JP2021143470A - Slate repair material and slate repair structure - Google Patents

Abstract

To provide a repair material for easily repairing a slate roof having heat shield action, while suppressing cost, and a slate repair structure.SOLUTION: A slate repair material is formed by laminating a raw material 11 having high reflectance against radiation heat, a heat bonding film 12, a chemical fiber sheet 13 like nonwoven fabric or glass, a heat bonding film 14, a raw material 15 having high reflectance against radiation heat, and a scattering reflecting layer 16. The raw material 11 having high reflectance against radiation heat and the raw material 15 having high reflectance against radiation heat have thicknesses enough to keep a shape when subjected to bending molding.SELECTED DRAWING: Figure 1

Description

The present invention relates to a slate repair material and a slate repair structure that enable durability improvement, energy saving, or zero energy snow melting by being installed on the outdoor side of a slate roof or an outer wall used in a factory or a warehouse building. be.

Many existing slate roofing materials and exterior wall materials contain asbestos, and it may require enormous costs to replace the roof and exterior walls. For this reason, many buildings are left unattended even though the roof has deteriorated and rain leaks have occurred.
As a method of repairing the existing slate roofing material, a so-called cover method is applied in which a new metal roof is installed so as to cover the upper side of the slate roofing material.

The cover method is as follows.
Fix the corrugated slate roofing material to the frame member (main building girder) of the building Install and fix the saddle member etc. on the hook bolt, place and fix the metal roofing material on the saddle member, and place and fix the metal roofing material above the corrugated slate roofing material. (See, for example, Patent Document 1).
Since this cover method is configured so that the saddle member (support member) supports the underside of the metal roofing material, it is essential to install and fix the saddle member to each of the many hook bolts provided on the corrugated slate roofing material. ..

Japanese Unexamined Patent Publication No. 2002-155601

Many of the buildings that use slate roofs are old, and in the event of a leak, they are often deteriorated to the point where it is difficult for a person to repair them.
In addition, most of these slate roofs are constructed using asbestos, and enormous costs are required to repair them in accordance with laws and regulations. As a result, buildings with many slate roofs remain untouched.

In addition, as the climate warms rapidly, it is common to install heat shields on the indoor side of the main building when trying to construct heat shields as a measure against heat and energy saving. The environment, etc. could be improved, but the durability of the roof, etc. could not be improved.
Furthermore, it is possible to cover the slate roof by installing a metal roofing material using galvalume steel plate (registered trademark) on the upper side of the slate roof, but such a cover method has become popular due to the high construction cost. Not reached.

The most important point in repairing slate roofs and outer walls is whether long-term life can be extended.
As for the existing slate roofing material and outer wall material, the slate material itself that forms them has deteriorated, so if it is repaired using galvalume steel plate (registered trademark) etc., it is possible to avoid outdoor wind and rain. , It is difficult to have sufficient resistance to earthquakes.
Further, when the slate material is hardened with a resin or the like, the resin is easily deteriorated by ultraviolet rays, so that it is difficult to ensure the long-term durability of the slate material.

When repairing by the above-mentioned slate roof covering method, if, for example, galvalume steel plate (registered trademark) is used as a metal roofing material in order to improve the durability of the roof, the construction cost becomes high.
In addition, the deteriorated slate roof deteriorates even after the metal roofing material is installed, and in the event of an earthquake or the like, it may be damaged and fall to the ground. That is, since it is difficult to achieve a drastic extension of the roof life by renovating the slate roof with a metal roofing material or the like, there are very few buildings actually constructed.

The present invention has been made to solve these problems, and provides a slate repair material and a slate repair structure having a heat-shielding effect while easily repairing a slate roof or the like while suppressing costs.

The slate repair material according to the present invention is arranged above the first material having a high reflectance to radiant heat, the first heat welding film arranged above the first material, and above the first heat welding film. High reflectance to radiant heat arranged above the non-woven or glass-based chemical fiber sheet, the second heat-welded film placed above the non-woven or glass-based chemical fiber sheet, and the second heat-welded film. The second material and the diffused reflection layer made of a highly transparent resin that transmits radiant heat containing a coloring pigment that diffusely reflects sunlight, which is arranged on the surface of the second material, are adhered and laminated, and the first material is laminated. The material and the second material have a thickness that maintains the shape when bent and molded along the outdoor side surface of the existing slate roofing material that constitutes the slate roof or the outdoor side surface of the outer wall material that constitutes the outer wall. To have.

