the lead time. In the present invention, the curing period refers to a period until processing of the next process is possible without causing a problem such as a part of the decorative sheet being rolled up and peeled off in the next process.

〔Non Flammable〕
In the noncombustible decorative board of the present invention, “noncombustible” is based on the provisions of ISO5660-1 and conforms to the provisions of noncombustible materials.

Below, each layer which comprises the nonflammable decorative board 1 of this invention is demonstrated.
[Flame retardant substrate 2]
The flame retardant substrate 2 is a flame retardant substrate in which at least a radiation sheet layer 23 and a paper layer 24 are sequentially laminated on a volcanic glassy multilayer board 21. Moreover, the lower layer 22 is laminated | stacked as needed. The flame retardant substrate 2 is composed of the following layers. For example, commercially available “Dailite FAL (trade name)” manufactured by Daiken Kogyo Co., Ltd., “Dailite FTL (trade name)”: manufactured by Daiken Kogyo Co., Ltd. can be exemplified.

(Volcanic glassy multilayer board 21)
The volcanic vitreous multilayer board 21 is not particularly limited as long as it complies with JIS A5440 (“incombustible volcanic vitreous multilayer board”). Product name) ”: manufactured by Daiken Kogyo Co., Ltd.,“ Omal (product name) ”: manufactured by Iwakura Chemical Industry Co., Ltd., and the like.

(Radiation sheet layer 23)
The radiation sheet layer 23 is a layer provided for the purpose of preventing warpage and enhancing dimensional stability by imparting non-combustibility and appropriate strength to the non-combustible decorative board 1 of the present invention. . As a radiation sheet used for formation of the radiation sheet layer 23, a metal foil, a graphite sheet, etc. are mentioned preferably, for example. Examples of the metal foil include an aluminum foil, a copper foil, a silver foil, an iron foil, a stainless steel foil, and the like. Among these, from the viewpoint of being easy to process and resistant to corrosion, an aluminum foil, a copper foil, and Stainless steel foil is preferred, and aluminum foil is more preferred.

  As such a radiation sheet, using a Fourier transform infrared spectrophotometer, a value calculated from measured values of the total radiant energy of an ideal black body and a sample at a measurement temperature of 25 ° C. and a measurement wavelength region of 2.5 to 14 μm. When expressed using the emissivity indicated by, the emissivity is preferably 60% or more, and more preferably 70% or more from the viewpoint of imparting incombustibility.

(Paper quality layer 24)
The paper layer 24 absorbs irregularities on the surface of the volcanic glassy multilayer board 21, prevents the decorative sheet layer 4 from floating, improves the adhesion to the decorative sheet layer 4, and has a glossy radiation sheet. Is used, the layer is provided in order to conceal the gloss. Therefore, the paper layer 24 is laminated above the radiation sheet layer 23 when viewed from the decorative sheet layer 4 side of the non-combustible decorative board 1. Further, the paper layer 24 is preferably a resin-impregnated paper in which a paper base material is impregnated with a sealer agent or the like. By using resin-impregnated paper, it is possible to reinforce the interlaminar strength between the fibers of the paper base material or between the layers adjacent to the paper base material and to prevent paper flaking and to smooth the surface of the flame retardant base material 2 In addition, a so-called sealing effect that a uniform coated surface is obtained is also obtained.

  For the paper layer 24, a normal paper base material can be used. As the paper substrate, thin paper, kraft paper, titanium paper or the like can be used.

(Sealer layer 25)
The sealer layer 25 is provided on the paper layer 24 and is provided to provide a sealing effect for preventing the adhesive layer 3 from being impregnated with the adhesive and to strengthen the interlayer strength of the paper base material of the paper layer 24.
The sealer agent for the sealer layer 25 is not particularly limited as long as it can enhance the interlayer strength of the paper substrate and provide a sealing effect. For example, a polyester polyol resin, an acrylic urethane-based resin composed of acrylic polyol and isocyanate, urethane Organic sealers composed of one or more resins selected from resins such as epoxy resins, acrylic resins, polyvinyl butyral, epoxy resins, aminoalkyd resins, silicon oxide, aluminum oxide, zirconium oxide, kaolinite, and One or more inorganic materials selected from the group consisting of titanium dioxide, and resins such as epoxy resins, phenol resins, melamine resins, polyvinyl butyral, acrylic urethane resins, aminoalkyd resins, polyester polyol resins, etc. Materials and water / Or inorganic sealer comprising a composition containing a hydrophilic organic solvent, and mixtures thereof, or aqueous resin composition can be mentioned, water-based resin composition.

