JP3174009U - Laminated body - Google Patents

Abstract

Provided is a laminate having a design and water resistance excellent in aesthetics such as a wood texture, and having sufficient heat-resistant protection.
A laminated body is formed by laminating a thermal expansion layer 3 on a base material 1 with an adhesive 2 interposed therebetween, and further laminating a waterproof layer 4 on the surface of the thermal expansion layer. The thermal expansion layer is a layer in which a plurality of thermal expansion sheets are abutted and bonded, the thermal expansion sheet includes a thermoplastic resin, a flame retardant, a foaming agent, a carbonizing agent, and a filler, and the waterproof layer is thermoplastic. It is a resin sheet and is laminated so as to straddle the butted portion of the thermal expansion sheet.
[Selection] Figure 1

Description

The present invention relates to a novel laminate.

When a structure such as a building or a civil engineering structure is exposed to a high temperature due to a fire or the like, there is a problem that the physical strength of the base material constituting the structure rapidly decreases. In particular, when the base material is wood, the wood easily burns. For this reason, it is necessary to ensure the heat resistance of wood and prevent or delay combustion. On the other hand, various methods have been proposed, such as (a) a method of applying or impregnating an inorganic flame retardant liquid agent, and (b) a method of covering a material that is foamed and insulated by heat in a fire. ing.

  As the method (a), for example, Patent Document 1 describes that wood is impregnated with a solution containing an alkyl silicate compound, and the alkyl silicate compound is cured in wood to be polymerized. Moreover, as a method of (b) above, for example, Patent Document 2 describes that a layer made of a foamable fire-resistant paint and a fiber fabric is laminated on the surface of wood.

Japanese Patent Laid-Open No. 3-30907 JP-A-4-175152

However, as in Patent Document 1, when a flame retardant liquid is impregnated in wood, a certain degree of fire-proof performance can be obtained while maintaining the texture of the wood, but performance sufficient to withstand at high temperatures is imparted. It ’s difficult. On the other hand, when the layer which consists of a foamable fire-proof paint like patent document 2 is laminated | stacked, although excellent heat resistance can be exhibited, since the wood surface is covered, the texture of wood will be impaired. Further, the layer formed in Patent Document 2 has insufficient water resistance, and there is a risk that the heat resistance may be lowered when used in a portion with water.

The present invention has been made in order to solve the above-mentioned problems, and provides a laminate having a design and water resistance excellent in aesthetics such as wood texture, and sufficient heat protection. is there. The present invention has the following features.
1. A thermal expansion layer is laminated on the base material via an adhesive, and a laminate in which a waterproof layer is further laminated on the surface of the thermal expansion layer,
The thermal expansion layer is a layer in which a plurality of thermal expansion sheets are abutted and bonded,
The thermal expansion sheet includes a thermoplastic resin, a flame retardant, a foaming agent, a carbonizing agent, and a filler,
The waterproof layer is a thermoplastic resin sheet, and is laminated so as to straddle the butted portion of the thermally expanded sheet.
2. The waterproof layer is provided with a wood grain pattern. The laminated body as described in.
3. The base material is a wooden member. Or 2. The laminated body in any one of.

The laminate of the present invention has design and waterproof properties with excellent aesthetics such as wood texture, and has sufficient heat-resistant protection. Specifically, the following effects can be obtained.

Above 1. According to the laminate of the present invention, it has excellent design properties and waterproofness, and when it is exposed to high temperatures due to a fire or the like, it can exhibit heat resistance protection in the whole substrate.

2. According to this laminate, in addition to the above effects, the design of the laminate can be further improved.

3. above. According to the laminate, even when the base material is a wooden member, it has excellent design properties and waterproofness, and when it is exposed to high temperatures due to a fire etc., it exhibits heat resistance protection on the whole base material can do.

FIG. 1 is a view showing an example of a cross-sectional view of the laminate of the present invention. FIG. 2 is a view showing a comparative example of the inventive laminate.

