JPS6340051A - External heat insulating roof structure - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an externally insulated roof structure for flat roofs, gently sloped roofs, and the like.

[Problems to be solved by the prior art and the invention] Development of external insulation structures to save energy and improve livability of buildings;
Implementation is increasing. The applicant previously developed a structure for attaching a heat insulating composite block to the flat roof of a concrete building to prevent it from being blown away by the wind, as shown in Japanese Utility Model Application No. 58-17434 and Japanese Utility Model Application No. 58-17435. These are constructed by attaching each insulation composite block using fasteners that have clamping plates on the top and bottom.

By the way, when concrete land M roots are cast-in-place concrete, uneven conditions often occur. Therefore, in the case of installation using fasteners, the unevenness will appear as it is on the top surface of the composite block, and
The composite block rattles, and water accumulates partially on the composite block, and this retained water gradually penetrates into the insulation material, reducing the insulation performance, and water splashes when walking on the roof. Furthermore, installation using a stopper requires a considerable amount of time and effort.

This invention was developed to solve the above problems.

[Means for solving problems]

This invention consists of a composite block consisting of a synthetic resin foam board and mortar, in which recesses are formed at the four corners of the lower surface of the synthetic resin foam board, and an adhesive material heaped up in bulk at predetermined intervals on the surface of the roof substratum. While laying the composite blocks side by side, the adhesive material is inserted into the recesses on the lower surface of the synthetic resin foam board, and adjacent recesses are connected to each other with the adhesive material, thereby forming a uniform heat insulating layer on the roof top surface as a whole. It has an externally insulated structure. The details will be explained below with reference to illustrated embodiments.

〔Example〕

FIG. 1 shows a cross section of an externally insulated roof according to the present invention.

The composite block A has a synthetic resin foam board 1 as a lower layer and a mortar 2 as an upper layer, which are integrated together.
Recesses 3 are formed at the four corners of the lower surface.

The roof 4 is made of a reinforced concrete slab provided with a waterproof layer 5. On the upper surface of the slab, adhesive material 6 is piled up in a bulky shape, that is, in the shape of a dumpling, and composite blocks A are pressed and arranged on top of the adhesive material 6, and synthetic resin foam boards are placed on top of the reinforced concrete slab. Adhesive material 6 is inserted into the recess 3 on the lower surface of 1, and the adjacent recesses 3, 3
They are connected to each other using an adhesive material. As a result, even if the top surface of the roof 4 is uneven, the bulky adhesive material 6 is deformed and a gap is created between the roof 4 and the composite block 7, so that the top surface of the composite block 7 is uniformly flush with the roof top surface as a whole. It forms a heat insulating layer. Note that it is also possible to apply the adhesive material 6 to the composite blocks A in advance and then lay them out.

Various embodiments of the composite block 7 are shown in FIGS. 2 and below.

Note that it is also possible to apply the adhesive material 6 to the composite blocks A in advance and then lay them out.

The width and length of this composite block are 450 mm, the thickness of the mortar board is fiber-strength cement mortar board, asbestos board, and other inorganic molded boards, and the thickness is 15 mm.
The single layer synthetic resin foam board is made of polystyrene, polyvinyl chloride, etc. and has a thickness of about 25 to 50 mm.

In Figures 2 and 3, the recess 3 has an arcuate dovetail shape a;
8-15, b; 10-25, C; b+10-25, d;
40 to 70 (unit crane).

In FIGS. 4 and 5, the outside of the dovetail-shaped recess 3 is open, a; 8 to 15, b; 40 to 70, c; b+5.
~10 (unit: l).

In Figures 6 and 7, the recess 3 has a circular dovetail shape, a;
~20, b; 10~3L c; b+5~15 (unit R
).

The bump-like adhesive material is an epoxy resin adhesive, in which a room temperature curing aliphatic or aromatic amine curing agent, or a polyacid curing agent is added to the basic epoxy resin. In addition, powdered fibers and the like are mixed as a filler. Other urethane resin adhesives can be used.

