JP2019132037A - Ridge structure of uneven roof - Google Patents

Abstract

To provide a ridge structure of an uneven roof allowing attachment work of ridge clearance sealing strips to be easily performed in a shorter time.SOLUTION: A ridge structure 20 of an uneven roof 10 is provide with: a ridge clearance sealing strip 30 arranged along a girder direction at a location space apart from a ridge part to an eaves side, the ridge clearance sealing strip 30 having a draining part arranged through being fitted in a concave part and a connection part connecting a plurality of the draining parts arranged in a plurality of concave parts; a cap piece 24 on the eaves side secured on roofing material together with the ridge clearance sealing strip 30 in a condition of being placed on the connection part; and a ridge packing member 40 secured in a condition of covering the ridge clearance sealing strip 30 and the cap piece 24.SELECTED DRAWING: Figure 10

Description

  The present disclosure relates to a ridge structure of an uneven roof.

  2. Description of the Related Art Conventionally, there is known an uneven roof in which a roof material in which convex portions and concave portions extending in the building direction are alternately arranged in a girder direction is laid on the roof surface. The ridge structure in such an uneven roof is covered with a wing wrapping member, so that rainwater or the like can be prevented from entering the roof (see, for example, Patent Document 1).

  Moreover, a ventilation part may be provided in the ridge structure of an uneven roof. With reference to FIGS. 1-6, the ventilation part 13 of the uneven | corrugated roof 10 of a prior art example is demonstrated. 1 to 6, the building direction is indicated by an arrow X, the girder direction orthogonal to the building direction is indicated by an arrow Y, and the normal direction of the uneven roof 10 orthogonal to the building direction and the girder direction is the arrow Z. It is shown in

  FIG. 1 is a perspective view showing an uneven roof 10 before the building structure is assembled. A roof material 12 is laid on the roof surface of the uneven roof 10. The roofing material 12 is constituted by a thin metal plate, for example. On the roof material 12, convex portions 12a and concave portions 12b extending in the building direction are alternately formed in the girder direction.

  In addition, the uneven roof 10 is configured by arranging a plurality of roofing materials 12 side by side in the girder direction and connecting them with a joint portion 14. The joint part 14 has substantially the same outer shape as the convex part 12a of the roofing material 12, and is formed by extending along the building eaves direction. A resin pier 16 (see FIG. 9) is arranged inside the joint portion 14.

  As shown in FIG. 1, the roof material 12 is cut out in a rectangular shape in a top view at both eaves sides at the place where the ventilation portion 13 is provided in the ridge portion 11 of the uneven roof 10. The field plate 15 is exposed. Although not shown, a waterproof sheet such as asphalt roofing is disposed between the field board 15 and the roofing material 12 to ensure the waterproofness of the uneven roof 10. The base plate 15 exposed in the ventilation unit 13 is formed with an elongated rectangular opening 17 in a top view. The opening 17 serves as a ventilation port that allows communication between the indoor space and the outdoor space.

  FIG. 2 is a diagram illustrating the construction of the ridge 11 of the uneven roof 10. As shown in FIG. 2, a keraba decorative cover 19 is fixed so as to cover the keraba that is the end of the uneven roof 10 on the wife side. The ridge 11 of the conventional example is constructed as follows.

  First, the ridge side headboard 22 is arranged on both sides of the ridge portion 11 so as to extend along the girder direction. The ridge side coping 22 is suitably configured by, for example, a rectangular long material made of resin. The ridge side headboard 22 is fixed to the joint portion 14 of the uneven roof 10 by screws screwed from above. Since the resin pier 16 is provided in the joint portion 14 as described above, the ridge-side headboard 22 can be firmly fixed by firmly attaching the screw to the resin pier 16.

  Next, the ridge door 30A is temporarily placed at a position away from the ridge side headboard 22 by a predetermined distance on the eaves side. The ridge face door 30A is a long member extending along the girder direction. FIG. 3 is a perspective view of the ridge face door 30A and an enlarged view seen from the end face. The ridge face door 30A is suitably configured by, for example, a metal plate.