Further, in the slate repair material, the first material and the second material are made of aluminum foil having a thickness of 20 to 50 [μm].

Further, in the slate repair material, an insulating layer made of a highly permeable resin that transmits radiant heat so that the first material does not come into direct contact with the existing slate roofing material or the outer wall material on the lower surface of the first material. Is laminated.

Further, in the slate repair structure according to the present invention, the slate repair material is integrally molded by connecting the slate repair material from the slate roof ridge to the eaves or from the eaves of the outer wall to the ground surface to form the existing slate roof material. When the slate repair material is installed on the outdoor side surface or on the outdoor side surface of the outer wall material constituting the outer wall, the slate repair material has the corrugated unevenness of the existing slate roofing material, or the outer wall material constituting the outer wall has. The corrugated unevenness formed on the slate repair material is fitted to the corrugated unevenness, and the slate repair material is brought into close contact with the existing slate roofing material.

Further, in the slate repair structure according to the present invention, when the slate repair material is installed on an existing slate roofing material constituting the slate roof so that the diffused reflection layer is located on the outer surface, the existing slate repair material is used. The end portion of the slate roofing material protruding from the underwater end portion is bent and fixed so as to be wrapped around the roof side of the slate roof.

According to the present invention, the cost can be suppressed and the slate roof or the like can be provided with long-term durability and can be provided with a heat-shielding action.

It is sectional drawing which shows the structure of the slate repair material by embodiment of this invention. It is explanatory drawing which shows the state which installed the slate repair material of FIG. 1 on the existing corrugated slate roofing material. It is explanatory drawing which shows a part of the state in which the slate repair material of FIG. 1 is installed on the existing slate roofing material. It is explanatory drawing which shows the slate repair structure using the slate repair material by embodiment of this invention. It is explanatory drawing which shows the state which installed the slate repair material of FIG. 1 on the existing slate roofing material.

Hereinafter, embodiments of the present invention will be described.
FIG. 1 is a cross-sectional view showing the configuration of the slate repair material 1 according to the embodiment of the present invention.
The slate repair material 1 is formed into, for example, a sheet having bendability that can be bent so as to wrap the end portion of the roofing material.

The sheet-shaped slate repair material 1 is, for example, an insulating layer 10 made of a highly permeable resin that transmits radiant heat to insulate the slate roof (existing slate roofing material 2 described later) when installed on a slate roof or the like. Material 11 (first material) with high reflectance to radiant heat such as aluminum foil provided with the insulating layer 10 on the lower surface (surface facing the existing slate roofing material 2), high reflectance to radiant heat such as aluminum foil The heat-welded film 12 (first heat-welded film) arranged on the upper side of the material 11 of the above, the non-woven or glass or the like chemical fiber sheet 13 arranged on the upper side of the heat-welded film 12, and the upper side of the non-woven fabric or the glass or the like chemical fiber sheet 13. For radiant heat such as the heat-welded film 14 (second heat-welded film) arranged in, the material 15 (second material) having a high reflectance to radiant heat such as aluminum foil arranged on the upper side of the heat-welded film 14, and the aluminum foil. On the other hand, seven layers of diffusely reflective layers 16 formed of a highly transparent resin that transmits radiant heat containing a coloring pigment that reflects sunlight and are arranged on the upper surface of the material 15 having high reflectance are laminated. Has been done. Further, the above 7 layers are formed in close contact with each other (for example, so that a gas layer is not formed between the layers).

FIG. 2 is an explanatory view showing a state in which the slate repair material 1 of FIG. 1 is installed on the existing corrugated slate roofing material 2. This figure shows a cross-sectional configuration when a state in which a corrugated slate repair material 1 is installed on an existing corrugated slate roofing material 2 is viewed from the side.
Since the slate repair material 1 is configured as a seven-layer structure as described above, it has sufficient mechanical strength and, for example, has the property of maintaining its shape after being bent into a corrugated shape or an L shape described later. I have.