  Hereinafter, embodiments for carrying out the present invention will be described in detail.

In the laminate of the present invention, a thermal expansion layer is laminated on a base material via an adhesive, and a waterproof layer is further laminated on the thermal expansion layer.

An example of the laminated body of this invention is shown in FIGS.
In FIG. 1, a thermal expansion layer 3 and a waterproof layer 4 are sequentially provided on the base material 1 with an adhesive 2 interposed therebetween.

  The base material 1 of the present invention corresponds to a part that requires heat protection in a structure such as a building or a civil engineering structure, for example, each part such as a wall, a pillar, a floor, a beam, a ceiling, and a staircase. In particular, the laminate of the present invention is effective when applied to parts such as columns, floors, beams, walls, etc., where design is required. Such a part may be any member made of a steel material, concrete, a wooden member, a resin member, or the like. Specifically, an H column, a round column, a prism, a folded plate, a deck plate, and the like can be given.

  In particular, the present invention can exhibit sufficient heat protection even when the substrate 1 is a wood member. Moreover, the designability which has the woody texture like a base material can be provided by laminating | stacking the waterproof layer mentioned later.

The thermal expansion layer 3 of the present invention foams when the ambient temperature reaches a predetermined foaming temperature due to a fire or the like, and forms a carbonized heat insulating layer. The thermal expansion layer 3 is a layer in which a plurality of thermal expansion sheets 3a are abutted and bonded. As the thermal expansion sheet 3a, a sheet containing a thermoplastic resin, a flame retardant, a foaming agent, a carbonizing agent and a filler is suitable.

Among these, examples of the thermoplastic resin include acrylic resin, acrylic / styrene copolymer resin, epoxy resin, urethane resin, polyester resin, polybutadiene resin, alkyd resin, polyvinyl chloride, polyethylene, vinyl acetate resin, vinyl acetate / acrylic copolymer. Polymerized resin, ethylene / vinyl acetate synthetic resin, vinyl acetate / versaic acid vinyl ester copolymer resin, vinyl acetate / versaic acid vinyl ester / acrylic copolymer resin, vinyl toluene / butadiene copolymer resin, vinyl toluene / acrylic acid ester copolymer Resin, vinyl toluene-methacrylic acid ester copolymer resin, styrene / butadiene copolymer resin, ethylene / methacrylic acid ester copolymer resin, or two monomers constituting these copolymer resins and acrylic acid monomer, Resins such as terpolymers of acrylic acid monomers. These thermoplastic resins can be used alone or in combination of two or more.

The flame retardant exhibits at least one effect such as a dehydration cooling effect, an incombustible gas generation effect, and a carbonization promoting effect in a fire, and prevents or suppresses resin combustion. Examples of flame retardants include chlorine compounds such as chlorinated polyphenyl, chlorinated polyethylene, diphenyl chloride, triphenyl chloride, pentachloride fatty acid ester, perchloropentacyclodecane, chlorinated naphthalene, and tetrachlorophthalic anhydride; antimony trioxide Antimony compounds such as antimony pentachloride; phosphorus compounds such as tricresyl phosphate, diphenyl cresyl phosphate, diphenyl octyl phosphate, phosphorus trichloride, phosphorus pentachloride, ammonium phosphate, ammonium polyphosphate; other zinc borate, Examples include inorganic compounds such as sodium borate.

The foaming agent produces an incombustible gas in the event of a fire, foams a carbonizing binder and the following carbonizing agent, and exhibits an effect of forming a carbonized heat insulating layer containing pores. Examples of the foaming agent include melamine and derivatives thereof, dicyandiamide and derivatives thereof, azodicarbonamide, urea and thiourea.

The carbonizing agent exhibits the effect of forming a thick carbonized heat insulating layer with excellent heat insulating properties by dehydrating and carbonizing itself with the carbonization of the resin due to a fire. Examples of the carbonizing agent include polyhydric alcohols such as pentaerythritol, dipentaerythritol, and trimethylolpropane; starch, casein and the like.