  The ridge face door 30A includes a plurality of eaves-side drainers 32, a connecting portion 34 that connects the eaves-side drainers 32, and a ridge-side drainer 36 that is bent at the eaves-side end of the connecting portion 34. Prepare.

  As shown in FIG. 2, the eaves side draining portion 32 is disposed so as to be fitted into the recess 12 b of the uneven roof 10. As shown in FIG. 3, the eaves-side draining portion 32 includes a draining main body 32 a that is substantially U-shaped, and a return portion 32 b that is bent at the eaves-side end of the draining main body 32 a. The return portion 32b is bent and inclined so as to form an acute angle of, for example, 45 degrees with respect to the standing wall portion. By arranging such an eaves-side draining portion 32 in the concave portion 12b of the uneven roof 10, it is possible to prevent rainwater and the like from entering the ridge structure 20A from the eave side to the ridge side through the concave portion 12b.

  In the draining body 32a of the eaves side draining part 32, for example, rubber packings 38 are attached to both side edges of the ridge side standing wall part. The packing 38 blocks between the eaves side draining portion 32 and the side surface of the convex portion 12a of the uneven roof 10 and prevents intrusion of rainwater or the like. The packing 38 protrudes from the lower surface of the draining body 32a, and when the eaves-side draining part 32 is fitted in the recess 12b, a gap is formed between the draining body 32a and the bottom surface of the recess 12b. It is supposed to be formed. By forming the gap in this way, the water flowing from the ridge side to the eave side in the ridge portion 11 in the ridge portion 11 can flow without the eaves side draining portion 32 blocking.

  As shown in FIGS. 2 and 3, the connecting portion 34 of the building door 30 </ b> A has a flat plate shape extending in the girder direction, and is configured integrally by connecting a plurality of eaves-side draining portions 32. When the ridge face door 30A is temporarily placed on the uneven roof 10, the ridge face door 30A is placed with the lower surface of the connecting portion 34 in contact with the upper surface of the convex portion 12a.

  A ridge-side draining portion 36 is bent at a substantially right angle at the eaves-side end of the connecting portion 34. The ridge-side draining part 36 has a return part 36a formed by bending the upper end part toward the eaves side. The return portion 36a is also preferably inclined and bent so as to form an acute angle of 45 degrees, for example. By providing such a ridge-side draining portion 36 on the ridge face door 30A, rainwater or the like enters the ridge structure 20A from the eaves side to the ridge side at a portion corresponding to the convex portion 12a of the uneven roof 10. Can be prevented.

  In a state where the ridge face door 30 </ b> A having the above configuration is temporarily placed on the uneven roof 10, the eaves-side headboard 24 is arranged on the uneven roof 10 along the girder direction. The eaves-side headboard 24 can use the same rectangular long member made of resin as the ridge-side headboard 22. The eaves-side headboard 24 is positioned above the return portion 32b of the eaves-side draining portion 32 of the ridge face door 30A and is placed on the plurality of convex portions 12a of the uneven roof 10. In this state, the eaves-side headboard 24 is first fastened and fixed to the joint portion 14 of the uneven roof 10 by the screw 23 screwed from above. Since the resin pier 16 is provided in the joint portion 14 as described above, the eaves-side gantry 24 can be firmly fixed by firmly attaching the screw to the resin pier 16.

  After the eaves-side headboard 24 is fixed, the ridge face door 30A is fixed to the uneven roof 10 by screws (not shown). Specifically, a screw is screwed not only into the joint part 14 of the uneven roof 10 but also into the convex part 12a and is fixed to the connecting part 34 of the ridge face door 30A.

  FIG. 4 is a diagram illustrating a state in which the wing wrapping member 40 and the ventilation ridge draining member 50 </ b> A are attached to the ridge portion 11. FIG. 5 is a perspective view showing the wing wrapping member 40a and the ventilation ridge draining member 50A. 6A is a cross-sectional view of a portion that is not a ventilation portion of the ridge structure 20A, and FIG. 6B is a cross-sectional view of the ventilation portion 13 of the ridge structure 20A. 6A and 6B, the ridge core MC that is the center position of the ridge portion 11 is indicated by a one-dot chain line.

