JP5923752B2 - Roof structure - Google Patents

Description

  The present invention relates to a roof structure.

  Patent Document 1 discloses a conventional roof structure. The roof structure described in Patent Document 1 includes a roof deck and a ridge plate. In the roof deck, convex portions and concave portions are alternately formed in a direction along the eaves. The building wrapping plate is attached so as to cover the ridge side end of the roof deck.

  In such a roof structure described in Patent Document 1, an electric device such as a PV panel (photovoltaic panel solar cell panel) may be installed on the roof deck. In this case, the wiring of the electric device is arranged toward the ridge along the concave portion of the roof deck, and is wired from above the roof to below the roof under the ridge plate.

  At this time, a wiring cover is attached in the concave portion of the roof deck so as to cover the wiring.

JP 2003-138695 A

  By the way, when newly installing an electric device such as a PV panel on a roof deck that has already been installed, the installer needs to pass the wiring from the roof to the bottom of the roof. This wiring is usually passed from the top of the roof to the bottom of the roof under the ridge plate in order to prevent flooding and the like. For this reason, the contractor cannot pass the wiring of the electrical equipment from the roof to the roof under the condition that the ridge plate is once removed.

  The present invention has been made in view of the above circumstances, and the purpose of the present invention is not to remove the wrapping even when the electrical equipment is installed on the roof structure in which the ridge wrap is installed on the uneven roof material. The object is to provide a roof structure on which electrical equipment can be installed.

  The roof structure according to the present invention includes a concavo-convex roof material in which convex portions opening downward and projecting upward and concave portions opening upward and recessed downward are formed in a direction along the eave, and the ridge of the concavo-convex roof material. A roof structure including a ridge wrap covering the end portion of the side, provided below the ridge wrap from the bottom of the roof over the concave portion of the rugged roof material, and disposed on the rugged roof material. An electric wire tube through which a wire connected to an electric device is inserted, and an opening toward the eave side, and is fitted into the concave portion of the uneven roof material in a state of covering the upper end portion of the eave side of the electric wire tube A wiring cover and a front cover detachably attached so as to close an opening on the eaves side of the wiring cover, the front cover having a holding part for holding an eaves side end of the conduit The wiring cover is retractably stored below the ridge wrap. And wherein the Rukoto.

  According to the roof structure of the present invention, even when an electrical device is installed on a roof structure in which a ridge wrap is installed on an uneven roof material, the electrical device can be installed without removing the wing wrap.

It is a perspective view which shows the roof structure of this embodiment, (a) is the state in which the wiring cover was accommodated, (b) is the state which pulled out the wiring cover, (c) was removed with the front cover from the wiring cover State. It is a perspective view which shows the roof structure of this embodiment. It is a figure for demonstrating the unit for wiring of the roof structure of this embodiment, (a) is a perspective view, (b) is a top view, (c) is a perspective view which shows a front cover. It is a perspective view in the state where electric equipment was installed in the roof structure of this embodiment. It is sectional drawing of the ridge part in the state which installed the electric equipment in the roof structure of this embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

  The roof structure of the present embodiment is a roof structure of a building having a single-flow roof as shown in FIG. In the present embodiment, the roof gradient direction is defined as the eaves-ridge direction. Of the roof slope direction, the water side is defined as the ridge side, and the water side is defined as the eaves side. The direction along the eave perpendicular to the roof slope direction is defined as the eave direction.

  In addition, the roof structure may not be constituted by a single-flow roof, for example, a gable roof or a dormitory roof, and is not particularly limited.

  As shown in FIG. 1, the roof structure includes an uneven roof material 1, a ridge wrap 2, and a wiring unit 3. The uneven roof material 1 is provided on a roof base 8 (see FIG. 5).

  The roof base 8 is laid under the uneven roof material 1. The roof base 8 is inclined at substantially the same angle as the roof gradient. In other words, the roof base 8 is inclined downward from the building toward the eaves. The roof base 8 includes a rafter (not shown) and a field plate 81. The rafter has a length in the direction of the eaves. The rafters are supported by eaves girders, purlins and purlins, for example. A plurality of rafters are provided at equal intervals in the eave direction. The field plate 81 is fixed on the rafter. The field plate 81 has a length in the eaves ridge direction and the eave direction, and is formed in a rectangular plate shape.

