JP7060222B2 - Roof structure - Google Patents

Description

Application of Article 30, Paragraph 2 of the Patent Act ▲ 1 ▼ March 2017 1) https: // www. akiyama-k-bankin. info / 2) https: // www. akiyama-k-bankin. info /% E6% 8A% 80% E8% A1% 93-% E5% 95% 86% E5% 93% 81% E9% 96% 8B% E7% 99% BA% E9% 83% A8 / 3) https: // www. akiyama-k-bankin. info /% E6% 8A% 80% E8% A1% 93-% E5% 95% 86% E5% 93% 81% E9% 96% 8B% E7% 99% BA% E9% 83% A8 /% E3% 82 % BB% E3% 83% 95% E3% 83% 86% E3% 82% A3% E3% 83% BC% E3% 83% 90% E3% 82% B1% E3% 83% 83% E3% 83% 88 / 4) https: // www. akiyama-k-bankin. info /% E6% 8A% 80% E8% A1% 93-% E5% 95% 86% E5% 93% 81% E9% 96% 8B% E7% 99% BA% E9% 83% A8 /% E3% 82 % BB% E3% 83% 95% E3% 83% 86% E3% 82% A3% E3% 83% BC% E3% 83% 90% E3% 82% B1% E3% 83% 83% E3% 83% 88 /% EF% BD% 93% EF% BD% 82% E5% 8F% 96% E3% 82% 8A% E4% BB% 98% E3% 81% 91% E6% 96% B9% E6% B3% 95 / 5) https: // www. akiyama-k-bankin. info /% E5% 95% 86% E5% 93% 81% E4% B8% 80% E8% A6% A7 / ▲ 2 ▼ April 2017 https: // www. akiyama-k-bankin. info /% E6% 8A% 80% E8% A1% 93-% E5% 95% 86% E5% 93% 81% E9% 96% 8B% E7% 99% BA% E9% 83% A8 /% E3% 82 % BB% E3% 83% BC% E3% 83% 95% E3% 83% 86% E3% 82% A3% E3% 83% 90% E3% 82% B1% E3% 83% 83% E3% 83% 88 Published at /

The present invention relates to a roof structure .

Patent Document 1 discloses a snow-free roof in which a horizontal trough is provided at a valley bottom portion of a substantially V-shaped roof surface. In this snow-free roof, a horizontal trough made by bending a metal plate is arranged on a substantially U-shaped base material for the horizontal trough via a heat insulating material for the horizontal trough. A drainage port is open at the bottom of the horizontal gutter, and the upper end of the indoor downspout is connected to the drainage port. In this snow-free roof, the snow on the roof surface flows into the gutter, and the snowmelt water of the snow is discharged to the indoor downspout through the drainage port.

Japanese Unexamined Patent Publication No. 2011-226153

By the way, in the snow-free roof, water condensed on the outer surface of the horizontal trough, water leaking from the horizontal trough, and the like may reach the base material for the horizontal trough. However, the non-falling roof does not have a means for discharging the water that has reached the base material for the horizontal trough, and there is a possibility that leakage or the like may occur.

The present invention has been made in view of the above circumstances, and provides a roof structure capable of discharging water condensed on the surface of the base side of the trough and water leaking from the trough to the outside. With the goal.

One aspect of the roof structure according to the present invention for achieving the above object is a roof structure in which a trough is provided in a valley portion of the roof, and the base having a recess formed to open upward and the inside of the recess. The roofing provided between the trough, the trough and the bottom of the recess, the gutter-side drain provided in the trough, and the gutter-side drain provided at the bottom. It is provided with a base side drain for discharging the discharged water below the bottom portion, and the roofing extends from above the bottom portion to the base side drain.

Further, the drain of one aspect according to the present invention penetrates the bottom of the upwardly opening recess formed in the base of the roof in the vertical direction, and is located below the trough provided in the recess, and is located in the valley. A drainage cylinder portion for draining water discharged from the drain on the gutter side provided in the gutter below the bottom portion, and a drainage cylinder portion.
It is provided with a flange portion that protrudes from the upper edge of the drainage cylinder portion to the outer peripheral side and can be placed on the bottom portion.
The upper surface of the flange portion is characterized in that it is gradually or continuously lowered toward the drainage cylinder portion side.

The roof structure according to the present invention receives water condensed on the surface of the base side of the trough and water leaking from the trough by roofing, and this water can be discharged from the drain on the base side to improve waterproofness. can.

Further, the drain according to the present invention can discharge water condensed on the outer surface of the trough and water leaking from the trough below the bottom of the recess.

