JP5027677B2 - Seat waterproof roof - Google Patents

Description

  The present invention relates to a waterproof sheet roof that can be used as a wide range of roofs (including modified roofs) such as factories, warehouses, offices, stores, gymnasiums, theaters, and condominiums.

Conventionally, it has been proposed to form a sheet waterproof roof by laying a waterproof sheet on the heat insulation panel after mounting a plurality of heat insulation panels on the roof base (for example, Patent Document 1, 2). As such a heat insulation panel, what was manufactured as a wall panel for forming an outer wall or the like can be used as it is, but since the roof surface has a larger amount of solar radiation than the wall surface, The temperature of the jacket is 80 ° C. or higher, and the temperature of the wall surface is only up to 70 ° C., so the roof surface is very hot.
JP 2007-120248 A JP 2007-262698 A

  Therefore, heat insulation panels used for sheet waterproof roofs are more likely to be deformed by thermal expansion of the metal jacket than the heat insulation panels used for the walls, and the in-plane compressive stress generated in the heat insulation panels is higher and wrinkled. There was a possibility of causing the buckling phenomenon (Wrinkling buckling). Further, when the adhesion between the metal jacket and the heat insulating material is insufficient, there is a possibility that the metal jacket and the heat insulating material may be peeled off.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a sheet waterproof roof that can prevent buckling and peeling of the metal jacket and the heat insulating material to prevent damage to the roof. Is.

  In the waterproof sheet roof according to claim 1 of the present invention, a heat insulating panel 4 is formed by interposing a heat insulating material 3 between two metal jackets 1 and 2, and a plurality of heat insulating panels 4, 4. 5 is a sheet waterproof roof in which the adjacent heat insulating panels 4 and 4 are connected and the waterproof sheet 6 is laid so as to cover the upper surface of the heat insulating panel 4 and is recessed in the metal jacket 1 on the upper surface side of the heat insulating panel 4. Alternatively, the rib portion 7 is formed in a protruding manner, and an adhesive portion 8 for adhering the waterproof sheet 6 is formed at a location other than the rib portion 7 on the upper surface of the heat insulating panel 4.

  The waterproof sheet roof according to claim 2 of the present invention is characterized in that, in addition to claim 1, the rib portion 7 is pressure-bonded to the heat insulating material 3.

  In addition to claim 1 or 2, the sheet waterproof roof according to claim 3 of the present invention forms a bonding portion 8 on the connecting portion 10 of the adjacent heat insulating panels 4 and 4 and covers only the connecting portion 10 to be waterproof. It is characterized by laying a sheet 6.

  The sheet waterproof roof according to claim 4 of the present invention is the sheet waterproof roof according to any one of claims 1 to 3, wherein the rib portion 7 is formed in a groove shape or a ridge continuous over substantially the entire length of the heat insulating panel 4. It is a feature.

  The sheet waterproof roof according to claim 5 of the present invention is the sheet waterproof roof according to any one of claims 1 to 3, wherein the plurality of rib portions 7, 7. It is a feature.

  In the invention according to claim 1, by forming the rib portion 7 on the metal jacket 1 on the upper surface side of the heat insulating panel 4, deformation due to thermal expansion of the metal jacket 1 is suppressed, and the rigidity and strength of the heat insulating panel 4 are reduced. , And can prevent buckling and peeling of the metal jacket 1 and the heat insulating material 3 to prevent damage to the roof. In addition, the waterproof sheet 6 can be adhered by securing the adhesive part 8 in addition to the rib part 7, and the waterproof sheet 6 can be secured by preventing the waterproof sheet 6 from peeling off from the heat insulating panel 4.

  According to the second aspect of the present invention, peeling between the metal jacket 1 and the heat insulating material 3 is less likely to occur, and damage to the roof can be prevented.

  The invention according to claim 3 can ensure waterproofness by reducing the amount of use of the waterproof sheet as compared with the case where the entirety of the heat insulating panel 4 is covered with the waterproof sheet 6, and waterproofing the sheet while suppressing an increase in cost. A roof can be formed.

  In the invention which concerns on Claim 4, the whole heat insulation panel 4 can be reinforced with the groove-shaped or protruding rib part 7, and prevents buckling and peeling with the metal sheath 1 and the heat insulating material 3 more reliably. It is something that can be done.

  In the invention according to claim 5, since the plurality of rib portions 7, 7... Are provided intermittently, it becomes difficult for rain water to enter the lower side of the waterproof sheet 6, as in the groove-shaped rib portions 7. It can improve the nature.