As the aqueous resin composition, an aqueous resin composition containing an isocyanate resin, an epoxy resin, a urethane resin, an acrylic resin, an ethylene-vinyl acetate copolymer resin (EVA), or the like can be used. Of these, ethylene-vinyl acetate copolymer resin (EVA), urethane resin, and self-emulsifying polyisocyanate resin are preferable.
When using a self-emulsifying type polyisocyanate resin, the self-emulsifying type polyisocyanate resin is mixed with water-soluble resin such as acrylic resin, epoxy resin, ethylene-vinyl acetate copolymer resin, or water. And preferably used. Sealers are in the form of emulsion systems or solubilization systems.

  The resin solid content of the aqueous resin composition in the sealer is preferably 20 to 60% by mass and more preferably 25 to 50% by mass from the viewpoints of water dispersibility, film-forming property and workability. preferable. When the resin solid content is 20% by mass or more, the cured film-forming property and the paper impregnation property are good, and when it is 60% by mass or less, the water dispersibility and the paper impregnation property are lowered. This is preferable.

In this invention, it is preferable that the application quantity of a sealer agent is 0.5-25 g / m < ² > (solid substance conversion). If the coating amount of the sealer is 0.5 g / m ² or more, it is possible to enhance the interlaminar strength between the fibers of the paper base material of the paper layer 24 or the layer adjacent to the paper base material, and to prevent the paper from coming off. At the same time, a sealing effect for preventing the adhesive layer 3 from penetrating into the paper layer 24 is preferably obtained. Moreover, if it is 25 g / m < ² > or less, it is preferable also in terms of economy and nonflammability. Further, by providing a sealer layer, it is possible to prevent the adhesive layer 3 from being impregnated with the adhesive, so that the amount of adhesive applied can be reduced, the drying time can be shortened, and the flame retardant substrate 2 and the decorative sheet layer 4 It is preferable because the speed of the laminating process can be easily increased.

  FIG. 1 shows an example in which the sealer layer 25 is formed on the paper quality layer 24. However, the paper quality layer 24 is impregnated with the sealer agent that forms the sealer layer 25, and the paper quality layer 24 is impregnated with the sealer agent. Paper is preferable because the interlayer strength of the paper substrate of the paper quality layer 24 is improved. In this case, although not shown, the sealer layer 25 disappears in FIG. 1 and is combined with the paper layer 24.

(Lower layer 22)
The lower layer 22 is provided between the volcanic glassy multilayer board 21 and the radiation sheet layer 23. For the lower layer 22, the same paper base material as that for the paper layer 24 is used.
In addition, the flame-retardant base material 2 should just laminate | stack the radiation sheet layer 23 and the paper layer 24 in order on the volcanic glassy multilayer board 21, but the volcanic glassy multilayer board 21 is sufficient. Therefore, it is preferable to provide the lower layer 22 made of a paper base material.

[Adhesive layer 3]
The adhesive layer 3 is provided for bonding the resin-impregnated paper impregnated with the sealer to the sealer layer 25 of the flame-retardant substrate 2 or the paper layer 24 of the flame-retardant substrate 2 and the decorative sheet layer 4. The layer is formed by drying an aqueous emulsion adhesive composition containing an aqueous emulsion resin and a crosslinking agent. Since the aqueous emulsion adhesive composition does not use an organic solvent, it has a low load on environmental pollution. Examples of the aqueous emulsion resin in the aqueous emulsion adhesive composition include vinyl acetate resins such as ethylene-vinyl acetate, acrylic resins, urethane resins, polyester resins, and epoxy resins. The known emulsion used is appropriately selected depending on the application. The crosslinking agent improves the adhesive strength between the flame retardant substrate 2 and the decorative sheet layer 4 and is preferably contained. As the crosslinking agent, for example, those having an isocyanate group in the molecule and capable of giving a crosslinked structure by a chemical reaction are preferably used, and the aqueous emulsion adhesive composition is preferably a so-called two-component curable type.