FIG. 1 is a cross-sectional view showing a roof structure of an embodiment according to the present invention in a cross section orthogonal to the longitudinal direction of a trough. FIG. 2 is a cross-sectional view showing the same roof structure in a cross section orthogonal to the width direction of the trough. FIG. 3 is a perspective view showing the roof structure of the same as above, and a part thereof is shown in a notched cross section. FIG. 4 is an exploded perspective view of the base side drain used for the roof structure of the same as above. FIG. 5A is a perspective view showing a state in which the roofing in the same roof structure is cut, and FIG. 5B shows a state in which a plurality of pieces of the roofing are bent along the drainage tube portion of the drain on the base side. It is a perspective view. FIG. 6 is a perspective view of a ventilation member used in the roof structure of the same.

The embodiments shown below relate to the roof structure of a snowless house. The roof structure of the present embodiment is a so-called snow duct type roof structure (snow-free roof structure), that is, a roof structure in which a trough 1 is provided in a valley portion of a butterfly roof. In this roof structure, the thaw water and rainwater on the roof are discharged through the valley gutter 1.

As shown in FIGS. 1 to 3, the non-falling roof structure of the present embodiment includes a base 2, a drain 3, a drain pipe 4, a plurality of heat insulating materials 51, 52, a plurality of roofings 6, a plurality of ventilation members 7, and a valley. It is equipped with a gutter 1, a drain 8 and a plurality of roofing materials 90. Hereinafter, the drain 3 is referred to as a base side drain 3, and the drain 8 is referred to as a gutter side drain 8.

(Background)
As shown in FIG. 1, the base 2 includes a roof base 20 that serves as a base for a plurality of roofing materials 90, and a recess 21 that constitutes a valley portion of the butterfly roof and serves as a base for the trough 1.

The roof base 20 of the present embodiment is composed of a pair of field boards 22 arranged in a V shape with the recess 21 interposed therebetween. Each field board 22 is inclined downward toward the recess 21.

The recess 21 opens upward between the pair of field boards 22. The recess 21 is formed in a groove shape extending in a horizontal direction orthogonal to the roof slope direction of each field plate 22.

As shown in FIGS. 1 and 2, the recess 21 of the present embodiment has a rectangular plate-shaped bottom portion 24 extending in the longitudinal direction of the recess 21 in a plan view, and a side wall portion 25 erected on each side of the bottom portion 24. And have. Each of the bottom portion 24 and the side wall portions 25 on each side is composed of, for example, one or a plurality of plywoods and is fixed to the structural material of the building. A through hole 26 penetrating in the vertical direction is formed in the bottom 24 of the recess 21.

(Drain on the base side)
The bottom 24 is provided with a base-side drain 3 inserted through the through hole 26. The base side drain 3 of the present embodiment is a drain body 30 that discharges water discharged from the gutter side drain 8 provided in the trough 1 below the bottom 24 of the recess 21 and from above the bottom 24 of the recess 21. It is provided with a pressing member 33 that holds the roofing 6 extending to the drain body 30 by sandwiching it between the roofing body 30 and the drain body 30. Each of the drain body 30 and the pressing member 33 is made of synthetic resin.

The drain body 30 is placed on the drainage cylinder portion 34 which is inserted through the through hole 26 and penetrates the bottom portion 24 in the vertical direction, and which protrudes from the upper edge of the drainage cylinder portion 34 toward the outer peripheral side and is placed on the bottom portion 24 of the recess 21. The flange portion 35 is provided.

The drainage cylinder portion 34 has a cylindrical insertion portion 340 inserted through the through hole 26, a cylindrical connection portion 341 located below the insertion portion 340, and a lower edge of the insertion portion 340 and above the connection portion 341. It is provided with a cylindrical intermediate portion 342 connected to the edge.

The insertion portion 340 includes an inner peripheral surface 343 that is circular in a plan view. The connecting portion 341 is formed concentrically with the insertion portion 340 in a tubular shape having a diameter smaller than that of the insertion portion 340. The intermediate portion 342 is formed in a tapered cylindrical shape that is concentric with the insertion portion 340 and the connecting portion 341 and has a smaller diameter toward the lower end.

The flange portion 35 projects from the upper edge of the insertion portion 340 toward the outer peripheral side. The flange portion 35 is formed over the entire length of the insertion portion 340 in the circumferential direction. As shown in FIG. 4, the outer shape of the flange portion 35 of the present embodiment is rectangular in a plan view. The upper opening 39 formed at the upper end of the insertion portion 340 opens upward inside the flange portion 35.

A plurality of holes 350 for fasteners are formed in the flange portion 35. In the present embodiment, holes 350 for fasteners are formed at each of the four corners of the flange portion 35 having a rectangular shape in a plan view. Each fastener hole 350 penetrates the flange portion 35 in the vertical direction.

The fastener 91 shown in FIG. 3 is inserted into each fastener hole 350. Each fastener 91 consists of a nail or a screw. Each fastener 91 is fixed to the bottom 24 of the recess 21. As a result, the flange portion 35 is fixed to the bottom portion 24 of the recess 21 by a plurality of fasteners 91.

