JPH0574664B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a method of insulating and waterproofing the roof of a building, etc., and a heat insulating board used in the method.

[Conventional technology] The method that has been used for a long time to insulate and waterproof concrete flat roofs is to melt and pour blown asphalt at around 270 degrees Celsius on top of concrete roofs, and then lay insulation boards on top of it. Then, blown asphalt is melted and poured again on top of that, and one side of a long sheet of asphalt felt is pasted on top of it.

This insulation and waterproofing method creates a poor working environment due to the foul odor of smoke generated when blown asphalt is melted at high temperatures and the carcinogenic substances contained in the smoke.
Also, the workability or workability is extremely poor.

Therefore, as an improvement to this insulation and waterproofing method, a heat insulating board made of hard urethane foam, etc. is glued onto the concrete roof, and an asphalt sheet coated with adhesive on one side is placed on top of the board. The release paper is peeled off and pasted, and on top of that, one side of a long waterproof asphalt sheet made of modified asphalt, whose durability has been improved by adding a modifier made of synthetic resin to asphalt, is melted with a torch. A pasting method is being used.

[Problem that the invention seeks to solve]

The improved construction method described above has improved the working environment compared to the old construction method, but since insulation boards made of foamed polyurethane are not fire-resistant or heat-resistant, it is not possible to directly melt-bond modified asphalt sheets to them using a torch. , it is necessary to first glue an asphalt sheet on top of the insulation board and then melt-bond a waterproof asphalt sheet on top of it, which does not sufficiently reduce the number of construction steps on site.

Furthermore, since the heat insulating board and the asphalt sheet are bonded together using an adhesive, the bonding strength is low and there is a risk of poor adhesion.

Therefore, the present invention provides an insulating board that can directly melt-bond a waterproof asphalt sheet onto a heat-insulating board with a torch, and that can achieve high-strength melt-bonding, and an easy-to-implement heat-insulating and waterproofing method using the same. The purpose is to

[Means for solving problems]

In order to achieve the above object, the inventors of the present invention have conducted intensive research and found that a heat-resistant board made of a heat-resistant board made of rock wool or the like is integrally molded with a heat-insulating board made of foamed rigid polyurethane resin or the like on one side of the board and bonded to the heat-resistant board. If you use a heat insulating board and stick the heat resistant insulating board on concrete with the heat resistant board side facing out, you can directly melt and bond a waterproof asphalt sheet on top of it with a torch. By drilling a large number of small holes on the surface of the board, asphalt will enter the holes when melt-bonding the waterproof asphalt sheet, and the anchor effect will firmly bond the heat-resistant insulation board and the asphalt layer above it. This discovery led to the completion of the present invention.

That is, in the present invention, a large number of anchor holes made of blind holes or transparent holes are bored on one side of a heat-resistant board such as a rock wool board, and a heat insulating hole made of a foamed synthetic resin such as a foamed rigid polyurethane resin is formed on the other side of the heat-resistant board. The gist is a heat-resistant insulation board for torch construction, which is made by joining boards together.

Another aspect of the present invention is a heat insulation and waterproof construction method in which a heat insulation board is pasted on the concrete surface to be heat-insulated and waterproofed, such as a concrete roof, and a waterproof asphalt sheet is pasted thereon. The heat-resistant board with the anchor holes is placed on the outside using an adhesive, and one side of the waterproof asphalt sheet is continuously melted using a torch.
Immediately pressing the surface of the molten waterproof asphalt sheet against the heat-resistant board surface, the molten asphalt penetrates into the anchor hole to form an anchor, and the waterproof asphalt sheet is firmly joined to the heat-resistant board. The main point is the insulation and waterproofing method.

Next, the content of the present invention will be explained in detail with reference to the drawings. FIG. 1 is a sectional view of an example of a heat-resistant insulation board for torch construction according to the present invention. 1 is a heat-resistant board made of heat-resistant heat insulating material such as rock wool, and an anchor hole 2 consisting of a thin blind hole is formed on the entire top surface of the board.
A large number of holes are drilled at regular intervals. Heat resistant board 1
A heat insulating board 3 made of a rigid foamed synthetic resin such as a rigid foamed polyurethane resin is integrally bonded to the lower surface of the housing.

The heat-resistant board 1 is preferably formed by molding mineral fibers such as rock wool into a plate shape using a synthetic resin binder or the like. Although any hard foamed synthetic resin can be used as the material for the heat insulating board 3, foams of thermosetting resins such as polyurethane resin, phenol resin, urea resin, etc. are preferably used, and thermoplastic resins can also be used. Of course, perforated,
Non-porous boards are preferred.

The heat-resistant board 1 and the heat-insulating board 3 are preferably joined together by foam-molding a foamed rigid polyurethane resin or the like on the heat-resistant board 1 and joining them together at the same time as the foam-molding.

The size of the anchor hole 2 is not particularly limited, but preferably has a diameter of 0.5 to 3 mm and a depth of 2 to 10 mm.
The distance between the anchor holes 2 is not particularly limited, but is preferably 10 to 30 mm in order to exhibit sufficient bonding force due to the anchor effect. In addition, when integrally molding foamed rigid polyurethane resin etc. to the heat-resistant board 1 with the anchor holes 2 drilled therein, the anchor holes 2 are blind holes that do not penetrate into the surface to which the insulation board 3 is to be joined, so that the resin does not enter the anchor holes 2. However, there is no such restriction if the anchor hole 2 is bored after the insulation board 3 is joined.

