JP6664097B2 - Uneven roof material and connection structure of uneven roof material - Google Patents

Description

  The present invention relates to an uneven roof material and a connection structure for the uneven roof material.

  Patent Literature 1 describes a connection structure in which two uneven roof materials are connected so as to be arranged in a roof gradient direction and partially overlap.

  In this connection structure, a fixing plate partially fixed to the roof base is interposed between the uneven roof material on the water side and the uneven roof material on the water side. The underwater end of the roofing material is fixed. Thereby, in this connection structure, the underwater end of the uneven roof material on the water side is prevented from rising due to wind or the like.

JP 2015-214865 A

  However, in the connection structure described in Patent Literature 1, a dedicated fixing plate is required to prevent the underwater end of the uneven roof material on the water side from rising, and it takes time to perform the construction. And the production cost may increase.

  An object of the present invention is to arrange a plurality of uneven roof materials so as to be arranged in a roof gradient direction and partially overlap with each other, with a simpler structure, the underwater end of the uneven roof material is raised by wind or the like. The present invention proposes an uneven roof material capable of suppressing such a phenomenon and a connection structure thereof.

  The uneven roof material according to one aspect of the present invention has a long shape along the first direction, and a plurality of ridges arranged parallel to each other at a distance in a second direction orthogonal to the first direction. Is provided.

  Each of the plurality of ridges, a first side plate located on a first side in the second direction, and a second side plate located on a second side opposite to the first side in the second direction, A top plate connecting the edges of the first side plate and the second side plate.

  An end of the first side plate in the first direction in the first direction has a concave portion recessed from an edge thereof, and an end of the second side plate in the first direction in the first direction has an edge thereof. It is provided with a pair of slits cut out from.

  In addition, the connection structure of the uneven roof material according to one aspect of the present invention is such that the first uneven roof material and the second uneven roof material located on the water side in the roof gradient direction of the first uneven roof material are different from each other. This is a connection structure in which parts are connected so as to overlap.

  Each of the first uneven roof material and the second uneven roof material has a long shape along the roof slope direction, and is arranged in parallel with each other at a distance in an eave direction orthogonal to the roof slope direction. A plurality of ridges are provided.

  Each of the plurality of ridges is a first side plate located on a first side in the eaves direction, a second side plate located on a second side opposite to the first side in the eaves direction, A top plate that connects the upper edges of the one side plate and the second side plate to each other.

  A water-side end of the first side plate of the first uneven roof material includes a pair of slits cut out from an edge thereof, and a water-side end of the first side plate of the second uneven roof material. The part comprises a recess recessed from its edge.

  The underwater end of the second uneven roof material overlaps the underwater end of the first uneven roof material, and the pair of slits of the first uneven roof material has the second uneven roof. The first uneven roof material and the second uneven roof material are connected in a state where the bottom portion of the concave portion of the first side plate of the material is inserted.

  The uneven roof material according to the present invention and the connection structure of the uneven roof material are arranged in the roof gradient direction, and when a plurality of uneven roof materials are installed so as to partially overlap with each other, a simpler structure is used. It is possible to suppress that the lower end is lifted by the wind or the like.

FIG. 1 is a perspective view showing the uneven roof material of the first embodiment. FIG. 2 is another perspective view showing the uneven roof material according to the first embodiment. FIG. 3 is a perspective view illustrating a connection structure of the uneven roof material according to the first embodiment. FIG. 4 is an exploded perspective view of the above connection structure. FIG. 5 is another perspective view showing the connection structure of FIG. FIG. 6 is an exploded perspective view of the above connection structure. FIG. 7 is a perspective view showing an uneven roof material according to the second embodiment. FIG. 8 is another perspective view showing the uneven roof material of the above.

(Embodiment 1)
The uneven roof material according to the first embodiment shown in FIGS. 1 and 2 is a metal vertical roof material, and is used for a roof of a residential house. The uneven roof material is installed on a roof base such as a field board.

  The uneven roofing material includes a plurality of ridges 1, a plurality of bottom plates 2, and a pair of standing pieces 3 for returning water. The plurality of ridges 1 have a long shape along the first direction D1, and are arranged in parallel with each other at a distance in a second direction D2 orthogonal to the first direction D1. The plurality of ridges 1 have a height in a third direction D3 orthogonal to the first direction D1 and the second direction D2.

  Hereinafter, each configuration of the uneven roof material will be described with the first direction D1 being the front-back direction, the second direction D2 being the left-right direction, and the third direction D3 being the up-down direction. In each figure, the direction indicated by arrow X is forward, the direction indicated by arrow Y is rightward, and the direction indicated by arrow Z is upward.

