JPS6113305Y2 - - Google Patents

Description

[Detailed description of the invention] This invention is a hard synthetic resin that has excellent moisture and waterproof properties, has excellent adhesion to the substrate, is easy to use when manufacturing hard synthetic resin foam insulation boards, and has less warpage in the manufactured insulation boards. This invention relates to a surface material for resin foam insulation boards.

BACKGROUND ART Conventionally, hard synthetic resin foam insulation boards using hard synthetic resin foam as a core material have been widely used because they are lightweight, have high strength, and have high heat insulation properties.

However, the hard synthetic resin foam used as the core material itself has moisture absorption and moisture permeability, although only slightly, so when constructing a synthetic resin foam insulation board, it was necessary to form a moisture-proof and waterproof layer. .
Conventionally, this moisture-proof and waterproof layer was mainly formed from a polyolefin-based synthetic resin film. However, on the other hand, the surface does not absorb moisture and is inert, so adhesives, especially synthetic resins with water-based adhesives such as cement adhesives, gypsum adhesives, and water glass adhesives. It was impossible to bond foam insulation boards together or to adhere them to other building materials or building frames, and it was also possible to bond them together with concrete when pouring concrete. Therefore, the conventional rigid synthetic resin foam heat insulating board provided with a moisture-proof and waterproof layer has been subject to severe limitations in its usage.

In order to improve the disadvantages of the moisture-proof and waterproof surface material of the conventional rigid synthetic resin foam insulation board, we developed the
As disclosed in No. 54-171493, a surface material was developed in which asbestos paper and a flexible sheet were adhered with an adhesive, and a moisture-proof synthetic resin film was adhesively laminated on the surface of the flexible sheet. It was done.

However, the surface material disclosed in Utility Model Application Publication No. 54-171493 has kraft paper interposed as a reinforcing material between the asbestos paper and the moisture-proof synthetic resin film, so the tensile strength of the surface material is high, and the long surface While stretching the material, the foamable synthetic resin raw material is applied onto the surface material, and while it is foamed, it is suitable for obtaining a heat insulating board with the surface material adhered to it. There were major drawbacks such as dimensional changes in the kraft paper and delamination of the kraft paper due to absorbed moisture.

In addition, in order to solve the problem of delamination, a surface material made by laminating only asbestos paper and moisture-proof synthetic resin film without using kraft paper was used, but since there was no reinforcing material, the tensile strength was low. , it was unsuitable for continuous production of insulation boards. Furthermore, a surface material in which nonwoven fabric was used as a bonding layer instead of asbestos paper, and kraft paper and moisture-proof synthetic resin film were sequentially adhesively laminated was used, but although it had high tensile strength and could withstand continuous production of insulation boards, it As expected, the kraft paper had a major drawback of moisture absorption and delamination due to water absorption.

The present invention eliminates all of the drawbacks of these conventional surface materials for hard synthetic resin foam insulation boards, and is not only highly moisture-proof and waterproof, but also does not warp.
It provides a surface material that has excellent adhesion to concrete, mortar, plaster, etc., has high tensile strength, and is suitable for the continuous production of hard synthetic resin foam insulation boards.

That is, the surface material 1 for a hard synthetic resin foam insulation board of the present invention is a surface material used when a hard synthetic resin foam raw material is applied onto the surface material and foamed to continuously produce a hard synthetic resin foam insulation board. It is made by adhesively laminating a moisture-proof synthetic resin film with the entire nonwoven fabric embedded on one side of asbestos paper containing 50% or more asbestos. Asbestos paper 2 has a basis weight of 80
A lightweight material of g/m ³ or more is sufficient, and the pulp content is
Preferably, the content is 10% or less. Pulp content is 10%
If the temperature exceeds the above, if concrete, mortar, plaster, etc. are applied to the asbestos paper 2 side, or if a water-based adhesive is used, it will easily absorb moisture and cause expansion and contraction, so it cannot be used as a surface material for the insulation board. This is undesirable as it causes the insulation board to warp. Also, the basis weight
If it is less than 80 g/m ² , the strength of the asbestos paper is so low that it may break during processing or cause the heat insulating board to warp, which is not preferable. In order to improve strength and reduce warpage, it is preferable to have a basis weight of 100 g/m ³ or more.

