JPH05154956A - Plate-shaped composite - Google Patents

Abstract

PURPOSE:To make the usability or holdability of a fixing jig such as a nail or a bolt excellent in a plate-shaped composite consisting of a core material layer composed of synthetic resin foam and the FRP skin layer covering the layer. CONSTITUTION:At the positions where a fixing jig is used of core material layers 12 (12', 12'') composed of synthetic resin foam, reinforcing layers 13 (13', 13'') composed of a rigid material are provided in place of the foam and nailing properties are improved by the reinforcing layers 13 (13', 13'') and, for example, a fixing jig such as a nail can be used in the same way as in ordinary wood. A fixing jig attaching hole 19 is opened to each of the reinforcing layers 13 and a bush 20 is fitted in the hole 19 and further utilized to make it possible to attach this composite to other member 21 by a wood screw 22. Even when strong clamping force is applied in the thickness direction of the composite at this time, the composite is not deformed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plate-shaped composite formed of a core material layer made of synthetic resin foam and a skin layer made of a fiber reinforced synthetic resin (hereinafter referred to as "FRP") encapsulating the core material layer. Regarding the body

[0002]

2. Description of the Related Art Conventionally, a plate-shaped composite body in which a synthetic resin foam is used as a core material layer and a skin layer made of FRP is laminated on the surface (outer peripheral surface) of the core material layer by a hand lay-up molding method or the like. However, as a lightweight structural material, that is, a lightweight structural material, such as housing, civil engineering,
It is used in various industrial fields such as construction and transportation.

[0003] This plate-shaped composite body is made of a relatively hard synthetic resin foam as a core material to make the most of its lightness, and a skin layer made of FRP is laminated on the outer peripheral surface of the core material layer to synthesize it. It was developed with the aim of making up for the drawbacks of resin foam, such as poor mechanical strength such as tensile strength and bending strength.

[0004]

However, in the case of the above-mentioned conventional plate-like composite, by using FRP for the skin layer, the drawbacks of the core material layer having poor mechanical strength are considerably compensated. However, since the material constituting the core material layer is a material that can hardly be expected to have mechanical strength, a mere hard synthetic resin foam is used. Body, or when using this plate-shaped composite, for example, when using this plate-shaped composite as a wall material for a building, when fixing it to the inner wall pier by nailing or bolting In addition, due to the elasticity of the core material, the nailing performance is poor and it is difficult to drive, and even when fixing with bolts, if you tighten with a decent tightening force, the whole plate-shaped composite will be compressed and deformed due to the presence of foam. Or buckled and destroyed Even if somehow nails can be managed, the core layer does not have enough holding power to reliably grasp the nails that have been hammered in, so it is easy to fall off over time and its fixation There was also a problem that the effect could not be expected.

The present invention solves the above-mentioned drawbacks of the prior art, utilizes the light weight of a synthetic resin foam, and is excellent in the usability and retention of fixtures such as nails and bolts. It was made for the purpose of providing a complex.

[0006]

The present invention is a plate-shaped composite body comprising a core material layer made of synthetic resin foam and a skin layer made of FRP laminated on the core material layer. At the position where the tool is used, a reinforced composite layer made of a rigid material is used in place of the synthetic resin foam, and the gist is a plate-shaped composite body. A reinforcement layer is placed in advance where the tool is used to improve nailing performance, nail retention, etc., thereby improving workability and construction quality, and aiming at expanding applications. It is the essence.

The fixture referred to as the plate-shaped composite body of the present invention is a large-sized plate-shaped body formed by connecting a plurality of plate-shaped composite bodies to each other, or is attached to another member or subjected to other processing. Nail, screw nail, bolt / nut, rivet,
Washers, washer for fitting, etc. that are used as they are by combining them with a plate-shaped composite, as well as a vise temporarily used to fix the plate-shaped composite during processing, or a machine tool such as a drilling machine At this time, various stoppers used for fixing the plate-shaped composite body to a machine tool are also included.

As the material of the rigid material used for the reinforcing layer of the plate-shaped composite of the present invention, long fiber reinforced synthetic resin or long fiber reinforced synthetic resin foam is suitable, and the flexural modulus is 10
0 Kgf / mm ² or more, compression elastic modulus 30 Kgf / mm ²
It is desirable to have the above.

The synthetic resin referred to here is a prepolymer for producing a polyester resin, polyurethane, a mixture of polyisocyanate for producing a resin and a polyhydric alcohol,
Examples thereof include initial condensates of phenolic resins and urea resins. Further, these resins may be used alone, or may be used by appropriately mixing different kinds of resins. The synthetic resin may be used as a raw material, and an additive may be appropriately added to the synthetic resin to form a molding material. Further, in the case of forming a foam of these synthetic resins, among these resins, the urethane resin is foamed by itself. It does not require a foaming agent because it has properties, but in the case of other resins, it is necessary to add a foaming agent.

