JPH0996022A - Roof lightweight heat-insulating block and roof heat-insulating structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate the execution of works by combining an inorganic material plate having a corrugated shape and an inorganic material plate having a flat shape to mold a lightweight heat-insulating block and laying the lightweight heat-insulating block on a slab on a roof. SOLUTION: An inorganic material plate consisting of an asbestos slate having a corrugated shape and an inorganic material plate 1 composed of an asbestos-cloth surface having a flat shape and a calcium silicate board are combined to mold a roof lightweight heat-insulating block. A waterproof sheet 6 is laid on concrete slabs 5 on a roof, and cushioning asphalt-impregnated synthetic-resin foams 10 are fixed onto the waterproof sheet 6. The lightweight heat-insulating blocks are laid on the synthetic-resin foams 10 and joining sections are connected by H-shaped joiners 9, and the peripheral sections of the blocks are held by end blocks 8 with opening sections. Accordingly, weight is lightened, and load-resistant performance can be improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dry type lightweight insulation block for rooftops for laying out a composite lightweight block having excellent heat insulation properties prefabricated on a rooftop concrete slab for heat insulation, and a rooftop insulation structure using the same. Regarding

[0002]

2. Description of the Related Art Conventionally, as a heat insulation method for rooftop concrete slabs, a synthetic resin-based waterproof sheet for preventing the entry of rainwater is pasted, and a paint that reflects the sun's rays well is applied on it to insulate it. A method of constructing an insulating concrete layer by placing concrete with excellent heat insulation properties such as perlite concrete on the waterproof sheet and then forming a heat insulating concrete layer on the waterproof sheet. , A method of laying a block of the above, a method of laying a heat insulating board made of synthetic resin on a waterproof sheet, and laying a heat insulating block made of concrete on it have been proposed.

[0003]

However, it has been found that the above-mentioned construction method has the following problems when actually constructed.
In other words, the construction method can be expected to have a heat insulating effect due to the reflection of sunlight immediately after applying the reflective paint, but the heat insulating effect is small,
When the paint ages, the reflection effect cannot be expected. In this method, the characteristics of the completed heat-insulating concrete layer are good, but concrete must be pumped up on the roof in order to place concrete at the site, and since the work is plastering, it requires skill and rain Construction is difficult at times, and concrete requires a great number of days to harden. In addition, since the layer of concrete is thick, the weight of the building is too high, and the strength of the concrete slab must be increased, which causes a cost increase.

Since the construction method (1) is a dry construction method, the workability is good, and there is also a point that the problem that has been solved has been solved, but since the heat insulating block is made of concrete, it is heavy and the strength of the concrete slab is increased. There is a problem in that it is necessary to increase the cost, and at the same time it is difficult to transport the heat insulating block.

[0005]

The present invention has been made under such various circumstances, and an object of the present invention is to reduce the weight of the heat insulating block and to exceed the load resistance performance of the heat insulating block made of concrete. And to provide a lightweight rooftop heat insulating block that is easy to install even if not a skilled worker. Still another object of the present invention is to provide a rooftop heat insulating structure having excellent heat insulating performance and load bearing performance and having a small weight.

[0006] The gist of the present invention is (1) a lightweight rooftop heat insulating block obtained by combining an inorganic material plate having a corrugated shape and an inorganic material plate having a flat shape, and (2) an inorganic material plate having a corrugated shape. The rooftop lightweight heat insulating block according to (1) above, wherein the corrugated portion is filled with a heat insulating material,

(3) A waterproof sheet is provided on the concrete slab, and the lightweight rooftop heat insulating block described in (1) or (2) is laid on the waterproof sheet. Peripheral members of the block discharge ventilation and rainwater. The roof insulation structure is characterized by being held by an end block having an opening for allowing the end block to be fixed to the waterproof sheet with a mortar mixed with a synthetic resin.