For example, when the slate repair material 1 is installed on the corrugated existing slate roofing material 2 as shown in FIG. 2, the slate repair material 1 is previously fitted (adhered) to the corrugated uneven shape of the existing slate roofing material 2. It is bent and molded into an appropriate size shape (corrugated uneven shape) so that it can be carried out, and brought to the construction site.
After that, at the construction site, for example, using an adhesive or double-sided tape 3, the corrugated uneven shape of the slate repair material 1 is fitted into the corrugated uneven shape of the upper surface (the surface facing the sun) of the existing slate roofing material 2. The slate repair material 1 is placed and fixed in combination.
At this time, an adhesive or double-sided tape 3 is applied (or affixed) to the surface of the insulating layer 10 of the slate repair material 1, the surface of the existing slate roofing material 2, or both sides thereof, and the existing slate roofing material is applied. The slate repair material 1 is brought into close contact with the slate repair material 1 so as not to create a gap or the like.

As shown in FIG. 1, the slate repair material 1 includes materials 11 and 15 having high reflectance to radiant heat such as two-layer aluminum foil, and also comprises a non-woven fabric or a chemical fiber sheet 13 such as glass as a core material. It is provided, and mechanical strength is ensured by configuring each of these layers with a sufficient thickness.
Further, as described above, the materials 11 and 15 having high reflectance against radiant heat such as a plurality of aluminum foils are laminated to increase the rigidity of the slate repair material 1 so that the laminated structure does not collapse. ..
The slate repair material 1 is waterproof. For example, when the slate repair material 1 is installed on the existing slate roofing material 2 as shown in FIG. 2, rainwater or the like falling from above in the figure is the existing slate roofing material. It is configured so that it does not progress (penetrate) to the 2 side.

FIG. 3 is an explanatory view showing a part of a state in which the slate repair material 1 of FIG. 1 is installed on the existing slate roofing material 4.
Generally, the slate roof is formed by using a plurality of existing slate roofing materials 4, and two adjacent existing slate roofing materials 4 are installed so that the connecting portions overlap each other. As shown in FIG. 3, a step is formed in this connecting portion.
When the slate repair material 1 is placed in close contact with a plurality of existing slate roofing materials 4 having steps, a gap 20 is formed between the existing slate roofing material 4 and the slate repair material 1 at the above connecting portion.
As described above, the slate repair material 1 includes materials 11 and 15 having high reflectance to radiant heat such as two layers of aluminum foil, and also includes a non-woven fabric or a chemical fiber sheet 13 such as glass as a core material, and each layer. By configuring the above with a sufficient thickness, after installing / fixing the slate repair material 1 on the existing slate roofing material 4, the mechanical structure will not be damaged even if a person is placed above the portion where the gap 20 is generated. It has strength.

The slate repair material 1 is formed from a flat plate into a corrugated plate shape using, for example, a corrugated processing machine or the like. Therefore, the slate repair material 1 can be manufactured with an arbitrary length, and can be manufactured as a long material having corrugated irregularities. Therefore, for example, it is possible to integrally mold from the ridge of the one-sided roof to the eaves. That is, by using the integrally molded slate repair material 1, it is possible to omit the work of connecting the small molded slate repair material or the like at the site where the construction is to be performed, and the slate repair to the existing slate roofing material 2 or the like. The work of installing the material 1 can be simplified.

As the corrugated processing machine or the like for forming the slate repair material 1, for example, a corrugated processing machine or the like used for manufacturing (molding) the existing slate roofing material 2 can be used.
Since the slate repair material 1 is much softer than the existing slate roofing material 2 and the like, the corrugated processing machine and the like used for forming the slate repair material 1 may be inexpensively configured, and the slate repair material 1 may be constructed at low cost. The cost required for molding can be suppressed.

Materials 11 and 15 with high reflectance to radiant heat such as aluminum foil have a high reflectance of 95 to 98 [%], so if they are installed outdoors, sunlight may be reflected and damage the human eye. It can also cause aviation problems.
Therefore, the slate repair material 1 is provided with a diffused reflection layer 16 on the surface of the material 15 having a high reflectance with respect to radiant heat such as aluminum foil located on the side facing the sun to diffusely reflect sunlight. The diffuse reflection layer 16 is formed by using a highly transmissive resin that transmits radiant heat and contains a coloring pigment or the like that reflects sunlight.
Further, by providing the diffuse reflection layer 16 on the surface of the material 15 having a high reflectance with respect to radiant heat, the resistance performance with respect to acid resistance and alkali resistance, which is a weak point of the material 15 having a high reflectance with respect to radiant heat such as aluminum foil. Even when the slate repair material 1 is installed outdoors, corrosion is sufficiently suppressed and long-term use becomes possible.
The resin constituting the insulating layer 10 and the diffused reflection layer 16 described later has flexibility and high transparency (characteristic of transmitting radiant heat well) even after curing, and has weather resistance and about 150 [° C.]. For example, a silicon-based resin or an epoxy-based resin having heat resistance is suitable.