The adhesive layer 3 can be formed by applying and drying the aqueous emulsion adhesive composition by a known method such as gravure coating, bar coating, spray coating, roll coating, reverse roll coating, or comma coating. The coating amount of the aqueous emulsion adhesive composition is preferably 2 to 30 g / m ² (solid basis), 5 to 20 g / m ² (solid basis) is more preferable. The residual moisture content of the adhesive layer 3 formed by drying the aqueous emulsion adhesive composition is preferably less than 30% by weight and less than 10.0 g / m ² . If the residual moisture content is 30% by weight or more, or the moisture content is 10.0 g / m ² or more, sufficient initial adhesive force is hardly obtained, and a curing period may be required until the next process is performed.

Moreover, it is preferable to mix | blend a thickener with the water-based emulsion adhesive composition which forms the adhesive bond layer 3. FIG. By adding a thickener to the aqueous emulsion adhesive composition, thixotropy can be obtained, application suitability can be improved, and a low coating amount can be achieved. As will be described later by reducing the coating amount, the residual moisture content of the adhesive layer 3 can be less than 30% by weight and the moisture content of the adhesive layer 3 can be less than 10.0 g / m @ 2 with a short drying time. The production speed of the plate can be increased. Furthermore, by realizing low coating amount, aluminum hydroxide has been blended in the aqueous emulsion adhesive composition in the past in order to impart good nonflammability to the nonflammable decorative board. This makes it possible to reduce the cost. As the thickener, a water-soluble resin that is usually used as a thickener can be used. Among them, acrylic thickeners, cellulose derivatives, polyethers, urethane-modified polyethers, etc. Thickeners are preferred.
The blending amount may be blended so as to obtain a suitable viscosity according to the coating method, but is about 0.001 to 5.0% by weight with respect to the entire aqueous emulsion adhesive composition. . If the amount is too large, the viscosity becomes high and it becomes difficult to reduce the coating amount.

[Decorative sheet layer 4]
The decorative sheet layer 4 is provided in order to impart designability to the incombustible decorative board 1 of the present invention. As a decorative sheet used for the decorative sheet layer 4, a resin sheet or the like usually used for a decorative plate can be used without limitation. As a resin forming the resin sheet, for example, polyethylene terephthalate ( PET) and other polyester resins; polyethylene, polypropylene, polybutene, ethylene-propylene copolymer resins, ethylene-propylene-butene copolymer resins, polyolefin resins such as olefin-based thermoplastic elastomers; acrylic-modified urethane resins, polyesters Modified polyurethane resins, polyurethane resins such as vinyl chloride-vinyl acetate copolymer modified urethane resins; acrylic resins; polycarbonate resins; polystyrene resins; vinyl chloride resins, vinyl acetate resins, and vinyl chloride-acetic acids Vinyl copolymerization Can be mentioned resins may be used singly or in combination of two or more of these.

  Moreover, as a decorative sheet, it can also be used as a doubling sheet | seat obtained by pinching | interposing a pattern between the colored resin sheet which consists of said resin, and a transparent resin sheet. In this case, the resin used for the colored resin sheet and the transparent resin sheet may be the same or different, and a polyolefin-based resin can be preferably used. As a combination of resins, polyethylene-polyethylene, polyethylene-polypropylene, or polypropylene -A combination of polypropylene is preferred. For example, the doubling sheet is provided with a primer layer by performing corona discharge treatment on the surface of the resin sheet A made of the resin, and after the solid layer and / or the pattern layer are printed on the resin sheet A, the resin made of the resin The sheet B is obtained by pressure bonding by a lamination method such as extrusion lamination, dry lamination, wet lamination, thermal lamination, or the like.