  After the ridge side headboard 22, the eaves side headboard 24 and the ridge face door 30 </ b> A are fixed to the ridge portion 11 of the uneven roof 10 as described above, as shown in FIG. 4, the wrapping member 40 is placed and placed. The The ridge wrap member 40 is a long member formed of, for example, a thin metal plate. As shown in FIG. 5, the ridge wrap member 40 includes a top surface portion 42 that is bent into a mountain shape, and a side surface portion 44 that is bent along the Z direction at the eaves side end portion of the top surface portion 42. As shown in FIGS. 4 and 6A, the ridge wrap member 40 is fixed by screwing screws 46 into the eaves-side headboard 24 from the side surface portion 44. In addition, a plurality of building wrapping members 40 are arranged side by side on the ridge portion 11 of the uneven roof 10, and are fixed in a state where they have an overlapping allowance of a predetermined length (for example, 50 mm). A sealing agent 48 is applied to the inner surface of the overlapping portion as shown by a dotted line in FIG. 4 to prevent rainwater and the like from entering from the overlapping portion of the wrapping members 40.

  As shown in FIG. 4, a ventilation ridge draining member 50 </ b> A is disposed in the ventilation portion 13 of the uneven roof 10. The ventilation ridge draining member 50 </ b> A may be temporarily placed on the field board 15 exposed to the ventilation unit 13 before the ridge side headboard 22 is fixed.

  As shown in FIG. 5, the ventilation ridge draining member 50 </ b> A includes an upper surface portion 52 that is bent into a mountain shape, and a substantially L-shaped attachment portion 54 that protrudes from the eaves side end portion of the upper surface portion 52. In the present embodiment, a total of eight attachment portions 54 are provided, four at each edge on both eaves sides in the ventilation ridge draining member 50A. In addition, an opening 53 is formed in the longitudinal direction (Y direction) central portion of the upper surface portion 52 of the ventilation ridge draining member 50A, and the ventilation guide portion is formed in an L shape so as to cover the upper portion of the opening 53. 55 is formed integrally with the upper surface portion 52. The opening 53 (and the opening 17) functions as a wiring port through which an electric wire passes in addition to being a ventilation port. Moreover, the ventilation guide part 55 has a function which guides so that the air which flows out indoors through the opening part 53 (and opening part 17) may be flowed toward the eaves side.

  Such a ventilation building draining member 50A is arranged in the ventilation part 13 as shown in FIG. And as shown in FIG.6 (b), the eaves side edge part of the upper surface part 52 is fixed to the field board 15 with the screw 56 as for the ventilation ridge draining member 50. As shown in FIG. In this state, the opening 53 of the ventilation ridge draining member 50 </ b> A communicates with the opening 17 formed in the field plate 15 in the ventilation part 13.

  Thereafter, as shown in FIG. 5, the wing wrap member 40a is placed on the ventilation ridge draining member 50A. The ridge wrap member 40a is fixed to the ventilation ridge draining member 50A by screwing a plurality of (eight in FIG. 5) screws 58 from the top surface portion 42 toward the attachment portion 54 of the ventilation ridge draining member 50A.

  As shown in FIG. 6B, the wing wrapping member 40a installed in the ventilation section 13 is formed with a smaller width of the side surface portion 44a than the wing wrapping member 40 installed outside the ventilation section 13. A gap 59 is formed between the convex portion 12 a of the uneven roof 10. The gap 59 communicates with the opening 53 of the ventilation building draining member 50A and the opening 17 of the field plate 15 in the ventilation part 13 so that air flows from the indoor space to the outdoor space.

JP 2014-198946 A

  In the ridge structure 20A of the concavo-convex roof 10 constructed as described above, since the eaves-side headboard 24 and the ridge face door 30A are separately attached to the roofing material 12, it is necessary to screw in a large number of screws. It took time and effort. Moreover, in the ventilation part 13, since the ridge face door 30A was attached separately from the ventilation ridge draining member 50A, it took time and effort for the attachment work.

  The objective of this indication is providing the ridge structure of the uneven | corrugated roof which can perform the attachment operation | work of a ridge face door easily and in a short time.