The nonwoven fabric 3 is preferably lightweight and coarse-grained with a basis weight of 50 g/m ² or less, so that the moisture-proof synthetic resin film 4 can sufficiently penetrate into the holes of the nonwoven fabric 3 and the nonwoven fabric 3 can be easily embedded and integrated into the film 4. . As the nonwoven fabric 3, a synthetic fiber nonwoven fabric or a nonwoven fabric mixed with glass or synthetic fibers can be used.

As the moisture-proof synthetic resin film 4, any material can be used as long as it has moisture-proof properties, such as polyethylene film, polypropylene film, polyvinylidene chloride film, and polyester film.
Among these, polyethylene film, which has good adhesiveness to synthetic resin foams, is preferred. The thickness of the moisture-proof synthetic resin film 4 is 15 to 80 μm, preferably 25 to 40 μm.
It is m.

The moisture-proof synthetic resin film 4 and the nonwoven fabric 3 must be integrated so that the nonwoven fabric 3 is substantially buried in the moisture-proof synthetic resin film 4. The surface of the heat insulating board of the moisture-proof synthetic resin film 4 in contact with the hard synthetic resin foam core material 5 is a synthetic resin surface with no exposed nonwoven fabric 3, but when the foamable synthetic resin raw material is applied onto this surface, This is preferable in terms of coating uniformity and prevention of seepage, and also increases the permeation resistance value against moisture, but even if the nonwoven fabric 3 is slightly exposed, there is practically no change, and it can be used for practical purposes.

As shown in FIG. 4, the surface material 1 of the present invention is produced by moving a long asbestos paper 2, abutting a softened synthetic resin film 4 extruded from an extruder 6 on the surface, and then applying a nonwoven fabric 3 to the surface. The nonwoven fabric 3 is embedded in the softened synthetic resin film 4 by coming into contact with the synthetic resin film 4 and press-bonding them, and the softened synthetic resin film 4 is adhesively laminated integrally with the asbestos paper 2. Further, as shown in FIG. 5, a surface material having the same structure can also be obtained by abutting a nonwoven fabric 3 on an asbestos paper 2, and then abutting a softened synthetic resin film 4 thereon and press-bonding the same. Further, in order to obtain a higher moisture-proofing effect, a moisture-proof layer such as polyethylene may be provided in advance on the surface on which the nonwoven fabric of asbestos paper and the moisture-proof layer are laminated. Although the surface material 1 of the present invention can be easily obtained in this way, it is not limited to the surface material 1 obtained by these manufacturing methods.

In the surface material 1 of the present invention, a foamable synthetic resin raw material is applied to the moisture-proof synthetic resin film 4 side and foamed to form a hard synthetic resin foam core material 5. As the foam core material 5, hard urethane foam, hard isocyanurate foam, hard epoxy foam, phenol foam, urea resin foam, etc. can be used.

A hard synthetic resin foam insulation board using the surface material 1 of the present invention is made by adhesively laminating the surface material 1 of the present invention on one surface of a hard synthetic resin foam core material 5, as shown in Fig. 2, and on the other surface. It can also be used by laminating the surface material 7 with adhesive as appropriate depending on the purpose. Appropriate surface materials 7 include gypsum boards, asbestos slate boards, calcium silicate boards, perlite boards, inorganic boards such as metal plates such as iron plates and aluminum plates, wallpapers made of plastic, wallpapers made of fibers, etc. Commonly used decorative sheets such as , wood board, leather, and various fabrics can be used. In the case of the usage example shown in Figure 2, the concrete that will form the walls, ceiling, and floor of the building is poured directly onto the surface material 1 side of the hard synthetic resin foam insulation board, and as the concrete hardens, it adheres to the surface of the building frame. can do. Alternatively, the surface of the building frame may be coated with cement, and the material may be brought into contact with the cement and bonded as the cement hardens. Of course, precast concrete and plywood,
It can also be bonded to preformed building frame surfaces, such as baseboards, using commonly used adhesives. In the above case, the surface material 7 may be used as it is for the interior of the building.