Further, in the above-described lightweight insulation block for rooftop and rooftop insulation structure, (4) the lightweight insulation for rooftop according to (1) or (2) above, wherein the inorganic material plate is asbestos slate or asbestos cement calcium silicate plate. block,
(5) For the rooftop described in (1), (2), or (4) above, which has a weight per square meter (m ² ) of 30 kg or less and a central concentrated load performance per square meter (m ² ) of 500 kg or more. The lightweight heat insulating block, (6) The inorganic material plate having a flat shape has a rubble stone-like or brick-like embossed surface, as described in (1), (2), (4) or (5) above. Lightweight insulation block for rooftop, and

(7) A waterproof sheet is provided on the concrete slab, and the lightweight rooftop heat insulating block described in (4), (5) or (6) is laid on the waterproof sheet, and the peripheral members of the block are ventilated. And a roof heat insulating structure, which is held by an end block having an opening for letting out rainwater, and the end block is fixed to the waterproof sheet by a mortar mixed with a synthetic resin.

The present invention will be described in detail below. The corrugated inorganic material plate preferably has a shape similar to that of the corrugated asbestos slate defined in JIS A 5403-1989. A heat insulating block that combines an inorganic material plate with a corrugated shape similar to corrugated asbestos slate and an inorganic material plate with a flat shape is a corrugated shape of the lower part when a load is applied to the inorganic material plate with a flat shape. It is possible to disperse the load along the parts, which results in high load bearing performance. In addition, since this heat insulating block has a corrugated shape on one side, it forms a wider air heat insulating layer than concrete blocks, and the air heat insulating layers of a plurality of spread heat insulating blocks are continuous heat insulating layers. As a result, the movement of air is facilitated and the heat insulation is further improved. Furthermore, since a continuous air insulating layer that allows ventilation can eliminate the difference in wind pressure between the upper and lower surfaces of the heat insulating block and prevent the heat insulating block from rising due to wind pressure, it can be installed without using an anchor. We were able to simplify and speed up.

Due to the structure, the continuous air insulating layer capable of ventilation is 2
Although there are some places, in order to improve the heat insulating property, an inorganic heat insulating material is filled in an air heat insulating layer portion formed of a corrugated inorganic material plate and a flat inorganic material plate. As inorganic heat insulating materials, for example, mineral fiber materials such as rock wool and glass wool, lightweight materials made by heating and foaming pearlite, trachyte and black olivine, and generally used as heat insulating materials such as foamed pebbles Use what is done. Also,
As the organic heat insulating material, polystyrene, polyethylene, polyurethane, and other foams generally used as a heat insulating material are preferable.

The corrugated inorganic material plate or flat inorganic material plate used in the present invention is asbestos slate (JIS A 5403-198).
9), asbestos cement calcium silicate board (JIS A
5418-1989), wood wool cement board (JIS A
5404-1993), asbestos cement perlite board (J
IS A 5413-1989), pulp cement board (JIS A 5414-1988), wood chip cement board (JIS A 5417-1992), asbestos cement siding (JIS A 5422-1993), asbestos slate / wood wool cement composite board (JIS) A 5426
-1989) and slag / gypsum cement board (J
IS A 5429-1983) is preferred.

As the corrugated inorganic material plate, asbestos slate and asbestos cement siding are particularly preferable in that they are readily available because a large number of products having suitable shapes are already on the market.

In the case of using an inorganic material plate having a high water absorption property, a water repellent material such as a silicone-based or fatty acid-based material is kneaded or applied as necessary in order to suppress the strength reduction due to water absorption. Further, in order to improve the aesthetic appearance, an inorganic material plate having a rubble-like or brick-like embossed pattern on the surface may be used in place of the inorganic material plate having a flat shape, and the aesthetic appearance is further improved by a coating treatment. Is also good.

The corrugated inorganic material plate and the flat inorganic material plate are bonded by using an adhesive or fixed by screws to form a composite. The adhesive is preferably an epoxy adhesive that does not require a sealer treatment, and the screw can be a drilling screw generally used in ceramic building materials.

Since the lightweight rooftop heat insulating block of the present invention adopts the constitution of the invention as described above, the weight per square meter (m ² ) is about 20 kg, which is one of the conventional products.
It can be reduced from / 2 to about 1/3, and even if it is lightweight, it is about 50 per square meter (m ² ) like the conventional product.
It is possible to obtain a central concentrated load performance of 0 kg or more. In addition, this lightweight rooftop insulation block has a high heat insulation effect, and since it does not generate negative pressure on the bottom surface of the heat insulation block in strong winds, it has excellent wind resistance, and since it is made into blocks, it can be spread on the rooftop. Good and does not require special construction techniques.