When aluminum foil is used as the materials 11 and 15 having high reflectance to radiant heat, for example, a material having a purity of 99.5 [%] or more is generally used, but the purity is high as described above. It becomes a soft material. When such a soft material is formed into a corrugated shape or the like, the shape cannot be maintained and the material is deformed.
Therefore, a material having a high reflectance for radiant heat such as aluminum foil having a thickness of about 5 to 10 [μm] is used in a normal heat shield material or the like, but the slate repair material 1 is used for radiant heat such as aluminum foil. By increasing the thickness of the materials 11 and 15 having high reflectance to 20 to 50 [μm], the shape can be maintained to some extent while maintaining the deformability.
Further, when the slate repair material 1 is used in a snowfall area, it is necessary to consider wear due to an increase in load during snowfall and snow removal work, and generally, an aluminum foil having a thickness of about 30 [μm]. The slate repair material 1 is constructed by using the materials 11 and 15 having high reflectance with respect to equal radiant heat.

The heat welding films 12 and 14 used for the slate repair material 1 are made of a material 11 having a high reflectance to radiant heat such as aluminum foil and a non-woven fabric or a chemical fiber sheet 13 such as glass, and have a high resistance to radiant heat such as aluminum foil. A material for fixing the reflective material 15 and the non-woven fabric or the chemical fiber sheet 13 such as glass by heat welding, for example, a polyester film is used.
Since the operating temperature of the slate repair material 1 installed on the existing slate roofing material 2 or the like is approximately 80 [° C.] or less, any material that can be heat-welded at the same temperature as the polyester film can be used. It may be used as the heat welding films 12 and 14 instead of the polyester film.

The slate repair material 1 described here exemplifies a non-woven fabric or a chemical fiber sheet 13 such as glass as a core material. However, since the slate repair material of the present invention requires considerable mechanical strength, the core material may be used. Most often use fiberglass sheets.
In order to make the mechanical strength of the slate repair material 1 sufficient, the prices of the materials 11 and 15 having high reflectance to radiant heat such as aluminum foil will increase significantly if the thickness is made extremely thick. It is preferable to increase the thickness of the non-woven fabric or the chemical fiber sheet such as glass to secure sufficient mechanical strength and suppress the material cost (manufacturing cost) and the like.

The insulating layer 10 that transmits radiant heat, which is arranged on the surface side of the existing slate roofing material 2, prevents the material 11 having high reflectance such as aluminum foil from directly contacting the existing slate roofing material 2 with aluminum. The material 11 having a high reflectance with respect to radiant heat such as foil is provided to protect the material 11 from corrosion by the existing slate roofing material 2 showing alkalinity.
By applying (adhering) an adhesive or double-sided tape 3 or the like to the entire surface of the existing slate roofing material 2 or the like in contact with the slate repairing material 1, the existing slate roofing material 2 or the like and the slate repairing material 1 can be combined. If they are configured to be fixed in a state where they are not in direct contact with each other, it is not necessary to provide the insulating layer 10 that transmits radiant heat.

In the present invention, the slate repair material 1 is installed in a series from the slate roof ridge to the eaves under the water, or from the eaves of the outer wall to the ground surface, and the corrugated unevenness formed on the slate repair material 1 is described above. It is configured to fit with the corrugated unevenness formed on the existing slate roofing material 2 constituting the slate roof of the above, or with the corrugated unevenness formed on the outer wall material constituting the outer wall. We also propose a slate repair structure in which the slate repair material 1 is closely fixed to each outdoor side of the existing slate roof material 2 and the outer wall material with an adhesive or the like.