  The uneven roof material of the present embodiment is a roof material having a longitudinal direction in the front-rear direction and a short direction (width direction) in the left-right direction. The length of the uneven roof material in the front-rear direction is a length (for example, 7 m or less) that can be transported by a truck.

  The pair of standing pieces 3 are located at both ends in the left-right direction of the uneven roof material so as to sandwich the plurality of ridges 1. The plurality of bottom plate portions 2 include a bottom plate portion 2 located between the adjacent ridge portions 1 among the plurality of ridge portions 1, and a pair of the bottom plate portions 2 located between the pair of upstanding pieces 3 and the plurality of ridge portions 1. And a bottom plate 2.

  In the present embodiment, the uneven roof material includes three ridges 1 and four bottom plates 2. The uneven roof material includes, in order from the left side, the upright pieces 3, the bottom plate 2, the ridges 1, the bottom plate 2, the ridges 1, the bottom plate 2, the ridges 1, the bottom plate 2, and the uprights 3, They are arranged in the left-right direction, and they are integrally continuous. The uneven roof material is formed by bending a metal plate using a press machine or a roll forming machine.

  Next, the plurality of ridges 1 will be described in detail. The plurality of ridges 1 have a common structure. Therefore, one of the plurality of ridges 1 will be described below.

  In the present embodiment, the protruding ridge portion 1 has a substantially half-square cylindrical shape opened downward. The ridge portion 1 has a first side plate 4 located on the left side (first side in the second direction D2) and a second side plate located on the right side (second side opposite to the first side in the second direction D2). 5 and a top plate 6 that connects the upper edges of the first side plate 4 and the second side plate 5 to each other. The first side plate 4 and the second side plate 5 are located at a distance in the left-right direction.

  The upper end of the first side plate 4 is continuous with the left end of the top plate 6, and the upper end of the second side plate 5 is continuous with the right end of the top plate 6. The lower end of the first side plate 4 is continuous with the right end of the bottom plate 2 adjacent to the left side. The lower end of the second side plate 5 is continuous with the left end of the bottom plate 2 adjacent to the right side.

  The rear end of the first side plate 4 (the end on the first side in the first direction D1) includes a concave portion 7 that is recessed forward from the rear edge. In the present embodiment, the recess 7 is located at the rear end of the first side plate 4 over the entire length in the vertical direction. That is, the entire rear end of the first side plate 4 is cut off.

  The rear end of the second side plate 5 (the end on the first side in the first direction D1) is provided with a pair of slits 8 that are cut forward from the rear edge. In the present embodiment, the pair of slits 8 are parallel to each other and are located at both ends in the vertical direction of the rear end of the second side plate 5. The pair of slits 8 have the same length L1 in the front-rear direction. The longitudinal length L1 of the slit 8 is shorter than the longitudinal length L2 of the recess 7.

  On the inner surface of the second side plate 5 (that is, the left surface of the second side plate 5), a packing 9 is provided on the inner side (that is, the front side) of the pair of slits 8. The packing 9 is located on the inner surface of the second side plate 5 over the entire length in the vertical direction.

  In the present embodiment, the packing 9 is provided so as to partially protrude from a portion on the inner surface of the second side plate 5 farther than the pair of slits 8 to the bottom region of the pair of slits 8. Note that the packing 9 is provided so as not to protrude into the region of the bottom of the pair of slits 8, that is, so that the bottom edge (that is, the front edge) of the pair of slits 8 and the rear edge of the packing 9 are aligned. Good.

  In the present embodiment, the plurality of ridges 1 are located at equal intervals in the left-right direction.

  Subsequently, the plurality of bottom plate portions 2 will be described. The plurality of bottom plate portions 2 have a common structure. Therefore, hereinafter, one of the plurality of bottom plate portions 2 will be described.

  The bottom plate 2 has a rectangular plate shape that is long in the front-rear direction. The length of the bottom plate 2 in the front-rear direction is the same as the length of the ridge 1 in the front-rear direction. The length of the bottom plate 2 in the left-right direction is slightly longer than the length of the ridge 1 in the left-right direction.

  In the present embodiment, the plurality of bottom plate portions 2 are located at equal intervals in the left-right direction.

  Subsequently, the pair of standing pieces 3 will be described in detail.