  Moreover, it is preferable to form a surface protective layer (not shown) made of an ionizing radiation curable resin on the surface of the resin sheet B. By making the decorative sheet provided with a surface protective layer made of ionizing radiation curable resin, as shown in FIG. In the case of lamination, since the single-piece flame-retardant substrate 2 is supplied with a small interval, the interval portion becomes a step, and only the decorative sheet layer 4 in the step, so when the nip roll 81 is crimped, Although the decorative sheet layer 4 is stretched, by providing the surface protective layer, the stretching can be eased, so that the operation of the next process becomes easy. Known ionizing radiation curable resins can be used. Moreover, from the viewpoint of design properties, the decorative sheet layer 4 can also be embossed on the surface.

FIG. 2 is a cross-sectional view showing another embodiment of the nonflammable decorative board according to the present invention. The nonflammable decorative board 1 ′ of the present invention has an adhesive layer on one surface of the flame retardant substrate 2. 3 and the decorative sheet layer 4 are laminated in order, and the back surface layer 5 is laminated on the other surface of the flame-retardant substrate 2. Others are the same as those of the first embodiment, and the same reference numerals are given and description thereof is omitted.
As shown in FIG. 2, the back surface layer 5 is a layer provided on the other surface of the flame retardant substrate 2 as necessary via a back surface adhesive layer (not shown). As the back surface layer 5, a paper sheet, a resin sheet, a sheet obtained by laminating these sheets, and the like used for a normal decorative board can be applied. In particular, a moisture-proof sheet with moisture-proof property applied to the sheet is preferable. By applying the moisture-proof sheet to the back surface layer 5, foreign matter (volcanic property of the flame-retardant base material) can be used in post-processing work, transportation work or on-site construction work. The generation of white powder or the like due to the glassy multilayer board can be prevented, and the occurrence of warpage of the nonflammable decorative board 1 ′ can be reduced.

[Back layer 5]
As a moisture-proof sheet used for the back layer 5, for example, two paper layers are passed through a high density polyethylene resin (hereinafter referred to as HDPE) or a polypropylene resin (hereinafter referred to as PP) having a density of 0.941 g / cm ³ or more. Preferably, a sandwich layered paper layer / HDPE / paper layer and paper layer / PP / paper layer three-layer structure by the extrusion method is preferred. As the paper layer, printing paper for building materials with a basis weight of 20-50 g / m ² , pure white paper impregnated with latex or synthetic resin, or thin paper (so-called inter-paper spacing) in which synthetic resin is mixed to enhance interlayer strength Reinforced paper) and the like are preferably used. If the basis weight is 20 to 50 g / m ² , it is not too flexible, so that wrinkles are unlikely to occur during the laminating process, and peeling from the paper layer and moisture do not easily permeate.

  The moisture-proof sheet has a moisture permeability of 30 g / m 2 · 24 hr or less, preferably a moisture permeability of 15 g / m 2 · hr or less. Therefore, the thickness of HDPE or PP is about 15 to 30 μm. preferable. Of course, low-density polyethylene resin (hereinafter referred to as LDPE) can be used instead of HDPE or PP, but it is necessary to increase the thickness in order to obtain the same degree of moisture resistance. Further, in order to improve moisture resistance, a moisture-proof sheet may be provided with a synthetic resin base material having a vapor deposition layer in which a metal such as aluminum or an inorganic material such as silicon oxide or aluminum oxide is deposited. The vapor deposition layer can be formed on the synthetic resin substrate by a known vapor deposition method. In this case, ester resin, urethane resin, acrylic resin, polycarbonate resin, vinyl chloride-vinyl acetate copolymer, polyvinyl butyral system for the purpose of improving the adhesion between the moisture-proof sheet and the flame retardant substrate 2 It is preferable to provide the adhesion primer layer using a resin or a mixture of two or more nitrocellulose resins.