Specifically, the above-mentioned slate repair structure is, for example, linearly (seamlessly or seamlessly) from the ridge to the eaves (between the upper end and the lower end of the roof) of the slate roof having the corrugated unevenness shown in FIG. In a straight line (seamless or seam number) from the eaves of the outer wall to the ground surface (between the upper and lower ends of the outer wall) with similar corrugated irregularities. The slate repair material 1 is molded so as to cover it (suppressed). Then, the slate repair material 1 is closely fixed to the existing slate roofing material 2 constituting the slate roof or the outer wall material constituting the outer wall by using an adhesive or double-sided tape.

When the slate repair material 1 is installed on the slate roof, the slate repair material is cut out (molded) appropriately longer (larger) than the length (size) of the existing slate roof material 2 constituting the slate roof. Generally, the slate repair material 1 is sequentially laminated and installed on the slate roof.
The slate repair material 1 according to the present invention can be manufactured as a long material as described above, and can be integrally molded with a length of, for example, 10 [m] or more, and has no seams or seams. It is possible to reduce the number and install and fix it on the slate roof or the outer wall.

As is well known, corrugated slate materials are used as roofing materials and exterior wall materials.
Then, when trying to install a repair material (heat shield material) on the existing slate roofing material 2, it is possible to attach the repair material in a flat state so as to connect the top ends of the corrugations. Then, the slate roofing material 2 comes into line contact with the repair material, and it becomes difficult to obtain sufficient fixing strength. In addition, the slate roofing material 2 is often already weathered (deteriorated), and there is a possibility that the contact-fixed portion may be damaged and the repair material may peel off.
Further, the wind is blowing outdoors, and the non-contact portion of the repair material with the slate roofing material 2 is shaken in the vertical direction, and the contact portion or the like may be peeled off over a long period of time.
The siding repair structure according to the present invention uses the existing slate repair material 1 that can be matched (fitted) to the shape of the existing slate roofing material 2 and the outer wall material by forming it into a corrugated shape or a substantially L shape, and uses the existing siding material 1. Since the structure is such that the roofing material 2 and the outer wall material are adhered and integrated with the adhesive or the double-sided tape 3, the strength can be very high and the adhesiveness can be improved.

Generally, the existing slate roofing material 2 is fixed to C-shaped steel or the like constituting the roof frame of the purlin by using hook bolts. This hook bolt penetrates the convex portion of the existing slate roofing material formed into a corrugated shape and projects upward, and is fastened to the existing slate roofing material using a washer or a nut.
FIG. 4 is an explanatory diagram showing a slate repair structure using the slate repair material 1 according to the embodiment of the present invention. This figure shows a cross section of a portion in which a corrugated existing slate roofing material 2 is fixed to a C-shaped steel material 30 constituting a roof frame of a purlin or the like by using a hook bolt 31 or the like.
The existing slate roofing material 2 has a corrugated concave portion in contact with the upper portion of the C-shaped steel material 30, has a through hole at the top position of the corrugated convex portion, and a tap portion of the hook bolt 31 is provided in this through hole. It penetrates from below.

The hook bolt 31 has a hook portion located on the lower side hung on an end portion of the C-shaped steel material 30 protruding downward, and a nut 32 or the like is attached to a tap portion protruding upward of the existing slate roofing material 2. By fastening, stress is generated so that the hook portion is pulled upward (so that the tip of the hook portion is pressed against the C-shaped steel material 20).
The nut 32 or the like fastened to the hook bolt 31 abuts on the upper end of the existing slate roofing material 2 and applies stress so as to push down the existing slate roofing material 2 from above to downward, and the existing slate roofing material 30 is existing on the C-shaped steel material 30. The slate roofing material 2 is fixed.

When fixing the slate repair material 1 to the existing slate roofing material 2 fixed to the C-shaped steel material 30 as described above, the slate repair material 1 is viewed from above the upper end portion (tip) of the hook bolt 31 to which the nut 32 is fastened. And tap it lightly with a resin hammer or the like to push it down.
The slate repair material 1 hit by a resin hammer or the like has a through hole at a position where the hook bolt 31 abuts, and the upper end of the hook bolt 31 or the like is exposed on the upper side of the slate repair material 1.
When the slate repairing material 1 in this state is further pushed downward with a finger or the like, the corrugated uneven portion of the slate repair material 1 fits into the corrugated uneven portion of the existing slate roofing material 2, and the slate repair material 1 is positioned and fixed. Will be done.