The long fiber used for reinforcement may be a filament formed by entwining short fibers, or may be a monofilament, which is essentially a continuous long fibrous material. I wish I had it. The material of the fibers may be inorganic fibers such as glass fibers and carbon fibers, organic fibers such as natural fibers, semi-synthetic fibers and synthetic fibers, among which glass fibers are suitable in all respects.

As a method for producing the reinforcing layer used in the present invention by using such synthetic resin or long fiber as a material, for example, long fibers are continuously aligned in one direction and transferred during the process. By submerging in a thermosetting resin liquid layer containing a foaming agent, adhere or impregnate the long fiber with the foaming resin liquid, then introduce this into the curing mold and use the pultrusion molding method. Heating and curing is generally and efficiently, but is not necessarily limited to this, and other methods such as reaction injection molding method and injection molding method can be adopted.

Even if the reinforcing layer obtained as described above is made of a foam, the foam having a closed cell structure is reinforced by the reinforcing fibers composed of long fibers, so that it is compared with a simple foam. The mechanical strength is not so high, and the rigidity, flexibility, directionality and the like of wood are provided.

The rigid material is not necessarily limited to the above-mentioned long fiber reinforced synthetic resin or its foam, but other natural wood, WPC (Wood Plastic Combi).
nation), thin metal tubes, nails, screws, bolts, nuts, etc. can be used.

In the core material layer of the plate-like composite of the present invention, as a material forming the core material layer other than the positions where the above-mentioned fasteners such as nails and screws are used, that is, the positions where the reinforcing layer is provided. Ordinary synthetic resin foam is used. As the resin at this time, all the same resins as those forming the above-mentioned reinforcing layer can be adopted, but it is preferable to select and use the same resin as the resin used for the reinforcing layer because It is preferable in terms. However, the resins are not necessarily the same, and any resin may be used as long as it is highly fusible to the resin forming the reinforcing layer. Specifically, a prepolymer for producing a polyester resin, a mixture of polyisocyanate and a polyhydric alcohol for producing a polyurethane resin, an initial condensate of a phenol resin, an initial condensate of a urea resin, and the like can be given. The material is a mixture of foaming agents and additives. This foam gives the core layer heat insulation and soundproofing properties.

Among the materials for forming the skin layer in the present invention, examples of the resin include thermosetting resins such as unsaturated polyester resin, epoxy resin, phenol resin and vinyl ester resin, and the reinforcing fiber. Examples thereof include roving of glass fiber, carbon fiber, organic fiber and the like, chopped strand mat, cross mat, lami mat and the like, and these rovings and mats can be used alone or in combination of both.

The most effective method for producing the composite material comprising the core layer, the reinforcing layer and the skin layer is the pultrusion method, and the pultrusion method is also used. When molding is adopted, it is possible to incorporate it in the molding process of the composite and directly connect it.

An example of the manufacturing method will be described below with reference to FIG. 2 by taking the case of molding the plate-shaped composite body shown in FIG. Two rigid members 2 and 2 (1 in the drawing) arranged at both left and right ends (both ends in the direction perpendicular to the paper surface in the drawing)
The synthetic resin foam 3 is placed between (only the book is visible), and both are simultaneously transferred as the core material 4 in the direction of the arrow and fed into the curing mold 9.

At this time, the contact surfaces of the rigid material 2 and the synthetic resin foam 3 may be adhered in advance by an appropriate method, but even if they are not adhered, the matrix resin forming the skin layer is intervened and cured. Since they are joined by, they do not separate.

On the other hand, while a large number of long fibers 6 made of glass fibers are fed from the bobbin 5 around them, they are passed through the liquid tank 7 of the matrix resin, and the long fibers 6, 6 ... Is adjusted by using an aligning device 8 or the like so that the long fibers are positioned on the outer peripheral surface of the plate-like body 4 with a substantially uniform thickness, and the long fibers are fed into a curing mold 9 to be cured and lengthened. The plate-shaped composite body 10 is continuously molded, taken by the take-up machine 11, and then cut into a regular size.

Thus, as shown in FIG. 1A, a core material layer 12 preferably made of a hard synthetic resin foam,
The plate-shaped composite of the present invention comprising a reinforcing layer 13 made of a long fiber reinforced synthetic resin foam disposed at both ends in the width direction, and a core layer 12 and a skin layer 14 covering the outer peripheral surfaces of the reinforcing layer 13. The body 15 is manufactured.

Thus, the most effective method is to laminate and integrate the core layer including the reinforcing layer and the skin layer by the pultrusion method.

[0022]

The plate-like composite of the present invention is a plate-like composite comprising a core material layer made of synthetic resin foam and a skin layer made of fiber reinforced synthetic resin laminated on the core material layer. A reinforcing layer made of a rigid material, not a synthetic resin foam, is provided at a place where the fixing tool is planned to be used, so that quality characteristics such as lightness are hardly sacrificed, and the composite body is further improved. Since the reinforcing layer is provided with the nailing property required for the use and processing of, and the foam does not damage, the construction work can be carried out without any trouble.