  Hereinafter, the best mode for carrying out the present invention will be described.

  The heat insulating panel 4 used in the present invention is called a sandwich panel, and as shown in FIG. 2 (a), a heat insulating material 3 is interposed between two metal jackets 1 and 2, and each metal jacket is placed. 1, 2 and the heat insulating material 3 are bonded and integrated. The metal jackets 1 and 2 can be formed, for example, by rolling or bending a metal plate having a thickness of about 0.27 to 1.6 mm. As the heat insulating material 3, one having a thickness of about 20 to 120 mm can be used. Moreover, rock wool, glass wool, etc. can be used as an inorganic heat insulating material, and urethane foam, styrene foam, phenol foam, polyisocyanurate foam, etc. can be used as a resin heat insulating material. And the fitting convex part 20 is formed in the one side edge part of the heat insulation panel 4, and the fitting recessed part 21 is provided in the other side edge part of the heat insulation panel 4, The fitting convex part of the heat insulation panel 4 is provided. The adjacent heat insulation panels 4 and 4 can be connected by fitting the part 20 and the fitting recessed part 21 of the other heat insulation panel 4 mutually. The fitting convex portion 20 and the fitting concave portion 21 can be fitted in a state where a waterproof packing 22 is interposed between the top surface of the fitting convex portion 20 and the bottom surface of the fitting concave portion 21.

  In the present invention, the rib portion 7 is formed on the metal jacket 1 constituting the upper surface of the heat insulating panel 4. The rib portion 7 protrudes and is recessed on the lower surface of the metal jacket 1, and the rib portion 7 can be crimped to the heat insulating material 3 by biting into the heat insulating material 3. The rib portion 7 is formed in a downwardly projecting ridge, and can be recessed in the shape of a semicircular or V-shaped groove on the upper surface of the metal jacket 1. Further, the rib portion 7 is long and substantially parallel to the fitting convex portion 20 and the fitting concave portion 21 and is formed over substantially the entire length of the heat insulating panel 4. Moreover, the some heat insulation panel 4 can provide the some rib part 7, and the space | interval of the adjacent rib part 7 can be 50-400 mm, for example. The groove width of the rib portion 7 can be set to 3 to 20 mm, for example, and the groove depth can be set to 1 to 5 mm, for example. A flat portion other than the rib portion 7 is formed as the bonding portion 8 on the upper surface of the metal jacket 1 on the upper side of the heat insulating panel 4. In addition, what is necessary is just to form the rib part 7 in the metal jacket 1 which turns to the outdoor side (upper side) when constructing the heat insulation panel 4 among the two metal jackets 1 and 2 constituting the heat insulation panel 4. The ribs 7 may or may not be provided on the metal jacket 2 facing the indoor side (lower side), but it is better to form the rib sections 7 on both the metal jackets 1 and 2. 4 can be improved in rigidity and strength.

  In the present invention, the metal jacket 1 can be formed using a coated metal plate. As shown in FIG. 2 (b), the coated metal plate is formed on the surface of the base metal plate 1a formed of a steel plate, a plated steel plate, a stainless steel plate, a carballium steel plate (the surface not bonded to the heat insulating material 3). A resin film 9 such as a vinyl chloride resin or a polyolefin-based thermoplastic elastomer is formed over the entire surface. The resin coating 9 can be formed of the same type of resin as the later-described prevention sheet 6, and can be formed as a coating by applying a resin coating on the surface of the base metal plate 1 a and curing it. The film can be formed as a resin layer by laminating the film on the surface of the base metal plate 1a. Although the film thickness of the resin film 9 can be set suitably, it can be set to 100-500 micrometers, for example. Of the two metal jackets 1 and 2 constituting the heat insulation panel 4, the metal jacket 1 facing the outdoor side (upper side) when the heat insulation panel 4 is constructed may be formed of a coated metal plate. The metal jacket 2 facing the indoor side (lower side) may be either a coated metal plate or an uncoated metal plate.