  The roof base 8 may not include the rafters and the field plate 81. For example, the roof base 8 may include a main building and a tight frame installed on the main building.

  As shown in FIG. 2, the uneven roof material 1 includes a convex portion 11 that opens downward and protrudes upward, and a concave portion 12 that opens upward and concave downward. The convex portions 11 and the concave portions 12 are alternately formed in the eave direction. The uneven roof material 1 has a length in the eaves direction, a width in the eaves direction, and has a rectangular shape in plan view. The length of the uneven roofing material 1 in the eaves direction is substantially the same as the length of the roof base 8 in the eaves direction. The width of the uneven roof material 1 in the eave direction is a fixed length. A plurality of uneven roofing materials 1 are arranged along the eaves direction.

  Adjacent uneven roof materials 1 are connected to each other via a connector (not shown). The connecting tool is fixed to the field board 81 via a fixing tool such as a screw or a nail, for example. Thereby, the uneven roofing material 1 is fixed to the field board 81. Further, a cover member 13 is attached to the coupler. The cover member 13 has, for example, an inverted U shape. The cover member 13 is arrange | positioned so that the edge part which the uneven roof material 1 opposes, and a connection tool may be covered.

  The uneven roof material 1 is composed of, for example, a roof deck or a folded plate material. The uneven roof material 1 is formed in an angular wave shape in cross section, but may be formed in a round wave shape in cross section, and is not particularly limited. Moreover, the uneven | corrugated roof material 1 is comprised with the metal plate, and is comprised with the steel plate in more detail. The uneven roof material 1 is not limited to a metal roof material, and may be a slate roof material, for example.

  The ridge wrap 2 covers the ridge side end of the uneven roofing material 1. The ridge wrap 2 has a length in a direction perpendicular to the roof slope direction (eave direction) and has a width in the eave ridge direction. Cover over the entire length. The ridge wrap 2 may be integrated over the entire length of the eaves direction of the uneven roofing material 1, or a plurality of ridge wraps 2 connected in the eave direction. The ridge wrap 2 is formed, for example, by bending a metal plate.

  The eaves side end of the eaves wrapping includes a front surface 21 and a lower surface 22 as shown in FIG. The front surface 21 is a surface facing the eaves side and is substantially perpendicular to the top surface of the uneven roof material 1. The lower surface 22 is substantially parallel to the top surface of the uneven roof material 1. The lower surface 22 of the ridge wrap 2 abuts on the top surface of the convex portion 11 of the uneven roof material 1. Further, the lower surface 22 of the ridge wrap 2 is separated from the bottom surface of the concave portion 12 of the uneven roof material 1.

  The wiring unit 3 is used for disposing the wiring 72 of the electric device 7 such as the PV panel 71 installed on the uneven roof material 1. As shown in FIG. 1, the wiring unit 3 is disposed between the ridge wrap 2 and the concave portion 12 of the uneven roof material 1. The front end of the eaves side of the wiring unit 3 is located at substantially the same position as the front surface 21 of the ridge wrap 2 or closer to the ridge side, so that the wiring unit 3 is located below the ridge wrap 2. It is stored. The wiring unit 3 is slidable in the eaves ridge direction along the recess 12 of the rugged roof material 1, and can be pulled out from below the ridge wrap 2. The wiring unit 3 includes a conduit 4, a wiring cover 5, and a front cover 6.

  The wiring unit 3 has an eaves-side tip that is substantially the same position as the front surface 21 of the ridge wrap 2 or closer to the ridge side than the front surface 21 of the ridge wrap 2, May be located. In other words, “housing” in the present embodiment means that most of the wiring unit 3 is covered by the wing wrap 2.

  As shown in FIG. 3, the conduit 4 is formed in a cylindrical shape, and the wiring 72 is inserted through the conduit 4. The conduit 4 has a length, one end (first end 41) in the longitudinal direction is opened, and the other end (second end) is also opened. The opening at the first end 41 communicates with the opening at the second end. As shown in FIG. 5, the conduit 4 has a second end disposed below the field board 81 (attic space), and a first end 41 disposed above the uneven roof material 1. In other words, the conduit 4 is provided over the concave portion 12 of the uneven roof material 1 from under the roof. Further, the conduit 4 is arranged from the bottom of the roof to the top of the roof through the communication port 82 formed on the ridge side of the ridge side end of the uneven roof material 1. The conduit 4 is disposed below the ridge wrap 2.