〔Production method〕
An example of the method for producing a nonflammable decorative board of the present invention will be described with reference to FIG.
As shown in FIG. 3, the nonflammable decorative board 1 of the present invention includes a step of applying an aqueous emulsion adhesive composition 31 to the flame retardant substrate 2 in the application unit 6, and a flame retardant group in the drying unit 7. The step of drying the aqueous emulsion adhesive composition 31 applied to the material 2 to form the adhesive layer 3 and the makeup via the adhesive layer 3 formed on the flame retardant substrate 2 in the laminated part 8 A step of heating and pressing the sheet layer 4 and laminating at the same time. Since these steps are performed in-line, the temperature drop of the adhesive layer 3 heated in the drying furnace 71 of the drying unit 7 can be suppressed, and the decorative sheet layer 4 and the heat-pressing are performed in the laminated unit 8 while being heated. Therefore, an excellent initial adhesive force can be obtained, and the curing period can be omitted.

First, in the application part 6, the aqueous | water-based emulsion adhesive composition 31 is 2-30 g / m < ² > (solid) on the flame-retardant base material 2 while sending the flame-retardant base material 2 supplied with the sheet | seat with the conveyance roll 9. FIG. It is applied by a roll coat method at a coating amount of about a minute equivalent). The applicator 6 is a top feed system in which an applicator roll 61 and a metering roll 62 are brought close to each other, and the aqueous emulsion adhesive composition 31 is supplied from above between the rolls. The coating roll 61 rotates in the forward direction (indicated by the arrow in FIG. 3) and the forward direction, that is, the counterclockwise direction in FIG. 3, and the metering roll 62 similarly counterclockwise. It is rotating. The setting of the coating amount is performed by setting a gap between the coating roll 61 and the metering roll 62 that are brought close to each other and setting the rotation speed of the roll. Of course, it goes without saying that the coating amount is greatly influenced by factors such as the concentration and viscosity of the aqueous emulsion adhesive composition. By configuring the coating unit 6 as described above, in the vicinity of the coating roll 61 and the metering roll 62, a force for pulling the aqueous emulsion adhesive composition 31 in the opposite direction is applied to make the surface uniform and stable. Application becomes possible.

  The application unit 6 further includes another application unit in which the application roll 61 and the metering roll 62 are brought close to each other in the downstream direction of the flame retardant substrate 2, and the aqueous emulsion adhesive composition 31 can be applied twice. It has a configuration. The number of application portions may be one, but if there are two application portions, the uniformity of the coating film can be obtained, and a low application amount can be easily obtained. The coating method is not limited to roll coating, and gravure coating, bar coating, spray coating, reverse roll coating, comma coating, and the like can also be used.

The flame retardant substrate 2 to which the aqueous emulsion adhesive composition 31 is applied is conveyed in the direction of the arrow by the conveying roll 9 and fed into the drying unit 7, and the flame retardant substrate 2 is conveyed to the conveying roll 9 in the drying furnace 71. The adhesive layer 3 is formed on the flame retardant substrate 2 by being dried while being conveyed. The drying furnace 71 is, for example, a hot air blowing system heated by a heat source such as gas, steam, or far infrared rays. The furnace temperature can usually be set at 80 ° C. to 300 ° C., and is appropriately set in consideration of conditions such as the solid content concentration of the aqueous emulsion adhesive composition, the coating amount, and the speed at which the flame retardant substrate is conveyed. However, in the present invention, the residual moisture content of the adhesive layer 3 formed by drying in the drying unit 7 is less than 30% by weight and the moisture content is less than 10.0 g / m ^2. Thus, it is preferable to control the drying conditions.

Thereafter, the sheet is sent to the stacking unit 8 by the transport roll 9. In the stacking unit 8, the decorative sheet winding 41 mounted on the supply unit is continuously fed to the stacking unit 8 by a transport roll and a guide roll (not shown) while being rewound, and is supplied while being transported by the transport roll 9. The adhesive layer 3 formed on the flame retardant substrate 2 is laminated while being heated and pressed by the nip roll 81. As heating temperature, it is 40 to 200 degreeC normally. In this way, the adhesive layer 3 has a residual moisture content of less than 30% by weight and a moisture content of less than 10.0 g / m ² , and is heated so that tack can be obtained in the adhesive layer 3. By laminating at the same time as pressing, an excellent initial adhesive force can be obtained, and the curing period can be omitted.
Accordingly, for example, the next process such as cutting and cutting to a specified dimension, assembling of fittings, furniture, storage, and the like can be performed, so that the lead time can be shortened.