  The ridge structure of the uneven roof according to the present disclosure is a ridge structure of an uneven roof in which a roof material in which convex portions and concave portions extending in the direction of the ridge are alternately arranged in the girder direction is laid on the roof surface. The ridge structure of the uneven roof according to the present disclosure is a ridge face door arranged along the girder direction at a position away from the ridge to the eaves side, and a draining portion arranged by being fitted in the recess, and a plurality A ridge face door having a connecting portion for connecting a plurality of draining portions disposed in the recess, a headboard fixed to the roof material together with the ridge face door in a state of being placed on the connecting portion, and the ridge face door And a wrapping member fixed in a state of covering the headboard.

  According to the ridge structure of the uneven roof according to the present disclosure, it is possible to perform the operation of attaching the ridge face door easily and in a shorter time.

It is a perspective view which shows the uneven roof before assembling the building structure of a prior art example. It is a figure which shows a mode that the ridge structure of the uneven roof shown in FIG. 1 is constructed. It is the perspective view of the ridge surface door shown in FIG. 2, and the enlarged view seen from the end surface. It is a figure which shows a mode that the ridge wrapping member and the ventilation ridge draining member were attached to the ridge part shown in FIG. It is a perspective view which shows the ridge wrapping member and ventilation ridge draining member which were shown in FIG. (A) is sectional drawing of the location which is not a ventilation part of a ridge structure, (b) is sectional drawing in the ventilation part of a ridge structure. It is the perspective view and enlarged view seen from the end surface of the ridge face door used for the ridge structure of the uneven roof which is one embodiment of this indication. It is a perspective view of the ventilation ridge draining member used for the ridge structure of the uneven roof which is one embodiment of this indication. It is a figure for demonstrating the fixed state of a ventilation ridge draining member and a ridge face door. (A) is sectional drawing of the location which is not a ventilation part of a ridge structure, (b) is sectional drawing in the ventilation part of a ridge structure in the ridge structure of the uneven roof which is one embodiment of this indication.

  Hereinafter, embodiments according to the present disclosure will be described in detail with reference to the accompanying drawings. In this description, specific shapes, materials, numerical values, directions, and the like are examples for facilitating understanding of the present disclosure, and can be appropriately changed according to the application, purpose, specification, and the like. In addition, when a plurality of embodiments and modifications are included in the following, it is assumed from the beginning that these characteristic portions are used in appropriate combinations.

  The ridge structure 20 of the uneven roof 10 which is one embodiment of the present disclosure will be described with reference to FIGS. 7 to 10. Hereinafter, the same configuration as the ridge structure 20A of the uneven roof 10 of the conventional example described above with reference to FIG. 1 to FIG. explain.

  FIG. 7 is a perspective view and an enlarged view of the building door 30 used in the building structure 20 of the uneven roof 10 of the present embodiment as viewed from the end surface. As shown in FIG. 7, the ridge face door 30 includes a plurality of eaves-side drainers 32 and connecting portions 34 that connect the eaves-side drainers 32. The connection part 34 is formed in a flat plate shape. In the ridge face door 30 of this embodiment, unlike the ridge face door 30A shown in FIG. 3, the ridge side draining portion 36 formed integrally with the connecting portion 34 is not provided.

  As shown in FIG. 7, the connecting portion 34 of the ridge door 30 has a narrow width in the portion corresponding to the eaves-side draining portion 32 that fits into the recess 12b, and the width in the ridge eave direction (arrow X direction) is not constant. Thus, the portion corresponding to the convex portion 12a is wide. In addition, a screw insertion hole 35 is formed through the widened portion of the connecting portion 34. The other structure of the ridge face door 30 is the same as the ridge face door 30A shown in FIG.

  Thus, as for the ridge surface door 30 in this embodiment, the connection part 34 is formed in flat form, and the ridge side draining part 36 is not formed. Therefore, as shown in the figure seen from the end face in FIG. 7, the ridge face door 30 is placed between the eaves-side headboard 24 and the roofing material 12 with the eaves-side headboard 24 placed on the upper surface of the connecting portion 34. Can be pinched and fixed together. Therefore, compared with the case where the ridge face door 30 and the eaves-side headwood 24 are fixed separately, the attachment work of the ridge face door 30 can be performed easily and in a shorter time.