The thickness of the heat-resistant board 1 is such that when an asphalt sheet is melt-bonded on the heat-resistant board 1 using a torch method, the heat is transmitted to the foamed rigid polyurethane resin, etc. below, and the resin is not damaged. It is sufficient to have a thickness of 2 to 30 mm. The thickness of the heat insulating board 3 made of foamed rigid polyurethane resin or the like is determined by the heat insulating performance required of the roofing material, etc., and is in the range of 10 to 100 mm. The surface layer of the heat-resistant board 1 made of rock wool or the like of the present invention can be impregnated with an inorganic binder or an inorganic coating agent made of water glass or the like.

In order to carry out heat insulation and waterproof construction on a roof, etc. using the heat resistant board for the torch construction method of the present invention, as shown in FIG. The heat insulating board is glued with the heat resistant board 1 facing up. The adhesive used is the one used in ordinary roof insulation and waterproofing methods, and epoxy-based, urethane-based, synthetic rubber-based adhesives, etc. are used.

The upper surface of the heat-resistant insulation board for the torch method bonded in this way consists of a heat-resistant board 1 with a large number of anchor holes 2, and on top of that is a well-known waterproofing board made of a long modified asphalt wound in a roll. While unwinding the asphalt sheet 4 as shown in FIG. Crimp the top surface of the

[Effect]

According to the heat-resistant insulation board for the torch construction method of the present invention, one side of the heat-resistant board has high heat resistance and fire resistance, and a waterproof asphalt sheet 4 is directly bonded thereon by the torch construction method while being melted with a torch 6. There is no need to attach an asphalt sheet with an adhesive coated on one side on top of the insulation board, unlike conventional construction methods.

When a partially melted waterproof asphalt sheet 4 is pressed onto the numerous anchor holes 2 drilled on the surface of the heat-resistant board 1, the melted asphalt penetrates into the anchor holes 2, forming anchors, and waterproofing. The bond between the asphalt sheet 4 and the heat-resistant board 1 is extremely strengthened. In conventional construction methods,
The bonding strength between the asphalt sheet and the insulation board is insufficient, and the moisture that has entered between them evaporates at high temperatures, causing the asphalt sheet and the underlying insulation board to separate, causing blisters on the surface asphalt sheet. Although this often occurs, in the construction method of the present invention, the waterproof asphalt sheet 4 and the heat-resistant board 1 are firmly joined by the anchor holes 2, and the heat-resistant board 1, such as rock wool, has breathability, and when the moisture that has entered vaporizes. Since it is easily released, there is no risk of blistering occurring in the waterproof asphalt sheet 4. When the surface layer of the heat-resistant board 1 made of rock wool or the like is impregnated with an inorganic binder or an inorganic coating agent made of water glass, etc., the heat resistance of the heat-resistant board 1 is improved, and the adhesive strength between the waterproof asphalt sheet 4 and the heat-resistant board 1 by the torch construction method is improved. is strengthened, and the water resistance of the heat-resistant board 1 is improved.

〔Effect of the invention〕

According to the heat insulation waterproof construction method using the heat-resistant insulation board for torch construction method of the present invention, the number of construction steps at the site is reduced and construction becomes easy. The amount of asphalt used is reduced, and the weight of the insulation waterproof layer is reduced.

Since the bonding strength between the waterproof asphalt sheet 4 and the heat-resistant board 1 underneath it is extremely high due to the anchor effect, and the bonding strength between the heat-resistant board 1 and the heat-insulating board 3 is also high, the durability of the constructed heat-insulating waterproof layer is greatly improved. In particular, there is no possibility that the waterproof asphalt sheet 4 will swell.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of a heat-resistant insulation board for torch construction according to the present invention, and FIG. 2 is a cross-sectional view illustrating a heat-insulating waterproof construction method using the heat-resistant insulation board for torch construction according to the present invention. 1...Heat-resistant board, 2...Anchor hole, 3
...Insulation board, 4...Waterproof asphalt sheet, 5...Roll, 6...Torch, 7...Concrete, 8...Adhesive.

Claims (1)

[Claims] 1. A number of anchor holes made of blind holes or transparent holes are bored on one side of a heat-resistant board such as a rock wool board, and a foamed synthetic resin such as a foamed rigid polyurethane resin is formed on the other side of the heat-resistant board. A heat-resistant insulation board for the torch method, which is made by joining two insulation boards together. 2. In a heat-insulating waterproof construction method in which a heat-insulating board is pasted on the concrete surface to be heat-insulated and waterproofed, such as a concrete roof, and a waterproof asphalt sheet is pasted on top of the heat-insulating board, claim 1 is applied to the concrete surface.
The heat-resistant insulation board for the torch method described above is adhered using an adhesive with the heat-resistant board side with the anchor hole facing outward, and one side of the waterproof asphalt sheet is continuously melted with a torch, and the waterproof asphalt sheet is immediately melted. A heat insulating and waterproof construction method characterized by pressing the surface of an asphalt sheet against the surface of the heat-resistant board, allowing molten asphalt to penetrate into the anchor hole to form an anchor, and firmly joining the waterproof asphalt sheet to the heat-resistant board. .