  The pair of standing strips 3 includes a first standing strip 300 located to the left of the plurality of ridges 1 and a second standing strip 301 located to the right of the plurality of ridges 1. The upper end of the rear end of the first upright piece 300 (the end on the first side in the first direction D1) is one step lower than the other portions of the first upright piece 300.

  Each of the upright pieces 300 and 301 includes a protruding piece 30 protruding upward from an outer edge of the bottom plate 2 in the left-right direction and a water return piece protruding obliquely downward from the tip of the protruding piece 30 toward the bottom plate 2. And a unit 31. The water return piece portion 31 has a shape in which the front end portion is folded back to the protruding piece portion 30 side.

  In the first standing piece 300 on the left side, the rear end portion is constituted only by the lower half portion of the protruding piece portion 30. Here, the lower half of the projecting piece 30 is a part of the projecting piece 30 below the water return piece 31 in the present embodiment. Thereby, in the first standing piece 300 on the left side, the rear end is provided one step lower at the upper end than other portions.

  The length L3 in the front-rear direction of the rear end portion provided one step lower than the first standing piece 300 is substantially the same as the total length L1 of the slit 8 in the front-rear direction and the length L2 of the recess 7 in the front-rear direction. is there.

  In the second upright piece 301 on the right side, the cross-sectional shape is constant over the longitudinal direction, that is, the rear end of the second upright piece 301 has an upper end that is higher than the other portions of the second upright piece 301. Not provided one step lower.

  In this embodiment, the concavo-convex roofing material includes only the rear end portion with the concave portion 7, the pair of slits 8, the portion provided one step lower, and the packing 9, and the front end portion does not have these components. Therefore, in the uneven roof material, the cross-sectional shape of the remaining portion excluding the rear end portion is constant in the longitudinal direction.

  In the uneven roof material described above, the longitudinal direction of each ridge 1 is parallel to the roof gradient direction D4 of the roof substrate, and the width direction of each ridge 1 is relative to the roof gradient direction D4. It is installed in a posture parallel to the eaves direction D5, which is orthogonal to the eaves (see FIG. 3). On the roof foundation, a plurality of the above-mentioned uneven roof materials are arranged in the roof gradient direction D4 and connected so as to partially overlap each other.

  Subsequently, a connection structure in which the two uneven roof materials described above are arranged in the roof gradient direction D4 and connected so that a part of each of them overlaps will be described with reference to FIGS.

  Hereinafter, of the two uneven roof materials arranged in the roof slope direction D4, the uneven roof material located below the roof slope direction D4 will be referred to as a first uneven roof material R1, and the water surface in the roof slope direction D4 will be described above. Is described as a second uneven roof material R2. 3 to 6, the direction indicated by the arrow X is on the water surface in the roof gradient direction D4, the direction indicated by the arrow Y is the right side (the second side in the eaves direction D5), and the direction indicated by the arrow Z. Is above.

  First, the first uneven roof material R1 will be described.

  The first uneven roof material R1 has the same structure as the roof material obtained by rotating the uneven roof material shown in FIGS. 1 and 2 by 180 degrees on the XY plane. As shown in FIGS. 4 and 6, in the first uneven roof material R1, the plurality of ridges 1 have a long shape in the roof gradient direction D4, and are arranged in parallel with each other at a distance in the eaves direction D5. .

  Each of the plurality of ridges 1 is a first side plate 4 located on the left side (first side in the eaves direction D5) and a first side plate located on the right side (the second side opposite to the first side in the eaves direction D5). It includes a second side plate 5 and a top plate 6 that connects the upper edges of the first side plate 4 and the second side plate 5 to each other.

  In the first uneven roof material R1, the water-side end of the first side plate 4 is provided with a pair of slits 8 cut out from the water-side edge. The water-side end of the second side plate 5 is provided with a concave portion 7 recessed from the water-side edge. On the inner surface of the first side plate 4 (the right surface of the first side plate 4), a packing 9 is provided behind the pair of slits 8. In the first uneven roof material R1, the upper end of the right upright piece 3 of the pair of upright pieces 3 is provided with the upper end one step lower than the remaining portion excluding the upper end of the upright piece. I have.

  Next, the second uneven roof material R2 will be described.

  The second uneven roof material R2 has the same structure as the uneven roof material shown in FIGS. As shown in FIGS. 4 and 6, in the second uneven roof material R2, the plurality of ridges 1 have a long shape in the roof gradient direction D4 and are arranged in parallel with each other at a distance in the eaves direction D5. .

