JP4358000B2 - Insulation board - Google Patents

Description

  The present invention relates to a board excellent in waterproofness and heat insulation used widely in various fields of construction and other industries, and more particularly to a phenol foam heat insulation board that can be used for external insulation of a concrete placing surface and a foundation.

Conventionally, as a heat insulating board widely used in construction and other various industrial fields, generally, a face material having adhesiveness, waterproofness, etc. is integrally attached to one side or both sides of a resin foam such as phenol foam. What is comprised by putting on and laminating | stacking is known.
And regarding such a heat insulation board etc., the heat insulation board with the structure illustrated by Unexamined-Japanese-Patent No. 63-162230 is known, for example. Japanese Laid-Open Patent Publication No. 63-162230 is configured as a face material obtained by laminating, for example, calcium silicate paper and a waterproof synthetic resin film in any order on one or both sides of a phenol foam resin foam. .

On the other hand, the applicant previously filed Japanese Patent Application No. 2003-281766 as an improvement of the technology. In Japanese Patent Application No. 2003-281766, a synthetic resin woven fabric or non-woven fabric in which a polymer latex is coated on one or both sides of a phenol foam layer is laminated with a polymer latex surface as an outer surface to impart waterproofness.
JP 63-162230 A

  However, the heat insulation board having the above configuration has the following problems. That is, when considering the use of the composite heat insulating material in Japanese Patent Application Laid-Open No. 63-162230 for a concrete placing surface, for example, a calcium silicate paper having good adhesion with concrete on the outer surface, a polyethylene film, It is necessary to laminate a synthetic resin film such as a polyvinyl chloride film on the phenol foam side. The use of a synthetic resin film as a phenol foam face material is excellent in water resistance, but the adhesive force between the synthetic resin film and the phenol foam is essentially small, and peeling at the interface is likely to occur. Even if the corona discharge treatment is performed on the surface of the synthetic resin film, the adhesive force is not improved so much and the interface peeling is likely to occur. On the other hand, if a small hole is provided on the film surface by simping, the adhesion will be improved and the occurrence of interfacial debonding will be eliminated, but the waterproof performance will be reduced. Permeation to the layer occurs, and a decrease in heat insulation performance becomes a problem.

  In Japanese Patent Application No. 2003-281766, the adhesive force between the synthetic resin woven fabric or nonwoven fabric and phenol foam is good, and the waterproof property is improved by coating the polymer latex on the synthetic resin fabric or nonwoven fabric. A process of drying and curing occurs, and a curing place for drying and an open time (curing time) are required. In addition, since the latex coated surface is the outer surface, there is a concern that the coated surfaces may be blocked during long-term storage or the like, and sufficient management and confirmation during use is required. Blocking refers to the phenomenon of adhesion between polymer latexes, and it is difficult to separate products at the time of construction, etc., due to the fusion of the products when they are placed on top of each other during product transportation or storage. This is a phenomenon in which peeling of the face material or damage to the coating film occurs when trying to perform, and blocking resistance is an important performance in order to exert the effect of the product.

  It is an object of the present invention to provide a novel technique that can impart adhesiveness and waterproofness in a phenol foam heat insulating board in a simpler process.

  The heat insulation board according to the present invention is an invention which has fundamentally improved the above-mentioned conventional problems. Claim 1 is a nonwoven fabric made of a synthetic resin via a hot melt layer on one side or both sides of a phenol foam board. Or it is the heat insulation board characterized by heat-welding a woven fabric. By melting the hot melt layer and bonding the phenol foam board and the synthetic resin nonwoven fabric or woven fabric, it is difficult for undulation to occur, and it is possible to prevent the occurrence of floating and wrinkles at the bonding interface, and the adhesion is improved. In addition, it has excellent adhesive strength. Moreover, sufficient waterproofness and corrosion resistance can be obtained by forming a film with the hot melt. In addition, since the synthetic resin nonwoven fabric or woven fabric is used as the outer surface, there is no need to worry about blocking during storage or transportation.