As shown in FIGS. 1 and 2, the upper end portion of the drainage pipe (vertical gutter) 4 whose axial direction is parallel to the vertical direction is fitted and connected to the connection portion 341 of the drain body 30. The drainage pipe 4 penetrates the building up and down, for example, and the lower end thereof leads to the sewerage system. The water flowing down from the gutter side drain 8 provided in the trough 1 flows into the drainage cylinder portion 34 of the base side drain 3, and then is discharged to the sewer through the drain pipe 4.

The upper surface of the flange portion 35 is gradually lowered toward the central drainage cylinder portion 34, whereby the roofing 6 laid on the flange portion 35 has a downward slope toward the drainage cylinder portion 34 side. Is attached. Specifically, as shown in FIG. 4, the upper surface of the flange portion 35 of the present embodiment includes a first surface 351 and a second surface 352 that are lower than the upper surface of the outer peripheral portion 353 of the flange portion 35.

The first surface 351 is an annular shape in a plan view and is one step lower than the upper surface of the outer peripheral portion 353 of the flange portion 35. The outer peripheral edge of the first surface 351 is connected to the upper surface of the outer peripheral portion 353 via a step 354. The second surface 352 is an annular shape in a plan view and is one step lower than the first surface 351. The outer peripheral edge of the second surface 352 is connected to the first surface 351 via a step 355. The inner peripheral edge of the second surface 352 is connected to the peripheral edge of the upper opening 39 of the insertion portion 340. Each of the upper surface, the first surface 351 and the second surface 352 of the outer peripheral portion 353 of the flange portion 35 is a substantially horizontal surface.

As shown in FIG. 3, a ring-shaped pressing member 33 that sandwiches and fixes the roofing 6 between the inside of the insertion portion 340 of the drain body 30 and the inner peripheral surface 343 of the insertion portion 340 is fitted. As shown in FIG. 4, the pressing member 33 of the present embodiment is formed in a C-shape in a plan view concentric with the insertion portion 340, and a part in the circumferential direction is not continuous. Therefore, when the presser member 33 is fitted inside the insertion portion 340, the operator can easily elastically deform the presser member 33 so that the diameter is reduced by grasping the presser member 33 from the outer peripheral side. can.

(Insulation material)
As shown in FIGS. 1 to 3, a plurality of heat insulating materials 51 and 52 are arranged inside the recess 21 formed in the base 2. In the roof structure of the present embodiment, as the plurality of heat insulating materials 51 and 52, the plurality of first heat insulating materials 51 arranged along the upper surface of the bottom 24 of the recess 21 and the side wall portions 25 on both sides in the width direction of the recess 21. It is provided with a plurality of second heat insulating materials 52 arranged along the inner surface (the surface on the outdoor side).

Each of the plurality of first heat insulating materials 51 and the plurality of second heat insulating materials 52 is formed of a foamed resin such as polystyrene foam. Each first heat insulating material 51 is formed in a plate shape along the upper surface of the bottom 24 of the recess 21. Each first heat insulating material 51 is arranged below the bottom plate portion 10 of the trough 1 via the roofing 6 and the ventilation member 7. Each second heat insulating material 52 is formed in a plate shape along the inner surface of the side wall portion 25 of the recess 21. Each second heat insulating material 52 is arranged on the outside (base 2 side) of the side plate portion 11 of the trough 1 via the roofing 6.

The plurality of first heat insulating materials 51 cover substantially the entire other portion of the bottom portion 24 of the recess 21 except for the portion where the flange portion 35 of the underside drain 3 is placed. The plurality of second heat insulating materials 52 are provided on each of the side wall portions 25 on both sides in the width direction of the recess 21, and cover substantially the entire corresponding side wall portion 25.

As shown in FIGS. 1 and 2, the thickness of the plurality of first heat insulating materials 51 is substantially the same as the thickness of the outer peripheral portion 353 of the flange portion 35 of the base side drain 3. Therefore, the upper surface of each of the plurality of first heat insulating materials 51 and the upper surface of the outer peripheral portion 353 of the flange portion 35 are located at substantially the same level.

(Roofing)
As shown in FIG. 3, a plurality of roofing (waterproof sheets) 6 are stretched on the outdoor side of the base 2 so as to cover the entire base 2. Each of the plurality of roofings 6 is a sheet-shaped asphalt roofing in which asphalt (including rubber asphalt) is impregnated into, for example, felt or paperboard.

The plurality of roofings 6 cover the upper surface of the pair of field boards 22, the upper surface of the plurality of first heat insulating materials 51, the outdoor side surface of the plurality of second heat insulating materials 52, and the upper surface of the flange portion 35 of the base side drain 3. ing.

In the present embodiment, the plurality of first heat insulating materials 51, the plurality of second heat insulating materials 52, and the flange portion 35 of the base side drain 3 are covered with one roofing 6. Hereinafter, this roofing 6 is referred to as roofing 6a. The roofing 6a has a first portion 61 along the upper surface of the plurality of first heat insulating materials 51 and a second portion extending upward from the four side edges of the first portion 61 along the four side wall portions 25 of the recess 21. It is equipped with 62.