  The communication port 82 may be constituted by a gap provided on the ridge side of the field board 81 or may be constituted by an opening formed in the field board 81.

  The conduit 4 has flexibility. The electric conduit 4 is composed of, for example, a pipe formed of a synthetic resin. The electric conduit 4 is constituted by, for example, a PF (Plastic Flexible conduit) tube or a CD (Combined Duct) tube, but is not particularly limited. In addition, the electric conduit 4 may be comprised with the metal tube which does not have flexibility.

  As shown in FIG. 1, the wiring cover 5 covers the wiring 72 of the electric device 7 installed on the uneven roof material 1 from above. The wiring cover 5 has an inverted U-shaped cross section as shown in FIG. The wiring cover 5 has a length in the eaves-ridge direction. The wiring cover 5 has openings at both ends in the eaves-ridge direction. In other words, the wiring cover 5 opens at least toward the eaves side.

  In addition, the wiring cover 5 may be formed in a cylindrical shape, and may be, for example, a rectangular tube shape having a rectangular cross section.

  The wiring cover 5 is fitted into the recess 12 of the uneven roof material 1 so as to be slidable in the eaves-ridge direction. The upper surface of the wiring cover 5 is positioned flush with or lower than the top surface of the convex portion 11 of the uneven roof material 1. The wiring cover 5 is housed and disposed below the ridge wrap 2, and is thereby housed in a freely retractable manner below the ridge wrap 2.

  The wiring cover 5 is arrange | positioned so that the edge part by the side of the eaves of the conduit 4 may be covered from upper direction. The wiring cover 5 holds the conduit 4 via the front cover 6. As a result, when the wiring cover 5 is pulled out from below the wing wrap 2, the conduit 4 is pulled out together with the wiring cover 5.

  The front cover 6 is removably attached to the eaves side opening of the wiring cover 5. The front cover 6 closes the eaves side opening of the wiring cover 5. The front cover 6 is formed in a block shape as shown in FIG. The front cover 6 is made of rubber, for example. The front cover 6 is formed with a holding portion 61.

  The front cover 6 is fixed to the wiring cover 5. For example, the front cover 6 is adhered to the wiring cover 5 so as to be removable. The front cover 6 may be fixed by being press-fitted into the eaves side opening of the wiring cover 5, and the fixing method is not particularly limited.

  The holding portion 61 is formed on the back side surface (ridge side surface) of the front cover 6. The holding part 61 is configured by, for example, a round hole 62 having a smaller diameter than the conduit 4. The round hole 62 is provided so as not to penetrate the front cover 6 (in a non-penetrating state). The conduit 4 is fitted into the holding portion 61, and the holding portion 61 holds the end portion of the conduit 4 on the eaves side.

  Note that the holding unit 61 may not be configured by the round hole 62. The holding portion 61 may be, for example, a holding bracket attached to the back surface of the front cover 6, and is not particularly limited to the structure of the present embodiment.

  On the uneven roof material 1 of the roof structure of the present embodiment, an electric device 7 is arranged as shown in FIG. Examples of the electric device 7 include a PV panel 71, an outdoor unit of an air conditioner, an antenna, and the like, but are not particularly limited. Note that the electrical device 7 of the present embodiment is configured by a PV panel 71.

  The PV panel 71 has a substantially rectangular shape. The ridge-side end of the PV panel 71 and the eaves-side end of the ridge wrap 2 are separated by a certain distance in the eave ridge direction. The distance between the end on the ridge side of the PV panel 71 and the end on the eaves side of the ridge wrap 2 is substantially the same as or shorter than the length of the wiring cover 5.

  A wiring 72 is connected to the electrical device 7. The wiring 72 is drawn into the room through the wiring unit 3. Hereinafter, a construction method for drawing the wiring 72 of the electric device 7 into the room will be described.