  Each of the plurality of ridges 1 is a first side plate 4 located on the left side (first side in the eaves direction D5) and a first side plate located on the right side (the second side opposite to the first side in the eaves direction D5). It includes a second side plate 5 and a top plate 6 that connects the upper edges of the first side plate 4 and the second side plate 5 to each other.

  In the second uneven roof material R2, the underwater end of the first side plate 4 includes the concave portion 7 recessed from the underwater edge, and the underwater end of the second side plate 5 is It has a pair of slits 8 cut out from the edge on the underwater side. On the inner surface of the second side plate 5 (left surface of the second side plate 5), a packing 9 is provided behind the pair of slits 8. In the second uneven roofing material R2, of the pair of upright pieces 3, the lower end of the left upright piece 3 is provided with the upper end one step lower than the remaining part excluding the lower end. Have been.

  In the present embodiment, the first uneven roof material R1 and the second uneven roof material R2 have a point-symmetric structure with each other.

  Next, the connection structure between the first uneven roof material R1 and the second uneven roof material R2 shown in FIGS. 3 and 5 will be described in detail.

  The connection structure of the uneven roof materials R1 and R2 is constructed, for example, as follows.

  First, the first uneven roof material R1 is installed on the roof foundation. Next, the underwater end of the second uneven roof material R2 is overlapped on the underwater end of the first uneven roof material R1.

  At this time, in the second uneven roof material R2, the bottom edge of the concave portion 7 of each convex ridge portion 1 is located adjacent to the water surface of the pair of slits 8 of each convex ridge portion 1 of the first uneven roof material R1. And so on.

  Next, the second uneven roof material R2 is slid downward under the water while the portion 80 between the pair of slits 8 of each of the ridges 1 of the first uneven roof material R1 is slightly opened to the left. At this time, in the second uneven roof material R2, the bottom edge of the concave portion 7 of the first side plate 4 of each convex ridge portion 1 is located on the back side of the pair of slits 8 of each convex ridge portion 1 of the first uneven roof material R1. Slide until it hits the packing 9.

  Thereby, the bottom portion of the concave portion 7 of the first side plate 4 of each convex ridge portion 1 of the second concave and convex roof material R2 is inserted into the pair of slits 8 of each convex ridge portion 1 of the first concave and convex roof material R1. In addition, the concave portion 7 of the second side plate 5 of each convex ridge portion 1 of the first uneven roof material R1 is located on the back side of the pair of slits 8 of the second side plate 5 of each convex ridge portion 1 of the second uneven roof material R2. Covered by the part. Further, the bottom edge of the concave portion 7 of the second side plate 5 of each convex ridge portion 1 of the first uneven roof material R1 is formed by a pair of slits 8 of the second side plate 5 of each convex ridge portion 1 of the second uneven roof material R2. It hits the packing 9 on the back side.

  In addition, the lower end of the pair of upright pieces 3 of the second uneven roof material R2 overlaps the inner side in the left-right direction of the upper end of the pair of upright pieces 3 of the first uneven roof material R1. At this time, in the portion where the upstanding pieces 3 of the uneven roofing materials R1 and R2 overlap with each other, only one of the upstanding pieces 3 includes the water return piece portion 31, so that the deformation of the upstanding piece 3 can be suppressed.

  In the connection structure of the uneven roof material of the present embodiment constructed according to the above procedure and the like, the underwater end of the second uneven roof material R2 is placed on the water-side end of the first uneven roof material R1. overlapping. Then, in this connection structure, the bottoms of the recesses 7 of the first side plate 4 of the second uneven roof material R2 are inserted into the pair of slits 8 of the first uneven roof material R1, and the uneven roof materials R1, R2 Is connected. In the uneven roofing materials R1 and R2, each of the plurality of ridges 1 is connected one-to-one. The underwater end of each of the plurality of bottom plate portions 2 of the second uneven roof material R2 is one-to-one on the water-side end of each of the plurality of bottom plate portions 2 of the first uneven roof material R1. Are stacked.

  Here, the concavo-convex roofing materials R1 and R2 are connected to each other at an overlapping length equal to the total length of the slit 8 in the front-rear direction length L1 and the concave portion 7 in the front-rear direction length L2. This overlapping margin is substantially the same as the length L3 in the front-rear direction of the portion of the uneven roof material R1, R2 provided one step lower than the upright piece 3.

  The pair of slits 8 of the second side plate 5 of the second uneven roof material R2 overlap with the bottom portion of the concave portion 7 of the second side plate 5 of the first uneven roof material R1, and do not communicate with the concave portion 7. In addition, each concave portion 7 of the second uneven roof material R2 has a portion located on the inner side (right side) behind the pair of slits 8 of the first side plate 4 of the first uneven roof material R1. It does not communicate with the pair of slits 8 of the roofing material R1.