Similar to the existing siding roofing material 2, when the siding repair material 1 is installed on the outer wall material having corrugated unevenness, the tip (nut is fastened) of the hook bolt or the like fixing the outer wall material. Place (cover) the siding repair material 1 on the tip portion on the side), and tap it lightly with a resin hammer or the like to push it toward the surface of the outer wall material. When the slate repair material 1 is pushed in in this way, a through hole is opened at a position where the hook bolt or the like comes into contact, and the upper end side of the hook bolt or the like is exposed to the surface side of the slate repair material 1.
When the slate repairing material 1 in this state is further pushed toward the outer wall material with a finger or the like, the corrugated uneven portion of the slate repair material fits into the corrugated uneven portion of the outer wall material, and the slate repair material 1 is positioned and fixed. NS.

That is, the siding repair material 1 is positioned so as not to move in the direction orthogonal to the flow direction by fitting with the corrugated unevenness of the existing slate roofing material 2 or the outer wall material, and the hook bolt 31 or the like penetrates therethrough. Is positioned so that it does not move in the flow direction (vertical direction) or the like. As described above, the slate repair material 1 is fixed to the existing slate roofing material 2 and the outer wall material so as not to move in each direction after installation.
Further, as illustrated in FIG. 4, the caulking agent 33 is applied to the tip portion of the hook bolt 31 or the like protruding from the surface of the slate repair material 1 or the periphery of the nut 32 fastened to the hook bolt 31 or the like. It is advisable to perform a sealing process to prevent rainwater from entering from the installation portion such as the hook bolt 31.
Further, the hook bolt 31 or the like protruding from the surface of the slate repair material 1 is covered with, for example, a conical or cylindrical resin cap 34 to prevent corrosion of the hook bolt 31 or the nut 32, and these are used. It is good to improve the durability of the part.

Further, as another method for fixing the slate repair material 1, for example, the size of the slate repair material 1 in the width direction is slightly wider than the installation interval of each hook bolt 31 fastened to the existing slate roof material 2. The slate repair material 1 is molded into the above.
When the existing slate roofing material 2 is covered with a plurality of the slate repairing materials 1, the two adjacent slate repairing materials 1 are overlapped at the positions of the hook bolts 31 and the like protruding from the surface of the existing slate roofing material 2. , Install each slate repair material 1. When installed in this way, a notch is provided in the portion (of the slate repair material 1) that comes into contact with the hook bolt 31 or the like so that the slate repair material 1 does not rise from the existing slate roof material 2.
When the slate repair material 1 is molded and installed on the existing slate roofing material 2 in this way, the construction becomes easier.
Since a gap is formed between the hook bolt 31 and the like and the slate repair material 1, it is advisable to perform a sealing treatment (waterproofing treatment) for closing the gap by applying a caulking agent or the like.

FIG. 5 is an explanatory view showing a state in which the slate repair material 1 of FIG. 1 is installed on the existing slate roofing material 4.
For example, when the slate repair material 1 is installed on the existing slate roofing material 4 to form a slate repair structure, the slate repair material 1 is the underwater edge of the existing slate roofing material 4 when installed on the existing slate roofing material 4. It is molded to a length (size) that protrudes from the portion 4a by several centimeters. In this protruding part, a notch extending in the vertical direction with respect to the flow direction of the existing slate roofing material 4, in other words, extending parallel to the edge of the end portion 4a under the water (for example, several centimeters). There are multiple (at intervals of meters).

The protruding portion, that is, the tip portion 1a of the slate repair material 1, is bent at each of the above cuts, and when the slate repair material 1 is installed on the existing slate roof material 4, the building provided with the existing slate roof material 4 It is molded so that it is caught in the indoor side.
In other words, when the existing slate roofing material 4 and the like are viewed from the side, the tip portion 1a of the slate repairing material 1 is substantially sandwiched between the underwater end portion 4a (existing slate roofing material 4) in the thickness direction. It is bent and molded into an L shape.
The tip portion 1a or the like is attached and fixed to the existing slate roofing material 4 (end portion 4a under water) using an adhesive or the like.