  As the waterproof sheet 6, a soft polymer material having waterproof properties, for example, a soft thermoplastic synthetic resin such as a soft polyvinyl chloride resin, a polyolefin resin, a vinyl chloride thermoplastic elastomer, and a polyolefin thermoplastic elastomer, asphalt In addition, those formed of modified asphalt or synthetic rubber can be used. The waterproof sheet 6 can be formed by using each of these resin materials alone, or the waterproof sheet 6 can be formed by using a plurality of resin materials in a laminated state. The waterproof sheet 6 is excellent in long-term waterproofness and durability against ultraviolet rays and ozone, etc. Especially, those made of soft polyvinyl chloride resin can be easily molded by using rolling or the like. Therefore, it is excellent in economic efficiency and workability and can be suitably used. Although the thickness of the waterproof sheet 6 can be 0.3-3.0 mm, it is not limited to this. Moreover, it is preferable that the resin film 9 and the waterproof sheet 6 provided in the adhesion part 8 of the metal jacket 1 of the heat insulation panel 4 contain the same resin component, and thereby, the adhesion part of the waterproof sheet 6 and the metal jacket 1. 8 resin film 9 can be firmly bonded by heat fusion.

  And the sheet | seat waterproof roof of this invention can be formed as follows. First, the plurality of heat insulating panels 4, 4... Are mounted on the roof base 5 substantially horizontally, that is, so that the surface direction of the heat insulating panel 4 is substantially horizontal. The roof base 5 is a roof beam, a purlin, or the like, and can be formed of C-shaped steel, H-shaped steel, or the like. Moreover, the heat insulation panels 4 and 4 adjacent in the direction parallel to the longitudinal direction of the roof base 5 are connected by fitting the fitting convex part 20 and the fitting concave part 21 together. Here, by interposing the packing 22 between the front end surface of the fitting convex portion 20 and the bottom surface of the fitting concave portion 21, airtightness and waterproofness can be enhanced. The heat insulation panels 4 and 4 which adjoin in the direction orthogonal to the longitudinal direction of the roof base | substrate 5 can face each other but can be connected. At this time, the connection may be made with a slight gap in order to absorb construction errors. Moreover, it is preferable to stick the heat insulation tape (a width dimension is about 50 mm) using aluminum foil over the full length between the upper surfaces of the edge part to which the adjacent heat insulation panels 4 and 4 were connected. Thereby, the clearance gap between the edge parts to which the adjacent heat insulation panels 4 and 4 were connected can be block | closed with a heat insulation tape, and airtightness and heat insulation can be improved. The heat insulation panel 4 can be fixed to the roof base 5 by driving a fixing tool (not shown) such as a screw or a nail from the upper side of the heat insulation panel 4 to the roof base 5.

  Next, the heat insulating panels 4, 4... Fixed to the roof base 5 are used as the base of the waterproof sheet 6, and the waterproof sheet 6 is laid so as to cover the upper surface thereof. In this case, after covering the waterproof sheet 6 on all the heat insulating panels 4, 4..., The resin film 9 and the waterproof sheet 6 are softened by heating a portion corresponding to the bonding portion 8 with hot air or electromagnetic induction. By applying pressure while melting, the waterproof sheet 6 is bonded to the bonding portion 8 by thermal fusion. When using a plurality of waterproof sheets 6, 6..., In addition to the heat-sealing of the waterproof sheet 6 to the adhesive portion 8, the end portions of the adjacent waterproof sheets 6, 6 (30 to 60 mm). ), And this portion is heated and heat-sealed to bond the end portions of the waterproof sheets 6 and 6 to each other. In this way, the seamless construction method in which the waterproof sheets 6, 6... Are joined and integrated has a high degree of freedom and can completely prevent the intrusion of rainwater and the like. Further, when the waterproof sheet 6 cannot be heat-sealed, for example, when the waterproof sheet 6 cannot be heat-sealed such as asphalt or modified asphalt, or when the resin coating 9 is not formed on the metal jacket 1, A bonding method in which the upper surface of the bonding portion 8 and the waterproof sheet 6 are bonded with an adhesive can be employed. A known automatic welding machine, solvent welding, or the like can be used for bonding the waterproof sheet 6.