The first portion 61 passes from above the first heat insulating material 51 to above the flange portion 35, and then extends to the inside of the drainage cylinder portion 34 of the underside drain 3. The first portion 61 receives the water condensed on the outer surface of the trough 1 and the water leaked from the trough 1 and guides this water to the inside of the drainage cylinder portion 34.

As shown in FIGS. 1 and 2, in the first portion 61, the portion of the flange portion 35 located above the first surface 351 and the second surface 352 is along the first surface 351 and the second surface 352. , The drain 3 on the base side is inclined downward toward the drainage cylinder portion 34. Therefore, the water on the roofing 6a is smoothly guided into the drainage cylinder portion 34.

The first portion 61 on the flange portion 35 may be attached to the first surface 351 of the flange portion 35 by using double-sided adhesive tape, an adhesive, or the like. By doing so, the roofing 6 can be fixed to the flange portion 35.

Further, a sealing material may be provided between the first surface 351 of the flange portion 35 and the first portion 61 located above the first surface 351. In this case, the first surface 351 and the first portion 61 may be provided with the sealing material. The space can be sealed.

Further, the bottom portion 24 of the recess 21 may be inclined so as to be located downward toward the portion closer to the through hole 26. In this case, the first portion 61 of the roofing 6 can be easily provided with a downward gradient toward the drainage cylinder portion 34 of the base side drain 3. Therefore, the water on the first portion 61 can be smoothly guided to the drainage cylinder portion 34. The bottom 24 of the recess 21 may be entirely horizontal.

The portion of the roofing 6a located inside the drainage cylinder portion 34 is composed of a plurality of piece portions 63 arranged in the circumferential direction of the insertion portion 340 as shown in FIG. 5B. Each of the plurality of pieces 63 is formed in a downwardly pointed triangular shape.

As shown in FIG. 5A, the plurality of piece portions 63 are formed by making a radial notch 64 in the portion corresponding to the upper opening portion 39 of the drainage cylinder portion 34 in the roofing 6a.

As shown in FIG. 3, the plurality of piece portions 63 are arranged along the inner peripheral surface 343 of the insertion portion 340. Inside the insertion portion 340, a pressing member 33 of the underside drain 3 is fitted via a plurality of piece portions 63. The plurality of piece portions 63 are sandwiched and fixed between the pressing member 33 and the inner peripheral surface 343 of the insertion portion 340.

When a plurality of piece portions 63 are formed on the roofing 6a as described above, the radial notch 64 becomes long and a part of the notch 64 reaches above the second surface 352 of the flange portion 35, so that the roofing 6a has a second portion. Water on the portion 61 may flow from the notch 64 to the second surface 352. However, the flange portion 35 of the present embodiment has a step 355 between the first surface 351 and the second surface 352 on the outer peripheral side of the second surface 352. Therefore, the water that has been received by the second surface 352 and then flows toward the outer peripheral side of the flange portion 35 is blocked by the step 355. Therefore, the water received on the second surface 352 easily flows to the inside of the drainage cylinder portion 34, and is highly waterproof.

(Ventilation member)
A plurality of ventilation members 7 are arranged on the plurality of first heat insulating materials 51 via the roofing 6a. The plurality of ventilation members 7 cover substantially the entire first heat insulating material 51. Each of the plurality of ventilation members 7 is a member having ventilation, and is arranged along the lower surface of the trough 1.

Each ventilation member 7 is made of, for example, a synthetic resin. Each ventilation member 7 of the present embodiment is formed in a plate shape extending in the longitudinal direction of the recess 21, and the longitudinal direction of each ventilation member 7 is parallel to the longitudinal direction of the recess 21.

As shown in FIG. 6, each ventilation member 7 of the present embodiment has a honeycomb structure and has a cushioning property. Each ventilation member 7 is formed with a ventilation space 70 leading to the drain pipe 4 via the drain 3 on the base side. Each of the ventilation members 7 of the present embodiment is formed with a plurality (many) ventilation holes 71 as ventilation spaces 70. Each of the plurality of ventilation holes 71 penetrates the ventilation member 7 in the longitudinal direction of the ventilation member 7. The plurality of ventilation holes 71 of the present embodiment are formed so as to cover the entire ventilation member 7 when the ventilation member 7 is viewed in the longitudinal direction.

As shown in FIG. 2, the ventilation space 70 of each ventilation member 7 leads to the drain pipe 4 via the inner region of the drain cylinder portion 34 of the drain 3 on the base side. In the present embodiment, the pair of ventilation members 7 are arranged so as to be located on both sides of the base side drain 3 when viewed in the width direction of the recess 21. One end surface in the longitudinal direction in which the plurality of ventilation holes 71 are exposed in each ventilation member 7 faces the upper region of the underside drain 3. Therefore, the air introduced into the recess 21 from the drain pipe 4 through the drain pipe portion 34 easily flows into the plurality of ventilation holes 71 of each ventilation member 7.