In addition, when finishing the interior with hardening inorganic materials such as concrete, cement, and plaster,
As shown in FIG. 3, a heat insulating board in which the surface material 1 of the present invention is adhesively laminated on both sides of a hard synthetic resin foam core material 5 with asbestos paper 2 on the outside is suitable. After bonding the heat insulating board to the building frame in the same manner as in the previous example, a hardening inorganic substance can be applied to the surface material 1 appearing on the inside of the building to give a surface finish.

The surface material of the present invention is characterized by particularly high tensile strength. This is because the nonwoven fabric embedded and integrated into the moisture-proof synthetic resin film adhered to one surface of the asbestos paper 2 has an effective reinforcing effect. Furthermore, dimensional changes in the surface material due to external heat, moisture, etc. are small, and dimensional stability is good.

Therefore, the surface material of the present invention is extremely suitable for continuously manufacturing rigid synthetic resin foam insulation boards by moving a long surface material while pulling it, applying a foamable synthetic resin raw material onto the surface material, and foaming it. It is suitable and can be manufactured efficiently without cutting the surface material during manufacturing.Also, it does not stretch even when the surface material is stretched, so the surface material of the heat insulating board to which the surface material is adhesively laminated can be easily manufactured by the tension during the manufacturing process. Since there is no residual restoring force due to elongation and the dimensional stability is good, the heat insulating board is extremely difficult to warp.

Furthermore, the surface material of the present invention is a two-layer adhesive laminate of asbestos paper and a moisture-proof synthetic resin film in which a nonwoven fabric is embedded, and since there is no kraft paper involved, there is no possibility of delamination between the layers due to moisture absorption.

As described above, the surface material of the present invention is easy to handle and can be manufactured efficiently when manufacturing hard synthetic resin foam insulation boards using it, and hard synthetic resin foam insulation boards using this material are less likely to warp and can be used on concrete. It has excellent adhesion to mortar, plaster, etc., making it effective.

〔Example〕

Weight per area: 100g containing 74% asbestos and 10% pulp
By the method shown in Fig. 4 or Fig. 5, a 30μ thick extrusion lamination of asbestos paper of 25 g/m ² , a polyester nonwoven fabric with a basis weight of 25 g/m ² obtained by the spunbond method, and polyethylene is made. A surface material was obtained by adhesive lamination. The nonwoven fabric was fully embedded in the polyethylene film.
This surface material had a tensile strength of 7.8 kg/15 mm width and a moisture permeability of 0.9 g/m ² hr, and was sufficiently durable for continuous tensile production.

[Comparative example]

Contains 76% asbestos and 5% pulp, basis weight 180g/
Polyethylene was extruded and laminated to a thickness of 30μ on one side of a m ² asbestos paper to obtain a surface material. The tensile strength of this surface material is 4.3Kg/15mm
The width and moisture permeability are 0.4 g/m ² hr, and when we used this material for continuous tension manufacturing of insulation boards, it was very easy to cut, and the warpage of the product could be corrected by adjusting the tension of the top and bottom materials. It was difficult to obtain a stable product without warping.

[Brief explanation of the drawing]

Figure 1 is a cross-sectional view of the surface material of the present invention, Figures 2 and 3 are explanatory diagrams of a heat insulating board using the surface material, and Figure 4 is a cross-sectional view of the surface material of the present invention.
FIG. 5 is an explanatory diagram of manufacturing the surface material. 1... Surface material, 2... Asbestos paper, 3... Nonwoven fabric,
4... Moisture-proof synthetic resin film, 5... Hard synthetic resin foam core material.

Claims (1)

[Scope of utility model registration request] In the surface material used when continuously manufacturing hard synthetic resin foam insulation boards by coating and foaming raw materials for hard synthetic resin foam on the surface material, non-woven fabric is coated on one side of asbestos paper containing 50% or more asbestos. A surface material for hard synthetic resin foam insulation boards made by adhesively laminating moisture-proof synthetic resin films that are completely buried.