The existing slate roofing material 4 etc. provided in the building is easily affected by the wind on the lower side (near the end 4a under the water), and some obstacles such as curling up occur due to poor adhesion, and the existing slate There is a possibility that the slate repair material 1 may peel off from the roof material 4. Therefore, the slate repair material 1 is provided with a tip portion 1a that protrudes several centimeters from the end portion 4a under water, for example, of the existing slate roofing material 4. The slate repair material 1 is placed on the outdoor side surface, and then the tip portion 1a protruding from the underwater end portion 4a is bent at the above-mentioned notch position (for example, at intervals of about 1 to 3 cm). , The end portion 4a under the water is sandwiched (fitted) into a substantially L-shape.
In other words, the tip portion 1a protruding from the end portion 4a under the water is bent so as to be wound around the attic side of the slate roof composed of the existing slate roofing material 4.

When bending the tip portion 1a, for example, an adhesive is applied to an appropriate position on the tip portion 1a (slate repair material 1) or the end portion 4a under water (existing slate roofing material 4), and the tip portion is bent. Adhesively fix 1a so that it does not come off (do not come off) from the end a under water.

After bending the tip 1a of the slate repair material into a substantially L shape, for example, a screw or the like inserted along the thickness direction of the end 4a under water is fastened to fasten the tip 1a of the slate repair material. And the end portion 4a under the water may be fixed.
Further, for example, a flat bar or the like may be used as a backing plate to fix the tip portion 1a of the slate repair material so as not to come off from the end portion 4a under water, and the tip portion 1a of the substantially L-shaped slate repair material may be fixed. Any fixing means may be used as long as it can be prevented from coming off the underwater end 4a.

When the slate repair material 1 is installed on the outer wall material, the outer wall material is installed perpendicular to the ground, so that the end of the slate repair material 1 is (compared to the underwater end 4a). No strong wind blows (less). Therefore, unlike the slate repair material 1 installed on the existing slate roofing material 2, it is not necessary to bend and form the end portion or the like (there is little need to bend).

Next, a test performed to confirm the heat-shielding action of the slate repair material 1 will be described.

[Heat shield test]
A corrugated slate material (thickness 7 mm, width 500 mm, height 300 mm) was used as a material corresponding to the existing slate roofing material 2.
Half of the surface of the corrugated slate material is treated with green coloring, and aluminum foil with a thickness of about 0.2 mm (corresponding to the first and second materials with high reflectance to radiant heat) is corrugated. It was attached using an adhesive so that it would follow the shape.
The corrugated slate material was placed at a position 300 [mm] away from the 800 [W] far-infrared heater.
The corrugated slate material placed at the above position is such that the heat shield material attached to the corrugated slate material faces the heater side and faces vertically (so that the surface of the heat shield material faces the front of the heater). Is installed.

The measuring part of the thermo recorder was installed near the center of the corrugated slate material facing the front of the heater and where the heat shield (aluminum foil) was not attached. This thermo recorder measures the surface temperature (temperature corresponding to the outdoor side) of the corrugated slate material on the heater side.
On the back side of the corrugated slate material (the back side of the front facing the heater), a thermography measurement unit was installed. By this thermography, the surface temperature on the back side of the corrugated slate material (the temperature corresponding to the indoor side) is measured by non-contact.

[result]
Table 1 below shows the measurement results of each temperature.

[Discussion]
(1) When the surface temperature of the corrugated slate material on the heater side is 60 [° C], the part with the heat shield (the surface temperature on the back side of the corrugated slate) is 27.8 [° C] and the part without the heat shield (1). The temperature on the back side of the corrugated slate material) is 43.2 [° C.], and a temperature difference of 15.4 [° C.] is generated, indicating that the heat shield effect of the heat shield material is large.
(2) When the surface temperature of the corrugated slate material on the heater side, which is assumed to be the maximum temperature in midsummer, is 75 [° C], the part with the heat shield is 32.8 [° C] and the part without the heat shield is 54. It becomes 8.8 [° C], and there is a temperature difference of 22.0 [° C]. It can be seen that the higher the outdoor temperature, the greater the heat shielding effect.

Since the siding repair material 1 described in this embodiment can be formed corresponding to the corrugated slate shape of the existing slate roofing materials 2 and 4 and the outer wall material, it adheres to the existing siding roofing materials 2 and 4 and the outer wall material. The strength of the existing siding roofing materials 2 and 4 and the outer wall material can be improved, and the durability of the existing siding roofing materials 2 and 4 and the outer wall material can be improved.