The air in the drainage pipe 4 tends to rise in the drainage pipe 4 due to the heat of the sewer and the heat generated in the building. Therefore, the heat of the sewer and the heat generated in the building are transmitted from the drainage pipe 4 to the gutter 1 together with the air introduced into the gutter 1 via the drain 3 on the base side and the drain 8 on the gutter side. As shown in FIG. 1, this heat is retained by a plurality of heat insulating materials 51 and 52 located outside the trough 1. Therefore, the snow and ice embankments in the valley gutter 1 are relatively easy to melt.

By the way, the air that has entered the trough 1 from the drain pipe 4 through the drain 3 on the base side and the drain 8 on the gutter side passes near the bottom plate portion 10 of the gutter 1 in the vicinity of the drain 8 on the gutter side, but the drain on the gutter side. At a location away from 8, it is difficult to pass near the bottom plate portion 10. Therefore, for example, when the bottom plate portion 10 is cooled by contacting the bottom plate portion 10 of the valley gutter 1 with snow or an ice bank inside the valley gutter 1, dew condensation occurs on the outer surface of the lower portion of the valley gutter 1 or the valley. There is a risk that the snow and ice banks located at the bottom of the gutter 1 will be difficult to melt. However, in the present embodiment, the air in the drain pipe 4 is introduced into the recess 21 through the drain 3 on the base side, and the air introduced into the recess 21 in this way is introduced into each of the plurality of ventilation members 7. Through the formed ventilation space 70, it flows below the entire bottom plate portion 10 of the trough 1. Therefore, the heat of the sewer and the heat generated in the building are easily transmitted to the bottom plate portion 10 of the trough 1. Further, this heat is retained by a plurality of heat insulating materials 51 and 52. Therefore, the occurrence of dew condensation on the outer surface (indoor side surface) of the lower part of the valley gutter 1 is suppressed, and the snow and ice embankment located in the lower part of the valley gutter 1 can be easily melted.

As shown in FIGS. 1 and 2, the plurality of ventilation members 7 are arranged so as to form a gap 92 between the roofing 6a and the second portion 62 along the four side wall portions 25 of the recess 21. There is. Therefore, it is unlikely that the roofing 6 is pressed against the corner portion formed by the bottom portion 24 and the side wall portion 25 of the recess 21 by the ventilation member 7 and is torn.

(Tanihi)
As shown in FIGS. 1 to 3, a trough 1 (snow duct) is provided above the plurality of ventilation members 7. The trough 1 of the present embodiment is made of metal, and one or a plurality of metal plates are placed along the upper surfaces of the roofing 6 and the plurality of ventilation members 7 along the four side wall portions 25 of the recess 21 at the construction site. It is manufactured by folding it into a gutter.

The trough 1 is formed in a groove shape that opens upward. The trough 1 includes a rectangular plate-shaped bottom plate portion 10 extending in the longitudinal direction of the recess 21 in a plan view, and side plate portions 11 erected on each side of the bottom plate portion 10.

The bottom plate portion 10 constituting the bottom portion of the trough 1 is arranged along the upper surface of the plurality of ventilation members 7. The four side plate portions 11 of the trough 1 are arranged along the outdoor side surface of the second portion 62 of the roofing 6a.

(Gutter side drain)
As shown in FIGS. 1 and 2, the bottom plate portion 10 of the trough 1 is provided with a gutter-side drain 8. The gutter side drain 8 is provided at a position corresponding to the base side drain 3 in the bottom plate portion 10 of the trough 1. The gutter side drain 8 discharges the water flowing inside the trough 1 toward the lower base side drain 3.

The gutter-side drain 8 of the present embodiment includes a lower member 80 arranged below the trough 1 and an upper member 81 attached to the lower member 80.

The lower member 80 includes a cylindrical drainage portion 82 whose axial direction is parallel to the vertical direction, and a lower flange portion 83 protruding from the upper edge portion of the drainage portion 82 toward the outer peripheral side.

The lower collar portion 83 is along the lower surface of the bottom plate portion 10 of the trough 1. The drainage portion 82 projects downward from the lower flange portion 83 and is arranged inside the holding member 33 of the base side drain 3. A female screw 84 is formed on the inner peripheral surface of the drainage portion 82.

The upper member 81 has a cylindrical connecting cylinder portion 85 whose axial direction is parallel to the vertical direction, an upper flange portion 86 protruding from the upper edge of the connecting cylinder portion 85 toward the outer peripheral side, and an upper portion upward from the connecting cylinder portion 85. It is equipped with a protruding dust shield 87.

The connecting cylinder portion 85 is inserted into a hole formed in the bottom plate portion 10 of the trough 1 and penetrating in the vertical direction. A male screw 88 is formed on the outer peripheral surface of the connecting cylinder portion 85. The male screw 88 is screwed into the female screw 84 of the lower member 80, whereby the upper member 81 is connected to the lower member 80.

