JP3761697B2 - Waterproof construction method for flat roof - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a waterproof construction method performed by laying a rubber sheet on a flat roof.
[0002]
[Prior art]
As a waterproof construction method for concrete roofs, a large number of rubber sheets are laid on the roof so that the edges of two adjacent rubber sheets overlap, and the lower rubber sheet is attached to a metal fitting such as a nail or screw. A method of fixing an upper rubber sheet to a lower rubber sheet with an adhesive is known. However, in the past, a rubber sheet was laid on a concrete flat roof and only nails and screws were driven in from above, so the rubber sheet generated wrinkles due to thermal expansion, making the work during construction difficult and finishing. There was a problem that the appearance of the was poor.
[0003]
[Problems to be solved by the invention]
This invention prevents the thermal expansion of the rubber sheet, facilitates the construction, and improves the finished appearance.
[0004]
[Means for Solving the Problems]
In the waterproof construction method for a flat roof according to the present invention, when a large number of rubber sheets are laid on the flat roof, the edges of the two adjacent rubber sheets are arranged so that they overlap each other, and the edges of the lower rubber sheet are In the waterproof construction method of a flat roof where the upper rubber sheet is fixed to the flat roof by nailing and the edges of the upper rubber sheet are bonded to the lower rubber sheet with an adhesive so as to cover the screws and nails, the synthetic fiber is used as the rubber sheet. When a reinforced rubber sheet reinforced with a high modulus nonwoven fabric is used and the above screws and nails are driven, a metal washer with a plurality of claws protruding on the lower surface is placed on the lower reinforced rubber sheet. By repeatedly driving a screw or nail from above the metal washer, the lower surface of the metal washer is hooked on the nonwoven fabric of the lower reinforcing rubber sheet.
[0005]
According to the present invention, a large number of reinforcing rubber sheets covering the flat roof are joined to each other with the adhesive, and the lower reinforcing rubber sheet of the bonded portion is fixed to the flat roof with screws or nails. At that time, since the reinforcing rubber sheet is reinforced with the high modulus nonwoven fabric, the thermal expansion of the rubber layer of the reinforcing rubber sheet is suppressed by the nonwoven fabric, and the work at the time of construction becomes easy. When a screw or nail is driven into the flat roof from above the lower reinforcing rubber sheet, a metal washer is stacked on the lower reinforcing rubber sheet, and the nail protruding from the lower surface of the metal washer is applied to the reinforcing rubber sheet by the above driving. Since it is bitten and hooked on the above-mentioned nonwoven fabric fibers, the reinforcing rubber sheet will not be torn, and wrinkles will not occur due to thermal expansion after construction, the appearance after construction is kept good, and the waterproof function as a rubber sheet Will not be lost.
[0006]
The rubber constituting the rubber layer of the reinforcing rubber sheet may be either natural rubber or synthetic rubber such as EPDM, BR, SBR, IR, etc. EPDM is particularly preferred from the viewpoint of weather resistance. The rubber layer may be provided only on the upper surface of the nonwoven fabric, or may be provided on both upper and lower surfaces. When the rubber layer is provided on both upper and lower surfaces, the lower rubber layer can be a foam layer. What is provided only on the upper surface of the nonwoven fabric is flat when there is no unevenness on the base of the flat roof, what is provided on both upper and lower sides is when there is unevenness on the base, and the rubber layer on the lower surface is a foam layer It is suitable when the unevenness of the ground is particularly large. In either case, the rubber layer or the foamed rubber layer may be vulcanized and integrated with the nonwoven fabric by adhesion. However, the rubber layer is laminated with the nonwoven fabric in an unvulcanized or unfoamed sheet state, and then vulcanized. Alternatively, it is advantageous to integrate with the nonwoven fabric by normal pressure foaming.