Phenol foam is superior in heat resistance compared to other plastic insulation materials such as polystyrene, polyethylene, urethane, etc., and there is almost no effect on practical performance such as heat insulation by thermal welding, and phenol foam is the first hot melt adhesive. Is possible.
The synthetic resin non-woven fabric or woven fabric used in the present invention is a synthetic resin fiber woven fabric and a synthetic resin fiber that are tangled flat. The hot-melt layer can be simplified in the next process by applying it to the face material in advance, and mass production is easy. Therefore, the manufacturing process is simple and the product can be provided at low cost.

The heat insulation is characterized in that the synthetic resin nonwoven fabric or woven fabric is thermally welded to one side or both sides of the phenol foam board provided with the synthetic resin nonwoven fabric or woven fabric through a hot melt layer. It is a board. In this case, a heat insulating board in which a synthetic resin face material of woven fabric or nonwoven fabric is integrally formed on both sides of a known phenol foam can be used. Since the face materials are already laminated, a high adhesive force can be obtained, and at the same time, the face materials are doubled, so that there is a reinforcing effect against scratches during construction.
Although there is no restriction | limiting in particular about the component of the synthetic resin face material of a woven fabric or a nonwoven fabric, The polyester or polypropylene woven fabric or nonwoven fabric is suitable at the point of economical efficiency and heat resistance. The same applies to the basis weight of the woven or non-woven fabric, but 10 to 100 g / m ² is preferable from the viewpoint of strength during handling and economy.

  As the phenol foam of the present invention, one obtained by adding a surfactant, a foaming agent, and a catalyst to a phenol resin, mixing, and heat-curing and curing can be used. Although there is no restriction | limiting in particular about the phenol resin used as a raw material of the phenol foam of this invention, It is suitable for the resol type phenol resin produced by extrusion continuously. As the surfactant, a nonionic surfactant is usually used. For example, a silicone-based surfactant such as polydimethylsiloxane, a block copolymer of ethylene oxide and propylene oxide, a condensate of alkylene oxide and nonylphenol, an alkylphenol such as dodecylphenol, a condensate of alkylene oxide and castor oil, Fatty acid esters such as polyoxyethylene fatty acid esters are used. Examples of blowing agents include HFCs such as difluoromethane (HFC32), 1,1,1,2-tetrafluoroethane (HFC134a), 1,1-difluoroethane (HFC152a), 1-chloro-1,1 difluoroethane (HCFC142b) Etc., hydrocarbons such as normal butane, isobutane, normal pentane, cyclopentane, isopentane, carbon dioxide gas, etc. are used. As the catalyst, acidic compounds such as inorganic acids and organic acids are used, and aromatic sulfonic acids such as toluenesulfonic acid, xylenesulfonic acid, and phenolsulfonic acid are preferably used. As a curing aid, resorcinol, cresol, o-methylolphenol, p-methylolphenol or the like can be added. Furthermore, a curing catalyst and a curing aid can be diluted with a solvent such as diethylene glycol.

  The hot melt layer may be either one side or both sides of the phenol foam board, but in order to suppress moisture permeation to the phenol foam, if only one side is in contact with water, if both sides are in contact with water It is necessary to provide on both sides. For example, when used for external heat insulation of the foundation, since one surface is in contact with concrete and the other surface is in contact with the soil, it is necessary to provide a hot melt layer on both surfaces and heat weld a nonwoven fabric or woven fabric.