The upper flange portion 86 is arranged along the upper surface of the bottom plate portion 10 of the trough 1. The bottom plate portion 10 is vertically sandwiched between the upper flange portion 86 and the lower flange portion 83 of the lower member 80, whereby the gutter side drain 8 is fixed to the bottom plate portion 10 of the trough 1.

The drainage portion 82 of the gutter side drain 8 is arranged so as to be concentric with the insertion portion 340 of the base side drain 3 and the pressing member 33, and the drainage portion 82 is located above the connection portion 341 of the base side drain 3. are doing.

The water in the trough 1 passes through the connecting cylinder portion 85 of the upper member 81 and flows into the drainage portion 82 of the lower member 80, and then is discharged downward from the drainage portion 82 to drain the drain 3 on the base side. It flows into the cylinder portion 34. Further, at this time, the dust shield 87 captures dust such as fallen leaves contained in the water flowing from the trough 1 to the drain 8 on the gutter side.

A roofing 6 arranged along the inner region of the connection portion 341 and the upper surface of the flange portion 35 of the base side drain 3 between the drain pipe portion 34 of the base side drain 3 and the drain portion 82 of the gutter side drain 8. A gap 93 is formed to communicate with the upper region of the roof. In the present embodiment, a gap 93 is formed between the outer peripheral surface of the drainage portion 82 and the inner peripheral surface of the pressing member 33.

The water on the roofing 6 arranged along the upper surface of the plurality of first heat insulating materials 51 flows into the connection portion 341 through the gap 93, and is then discharged from the drain pipe 4. Further, the inside of the drainage pipe 4 is connected to the ventilation space 70 of each ventilation member 7 through the inner region of the connection portion 341 and the gap 93, whereby the air in the drainage pipe 4 is allowed to flow in each ventilation member 7. It is easy to flow into the ventilation space 70.

(Roofing material)
A plurality of roofing materials 90 are laid on the pair of field boards 22 via the roofing 6. Each of the plurality of roofing materials 90 of the present embodiment is composed of a metal plate.

As shown in FIG. 1, the trough 1 of the present embodiment has an inner collar protruding inward and outward in the width direction of the trough 1 from the upper ends of each of the side plate portions 11 on both sides of the trough 1 in the width direction. A portion 12 and an outer flange portion 13 are provided.

Each roofing material 90 is arranged along the upper surface of the corresponding inner flange portion 12 and the upper surface of the outer flange portion 13 of the trough 1. The end portion of each roofing material 90 on the valley gutter 1 side is fixed to the trough 1 by bending so as to involve the inner flange portion 12.

(Construction)
The construction of the trough 1 and the plurality of roofing materials 90 is performed, for example, as follows. First, the operator attaches the drain body 30 of the base side drain 3 to the bottom 24 of the recess 21 formed in the base 2 shown in FIG. At this time, the operator inserts the drainage cylinder portion 34 from above into the through hole 26 formed in the bottom portion 24 of the recess 21 and places the flange portion 35 of the underside drain 3 on the bottom portion 24 of the recess 21. ..

Next, the operator inserts the fastener 91 from above into each of the fastener holes 350 formed in the flange portion 35, and drives each fastener 91 into the bottom 24 of the recess 21. As a result, the drain body 30 is attached to the bottom 24 of the recess 21. The drain pipe 4 is connected to the drain pipe portion 34 of the drain body 30 attached in this way.

Next, the worker arranges a plurality of heat insulating materials 51 and 52 inside the recess 21 formed in the base 2, and then constructs a plurality of roofing 6.

Next, the operator makes a radial notch 64 as shown in FIG. 5A in the portion corresponding to the upper opening 39 of the drainage cylinder portion 34 in the roofing 6a arranged along the upper surface of the first heat insulating material 51. , Forming a plurality of piece 63. Next, the operator bends the plurality of piece pieces 63 downward as shown in FIG. 5B so as to be along the inner peripheral surface 343 of the insertion part 340. Next, the operator fits the holding member 33 of the base side drain 3 into the inside of the insertion portion 340 via the plurality of piece portions 63 to fix the plurality of piece portions 63.

When the operator inserts the pressing member 33 into the insertion portion 340 of the drain body 30, first, the pressing member 33 is grasped by hand and elastically deformed so that the diameter of the pressing member 33 is reduced, and the pressing member 33 is elastically deformed in this state. The member 33 is inserted into the insertion portion 340. Subsequently, the operator relaxes the force for gripping the pressing member 33 to elastically restore the pressing member 33, and presses the pressing member 33 against the inner peripheral surface 343 of the insertion portion 340 via the plurality of piece portions 63. By deforming the pressing member 33 when the pressing member 33 is fitted into the insertion portion 340 in this way, the work of fixing the plurality of pieces 63 of the roofing 6a using the pressing member 33 becomes easy.