[0017]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG. 1 is a perspective view showing an embodiment of the rooftop lightweight heat insulating block, and FIG. 2 is a perspective view showing an embodiment of the rooftop heat insulating structure of the present invention. In FIG. 1, asbestos slate (JIS A 5403) is used as the corrugated inorganic material plate 2.
-1989) and a flat inorganic material plate 1
Asbestos cement calcium silicate board (JIS A
5418-1989), an epoxy adhesive is applied to the top of a corrugated asbestos cement calcium silicate board, and a flat asbestos cement calcium silicate board is fixed on top of the fixing screw 3 And jointed together. After joining, an appropriate amount of styrofoam heat insulating material 4 was filled in the cavity.

A rooftop heat insulating structure shown in FIG. 2 was manufactured using such a lightweight rooftop heat insulating block. That is, a waterproof sheet 6 is laid on a concrete slab 5 on the roof, and a cushioning asphalt-impregnated synthetic resin foam 10 (asphalt-impregnated urethane foam) is cut into short zigzags and spaced apart to form a rooftop. It was fastened with double-sided tape so that it was perpendicular to the corrugated portion of the lightweight insulation block. The above-mentioned lightweight rooftop heat insulating block was laid on this, and the joints were connected via an aluminum H-shaped joiner 9. The aluminum H-type joiner 9 was attached to the rooftop lightweight insulation block using an adhesive.

The peripheral members of the rooftop lightweight insulation block were constructed by using an end block 8 having an opening fixed to a waterproof sheet 6 using a resin-mixed mortar 7 mixed with a vinyl acetate emulsion resin liquid. End block 8
Has an opening for ventilation and outflow of rainwater,
In addition, it has a notch for fixing the lightweight rooftop insulation block.

[0020]

EFFECTS OF THE INVENTION Since the lightweight roof heat insulating block of the present invention is a composite of a corrugated inorganic material plate and a flat inorganic material plate, the weight thereof is 1/100 times that of the conventional heat insulating block. Even when the weight is reduced to 2 to 1/3, the load bearing performance is good, the heat insulating effect is high, and since the negative pressure is not generated on the lower surface of the heat insulating block when the wind is strong, the wind resistance is also excellent. Furthermore, because it is made into blocks, it is enough to lay it on the roof and construction is easy. Since the rooftop heat insulating structure of the present invention is manufactured using such a heat insulating block, it has good heat insulating properties and load resistance, and reduces the burden of weight on the building or the concrete slab.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of a lightweight rooftop heat insulating block according to the present invention.

FIG. 2 is a perspective view showing an embodiment of the rooftop heat insulating structure of the present invention.

[Explanation of symbols]

 1 Inorganic material plate having a flat shape 2 Inorganic material plate having a corrugated shape 3 Fixing screw 4 Heat insulating material 5 Concrete slab 6 Waterproof sheet 7 Mortar mixed with resin 8 End block 9 Aluminum H-joiner 10 Asphalt impregnated synthetic resin foam

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Tetsuro Kurashi 8-1 Goi Minamikaigan, Ichihara City, Chiba Ube Industries Ltd. Chiba Petrochemical Factory (72) Inventor Toru Adachi 8 Goi Minamikaigan, Ichihara City, Chiba Prefecture 1 Ube Industries, Ltd. Chiba Petrochemical Factory (72) Inventor Hideo Uchiyama Okiyama Oki, Ube City, Yamaguchi Prefecture 1988-1 Ubeboard Co., Ltd. (72) Naoyuki Hirotsu Okuyama Oki, Ube City, Yamaguchi Prefecture 1988 -1 Ubeboard Co., Ltd. (72) Inventor Hiroyuki Kawamura Obeyama, Ogushi, Ube, Yamaguchi Prefecture 1988-1 Ubeboard Co., Ltd.

Claims (3)

[Claims] 1. A lightweight heat insulating block for a roof made of a composite of a corrugated inorganic material plate and a flat inorganic material plate. 2. The lightweight rooftop heat insulating block according to claim 1, wherein the corrugated portion of the corrugated inorganic material plate is filled with a heat insulating material. 3. A waterproof sheet is provided on a concrete slab, on which the lightweight rooftop heat insulating block according to claim 1 or 2 is laid, and peripheral members of the block are openings for letting out ventilation and rainwater. A roof insulation structure, characterized in that the roof block is held by an end block having a section, and the end block is fixed to the waterproof sheet with a mortar mixed with a synthetic resin.