  When installing the PV panel 71, the installer pulls out the wiring cover 5 from the lower side of the building wrap 2 to the eaves side. Then, the wiring cover 5 pulls out the conduit 4 through the front cover 6 (FIG. 1B). In this state, the installer removes the front cover 6 from the wiring cover 5 and removes the conduit 4 from the front cover 6 (FIG. 1C). The installer inserts the wiring 72 of the PV panel 71 from the opening of the first end 41 of the conduit 4, thereby connecting the tip of the wiring 72 to the indoor side.

  The installer arranges the wiring 72 of the PV panel 71 through the inside of the conduit 4, and then draws out the wiring cover 5 so as to cover the conduit 4 and the wiring 72. The wiring cover 5 is arranged between the ridge side end of the PV panel 71 and the eaves side end of the ridge wrap 2 (FIG. 5).

  As described above, the roof structure of the present embodiment includes the uneven roof material 1 and the ridge wrap 2. In the uneven roofing material 1, convex portions 11 opening downward and projecting upward and concave portions 12 opening upward and recessed downward are alternately formed in a direction along the eaves. The ridge wrap 2 covers the ridge side end of the uneven roofing material 1. Further, the roof structure of the present embodiment includes a conduit 4, a wiring cover 5, and a front cover 6. The conduit 4 is provided below the ridge wrap 2 so as to extend from under the roof onto the concave portion 12 of the uneven roof material 1. In addition, a wiring 72 connected to the electric device 7 disposed on the uneven roof material 1 is inserted into the conduit 4. The wiring cover 5 is open toward the eaves side. Further, the wiring cover 5 is fitted in the concave portion 12 of the uneven roof material 1 in a state of covering the upper side of the end portion of the electric conduit 4 on the eaves side. The front cover 6 is detachably attached so as to close the opening on the eaves side of the wiring cover 5. Further, the front cover 6 has a holding portion 61 that holds the end portion of the electric conduit 4 on the eaves side. The wiring cover 5 is housed in the lower part of the ridge wrap 2 so as to be freely drawn out.

  For this reason, according to the roof structure of the present embodiment, when installing the electric device 7 on the uneven roof material 1, the installer pulls out the wiring cover 5 and wires 72 of the electric device 7 inside the conduit 4. Is inserted, the wiring 72 can be wired 72 from the roof top to the roof bottom. Moreover, according to the roof structure of this embodiment, when the electric equipment 7 is not installed on the uneven roof material 1, the wiring cover 5 is stored below the ridge wrap 2, so that the appearance of the building is damaged. Can be prevented. That is, according to the roof structure of the present embodiment, it can be selectively applied regardless of whether the electric device 7 is installed or the electric device 7 is not installed. For this reason, even if it is a case where the electric equipment 7 is installed additionally, the construction worker can perform the wiring 72 of the electric equipment 7 without removing the wing wrap 2.

  Moreover, according to the roof structure of this embodiment, since the front cover 6 is attached to the eaves-side opening of the wiring cover 5, it is possible to prevent water from entering the indoor side through the wiring cover 5.

  In addition, the roof structure of this invention is not limited only to this embodiment, In the range which does not deviate from a summary, it can change suitably and can implement.

DESCRIPTION OF SYMBOLS 1 Convex roofing material 11 Convex part 12 Concave part 13 Cover member 2 Wrap 21 Front part 3 Wiring unit 4 Conduit 5 Wiring cover 6 Front cover 61 Holding part 62 Round hole 7 Electric equipment 71 PV panel 72 Wiring 8 Roof base 81 Field plate 82 communication port

Claims (1)

An uneven roof material in which convex portions that open downward and protrude upward and concave portions that open upward and concave downward are formed alternately in the direction along the eaves,
A roof structure provided with a ridge wrapping covering the ridge side end of this uneven roof material,
A wire tube that is provided over the concave portion of the uneven roof material from under the roof under the ridge wrap, and through which the wiring connected to the electric device disposed on the uneven roof material is inserted,
A wiring cover that is open toward the eaves side and covers the upper part of the eaves side end of the conduit, and is fitted in the recess of the uneven roof material;
A front cover detachably attached so as to close the eaves side opening of the wiring cover,
The front cover has a holding portion that holds an end portion of the conduit side on the eaves side,
The roof structure is characterized in that the wiring cover is housed in a freely retractable manner below the ridge.

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