  Hereinafter, it demonstrates with drawing. FIG. 1 shows an example of a heat insulating board of the present invention in which a synthetic resin nonwoven fabric or woven fabric 2 is thermally welded to both sides of a phenol foam board 1 via a hot melt layer 3. FIG. 2 shows an example of the present invention in which a synthetic resin nonwoven fabric or woven fabric 2 is thermally welded to both sides of a phenolic foam board 1 provided with a synthetic resin nonwoven fabric or woven fabric on both sides via a hot melt layer 3. is there. FIG. 3 shows a heat insulating board in which a synthetic resin non-woven fabric or woven fabric 2 is thermally welded via a hot melt layer 3 to a phenol foam board 1 provided with a synthetic resin non-woven fabric or woven fabric on one side. FIG. 3 is a cross-sectional view showing a state in which the concrete 4 is placed on the hot melt side, the concrete 4 is poured into the hot melt side, the concrete is hardened, the mold is removed, and the concrete and the heat insulating board of the present invention are integrated. The face material 7 is appropriately selected from a soft face material or a hard face material. Of course, a synthetic resin nonwoven fabric or woven fabric 2 may be used.

  FIG. 4 shows a cross section when used for heat insulation outside the foundation. A heat insulation board in which a synthetic resin nonwoven fabric or woven fabric 2 is thermally welded via a hot melt layer 3 is installed on the inside of the formwork on a phenolic foam board 1 provided with a synthetic resin nonwoven fabric or woven fabric on both sides. In addition, after the concrete 4 is poured and the concrete is hardened, the formwork is removed, the concrete 4 and the heat insulating board of the present invention are integrated, and the foundation portion opposite to the concrete is backfilled, The portion of the heat-insulating board of the present invention that is visible above the ground surface is in a state where the surface is plastered with mortar 6. The heat insulation board of this invention is used suitably for the external heat insulation of such a concrete placing surface and a foundation part.

The heat-insulating board according to claim 1 is such that a non-woven fabric or a woven fabric made of a synthetic resin is thermally welded to one side or both sides of a phenol foam board via a hot melt layer, so that undulation is difficult to occur, and floating at an adhesive interface. Wrinkles can be prevented, adhesion is improved, and adhesive strength is excellent. Moreover, sufficient waterproofness and corrosion resistance can be obtained by forming a film with the hot melt. Furthermore, since the hot melt layer is applied to the face material in advance, the next process can be simplified and mass production is easy. Therefore, the manufacturing process is simple and the product can be provided at low cost.
Moreover, since the high adhesive force with concrete can be ensured without performing the surface coating treatment of the synthetic resin non-woven fabric or woven fabric, the blocking problem which is a concern at the time of packaging or construction can be solved.

  In addition to the effects described in claim 1, the heat insulation board according to claim 2 can be a heat insulation board integrally molded with a known phenol foam and a synthetic resin face material of woven fabric or non-woven fabric. Since the face materials are laminated, a high adhesive force can be obtained, and at the same time, the face materials are doubled, so that there is a reinforcing effect against scratches and the like during construction.

  The heat insulation board of the present invention can be suitably used in various industrial fields such as architecture.

The example of this invention heat insulation board which heat-seal | bonded the synthetic resin nonwoven fabric or woven fabric through the hot-melt layer on both surfaces of the phenol foam board. An example of the heat insulation board of the present invention in which a synthetic resin nonwoven fabric or woven fabric is thermally welded to both sides of a phenolic foam board provided with a synthetic resin nonwoven fabric or woven fabric on both sides via a hot melt layer. It is sectional drawing at the time of applying the heat insulation board of this invention to a concrete placement method. It is sectional drawing at the time of applying the heat insulation board of this invention to a concrete placing method, a non-foundation heat insulation method, and mortar finishing.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Phenolic foam 2 ... Synthetic resin woven fabric or nonwoven fabric 3 ... Hot melt layer 4 ... Concrete 5 ... Soil 6 ... Mortar 7 ... Other face materials

Claims (2)

  A heat insulating board characterized in that a synthetic resin non-woven fabric or woven fabric is thermally welded to one side or both sides of a phenol foam board via a hot melt layer.   A heat insulating board characterized in that a synthetic resin nonwoven fabric or woven fabric is thermally welded to one or both sides of a phenol foam board provided with a synthetic resin nonwoven fabric or woven fabric through a hot melt layer.

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