  The sheet waterproof roof according to the present invention can realize light weight of the roof, and can achieve high designability and heat insulation by a simple plane / cross-sectional configuration. In addition, by sandwiching the heat insulating material 3 between the metal jackets 1 and 2, the concern about the dent, cracking, and chipping of the heat insulating material 3 due to light walking at the time of carrying on construction, during construction and after construction is greatly reduced. Can do. Moreover, since the heat insulating material 3 is protected by the metal sheaths 1 and 2, the deterioration of the heat insulating performance due to moisture absorption of the heat insulating material (isocyanurate foam or the like) 3 can be greatly reduced. In addition, the excellent fireproof performance (non-combustible material, roof fireproof 30 minutes) of the heat insulation panel 4 makes it possible to adapt as a roof in various areas including severely restricted fireproof areas. In addition, it is a construction method suitable for S construction (a structure made of steel frame as a structural material) where the behavior of the roof base 5 is large, and it is easy to control the safety factor in consideration of the wind resistance pressure according to the area and building dimensions. be able to. Moreover, the fitting part of the adjacent heat insulation panels 4 and 4 contains packing 22, and good airtightness is obtained by sticking a heat insulation tape made of aluminum or the like on the surface of the joint or coupling part, and excellent heat insulation. Since the heat insulating panel 4 is used as a sheet base and is applied to the outside of the roof base 5, the heat insulating performance of the roof can be increased by the external heat insulating method, and the air conditioning cost can be reduced. In addition, the conventional waterproof sheet base construction has to be constructed in three steps in order of the deck plate laying, the heat insulating material laying, and the water proofing sheet laying. In the present invention, the heat insulating panel 4 and the water proofing sheet 6 are laid. It becomes a process, and the construction period can be shortened by quick construction. Moreover, the heat insulation panel 4 is lightweight and can be easily constructed by fastening with a fixing tool such as a screw. In addition, since the waterproof sheet 6 is supported over the entire surface by the heat insulating panel 4 having a high cross-sectional performance and high rigidity, the walking is stable and does not cause cracks or dents during walking during construction or maintenance. This is effective when maintaining an outdoor unit of an air conditioner. Further, by forming the rib portion 7 that bites into the heat insulating material 3 in the metal jacket 1 on the upper surface side of the heat insulating panel 4, deformation due to thermal expansion of the metal jacket 1 is suppressed, and the rigidity and strength of the heat insulating panel 4 are reduced. , And can prevent buckling and peeling of the metal jacket 1 and the heat insulating material 3 to prevent damage to the roof. In addition, even if the groove-like rib portion 7 is formed on the upper surface of the metal jacket 1, the waterproof sheet 6 can be adhered by securing the adhesive portion 8 at a place other than the rib portion 7. The waterproof sheet 6 can be prevented from being peeled off to ensure waterproofness. Moreover, the heat insulation panel 4 equivalent to the conventional folded plate and a foam panel can be constructed at once, and workability can be enhanced, and the heat insulation panel 4 is lightweight and is a fixture such as a screw. By tightening, the construction can be easily performed, and the heat insulating material 3 is also protected by the metal jackets 1 and 2 so that it is not blown away by wind or the like. Moreover, even if a crease or a tear is formed in the waterproof sheet 6 due to a typhoon or the like, it can be easily and surely repaired by thermal welding of the waterproof sheet 6. Moreover, since the surface of the heat insulation panel 4 is hard with the metal jackets 1 and 2, birds such as crows can prevent the waterproof sheet 6 from being beaked to prevent bird damage.

  As shown in FIG. 1, in the said embodiment, the whole upper surface of the roof containing the connection part (The fitting part and fitting part of the fitting convex part 20 and the fitting recessed part 21) 10 of the adjacent heat insulation panels 4 and 4 is shown. Although the cover is covered with the waterproof sheet 6, if waterproofness can be ensured, as shown in FIG. 3, the band-shaped waterproof sheet 6 is laid so as to cover only the connection portions 10 of the adjacent heat insulating panels 4 and 4. can do. In this case, as shown in FIGS. 5A and 5B, in the vicinity of the connection portion 10 (about 20 to 60 mm from the end of the heat insulating panel 4), the upper surface of the upper metal jacket 1 has a certain width dimension. A substantially flat adhesive portion 8 can be formed over substantially the entire length of the heat insulating panel 4. Further, in this case, as shown in FIG. 4, a plurality of elongated concave-shaped rib portions 7, 7... Are intermittently formed in a staggered arrangement, and the rib portions 7 as shown in FIG. 4 is not formed in a groove shape extending over substantially the entire length. This is because if the rib portion 7 is formed in a groove shape extending over substantially the entire length, rainwater enters the lower side of the waterproof sheet 6 through the rib portion 7 and the waterproofness is impaired.

  In this embodiment, as shown in FIG. 1, the waterproof sheet 6 is used in a reduced amount of water as compared with the case where the entire surface of all the heat insulating panels 4, 4... Installed on the roof base 5 is covered with the waterproof sheet 6. Therefore, the construction can be saved and the cost can be reduced. However, the entire surface of all the heat insulating panels 4, 4... Installed on the roof base 5 may be covered with the waterproof sheet 6 in the same manner as in FIG. In this case, a portion other than the plurality of elongated recess-shaped rib portions 7, 7... Is formed as the adhesive portion 8. In addition, it is preferable that the strip | belt-shaped waterproof sheet 6 can ensure the width | variety of a heat-fusion part 40 mm or more, in order to ensure waterproofness.