Next, the operator arranges a plurality of ventilation members 7 on the roofing 6. Next, the operator creates a trough 1 on the ventilation member 7, and at this time, attaches the gutter side drain 8 to the bottom plate portion 10 of the trough 1. Then, the worker roofs a plurality of roofing materials 90 on the pair of field boards 22 via the roofing 6.

(supplement)
The embodiment described above can be appropriately redesigned. For example, the trough 1 may be formed of a material other than metal. Further, the trough 1 may be manufactured in a factory or the like, then transported to the site and installed in the recess 21.

Further, the first surface 351 and the second surface 352 may have an annular shape other than a circular shape in a plan view, and the shape thereof can be appropriately changed according to the shape of the insertion portion 340 of the flange portion 35 and the like.

Further, the upper surface of the flange portion 35 may be continuously lowered toward the drainage cylinder portion 34 side. Further, the upper surface of the flange portion 35 may be a horizontal surface as a whole.

Further, the roofing 6 on the bottom portion 24 of the recess 21 does not have to extend to the inside of the drainage cylinder portion 34, and may extend to at least the upper surface of the flange portion 35. Further, the pressing member 33 can be omitted. Further, the ventilation member 7 can be omitted.

(effect)
The roof structure of the above-described embodiment is a roof structure in which a trough 1 is provided in a valley portion of the roof, and has the following features. The roof structure includes a base 2, a trough 1, a roofing 6, a gutter side drain 8, and a base side drain 3. A recess 21 that opens upward is formed in the base 2. The trough 1 is provided in the recess 21. The roofing 6 is provided between the trough 1 and the bottom 24 of the recess 21. The gutter side drain 8 is provided in the trough 1. The base side drain 3 is provided on the bottom 24, and the water discharged from the gutter side drain 8 is discharged below the bottom 24. The roofing 6 extends from above the bottom 24 to the base drain 3. Hereinafter, this roof structure is referred to as a roof structure of the first aspect.

In the roof structure of the first aspect, the water condensed on the outer surface of the trough 1 and the water leaking from the trough 1 are received by the roofing 6, and this water can be discharged from the drain 3 on the base side.

Further, the roof structure of the above embodiment has the following additional features in addition to the features of the roof structure of the first aspect. The base side drain 3 penetrates the bottom portion 24 in the vertical direction, and the drainage cylinder portion 34 that discharges the water discharged from the gutter side drain 8 below the bottom portion 24 and the drainage cylinder portion 34 from the upper edge toward the outer peripheral side. It is provided with a flange portion 35 that protrudes and is placed on the bottom portion 24. The roofing 6 passes from above the bottom portion 24 to above the flange portion 35 and reaches the inside of the drainage cylinder portion 34. Hereinafter, this roof structure is referred to as a roof structure of the second aspect.

In the roof structure of the second aspect, since the roofing 6 extends from above the flange portion 35 to the inside of the drainage cylinder portion 34, the water received by the roofing 6 can be guided to the drainage cylinder portion 34 by the roofing portion 6 for drainage. The sex increases.

Further, the roof structure of the above embodiment has the following additional features in addition to the features of the roof structure of the second aspect. The upper surface of the flange portion 35 is gradually or continuously lowered toward the drainage cylinder portion 34 side. Hereinafter, this roof structure is referred to as a roof structure of the third aspect.

In the roof structure of the third aspect, the roofing 6 can be arranged along the upper surface of the flange portion 35 which is gradually or continuously lowered toward the drainage cylinder portion 34 side, and the roofing cylinder portion can be arranged on the roofing cylinder portion 6. A downward slope toward 34 can be easily made. Therefore, the water on the roofing 6 can be smoothly guided to the drainage cylinder portion 34.

Further, the roof structure of the above embodiment has the following additional features in addition to the features of the roof structure of the second aspect. The upper surface of the flange portion 35 is an annular shape in a plan view, one step lower than the upper surface of the outer peripheral portion 353 of the flange portion 35, and the outer peripheral edge is connected to the upper surface of the outer peripheral portion 353 via a step 354. It is provided with a second surface 352 which is one step lower than the first surface 351 and whose outer peripheral edge is connected to the first surface 351 via a step 355. Hereinafter, this roof structure is referred to as a roof structure of the fourth aspect.

In the fourth aspect of the non-falling roof structure, when water on the roofing 6 leaks onto the flange portion 35 from the notch 64 or the like described above, the water is received by the second surface 352 and flows to the drainage cylinder portion 34 side. In this case, the step 355 between the first surface 351 and the second surface 352 suppresses the water received by the second surface 352 from flowing to the outer peripheral side of the flange portion 35.

Further, the roof structure of the above-described embodiment has the following additional features in addition to the features of the roof structure of any of the second to fourth aspects. The drainage cylinder portion 34 includes an inner peripheral surface 343 that is circular in a plan view. The base side drain 3 is further provided with a pressing member 33 which is formed in a C shape in a plan view and is fitted inside the inner peripheral surface 343. The roofing 6 is sandwiched between the pressing member 33 and the inner peripheral surface 343. Hereinafter, this roof structure is referred to as a roof structure of the fifth aspect.