  In the connection structure of the uneven roof materials R1 and R2 described above, the first side plate 4 of the first uneven roof material R1 is provided outside (to the left of) the bottom portion of the concave portion 7 of the first side plate 4 of the second uneven roof material R2. A portion 80 between the pair of slits 8 is located. As a result, a part of the configuration of the first uneven roof material R1 is partially overlapped on a part of the water-end side of the second uneven roof material R2, and the water of the second uneven roof material R2 is located. It is possible to suppress the lower end portion from being lifted by the wind or the like by the first uneven roof material R1.

  In the connection structure described above, the bottom of the concave portion 7 of the first side plate 4 of the second uneven roof material R2 is inserted into the pair of slits 8 of the first side plate 4 of the first uneven roof material R1. Thus, the length of the pair of slits 8 can be reduced while securing the overlap margin. Thereby, the part 80 between the pair of slits 8 is deformed in a direction away from the first side plate 4 of the second uneven roof material R2, and the water stoppage is prevented from lowering.

  Further, in the connection structure described above, the two concavo-convex roofing materials R1 and R2 are connected in such a manner that the pair of upstanding pieces 3 does not overlap the water return pieces 31 in the left-right direction. Therefore, at the time of connecting the two uneven roof materials R1 and R2, the deformation of the pair of upright pieces 3 is suppressed.

(Modification)
The following modified examples can be adopted for the uneven roof material and the connection structure of the uneven roof material according to the first embodiment described above.

  The plurality of ridges 1 of the uneven roof material may be provided with a recess 7 in the first side plate 4 and a pair of slits 8 in the second side plate 5, but not all of them.

  The positions of the recess 7 and the pair of slits 8 in each of the ridges 1 of the uneven roof material may be opposite.

  The position of the pair of slits 8 in each second side plate 5 of the uneven roof material is not limited to the lower end and upper end of each second side plate 5, but may be any part above the lower end and lower end of each second side plate 5. Is also good. In addition, the recess 7 in each first side plate 4 of the uneven roof material may be such that the position of the upper edge thereof is located at the same or higher than the position of the upper end of the portion between the pair of slits 8. Depending on the arrangement of 8, the first side plate 4 may be located at a part of the vertical direction.

  The packing 9 may not be provided on the inner surface of the second side plate 5 of each of the ridges 1 of the uneven roof material.

  The uneven roof material does not need to include the pair of standing pieces 3 for returning water.

  The plurality of ridges 1 of the uneven roof material may be arranged in parallel at different distances in the second direction D2.

  The width dimension of each of the plurality of ridges 1 of the uneven roof material may be different from each other.

  The first uneven roof material R1 and the second uneven roof material R2 may not have the same structure as the uneven roof material shown in FIG. 1, and each second side plate 5 of the first uneven roof material R1 includes the concave portion 7. Each of the second side plates 5 of the second uneven roof material R2 may not be provided with the pair of slits 8.

  The first uneven roof material R1 and the second uneven roof material R2 only need to correspond to the arrangement of the plurality of ridges 1, and on top of that, each of the plurality of ridges 1 moves in the eave direction D5. They may be arranged in parallel at different distances from each other or may have different widths.

  The water-side ends of the pair of upright pieces 3 of the first uneven roof material R1 and the water-side ends of the pair of upright pieces 3 of the second uneven roof material R2 are formed of two upright pieces 3 overlapping each other. It is only necessary that one of them has the upper end one step lower than the other part. For example, both water-side ends of the pair of upright pieces 3 of the first uneven roof material R1 may be provided with the upper end being one step lower than the other portions, or a pair of upright pieces of the second uneven roof material R2. Both lower ends of the piece 3 may be provided with the upper end one step lower than the other portions.

  The bottom plate portion 2 in the portion where the first uneven roof material R1 and the second uneven roof material R2 overlap, or the bottom plate portion 2 in the vicinity thereof may be screwed to the roof foundation.

(Embodiment 2)
Subsequently, the uneven roof material of the second embodiment shown in FIGS. 7 and 8 will be described. In addition, about the structure similar to the uneven | corrugated roof material of Embodiment 1, the same code | symbol is attached | subjected in a figure and detailed description is abbreviate | omitted, and a different structure is demonstrated in detail.