The bulky adhesive has a thickness of 3 to 30 m and a diameter of 40 m.
Apply it to about 50mm and press it to make the diameter 60~1
It will be about 20n.

〔Effect of the invention〕

This invention has the above-mentioned configuration, and since the adhesive material is piled up in a bulky manner on the top surface of the roof, even if the roof surface is uneven, the top surface of the composite block can be easily made flat by pressing the composite block. Can be pasted. Furthermore, there are recesses in the corners of the composite blocks, where the adhesive material enters and is anchored.Furthermore, the adhesive material acts as a connecting material between adjacent composite blocks, so the composite blocks are also connected to each other, so that they can be blown away by the wind. The fear disappears.

[Brief explanation of drawings]

FIG. 1 is a sectional view of a roof according to the invention, and FIGS. 2, 3, 4, 5, 6, and 7 are side and back views of a composite block. A: Synthetic block, 1: Synthetic resin foam board, 2: Mortar, 3: Recess, 4: Roof, 5 ...Waterproof layer, 6...
...adhesive material. Procedural amendment 1. Patent Application No. 181569 of 1961, filed by the owner of the patent, ``Insulated roof structure outside the name of the invention'', Haiyan name of the person making the amendment, J. Patent applicant's name: Dow Kako Co., Ltd. 4, Agent Address ■Shadow Akasaka 5, 6-5-21 Akasaka, Minato-ku, Tokyo 107, Date of amendment order Self-amendment Particulars 10 Insulated roof structure outside the title of the invention 2, Claims Lower layer synthetic resin foam board and upper layer The composite block is made of a composite block in which the mortar board is integrated with the synthetic resin foam board, and recesses are formed in the four corners of the lower surface of the synthetic resin foam board, and an adhesive material is heaped up in a bulky manner at predetermined intervals on the upper surface of the M root. While laying the composite blocks side by side, the adhesive material is inserted into the recesses on the lower surface of the synthetic resin foam board, and the adjacent recesses are connected to each other with the adhesive material, so that the upper surface of the composite blocks is uniform on the roof surface as a whole. An externally insulated roof structure characterized by forming a heat insulating layer. 3. Detailed Description of the Invention [Field of Industrial Application] This invention relates to an externally insulated roof structure for flat roofs, gently sloped roofs, and the like. [Problems to be solved by the prior art and the invention] Development and implementation of external heat insulation structures are increasing. The applicant first developed a structure for attaching heat insulating composite blocks to the flat roof of a concrete building to prevent them from being blown away by the wind.
We have developed systems shown in Japanese Utility Model Publication No. 434 and Japanese Utility Model Application Publication No. 58-17435, in which each heat-insulating composite block is attached using fasteners having upper and lower clamping plates. However, when concrete flat roofs are made of cast-in-place concrete, uneven surfaces often occur. Therefore, in the case of installation using fasteners, the unevenness will appear as it is on the top surface of the composite block, and
The composite blocks may wobble, water may partially collect on the roof under the composite block, and water may splash when walking on the roof, or this water may gradually seep into the concrete flat roof. Furthermore, installation using clasps requires less time and effort for construction. This invention was developed to solve the above-mentioned problems. This invention uses a synthetic resin foam board in a composite block consisting of a synthetic resin foam board and mortar. It consists of a material with recesses formed in the four corners of the lower surface, and an adhesive material heaped up in a bulky manner at predetermined intervals on the surface of the roof base.The composite blocks are laid out on top of the adhesive material, and the recesses in the lower surface of the synthetic resin foam board are filled with the adhesive material. This is an external heat insulation structure in which an adhesive material is inserted and adjacent recesses are connected to each other with the adhesive material to form a uniform heat insulation layer on the roof surface as a whole.The details will be explained below with reference to illustrated examples. [Example] Fig. 1 shows a cross section of an externally insulated roof according to the present invention.A composite block A has a synthetic resin foam board 1 as a lower layer and mortar 2 as an upper layer, and is made of synthetic resin. Resin foam board 1