  FIG. 8 is a perspective view of the ventilation ridge draining member 50 used in the ridge structure 20 of the uneven roof 10 of the present embodiment. The ventilation ridge draining member 50 in the present embodiment includes an upper surface portion 52 that is bent into a mountain shape, and a substantially L-shaped attachment portion 54 that protrudes upward from an eaves side end portion 57 of the upper surface portion 52. Further, an opening 53 and a ventilation guide portion 55 are formed integrally with the upper surface portion 52 at the center portion of the upper surface portion 52 in the digit direction (arrow Y direction). These points are the same as the ventilation building draining member 50A described above with reference to FIG.

  On the other hand, in the ventilation ridge draining member 50 in the present embodiment, the eaves side end portion 57 of the upper surface portion 52 is extended, and the ridge side draining portion 60 is formed at the edge of the extended portion. That is, in the ridge structure 20 in this embodiment, the ridge side drainer 60 is provided not in the ridge face door 30 but in the ventilation ridge drainer member 50. The shape and function of the ridge-side draining portion 60 of the ventilation ridge draining member 50 are the same as those of the ridge-side draining portion 36 of the ridge face door 30A described above.

  FIG. 9 is a diagram for explaining a fixed state between the ventilation building drainer member 50 and the building door 30. As shown in FIG. 9, in the ventilation ridge draining member 50, a long hole 62 is formed in the eaves side end portion 57 of the upper surface portion 52 along the girder direction. In the ventilation part 13, when the ventilation ridge draining member 50 in which such a long hole 62 is formed is arranged on the ridge face door 30, the long hole 62 is formed in the connecting part 34 of the ridge face door 30. It corresponds to the screw insertion hole 35. Thereby, by inserting a screw 64 (see FIG. 10B) from the elongated hole 62 into the screw insertion hole 35 of the building door 30 from above, and screwing it into the convex portion 12a and the joint portion 14 of the uneven roof 10, The ridge door 30 can be fixed together with the ventilation ridge draining member 50.

  FIG. 10A is a cross-sectional view of a portion that is not a ventilation portion in the ridge structure 20 of the uneven roof 10 according to an embodiment of the present disclosure, and FIG. 10B is a cross-sectional view of the ventilation portion 13 of the ridge structure 20. . FIG. 10 corresponds to FIG. 6 referred to in the description of the conventional example. 10A and 10B, the ridge core MC that is the center position of the ridge portion 11 is indicated by a one-dot chain line.

  As shown in FIG. 10A, in the ridge structure 20 of the uneven roof 10 according to the present embodiment, the connecting portion 34 of the ridge face door 30 is sandwiched between the eaves-side headboard 24 and the convex portion 12 a of the roof material 12. It is fixed in the state. 10B, in the ridge structure 20 of the uneven roof 10 of the present embodiment, the ventilation ridge draining member 50 is screwed by the screw 64 via the connecting portion 34 of the ridge door 30 in the ventilation portion 13. It is fixed to the convex portion 12 a and the joint portion 14 of the roof material 12.

  As described above, in the uneven roof 10 according to the present embodiment, the roof material 12 in which the convex portions 12a and the concave portions 12b extending in the building direction are alternately arranged in the spar direction is laid on the roof surface. The ridge structure 20 of the uneven roof 10 includes a ridge face door 30 arranged along the girder direction at a position away from the ridge 11 to the eaves side. The ridge face door 30 includes an eaves-side draining portion 32 that is fitted into the recess 12b and a connecting portion 34 that connects the plurality of eaves-side draining portions 32 disposed in the plurality of recesses 12b. Further, the ridge structure 20 of the uneven roof 10 includes an eaves-side headboard 24 fixed to the roof material 12 together with the ridge face door 30 in a state of being placed on the connecting portion 34 of the ridge face door 30, and the ridge face door 30. And a wing wrap member 40 fixed in a state of covering the eaves-side headboard 24.