  In the above description, the rib portion 7 is formed in the case where the rib portion 7 protrudes and is recessed on the lower surface of the metal jacket 1 that constitutes the upper surface of the heat insulating panel 4, but the present invention is not limited thereto, and as shown in FIGS. Can protrude from the upper surface of the metal casing 1 that constitutes the upper surface of the heat insulating panel 4. In this case, the rib portion 7 is an upwardly projecting ridge, and can be projected on the semicircular or V-shaped ridge on the upper surface of the metal jacket 1. The rib portion 7 can be formed over substantially the entire length of the heat insulating panel 4 long in parallel with the fitting convex portion 20 and the fitting concave portion 21. Moreover, the some heat insulation panel 4 can provide the some rib part 7, and the space | interval of the adjacent rib part 7 can be 50-400 mm, for example. Moreover, the width dimension of the rib part 7 can be set to 3-20 mm, for example, and a height dimension can be set to 1-5 mm, for example. A flat portion other than the rib portion 7 is formed as the bonding portion 8 on the upper surface of the metal jacket 1 on the upper side of the heat insulating panel 4. Thus, even when the heat insulating panel 4 having the rib portion 7 protruding from the upper surface of the metal jacket 1 is used, the rib portion 7 is formed in the same manner as the heat insulating panel 4 having the metal jacket 1 recessed. A sheet waterproof roof can be formed. Further, in the heat insulating panel 4 shown in FIG. 4, a plurality of elongated recess-shaped rib portions 7, 7... Are intermittently formed in a staggered arrangement, but instead of the elongated recess-shaped rib portions 7, As shown in FIG. 8, it is possible to intermittently form a plurality of elongated convex-shaped rib portions 7, 7,. In this case, similarly to FIG. 3, it is possible to lay the belt-shaped waterproof sheet 6 so as to cover only the connection portions 10 of the adjacent heat insulating panels 4 and 4 (see FIG. 9). In addition, a sheet | seat waterproof roof can be formed with the same construction method with the heat insulation panel 4 in which the rib part 7 was dented, and the heat insulation panel 4 in which the rib part 7 was convex.

An example of embodiment of this invention is shown, (a) is sectional drawing, (b) is sectional drawing to which one part was expanded. The heat insulation panel same as the above is shown, (a) is a perspective view, (b) is a partial sectional view. It is sectional drawing which shows an example of other embodiment same as the above. It is a perspective view which shows a heat insulation panel same as the above. (A) (b) is the schematic which shows a part of the same as the above. An example of other embodiment of the same as the above is shown, (a) is a cross-sectional view, (b) is a partially enlarged cross-sectional view. The other heat insulation panel same as the above is shown, (a) is a perspective view, (b) is a partial sectional view. It is a perspective view which shows the other heat insulation panel same as the above. It is sectional drawing which shows an example of further another embodiment same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Metal coating 2 Metal coating 3 Thermal insulation material 4 Thermal insulation panel 5 Roof base 6 Waterproof sheet 7 Rib part 8 Adhesion part 9 Resin coating 10 Connection part

Claims (5)

  A heat insulating panel is formed by interposing a heat insulating material between two metal jackets, and a plurality of heat insulating panels are mounted on the roof base, and adjacent heat insulating panels are connected, and the upper surface of the heat insulating panel is covered and a waterproof sheet. Adhesive for bonding a waterproof sheet to a portion other than the rib portion on the upper surface of the heat insulation panel, forming a rib portion by forming a rib on the metal jacket on the upper surface side of the heat insulation panel. A sheet waterproof roof characterized by forming a part.   The waterproof sheet roof according to claim 1, wherein the rib portion is bonded to a heat insulating material.   The sheet waterproof roof according to claim 1 or 2, wherein an adhesive portion is formed at a connecting portion of adjacent heat insulating panels, and a waterproof sheet is laid so as to cover only the connecting portion.   The sheet waterproof roof according to any one of claims 1 to 3, wherein the rib portion is formed in a groove shape or a ridge continuous over substantially the entire length of the heat insulating panel.   The sheet waterproof roof according to any one of claims 1 to 3, wherein a plurality of rib portions are formed intermittently over substantially the entire surface of the heat insulating panel.

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