  The concavo-convex roof material of the second embodiment is formed by cutting the front edge (the second side opposite to the first side in the first direction D1) from the front edge of the first side plate 4 of each of the plurality of ridges 1. It further includes a pair of missing second slits 10. In addition, the concave and convex roofing material is recessed from the front edge of the front end (the second side opposite to the first side in the first direction D1) of the second side plate 5 of each of the plurality of ridges 1. It further includes two recesses 11.

  The pair of second slits 10 has the same structure as the pair of slits 8, and the second recess 11 has the same structure as the recess 7.

  In the present embodiment, the second concave portion 11 is located at the front end of the second side plate 5 over the entire length in the vertical direction. That is, the entire front end of the second side plate 5 is cut off.

  The pair of second slits 10 are parallel to each other, and are located at both ends in the vertical direction of the front end of the first side plate 4. The pair of second slits 10 have the same length L4 in the front-rear direction. The length L4 of the second slit 10 in the front-rear direction is shorter than the length L5 of the second recess 11 in the front-rear direction. The length L4 of the pair of second slits 10 in the front-rear direction is the same as the length L1 of the pair of slits 8 in the front-rear direction, and the length L5 of the second recess 11 in the front-rear direction is the length of the recess 7 in the front-rear direction. It is the same as the length L2.

  On the inner surface of the first side plate 4 (that is, the right surface of the first side plate 4), a packing 9 is provided on the inner side (that is, the rear side) of the pair of second slits 10. The packing 9 is located on the inner surface of the first side plate 4 over the entire length in the vertical direction.

  In the present embodiment, the packing 9 is provided so as to partially protrude from a portion on the inner surface of the first side plate 4 farther than the pair of second slits 10 to the bottom region of the pair of second slits 10. Note that the packing 9 does not protrude into the bottom region of the pair of second slits 10, that is, the bottom edge (that is, the rear edge) of the pair of second slits 10 and the front edge of the packing 9 are aligned. It may be provided.

  In addition, in the uneven roof material, the front end of one of the pair of standing pieces 3 (the right standing piece 3 in the present embodiment) is provided with the upper end one step lower than the remaining part excluding the front end. I have. The front-rear length L6 of the part provided one step lower is the same as the front-rear length L3 of the part provided one step lower at the rear end of the left standing piece 3. The front-back length L6 of the portion provided one step lower is substantially the same as the total length L4 of the second slit 10 in the front-rear direction and the length L5 of the second recess 11 in the front-rear direction.

  The uneven roof material according to the second embodiment described above is provided with the entire configuration point-symmetrically. Therefore, the uneven roof material according to the second embodiment may be installed on the roof foundation only by setting the longitudinal direction of each ridge 1 to be parallel to the roof gradient direction D4 of the roof foundation. Adjustment is easy.

  Similarly, the uneven roof material according to the second embodiment can form the connection structure of the uneven roof material according to the first embodiment. In the connection structure of the uneven roof material according to the second embodiment, the lifting of the underwater end of the uneven roof material located on the water surface is performed by the portion 80 between the pair of slits 8 and the portion between the pair of second slits 10. 12, it can be suppressed.

  Note that the uneven roof material of the second embodiment may form a connection structure in combination with the uneven roof material of the first embodiment.

(Modification)
The following modified examples can be adopted for the uneven roof material of Embodiment 2 described above.

  The uneven roof material according to the second embodiment may not be provided in a point-symmetrical shape. That is, the longitudinal length L5 of the second concave portion 11 may be different from the longitudinal length L2 of the concave portion 7, and the longitudinal length L4 of the pair of second slits 10 may be different from the pair of slits. 8 may be different for the length L1 in the front-back direction.

  Further, as the uneven roof material of the second embodiment, a modification example similar to the above-described modification example of the uneven roof material of the first embodiment can be adopted.

(Effect of each embodiment)
The uneven roof materials of the first and second embodiments described above are characterized by having the following first configuration.

  That is, the uneven roofing materials of Embodiments 1 and 2 have a long shape along the first direction D1, and are arranged in parallel with each other at a distance in a second direction D2 orthogonal to the first direction D1. The ridge 1 is provided.

  Each of the plurality of ridges 1 includes a first side plate 4 located on a first side in a second direction D2, and a second side plate 5 located on a second side opposite to the first side in a second direction D2. And a top plate 6 connecting the edges of the first side plate 4 and the second side plate 5 to each other.

  The end of the first side plate 4 on the first side in the first direction D1 includes a concave portion 7 recessed from the edge thereof, and the end of the second side plate 5 on the first side in the first direction D1 is the end thereof. It has a pair of slits 8 cut out from the edges.