Recesses 3 are formed at the four corners of the lower surface. The roof 4 is made of a reinforced concrete slab provided with a waterproof layer 5, and adhesive material 6 is heaped up on its upper surface at predetermined intervals in the shape of a bulge, that is, a dango shape, and the composite blocks A are pressed and arranged on top of the reinforced concrete slab. , the adhesive material 6 is inserted into the recess 3 on the lower surface of the synthetic resin foam board 1, and the adjacent recess 3.3
They are connected to each other using an adhesive material. As a result, even if the top surface of the roof 4 is uneven, the bulky adhesive material 6 deforms and a gap is created between the roof 4 and the composite block A, so that the top surface of each composite block A is the same as the top surface of other blocks on the roof top surface as a whole. It forms a uniform heat insulating layer that forms a surface. Note that it is also possible to apply the adhesive material 6 to the composite blocks A in advance and then lay them out. Various embodiments of composite block A are shown in FIGS. 2 and below. This composite block is rjl, length is 450 mm, thickness is mortar board is fiber strength cement mortar board, asbestos board,
Other inorganic molded boards are resistant to human walking, with a thickness of 15 mm, and synthetic resin foam boards are polystyrene-based, polyvinyl chloride-based, such as Styrofoam "trade name, manufactured by Dow Kako ■", and have a thickness of 25 to 5011 mm. degree. The shape of the recess 3 is an arcuate dovetail shape in FIGS. 2 and 3;
8-15, b; 10-25, C; b+10-25, d;
40 to 70 (unit: mm). In FIGS. 4 and 5, the outer side of the dovetail-shaped recess 3 is open, and a; 8 to 15, b: 40 to 70, and c; b+5.
~10 (single)
~20, b; 10~30, c; b+5~15 (unit dragon). The bump-like adhesive material is an epoxy resin adhesive, in which a room temperature curing aliphatic or aromatic amine curing agent, or a polyacid curing agent is added to the basic epoxy resin. In addition, powdered fibers and the like are mixed as a filler. Other urethane resin adhesives can be used. The size of the bulky adhesive is 3 to 30 mm thick and 40 mm in diameter.
When applied to a length of ~50m and crushed, the diameter is 60~12
It will be about 0 degrees. [Effects of the Invention] This invention has the above-mentioned configuration, and since the adhesive material is piled up in a bulky manner on the top surface of the roof, even if the roof surface is uneven, the top surface of the composite block can be made flat by pressing the composite block. It can be easily pasted. Moreover, the composite blocks have recesses at the corners, where the adhesive material enters and is anchored.Furthermore, the adhesive material acts as a connecting material between adjacent composite blocks, so the composite blocks are also connected to each other and can be blown away by the wind. The fear disappears. 4. Brief description of the drawings Figure 1 is a sectional view of the roof according to the present invention, Figures 2, 3, 4, 5, 6 and 7 are side views and back sides of the composite block. It is a diagram. A... Composite block, 1... Synthetic resin foam board, 2... Mortar, 3... Recess, 4... Roof, 5 ...Waterproof layer, 6...
...adhesive material. 1st addition

Claims (1)

[Claims] A composite block in which a lower synthetic resin foam board and an upper mortar board are integrated, and concave portions are formed in the four corners of the lower surface of the synthetic resin foam board, and a composite block that is made bulky at predetermined intervals on the upper surface of the roof is bonded. The composite blocks are laid out side by side, the adhesive material is inserted into the recesses on the lower surface of the synthetic resin foam board, and the adjacent recesses are connected to each other with the adhesive material, so that the composite blocks are placed on the upper surface of the roof as a whole. An externally insulated roof structure characterized by forming a uniform heat insulating layer so that the top surface is on the same plane.