  Moreover, although the flame-retardant base material 2 is supplied continuously, since it is a sheet, the space | interval within about 100 mm generate | occur | produces before and behind the flame-retardant base material 2. FIG. The non-combustible decorative board 1 conveyed from the laminated portion 8 is connected by a decorative sheet (decorative sheet layer 4), and the decorative sheet is cut within the space before and after the flame-retardant substrate 2, and the non-combustible sheet The decorative board 1 is manufactured. Note that, in the laminated portion 8, the interval becomes a step, and only the decorative sheet layer 4 is formed at the step, and therefore, the decorative sheet layer 4 is stretched when being pressed by the nip roll 81, and the cutting work may be inferior. In this case, by forming a surface protective layer (not shown) made of an ionizing radiation curable resin on the surface of the decorative sheet layer 4, stretching of the decorative sheet layer 4 is eased, so that the cutting operation is facilitated.

  The obtained incombustible decorative board can be used for interior and exterior building materials such as ceilings and wall materials of buildings, doors, furniture and the like. In particular, by using the non-combustibility of the non-combustible decorative panel of the present invention, it is suitably used for building materials around kitchens such as sinks, gas stoves, hoods, and other buildings where non-combustibility is required under the Building Standards Act. be able to.

  EXAMPLES Next, the present invention will be described in more detail with reference to examples. However, the present invention is not limited to these examples, and all the categories not departing from the gist of the present invention are included in the present invention. is there.

(Evaluation method)
About the nonflammable decorative board obtained by each Example and the comparative example, it evaluated by the following method.
(1) Evaluation of total calorific value About the incombustible decorative board manufactured in each example and comparative example, the total calorific value (MJ / 20) after the start of heating using a cone calorimeter tester based on ISO5660-1. m ² ) was obtained. If the total calorific value is 8 MJ / m ² or less, it is acceptable.
(2) Evaluation of maximum exothermic rate About the nonflammable decorative board manufactured in each Example and Comparative Example, using a cone calorimeter tester based on ISO5660-1, as the maximum exothermic rate for 20 minutes after the start of heating, 200 kW Time over / m ² was determined in seconds. If it does not exceed 200 kW / m ² for 10 seconds or more, it is acceptable.
(3) Evaluation of base material cracks For the decorative plates produced in each Example and Comparative Example, using a cone calorimeter tester based on ISO5660-1, the base material after completion of the test for 20 minutes after the start of heating. The presence or absence of cracks or holes was confirmed and evaluated according to the following criteria.
○ There were no cracks or holes penetrating to the back side. Pass.
X There were many cracks and holes penetrating to the back surface. Fail.
(4) Comprehensive incombustibility evaluation In the evaluation of the total calorific value, the evaluation of the maximum heat generation rate, and the evaluation of cracks in the base material, ○ which passed in any evaluation, even one in any evaluation does not meet the acceptance criteria The total incombustibility evaluation was performed with x as the mark.
(5) Measurement of peeling strength Using a Tensilon tensile tester (made by Orientec), it is difficult to make a decorative sheet at a tensile speed of 200 mm / min and a peel angle of 180 ° for the non-combustible decorative boards produced in each of the examples and comparative examples. The peel strength at the time of peeling off the flammable substrate was measured and defined as the peeling strength.
(6) Measurement of residual moisture content and water content of adhesive layer Using a constant temperature and humidity chamber with two samples having the same area as the flame retardant substrate and the flame retardant substrate coated with an aqueous emulsion, After drying each sample under each drying condition, its weight was measured, and the weight difference was defined as the adhesive layer weight. Further, for each sample, the total dry mass (total dry weight) of the adhesive layer was measured according to the JAS plywood standard, and the residual moisture content and the moisture content were calculated by the following equations.
W1: Weight of adhesive layer after drying under each drying condition W2: Total dry weight of adhesive layer Water content of adhesive layer (g / m ² ) = W1-W2
Residual moisture content of adhesive layer (%) = [(W1-W2) / W1] × 100