The roof structure of the fifth aspect can be fixed by sandwiching the roofing 6 between the pressing member 33 and the drainage cylinder portion 34. Further, since the presser member 33 is formed in a C shape in a plan view, the operator can easily insert the presser member 33 into the inner peripheral surface 343 of the drainage tube portion 34 in a state of being contracted in the radial direction, and the presser member 33 can be inserted. The work of fixing the roofing 6 using the above becomes easy.

Further, the drain (underground side drain) 3 of the above-described embodiment has the following characteristics. The drain 3 includes a drainage cylinder portion 34 and a flange portion 35. The drainage cylinder portion 34 penetrates in the vertical direction through the bottom portion 24 of the recess 21 formed in the base 2 of the roof and opens upward, and is located below the trough 1 provided in the recess 21, and is located in the trough 1. The water discharged from the provided gutter side drain 8 is discharged below the bottom 24. The flange portion 35 projects from the upper edge of the drainage cylinder portion 34 toward the outer peripheral side and can be placed on the bottom portion 24. The upper surface of the flange portion 35 is gradually or continuously lowered toward the drainage cylinder portion 34 side. Hereinafter, the drain 3 having this feature is referred to as the drain 3 of the first aspect.

The drain 3 of the first aspect can be installed in a state where the drainage cylinder portion 34 is passed through the bottom portion 24 of the recess 21 and the flange portion 35 is placed on the bottom portion 24 of the recess 21. By installing the drain 3 in this way, for example, by arranging the roofing 6 arranged on the bottom 24 of the recess 21 along the upper surface of the flange portion 35, water or a trough condensing on the outer surface of the trough 1 can be obtained. The water leaked from 1 can be received by the roofing 6 and this water can be discharged from the drainage cylinder portion 34. Further, in this case, the roofing 6 on the flange portion 35 can be arranged along the upper surface of the flange portion 35 which is gradually or continuously lowered toward the drainage cylinder portion 34 side. Therefore, the roofing 6 can be provided with a downward gradient toward the drainage cylinder portion 34, and the water on the roofing 6 can be smoothly guided to the drainage cylinder portion 34.

Further, the drain 3 of the above embodiment has the following additional features in addition to the features of the drain 3 of the first aspect. The flange portion 35 is formed with a fastener hole 350 that penetrates in the vertical direction and allows the fastener 91 for fixing the flange portion 35 to the bottom portion 24 to be inserted. Hereinafter, this drain 3 is referred to as a drain 3 of the second aspect.

In the drain 3 of the second aspect, the drain 3 can be fixed to the bottom 24 of the recess 21 by fixing the fastener 91 inserted through the hole 350 for the fastener 21 to the bottom 24 of the recess 21.

1 Tanihi 2 Underground 21 Recessed 24 Bottom 3 Underground drain 33 Presser member 34 Drainage cylinder 343 Inner peripheral surface 35 Flange part 350 Fastening tool hole 351 First surface 352 Second surface 353 Outer circumference 354 Step 355 Step 6 Roofing 8 Gutter side drain 91 Fastener

Claims (3)

It is a roof structure with a trough in the valley of the roof.
A base with a recess that opens upward,
With the trough provided in the recess,
The roofing provided between the trough and the bottom of the recess,
With the gutter side drain provided in the valley gutter,
It is provided on the bottom portion and is provided with a base side drain for draining the water discharged from the gutter side drain below the bottom portion.
The roofing extends from above the bottom to the base drain .
The base side drain is
A drainage cylinder portion that penetrates the bottom portion in the vertical direction and discharges water discharged from the gutter side drain below the bottom portion.
It is provided with a flange portion that protrudes from the upper edge of the drainage cylinder portion toward the outer peripheral side and is placed on the bottom portion.
The roofing passes from above the bottom portion to above the flange portion and reaches the inside of the drainage cylinder portion.
The drainage cylinder portion has a circular inner peripheral surface in a plan view, and has a circular inner peripheral surface.
The base side drain is
Further provided with a pressing member formed in a C shape in a plan view and fitted inside the inner peripheral surface.
A roof structure characterized in that the roofing is sandwiched between the holding member and the inner peripheral surface. The roof structure according to claim 1 , wherein the upper surface of the flange portion is gradually or continuously lowered toward the drainage cylinder portion side. The upper surface of the flange portion is
A first surface that is annular in a plan view and is one step lower than the upper surface of the outer peripheral portion of the flange portion, and the outer peripheral edge is connected to the upper surface of the outer peripheral portion via a step.
The roof structure according to claim 1 , wherein the roof structure is an annular shape in a plan view, one step lower than the first surface, and has a second surface whose outer peripheral edge is connected to the first surface via a step.

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