[0007]
The nonwoven fabric to be used is a spunbond nonwoven fabric made of polyethylene terephthalate fibers, preferably having a modulus at 1% elongation of 1000 kgf / cm ² or more at 20 ° C., and the modulus at 1% elongation of less than 1000 kgf / cm ^2. However, the thermal expansion of the rubber sheet at the time of construction cannot be suppressed, so that wrinkles occur and the work becomes difficult and the appearance after construction becomes poor. Also, the basis weight of the nonwoven fabric 30 to 200 g / m ^2, particularly preferably 40 and 80 g / m ^2, insufficient strength is less than 30 g / m ^2, when it exceeds 200 g / m ² on the opposite, the reinforcing rubber sheet Hardness increases and the handling and other handling properties deteriorate.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 3 shows three types of reinforcing rubber sheets 11A, 11B, and 11C reinforced with a nonwoven fabric 11f. The leftmost reinforcing rubber sheet 11A is a three-layered laminate of an upper rubber layer 11a, a nonwoven fabric 11f, and a lower rubber layer 11b. The upper rubber layer 11a and the lower rubber layer 11b are stacked on the nonwoven fabric 11f in an unvulcanized state. Vulcanized and manufactured by integrating the upper rubber layer 11a, the nonwoven fabric 11f, and the lower rubber layer 11b by vulcanization adhesion. However, the non-woven fabric 11f is a spunbonded non-woven fabric made of polyethylene terephthalate, having a stress of 1000 kgf / cm ² or more at 1% elongation at 20 ° C. and a basis weight of 40 to 80 g / m ² (for example, “Toyobo Co., Ltd.“ Toyobo VALCOMPO HP6040G ") is used. The upper rubber layer 11a and the lower rubber layer 11b are preferably formed of EPDM, and the thickness of both the upper rubber layer 11a and the lower rubber layer 11b is set to about 0.5 to 2.0 mm.
[0009]
The reinforcing rubber sheet 11B shown in the center of FIG. 3 is obtained by laminating a thick upper surface rubber layer 11c on the same nonwoven fabric 11f as above, and an unvulcanized upper surface rubber layer (preferably made of EPDM) (on the nonwoven fabric 11f). (Thickness 0.5 to 2.0 mm) 11c are stacked and vulcanized, and the nonwoven fabric 11f and the upper rubber layer 11c are integrated by vulcanization adhesion. Further, the reinforcing rubber sheet 11C shown at the right end of FIG. 3 has a thin upper rubber layer (thickness 0.5 to 2.0 mm) 11d and a foamed lower rubber layer (thickness 0.5 to 2) on the same nonwoven fabric 11f. 0.0 mm) 11e, and an unvulcanized upper rubber layer 11d, preferably made of EPDM, on the nonwoven fabric 11f, and an unfoamed lower rubber layer, preferably made of EPDM, containing a foaming agent. 11e are stacked, and the lower rubber layer 11e is foamed by normal pressure vulcanization, and at the same time, the upper rubber layer 11d, the nonwoven fabric 11f and the lower rubber layer 11e are integrated by vulcanization.
[0010]
In FIG. 1, 10 is a concrete layer constituting the surface of the flat roof, 11 is a reinforcing rubber sheet covering the concrete layer 10, and this reinforcing rubber sheet 11 is any of the reinforcing rubber sheets 11A, 11B, 11C shown in FIG. Good. A large number of the reinforcing rubber sheets 11 are laid side by side so as to cover the concrete layer 10, and at that time, the edges of two adjacent reinforcing rubber sheets 11 are stacked one above the other. At this time, the overlap width B is set to about 100 to 150 mm. However, circular metal washers 12 are arranged in advance at a pitch of 250 to 400 mm along the edge of the lower reinforcement rubber sheet 11 in the vicinity of the center of the lower reinforcement rubber sheet 11 of the overlapping portion. The concrete nails 13 are driven into the concrete layer 10 and the lower reinforcing rubber sheet 11 is fixed to the flat roof. Then, the adhesive 14 is applied on one side edge of the lower reinforcing rubber sheet 11, and the edge of the upper reinforcing rubber sheet 11 is overlaid thereon and joined to the lower reinforcing rubber sheet 11.
[0011]
The disk-shaped metal washer 12 has an insertion hole 12a for the concrete nail 13 in the central flat portion, and has a relatively high inner peak portion 12b and a relatively low outer portion as shown in FIG. The crest 12c is formed concentrically, and four triangular claws 12d are projected downward at equal intervals on the bottom surface of the trough between the inner crest 12b and the outer crest 12c. The height of the claw 12d is set to such an extent that the tip of the claw 12d reaches the nonwoven fabric 11f (see FIG. 3) of the reinforcing rubber sheet 11 when the concrete nail 13 is driven.
[0012]
【Example】
Example 1
As the non-woven fabric, a spunbonded non-woven fabric made of polyethylene terephthalate fibers (“Valcompo HP6040G” manufactured by Toyobo Co., Ltd.) was used. The thickness was 0.2 mm, the basis weight was 40 g / m ² , and the modulus at 1% elongation at a temperature of 20 ° C. was 8690 kgf / cm ² . As shown in FIG. 3, an upper rubber layer 11a made of EPDM having a thickness of 1.2 mm and a width of 1200 mm is formed on the nonwoven fabric 11f, and a lower rubber layer 11b having a thickness of 1.2 mm and a width of 1200 mm made of EPDM is also provided below. Were vulcanized for 10 minutes with a press machine at a temperature of 180 ° C. and a pressure of 50 kgf / cm ² to obtain a reinforced rubber sheet 11A. The vulcanized rubber sheet made of EPDM had a stress at 1% elongation at 20 ° C. of 1 kgf / cm ² .