A filler exhibits the effect which improves the intensity | strength of a carbonization heat insulation layer and improves heat-resistant protection. Examples of the filler include silicates such as talc; carbonates such as calcium carbonate and sodium carbonate; metal oxides such as aluminum oxide, titanium dioxide, and zinc oxide; natural minerals such as clay, clay, shirasu, and mica. Is mentioned.

The ratio of each of the above components constituting the thermal expansion sheet 3a is about 200 to 600 parts by weight of the flame retardant, about 40 to 150 parts by weight of the foaming agent, and 40 to 150 parts by weight of the carbonizing agent with respect to 100 parts by weight of the thermoplastic resin. The filler may be about 50 to 160 parts by weight.

Further, a colorant can be used as a component constituting the thermal expansion sheet 3a. As the colorant, known color pigments, color dyes, and the like can be used. In addition to the above components, for example, reinforcing fibers, plasticizers, and the like can be used as appropriate.

Such a thermal expansion sheet 3a can be produced by molding a mixture of the above-described components by a known method. The thermal expansion sheet 3a may have a fiber sheet such as a known organic or inorganic woven fabric, nonwoven fabric, or mesh sheet, or a composite fiber sheet. The thickness of the thermal expansion sheet 3a may be appropriately set according to the performance of the sheet, the application site, etc., but is usually about 0.2 to 10 mm, preferably about 0.5 to 6 mm.

As the adhesive 2 for adhering the thermal expansion sheet 3a to the base material, a known adhesive or a commercially available product can be used. For example, a vinyl acetate adhesive, a urethane adhesive, an epoxy adhesive, an acrylic adhesive, Synthetic rubber adhesives, fiber base adhesives, etc. can be used.

  The waterproof layer 4 of the present invention is laminated on the surface of the thermal expansion layer 3 and is laminated so as to straddle the butt portion A of the thermal expansion sheet 3a. The waterproof layer 4 can enhance the waterproof property of the thermal expansion layer 3 and can impart design properties. In the present invention, a thermoplastic resin sheet is used as the waterproof layer 4. Thereby, also in the butt | matching part A of the said thermal expansion sheet 3a, the outstanding waterproofness can be exhibited.

As the thermoplastic resin sheet, known thermoplastic resin sheets or commercially available products can be used, for example, block copolymers such as polyolefins, polystyrene, acrylic, polyurethane, polyvinyl chloride, polyether, polybutadiene, styrene-isobutylene, etc. The resin sheet can be used.

The waterproof layer 4 is preferably provided with various hues and patterns, and may be provided with an uneven pattern. Thereby, the laminated body excellent in the designability can be obtained. Even if the substrate has unevenness such as unevenness, if the waterproof layer 4 has an uneven pattern, the uneven portion of the substrate becomes inconspicuous and the finish is excellent in aesthetics.
In particular, when the base material is a wooden member, it is preferable to laminate the waterproof layer 4 having a wood grain pattern. In addition, when the thermal expansion sheet 3a has designability (coloring or a pattern provided), the waterproof layer 4 can be made transparent.

The waterproof layer 4 is preferably laminated on the thermal expansion layer 3 via a known adhesive.
As a method for forming a laminate of the present invention, a thermal expansion layer 3 is formed in which a plurality of thermal expansion sheets 3 a are abutted and bonded to a base material 1 through an adhesive 2. Next, a method of laminating the waterproof layer 4 on the thermal expansion layer 3 so as to straddle the butted portion A of the thermal expansion sheet 3a through an adhesive may be mentioned.

  In the present invention, the waterproof layer 4 is laminated so as to straddle the butted portion of the thermal expansion sheet 3a. In the present invention, the waterproof layer 4 is laminated so as to straddle the butted portion of the thermal expansion sheet 3a, thereby preventing water from entering from the butted portion of the thermal expansion sheet 3a. As a result, stable heat resistance Protective properties can be demonstrated.