  According to this configuration, the ridge-side door 30 can be sandwiched and fixed together between the eaves-side headboard 24 and the roof material 12 with the eaves-side headboard 24 placed on the upper surface of the connecting portion 34. Therefore, compared with the case where the ridge face door 30 and the eaves-side headboard 24 are fixed separately, the attachment work of the ridge face door 30 can be performed easily and in a shorter time.

  Moreover, in the ridge structure 20 of the uneven roof 10 of this embodiment, in the ventilation part 13 in which the ventilation ridge draining member 50 is arrange | positioned in the opening part 17 formed in the ridge part 11, the ridge face door 30 is the eaves side headboard. In place of 24, a ventilation ridge draining member 50 is fixed to the roof material 12 together with the ridge face door 30. According to this structure, compared with the case where the ventilation ridge draining member 50 and the ridge face door 30 are attached separately in the ventilation part 13, the attachment operation | work of the ridge face door 30 can be performed easily and in a short time.

  Moreover, in the ridge structure 20 of the uneven roof 10 of this embodiment, the connection part 34 of the ridge face door 30 is formed in the flat plate shape in which the eaves side headboard 24 or the ventilation ridge draining member 50 can be mounted. Thereby, the ridge surface door 30 can be fixed together in the state pinched | interposed between the eaves side headboard 24 and the roofing material 12, or between the ventilation ridge draining member 50 and the roofing material 12. FIG. Therefore, the work for attaching the ridge door 30 can be performed easily and in a shorter time.

  Furthermore, in the ridge structure 20 of the uneven roof 10 of the present embodiment, a ridge-side draining portion 60 is formed at the eaves-side end portion 57 of the ventilation ridge draining member 50. Thereby, it is possible to prevent rainwater or the like from entering the building structure 20 from the eave side to the building side at the portion corresponding to the convex portion 12a of the roofing material 12 of the uneven roof 10.

  Note that the ridge structure of the uneven roof according to the present disclosure is not limited to the above-described embodiment and its modifications, and various modifications and improvements can be made within the scope of the matters described in the claims of the present application. Of course, it is possible.

    DESCRIPTION OF SYMBOLS 10 Uneven roof, 11 ridge part, 12 roofing material, 12a convex part, 12b concave part, 13 ventilation part, 14 joint part, 15 field board, 16 resin pier, 17, 53 opening part, 19 keraba decorative cover, 20, 20A Building structure, 22 building side coping, 23,46,56,58,64 screw, 24 eaves side coping, 30,30A ridge face door, 32 eaves side draining part, 32a draining body, 32b, 36a return part, 34 connection Part, 35 screw insertion hole, 36, 60 building side draining part, 38 packing, 40, 40a building wrapping member, 42 top surface part, 44, 44a side part, 48 sealing agent, 50, 50A ventilation building draining member, 52 upper surface Part, 54 mounting part, 55 ventilation guide part, 57 eaves side edge part, 59 clearance, 62 oblong hole, MC ridge core.

Claims (4)

A ridge structure of an uneven roof in which a roof material in which convex portions and concave portions extending in the direction of the ridge are alternately arranged in the girder direction is laid on the roof surface,
It is a ridge surface door arranged along the girder direction at a position away from the ridge to the eaves side, a draining portion arranged by being fitted in the concave portion, and a plurality of the plurality of the concave portions arranged in the concave portion The ridge door having a connecting portion for connecting the draining portion;
The headboard fixed to the roof material together with the ridge face door in a state of being placed on the connecting portion,
A ridge structure of an uneven roof, comprising: a wrapping member fixed in a state of covering the ridge door and the headboard.   In the ventilation section in which a ventilation ridge draining member is disposed in an opening formed in the ridge, the ridge face door is fixed to the roof material together with the ridge face door in place of the headboard. The ridge structure of the uneven roof according to claim 1.   The ridge structure of the uneven roof according to claim 1, wherein the connecting portion of the ridge face door is formed in a flat plate shape on which the headboard or the ventilation ridge draining member can be placed.   The ridge structure of the uneven | corrugated roof of Claim 2 or 3 in which the draining part is formed in the edge part of the eaves side of the said ventilation ridge draining member.

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