[Example 1]
Reinforced paper with a basis weight of 23 g / m ² (“FIX-30 (trade name)” manufactured by Sanko Paper Co., Ltd.), aluminum foil with a thickness of 20 μm, and a reinforced paper with a basis weight of 23 g / m ² ( “FIX-30 (trade name)” (manufactured by Sanko Paper Co., Ltd.) was laminated by a dry lamination method via a two-component curable urethane adhesive to produce an intermediate of a flame retardant substrate. The application amount of the two-component curable urethane adhesive was 4 g / m ² (solid content basis, organic content 4 g / m ² ).
Next, on one side of a 3 mm thick volcanic glassy multilayer board (trade name: DAILIGHT, manufactured by Daiken Kogyo Co., Ltd.), a two-component curable urethane adhesive is 40 g / m ² (based on solid content). , on coated at a coverage of the organic content 35 g / m ^2), wherein together by bonding one sheet interval reinforced paper of intermediate to produce a flame-retardant substrate, other volcanic vitreous multilayered plate Separately prepared paper with a basis weight of 23 g / m ² (“FIX-30 (trade name)” manufactured by Sanko Paper Co., Ltd.) and paper with a basis weight of 23 g / m ² (“ FIX-30 (trade name): manufactured by Sanko Paper Co., Ltd.) and a moisture-proof sheet as a back layer obtained by sandwich lamination by an extrusion method using a polypropylene resin having a thickness of 25 μm, applied amount 40 g / m ² (solid) Layered) via a two-component curable urethane adhesive

A water-soluble acrylic resin (“SA-95 (trade name)”: Chuo Rika Kogyo Co., Ltd.) is formed on the other inter-paper reinforced paper of the intermediate of the flame retardant base material obtained by laminating the obtained moisture-proof sheet on the back surface. Manufactured, Tg: 30 ° C.) and a curing agent (“EX-8 (trade name)”: Chuo Rika Kogyo Co., Ltd., epoxy resin) are blended at a ratio of 100: 10 (mass ratio), and water is added to 55 mass. The sealer obtained by diluting part was applied by spray coating at a coating amount of 3.5 g / m ² (solid content basis, organic content: 3.5 g / m ² ). Drying was performed at 100 ° C. for 30 seconds while impregnating the inter-paper reinforced paper. The sealer had a viscosity of 10 mPas (20 ° C.).

A water-based emulsion type urethane resin / vinyl copolymer resin resin adhesive (“CVC (trade name)”) is used as the main agent on the other inter-paper reinforced paper coated with the intermediate sealer of the flame retardant substrate. : Manufactured by Konishi Co., Ltd., adhesive composition: urethane resin / vinyl copolymer resin resin 35% by mass / water 65% by mass), polyisocyanate compound (100% by mass) and aluminum hydroxide in the crosslinker 100: 5: The aqueous emulsion adhesive composition blended at 15 (mass ratio) was applied at a coating amount of 30 g / m ² (wet) and dried with hot air in a drying oven at a temperature of 180 ° C. for 15 seconds to form an adhesive layer (organic content: 10 g / m ² ), and a polyolefin having a surface protective layer made of an ionizing radiation curable resin on the surface of 120 μm thick prepared separately and heated in a hot air and heated. Tin-based decorative sheet (basis weight: 135 g / m ² , organic content: 110 g / m ² , “WS series (trade name)” manufactured by Dai Nippon Printing Co., Ltd.), and heated to 90 ° C. of the laminated part A non-combustible decorative board was obtained by applying heat and pressure from the polyolefin-based decorative sheet surface with a nip roll so that the surface protective layer was exposed. The evaluation results of the obtained noncombustible decorative board are shown in Table 1.
In addition, the organic content on the aluminum foil of the obtained noncombustible decorative board was 181.5 (35 + 23 + 3.5 + 10 + 110) g / m ² .