  Specific examples are shown below.

<Preparation of thermal expansion sheet>
(Thermal expansion sheet 1)
A pressure kneader in which a mixture containing 100 parts by weight of vinyl acetate / ethylene copolymer resin, 60 parts by weight of melamine, 60 parts by weight of dipentaerythritol, 300 parts by weight of ammonium polyphosphate, and 75 parts by weight of titanium oxide is set at a temperature of 120 ° C. The kneaded material for the thermal expansion layer was prepared by kneading with the above, and the kneaded material was laminated on the glass nonwoven fabric and processed into a sheet shape by a rolling roller to prepare a thermal expansion sheet 1 (450 mm × 1200 mm) having a film thickness of 1.5 mm. . (The thermally expandable sheet 1 is used after being cut into an arbitrary size.)

<Manufacture of laminates>
(Laminate 1)
An acrylic adhesive was applied with a thickness of 50 μm to a base material (wood: 450 mm × 450 mm × 15 mm), and two thermal expansion sheets 1 (450 mm × 225 mm) were abutted and adhered. Next, an acrylic adhesive is applied to the thermal expansion sheet 1 with a thickness of 50 μm, and a waterproof layer (a vinyl chloride sheet with a wood grain pattern, 450 mm × 450 mm) is laminated so as to straddle the butt portion A. The laminate 1 was obtained by drying at a temperature of 20 ° C. and a relative humidity of 65%. The laminate 1 has a design that is excellent in wood texture.

(Laminate 2)
An acrylic adhesive was applied with a thickness of 50 μm to a base material (wood: 450 mm × 450 mm × 15 mm), and two thermal expansion sheets 1 (450 mm × 225 mm) were abutted and adhered. Next, an acrylic adhesive is applied to the thermal expansion sheet 1 with a thickness of 50 μm, and two waterproof layers (a vinyl chloride sheet provided with a wood grain pattern, 450 mm × 225 mm) are butted and laminated at a temperature of 20 The laminate 2 was obtained by drying at a temperature of 65 ° C. and a relative humidity of 65% (FIG. 2).

(Heating test 1)
After injecting the flame for 10 minutes with the gas burner to the decorative layer (vinyl chloride sheet) side of the obtained laminated body, each expansibility was confirmed.
Both the laminated body 1 and the laminated body 2 had excellent expansibility, and a uniform carbonized layer could be formed.

(Waterproof test)
A clamp was attached to the decorative layer (vinyl chloride sheet) side of the obtained laminate so that water hits it, and water was sprayed on the decorative layer for 10 minutes, and then the state of the laminate was confirmed.
As a result, no abnormality was observed in the laminate 1. On the other hand, in the laminated body 2, infiltration of water was recognized in the vicinity of the butt portion.

(Heating test 2)
About the laminated body after a waterproof test, evaluation similar to the heat test 1 was implemented. As a result, the laminate 1 had excellent expandability and was able to form a uniform carbonized layer. On the other hand, the laminate 2 was slightly inferior to the laminate 1.

1. Base material 2. 2. Adhesive material Thermal expansion layer 3a. 3. Thermal expansion sheet Cosmetic layer A. Butt

Claims (3)

A thermal expansion layer is laminated on the base material via an adhesive, and a laminate in which a waterproof layer is further laminated on the surface of the thermal expansion layer,
The thermal expansion layer is a layer in which a plurality of thermal expansion sheets are abutted and bonded,
The thermal expansion sheet includes a thermoplastic resin, a flame retardant, a foaming agent, a carbonizing agent, and a filler,
The waterproof layer is a thermoplastic resin sheet, and is laminated so as to straddle the butted portion of the thermally expanded sheet.   The laminate according to claim 1, wherein the waterproof layer is provided with a wood grain pattern. The laminate according to claim 1, wherein the base material is a wooden member.

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