The slate repair material 1 is formed by laminating a diffuse reflection layer 16 formed by containing a coloring pigment or the like in a highly permeable resin that transmits radiant heat on the surface of a material 15 having a high reflectance to radiant heat such as aluminum foil, and the radiant heat is applied. Although it is configured to be diffusely reflected on the surface of the slate repair material 1, the reflectance of radiant heat is still 88 to 92 [%].
Therefore, even in a climate where the surface temperature of the existing slate roofing materials 2 and 4 reaches 80 [° C.] in summer, the surface temperature of the existing slate roofing materials 2 and 4 can be increased to 40 [° C.] by installing the slate repair material 1. ] Can be kept low.
Therefore, the indoor environment of the building in which the slate repair material 1 is installed is such that the temperature rise is suppressed, and when an air conditioner or the like is used, energy saving of about 30 [%] becomes possible.

The entire surface of the existing siding roofing materials 2 and 4 and the outer wall material is covered with the siding repair material 1, and the siding repair material 1 is applied to the entire surface of the existing siding roofing materials 2 and 4 and the outer wall material by using an adhesive or the like. By adhering, it is possible to prevent asbestos and the like from scattering outdoors.
Since the slate repair material 1 is installed on the outside (outdoor side) of the existing slate roofing materials 2 and 4 and the outer wall material, it is possible to suppress the occurrence of dew condensation on the indoor side.
By installing the slate maintenance material 1 on the existing slate roofing materials 2 and 4, the reflected light of the sun is applied to the snow cover, etc., which enables zero-energy snow melting in cold regions and reduces the load applied to the building due to the snow cover. It is possible to reduce the cost required for removing snow.

1 Slate repair material 1a Tip of slate repair material 2 Existing slate roofing material 3 Adhesive or double-sided tape 4 Existing slate roofing material 4a Underwater edge 10 Insulation layer 11 Aluminum foil, etc. Material with high reflectance to radiant heat 12 Heat-welded film 13 Non-woven or glass or other chemical fiber sheet 14 Heat-welded film 15 Aluminum foil, etc. Material with high reflectance to radiant heat 16 Diffuse reflective layer 20 Gap 30 C-shaped steel 31 Hook bolt 32 Nut 33 Coking agent 34 Cap

Claims (5)

A first material with high reflectance for radiant heat,
The first heat welding film arranged on the upper side of the first material and
A non-woven fabric or a chemical fiber sheet such as glass arranged on the upper side of the first heat welding film, and
A second heat welding film arranged on the upper side of the non-woven fabric or a chemical fiber sheet such as glass,
A second material having a high reflectance with respect to radiant heat arranged on the upper side of the second heat welding film,
A diffused reflection layer made of a highly transparent resin that transmits radiant heat containing a coloring pigment that diffusely reflects sunlight and is arranged on the surface of the second material.
Adhere and stack,
The first material and the second material maintain their shapes when bent and molded along the outdoor side surface of the existing slate roofing material constituting the slate roof or the outdoor side surface of the outer wall material constituting the outer wall. Has thickness,
A slate repair material characterized by this. The first material and the second material are aluminum foils having a thickness of 20 to 50 [μm].
The slate repair material according to claim 1, wherein the slate repair material is characterized by the above. An insulating layer made of a highly permeable resin that transmits radiant heat is laminated on the lower surface of the first material so that the first material does not come into direct contact with the existing slate roofing material or the outer wall material.
The slate repair material according to claim 1 or 2, wherein the slate repair material is characterized by this. The slate repair material according to any one of claims 1 to 3 is applied to the outdoor side surface of the existing slate roofing material constituting the slate roof, or to the outdoor side surface of the outer wall material constituting the outer wall. When installing slate repair material
The corrugated unevenness of the existing slate roofing material or the corrugated unevenness of the outer wall material constituting the outer wall is fitted with the corrugated unevenness formed on the slate repair material to form the existing slate roofing material. The slate repair material was brought into close contact with the slate repair material.
A slate repair structure characterized by this. When the slate repair material according to any one of claims 1 to 3 is installed on an existing slate roofing material constituting the slate roof so that the diffused reflection layer is located on the outer surface,
The end of the slate repair material protruding from the underwater end of the existing slate roofing material was bent and fixed so as to be rolled into the attic side of the slate roof.
A slate repair structure characterized by this.

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