[0013]
The above-mentioned reinforcing rubber sheet 11A is laid on a flat roof (see FIG. 1). At that time, the overlapping width B of the edges of two adjacent reinforcing rubber sheets 11A is set to 150 mm, and the end of the lower reinforcing rubber sheet 11A is set. The metal washers 12 shown in FIG. 2 (diameter: 50 mm, protrusion height of claws 12 d: 2 mm, number of claws 12 d: 4) 12 are arranged in a line at intervals of 400 mm at a position 60 mm inward from the edge. Concrete nails 13 were driven in from above to fix the lower reinforcing rubber sheet 11A. Next, a neoprene solvent-type adhesive (“Toyo Acme Bond AD-102” manufactured by Toyo Tire & Rubber Co., Ltd.) is applied to the edge of the lower reinforcing rubber sheet 11A as an adhesive to a width of 150 mm and applied to the coated surface. The edges of the upper reinforcing rubber sheet 11A were overlapped and pressed to join the upper and lower reinforcing rubber sheets 11A.
[0014]
Although the above waterproof construction work was performed on a flat roof with an air temperature of 25 ° C., there was almost no thermal expansion of the reinforced rubber sheet 11A, and it was possible to work easily and no generation of wrinkles after construction was observed.
[0015]
Example 2
The reinforcing rubber sheet 11B shown in the center of FIG. 3, that is, a non-woven fabric 11f laminated with a thick upper rubber layer (thickness: 1.5 mm) 11c made of EPDM is used as a metal washer 12, and the protruding height of the claws 12d Were used for waterproofing of the flat roof in the same manner as in Example 1. The construction work was easy as in Example 1, and no wrinkles were generated after construction.
[0016]
Example 3
A thin upper rubber layer (thickness: 1.5 mm) 11d made of EPDM is formed on the reinforcing rubber sheet 11C, that is, the nonwoven fabric 11f shown on the right in FIG. 3, and a foamed lower rubber layer (thickness: 1 mm, Density: 0.5) Waterproofing of the flat roof was performed in the same manner as in Example 1 except that the reinforcing rubber sheet 11C formed by laminating 11e was used. For vulcanization and foaming, normal pressure vulcanization with hot air was performed at 180 ° C. for 18 minutes. The construction work was easy as in Example 1, and no wrinkles were generated after construction.
[0017]
【The invention's effect】
This invention can perform waterproofing construction of a flat roof using a reinforced rubber sheet as described above, and since the reinforced rubber sheet does not thermally expand, the construction work is easy and no wrinkles occur after construction. The appearance is kept good.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of an embodiment.
FIG. 2 is an enlarged cross-sectional view of a main part of FIG.
FIG. 3 is an enlarged cross-sectional view of a reinforced rubber sheet.
[Explanation of symbols]
10: Concrete layers 11, 11A, 11B, 11C on the surface of the flat roof: Reinforced rubber sheets 11a, 11b, 11c, 11d: Rubber layer 11e: Foamed rubber layer 11f: Non-woven fabric 12: Metal washer 12d: Claw 13: Concrete nail 14: adhesive

Claims (2)

When laying a large number of rubber sheets on a flat roof, arrange the edges of two adjacent rubber sheets so that they overlap, and fix the lower rubber sheet edge to the flat roof with screws or nails. In the waterproof construction method of a flat roof where the edge of the upper rubber sheet is adhered to the lower rubber sheet with an adhesive so as to cover the nails, the reinforcement reinforced with a high modulus nonwoven fabric made of synthetic fibers as the rubber sheet When a rubber sheet is used and the above screws and nails are driven, a metal washer with a plurality of claws protruding on the lower surface is overlaid on the lower reinforcing rubber sheet, and the screws and nails are placed on the metal washer. A waterproof construction method for a flat roof characterized in that the nail on the lower surface of the metal washer is hooked on the nonwoven fabric of the lower reinforcing rubber sheet by driving in. The waterproof construction of a flat roof according to claim 1, wherein the nonwoven fabric used is made of ethylene terephthalate fiber, and is a spunbonded nonwoven fabric having a modulus at 1% elongation at 20 ° C of 1000 kgf / cm ² or more and a basis weight of 30 to 200 g / m ^2. Method.

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