Further, even if a strong tightening force such as a fixing tool such as a vise or a bolt and a nut is applied to the reinforcing layer, the tightening force can be sufficiently endured. In addition, the fixture, which is once combined with the composite body such as nails that have been driven in, does not easily fall out over time, and sufficiently exhibits its original function over a long period of time.

[0024]

EXAMPLES Examples of the plate composite of the present invention will be described below. The plate-shaped composite of the present invention can be formed into various shapes according to its application. In the plate-shaped composite 15 shown in (a) of FIG. 1 described above, the reinforcing layer 13 has both ends of the plate-shaped composite. In the plate-shaped composite body 15 'shown in FIG. 6B, the reinforcing layer 13' is located in the central portion of the plate-shaped body. What is shown in (a) and (b) is the core layer 12 or 12 'and the reinforcing layer 13 or 1.
3'are in contact with each other and integrated. Also,
In the composite body 15 ″ shown in FIG. 3C, although the reinforcing layers 13 ″ are located at both ends of the plate-like body as in the example shown in FIG. The partition wall 16 integrally formed of the same material as 14 "is independent from the core layer 12".

Furthermore, FIG. 4D shows the left and right core material layers 1
7 and 17, a reinforcing layer 18 which is independent of the reinforcing layers 18 is provided, and a hole 19 for mounting a fixture is provided in the center of the reinforcing layer 18.
A metal bush 20 is fitted into the mounting hole 19, and the bush 20 can be used to fix the spigot 21 with a wood screw 22. With such a structure, the bush 20 allows
The force that opposes the tightening force of the wood screw 22 is greater than that of the reinforcing layer alone. Note that 23 is a washer.

In each of the above embodiments, the plate-like composite of the present invention has an example in which the front and back surfaces are flat. However, the plate-shaped composite may not necessarily be flat, and may be, for example, an uneven surface. Experimental example. Each of the plate-shaped composites shown in (a) to (c) of FIG.
Each was molded using the apparatus shown in FIG. The materials used at this time and the thickness of the obtained composite are as follows. ． Reinforcement layer Long glass fiber reinforced urethane resin long body,
Thickness = 25 mm (fiber content 30% by volume, expansion ratio 5
Times). ． Core layer A urethane foam elongate body with a thickness of 25 mm
(Daiwa Elastomer Co., Ltd., trade name; HUB-30 hard urethane board). ． Fiber reinforced synthetic resin layer Glass fiber reinforced unsaturated polyester resin, thickness = 2.5 mm. The material composition is as follows.

Resin: Isophthalic acid type unsaturated polyester resin (100 parts by weight) Curing agent: t-Butylperoxybenzoate (0.
5 parts by weight) Bis (4-t-butylcyclohexyl) peroxydicarbonate (1.0 parts by weight) Glass fiber; glass roving # 4450 continuous matte # 450 The weight ratio of roving and continuous matte is: Roving: Matt = 1: 1.6.

Then, the nailing property and the retaining property of each of the obtained composites were examined, and it was found that all of them had a performance equal to or higher than that of ordinary wood.

[0029]

The plate-shaped composite of the present invention has
A reinforcing layer made of a rigid material, not a synthetic resin foam, is provided at the place where the fixture is planned to be used.Therefore, no nailing or tacking work is required when using or processing the composite. It can be implemented without any problems. Further, even when a strong tightening force is exerted such as mounting a fixing tool such as a vise or fixing bolts and nuts, it can sufficiently withstand the tightening force.

Therefore, the composite can maintain its function without sacrificing its lightness, heat insulation, soundproofing, etc. and is excellent in workability and can be used with peace of mind.

Further, the fixtures such as nails and screws which have once been combined with the composite by the construction do not easily fall off, and the construction quality can be stabilized and homogenized. Furthermore, since the outer peripheral surface is covered with the fiber reinforced synthetic resin layer, it has excellent mechanical strength such as tensile strength and compression strength.

In general, the field of application adopted as a lightweight structural material is also expanded.

[Brief description of drawings]

1 (a) to 1 (c) are cross-sectional views showing various examples of the plate-shaped composite body of the present invention, and FIG. 1 (d) shows another example together with its usage mode. It is an expanded sectional view only of a part.

FIG. 2 is an explanatory view schematically showing an example of an apparatus for producing a plate-shaped composite body of the present invention.

[Explanation of symbols]

 12, 12 ', 12 ", 17; Core layer 13, 13', 13", 18; Reinforcing layer 14 14 ', 14 "; Skin layer 15, 15', 15"; Plate composite

Claims (1)

[Claims] 1. A plate-shaped composite comprising a core layer made of synthetic resin foam and a skin layer made of fiber reinforced synthetic resin laminated thereon, wherein a fixing tool is used in the core layer. A plate-shaped composite body, in which a reinforcing layer made of a rigid material is provided in place of the synthetic resin foam.