  Therefore, the concave and convex roofing materials of Embodiments 1 and 2 are arranged in the roof gradient direction D4 and when the two roofing materials are installed so as to partially overlap with each other, the concave portions 7 of the first side plate 4 of the concave and convex roofing material on the waterside. Can be inserted into a pair of slits 8 of the uneven roof material under the water.

  As a result, it is possible to prevent the underwater end of the uneven roof material on the water side from being lifted up by wind or the like by connecting the uneven roof material on the water side, thereby preventing the rising as in the conventional example. A dedicated fixing plate for the connection is not required, and the connection structure can be simplified.

  Further, a concave portion 7 recessed from the edge is provided in the first side plate 4 of the uneven roof material on the water side, and the bottom portion of the concave portion 7 is inserted into a pair of slits 8 of the uneven roof material on the water side. Thus, the pair of slits 8 can be shortened while securing the overlap margin. Thereby, in the uneven roof material of the first and second embodiments, the portion 80 between the pair of slits 8 is difficult to spread, and it is possible to suppress the intrusion of rainwater into the ridge 1 through this portion.

  In addition, the uneven roof materials of the first and second embodiments further include the following second configuration.

  That is, in the uneven roof material of the first and second embodiments, the packing 9 is provided on the inner surface of the second side plate 5 on the inner side of the pair of slits 8.

  Therefore, when the two uneven roof materials of Embodiments 1 and 2 are arranged so as to be arranged in the roof gradient direction D4, the bottom of the concave portion 7 of the first side plate 4 of the uneven roof material on the water side is attached to the packing 9. In this way, it is possible to suppress infiltration of rainwater into the ridge portion 1 from this portion.

  In addition, the uneven roof materials of Embodiments 1 and 2 further include the following third configuration.

  That is, the uneven roofing material of Embodiments 1 and 2 further includes a pair of standing pieces 3 for returning water positioned at both ends in the second direction D2 so as to sandwich the plurality of ridges 1. In one of the pair of standing pieces 3, the end on the first side in the first direction D1 is provided one step lower than the other part.

  Therefore, when the two uneven roof materials of Embodiments 1 and 2 are installed so as to be arranged in the roof gradient direction, the upper end portions of the both upright pieces 3 do not overlap with each other in the overlapping portion of the upright pieces 3, Providing a water return piece protruding inward at the upper end does not interfere.

  Further, the uneven roof material of the second embodiment further includes the following fourth configuration.

  That is, the uneven roof material according to the second embodiment has a pair of second slits formed by cutting out the second side end of the first side plate 4 opposite to the first side in the first direction D1. 10 is provided. The end of the second side plate 5 on the second side in the first direction D1 includes a second recess 11 that is recessed from the edge.

  Therefore, when the two uneven roof materials according to the second embodiment are installed so as to be arranged in the roof gradient direction D4, there is little restriction on the direction, and the installation is easy.

  Further, the connection structure of the uneven roof material according to the first and second embodiments has a fifth configuration described below.

  That is, in the connection structure of the uneven roof materials of the first and second embodiments, the first uneven roof material R1 and the second uneven roof material R2 located on the water surface in the roof gradient direction D4 of the first uneven roof material R1 include: This is a connection structure in which parts are connected so as to overlap each other. Each of the first uneven roof material R1 and the second uneven roof material R2 has a long shape along the roof slope direction D4, and is arranged in parallel with each other at a distance in the eave direction D5 orthogonal to the roof slope direction D4. A plurality of ridges 1;

  Each of the plurality of ridges 1 includes a first side plate 4 located on a first side in the eaves direction D5, a second side plate 5 located on a second side opposite to the first side in the eaves direction D5, A top plate 6 that connects the upper edges of the first side plate 4 and the second side plate 5 to each other.

  The water-side end of the first side plate 4 of the first uneven roofing material R1 is provided with a pair of slits 8 cut out from its edge. The underwater end of the first side plate 4 of the second uneven roofing material R2 is provided with a concave portion 7 recessed from the edge.

  The underwater end of the second uneven roof material R2 overlaps the underwater end of the first uneven roof material R1, and the second uneven roof material R1 is inserted into a pair of slits 8 of the first uneven roof material R1. With the bottom portion of the concave portion 7 of the first side plate 4 of R2 inserted, the uneven roof materials R1 and R2 are connected.