[Example 2]
A nonflammable decorative board was produced in the same manner as in Example 1 except that the coating amount of the aqueous emulsion adhesive composition was changed to 20 g / m ² (wet). The evaluation results of the obtained noncombustible decorative board are shown in Table 1. In addition, the organic content of the obtained adhesive layer was 7 g / m ² .

[Comparative Example 1]
In Comparative Example 1 and Example 1, the coating amount of the aqueous emulsion adhesive composition was 91 g / m ² (wet), and the drying temperature of the aqueous emulsion adhesive composition was at room temperature (20 ° C.). Otherwise, a nonflammable decorative board was produced in the same manner as in Example 1. The evaluation results of the obtained noncombustible decorative board are shown in Table 1. In addition, the organic content of the obtained adhesive layer was 30 g / m ² .

[Comparative Example 2]
In Comparative Example 2 and Example 1, a nonflammable decorative board was prepared in the same manner as in Example 1 except that the coating amount of the aqueous emulsion adhesive composition was 91 g / m @ 2 (wet). The evaluation results of the obtained noncombustible decorative board are shown in Table 1.

  About the incombustible decorative board obtained in Examples 1 and 2 and Comparative Examples 1 and 2, as a next process after 1 hour, cutting of a product size (cutting with a panel saw) was performed to produce a joinery. The non-combustible decorative plates 1 and 2 were able to work without any problems, and the curing process could be omitted. It was difficult for the non-combustible decorative boards of Comparative Examples 1 and 2 to continue working because part of the decorative sheet was wrinkled at the end of the non-combustible decorative board during the next process.

DESCRIPTION OF SYMBOLS 1, 1 'Nonflammable decorative board 2 Flame retardant base material 21 Volcanic glassy multilayer board 22 Lower layer 23 Radiation sheet layer 24 Paper quality layer 25 Sealer layer 3 Adhesive layer 31 Aqueous emulsion adhesive composition 4 Cosmetic sheet layer 41 Cosmetic sheet winding 5 Back layer 6 Application unit 61 Application roll 62 Metering roll 7 Drying unit 71 Drying furnace 8 Laminating unit 81 Nip roll 9 Conveying roll

Claims (6)

An incombustible decorative board in which an adhesive layer and a decorative sheet layer are sequentially laminated on one surface of a flame-retardant substrate,
A flame retardant substrate is formed by laminating at least a radiation sheet layer and a paper layer on a volcanic glassy multilayer board in order,
The adhesive layer is formed by drying an aqueous emulsion adhesive composition containing an aqueous emulsion resin and a crosslinking agent,
A nonflammable decorative board, wherein the adhesive layer formed by drying the aqueous emulsion adhesive composition is laminated with the decorative sheet in a heated state. The residual moisture content of the adhesive layer formed by drying the aqueous emulsion adhesive composition is less than 30% by weight, and the moisture content is less than 10.0 g / m ^2. The nonflammable decorative board according to 1. The nonflammable decorative board according to claim 1 or 2, wherein the paper layer of the flame retardant substrate is a resin-impregnated paper in which a paper substrate is impregnated with a sealer agent. The nonflammable decorative board according to any one of claims 1 to 3, further comprising a back surface layer on the other surface of the flame retardant substrate. The non-combustible decorative board according to any one of claims 1 to 4, wherein the radiation sheet layer is formed of an aluminum foil. An aqueous emulsion adhesive composition containing an aqueous emulsion resin and a crosslinking agent on one surface of a flame retardant substrate in which at least a radiation sheet layer and a paper layer are sequentially laminated on a volcanic glassy multilayer board A method for producing a non-combustible decorative board, in which a decorative sheet is attached via an adhesive layer formed of an object,
Applying the aqueous emulsion adhesive composition to the flame retardant substrate;
Drying the aqueous emulsion adhesive composition to form an adhesive layer;
Laminating at the same time as heating and pressing the decorative sheet through the adhesive layer formed on the flame retardant substrate,
A method for producing a non-combustible decorative board.

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