  Therefore, in the connection structure of the uneven roofing materials of Embodiments 1 and 2, it is determined that the underwater end of the second uneven roofing material R2 on the waterside rises due to the wind or the like. It can be suppressed by connecting to R1. Therefore, in the connection structure of the uneven roof material according to the first and second embodiments, a dedicated fixing plate for preventing floating as in the conventional example is not required, and the connection structure can be simplified.

  In addition, a concave portion 7 recessed from the edge is provided in the first side plate 4 of the second uneven roof material R2 on the water side, and a bottom portion of the concave portion 7 is formed by a pair of slits 8 of the first uneven roof material R1 on the water side. , The pair of slits 8 can be shortened while securing the overlap margin. Accordingly, in the connection structure of the uneven roof material according to the first and second embodiments, the portion between the pair of slits 8 is unlikely to spread, and it is possible to suppress rainwater from entering the ridge portion 1 through this portion.

  Further, the connection structure of the uneven roof material according to the first and second embodiments further includes a sixth configuration described below.

  That is, the connection structure of the uneven roof material of the first and second embodiments is such that the inner side of the first side plate 4 of the first uneven roof material R1 is located behind the pair of slits 8 and the first side plate of the second uneven roof material R2. 4 is provided with a packing 9 against which a bottom portion of the concave portion 7 contacts.

  Therefore, in the connection structure of the uneven roof materials of Embodiments 1 and 2, the inflow path of rainwater from the pair of slits 8 of the first uneven roof material R1 under the water into the ridge portion 1 is closed by the packing 9, It is possible to improve the water stoppage.

  As described above, the present invention has been described based on the embodiments shown in the accompanying drawings. However, the present invention is not limited to the above embodiments, and appropriate design changes can be made within the scope of the present invention. It is.

DESCRIPTION OF SYMBOLS 1 Ridge part 3 Standing piece 4 First side plate 5 Second side plate 6 Top plate 7 Depression 8 Slit 9 Packing 10 Second slit 11 Second depression D1 First direction D2 Second direction D4 Roof gradient direction D5 House direction

Claims (6)

An uneven roof material having a long shape along the first direction, and including a plurality of ridges arranged in parallel to each other at a distance in a second direction orthogonal to the first direction,
Each of the plurality of ridges,
A first side plate located on a first side in the second direction,
A second side plate located on a second side opposite to the first side in the second direction,
Including a top plate connecting the edges of the first side plate and the second side plate,
An end of the first side plate on the first side in the first direction includes a concave portion recessed from the edge thereof.
An uneven roof material, wherein an end of the second side plate on the first side in the first direction is provided with a pair of slits cut out from an edge thereof.   The uneven roofing material according to claim 1, wherein a packing is provided on an inner surface of the second side plate at a depth side of the pair of slits. A pair of standing pieces for water return located at both ends in the second direction so as to sandwich the plurality of ridges, further comprising:
3. The uneven roof according to claim 1, wherein, in one of the pair of upright pieces, the end on the first side in the first direction is provided one step lower than other portions. 4. Wood. An end of the second side of the first side plate opposite to the first side in the first direction includes a pair of second slits cut out from the edge thereof.
The uneven roof according to any one of claims 1 to 3, wherein an end of the second side plate in the first direction in the first direction includes a second concave portion that is recessed from an edge thereof. Wood. A connection structure in which the first uneven roof material and the second uneven roof material located on the water surface in the roof gradient direction of the first uneven roof material are connected so that a part of each other overlaps,
Each of the first uneven roof material and the second uneven roof material,
It has a long shape along the roof slope direction, and comprises a plurality of ridges arranged in parallel to each other with a distance in the eaves direction orthogonal to the roof slope direction,
Each of the plurality of ridges is
A first side plate located on a first side in the eaves direction,
A second side plate located on a second side opposite to the first side in the eaves direction,
A top plate that connects the upper edges of the first side plate and the second side plate to each other,
The water-side end of the first side plate of the first uneven roof material includes a pair of slits cut out from the edge thereof,
The underwater end of the first side plate of the second uneven roof material includes a concave portion recessed from the edge thereof.
The underwater end of the second uneven roof material overlaps the underwater end of the first uneven roof material, and the pair of slits of the first uneven roof material includes the second uneven roof material. A connection structure for uneven roof materials, wherein the first uneven roof material and the second uneven roof material are connected to each other in a state where a bottom portion of the concave portion of the first side plate of the material is inserted.   The inner surface of the first side plate of the first uneven roof material, on the inner side of the pair of slits, is provided with a packing that a bottom portion of the concave portion of the first side plate of the second uneven roof material contacts. The connection structure for uneven roof materials according to claim 5.

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