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JP2011127359A - Ventilator of shed roof and ventilation structure - Google Patents

Ventilator of shed roof and ventilation structure Download PDF

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JP2011127359A
JP2011127359A JP2009287794A JP2009287794A JP2011127359A JP 2011127359 A JP2011127359 A JP 2011127359A JP 2009287794 A JP2009287794 A JP 2009287794A JP 2009287794 A JP2009287794 A JP 2009287794A JP 2011127359 A JP2011127359 A JP 2011127359A
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ventilation
hanging
roof
piece
surface side
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JP5421759B2 (en
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Toru Ozasayama
徹 小笹山
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KMEW Co Ltd
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KMEW Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a ventilation structure of a shed roof, which is improved in ventilation efficiency and water proofing properties. <P>SOLUTION: The ventilator A forms a chevron shape in cross section corresponding to the ridge part of the shed roof, and is provided so as to cover a communication hole 47 formed at the ridge part, allowing the ventilation between an indoor side and an outdoor side. The slope portion 14 arranged on the roof surface side and a hanging portion 15 arranged on a wall surface side form the chevron shape in cross section, and both of the slope portion 14 and the hanging portion 15 include ventilation passages 38, 40 allowing the ventilation between the indoor side and outdoor side, and are formed asymmetrical relative to a virtual line dividing into two sections the apex angle of the chevron shape in cross section. Both of the slope portion and the hanging portion are provided with a ventilation port, causing a pressure difference hard to be generated between a small attic and the exterior of a roof. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

本発明は、片流れ屋根における換気装置及び換気構造に関するものである。   The present invention relates to a ventilation device and a ventilation structure in a single-flow roof.

従来より、一方向にだけ勾配のある片流れ屋根が形成されているが、片流れ屋根の棟部には換気装置を設けて小屋裏の換気を行うようにしている。例えば、特許文献1には、棟板1と水切り板2とを備えた換気装置Aを用いた換気構造が記載されている。図8に示すように、棟板1は起立部3と傾斜部5とを備えて形成されており、傾斜部5は起立部3の上端から斜め下方に向けて突設されている。また、傾斜部5には換気口としてがらり4が形成されている。水切り板2は傾斜部5の下側に設けられており、水切り板2の上面と傾斜部5の下面との間は通気路7として形成されている。また、水切り板2には通気路7と連通する通気口6が形成されている。   Conventionally, a single-flow roof having a gradient only in one direction has been formed. However, a ventilation device is provided in the ridge portion of the single-flow roof to ventilate the back of the hut. For example, Patent Document 1 describes a ventilation structure using a ventilation device A including a building board 1 and a draining board 2. As shown in FIG. 8, the ridge board 1 is formed to include an upright portion 3 and an inclined portion 5, and the inclined portion 5 protrudes obliquely downward from the upper end of the upright portion 3. Further, a slack 4 is formed in the inclined portion 5 as a ventilation opening. The draining plate 2 is provided below the inclined portion 5, and a ventilation path 7 is formed between the upper surface of the draining plate 2 and the lower surface of the inclined portion 5. Further, the draining plate 2 is formed with a vent 6 communicating with the vent path 7.

そして、上記の換気装置Aが片流れ屋根の棟部を跨るように配設されることにより、片流れ屋根の棟部における換気構造が形成される。ここで、換気装置Aは、起立部3が破風板9の外面に沿って配置され、傾斜部5及び水切り板2が屋根材11の上方に配置される。これにより、がらり4と通気路7及び通気口6により小屋裏と屋根外部とを通気可能にして換気を行うことができるものである。   And the ventilation structure in the ridge part of a single flow roof is formed by arrange | positioning said ventilation apparatus A so that the ridge part of a single flow roof may be straddled. Here, in the ventilator A, the upright portion 3 is disposed along the outer surface of the windbreak plate 9, and the inclined portion 5 and the draining plate 2 are disposed above the roof material 11. Thus, ventilation can be performed by allowing the garment 4, the ventilation path 7 and the ventilation hole 6 to ventilate the back of the hut and the outside of the roof.

特許第3280657号公報Japanese Patent No. 3280657

しかし、上記の換気構造では、屋根面側に配される傾斜部5にしか換気口が設けられておらず、換気を充分に行なうには、大型化するか、棟全長に設けるかしなければならない。そのため、防水性の確保や施工に手間が掛かるとともに、コストアップにも繋がるものであった。また、風雨が強い時には、小屋裏と換気装置、換気装置と屋外の圧力差(内外圧力差)が生じやすくなり、雨水が小屋裏内に侵入するおそれがあった。   However, in the ventilation structure described above, the ventilation port is provided only in the inclined portion 5 arranged on the roof surface side, and in order to perform ventilation sufficiently, it must be enlarged or provided over the entire length of the building. Don't be. For this reason, it takes time for securing waterproofness and construction, and also leads to an increase in cost. Further, when the wind and rain are strong, the pressure difference between the back of the hut and the ventilator and between the ventilator and the outside (internal / external pressure difference) is likely to occur, and rainwater may enter the back of the hut.

本発明は上記の点に鑑みてなされたものであり、換気効率と防水性を向上させることができる片流れ屋根の換気装置及び換気構造を提供することを目的とするものである。   This invention is made | formed in view of said point, and it aims at providing the ventilation apparatus and ventilation structure of the single flow roof which can improve ventilation efficiency and waterproofness.

本発明の請求項1に係る換気装置Aは、片流れ屋根の棟頂部に対応した断面山型を成し、棟頂部に形成された連通孔47を覆うよう設けられ、屋内と屋外とを通気可能とする換気装置Aにおいて、屋根面側に配される傾斜部14と壁面側に配される垂下部15により断面山型を成し、傾斜部14と垂下部15の両方に屋内と屋外とを通気可能とする通気路38、40を備えると共に、断面山型の頂角を二等分する仮想線に対して非対称に形成して成ることを特徴とするものである。   The ventilator A according to claim 1 of the present invention has a mountain-shaped cross section corresponding to the ridge top of the single-flow roof, is provided to cover the communication hole 47 formed in the ridge top, and can ventilate indoors and outdoors. In the ventilation device A, the inclined portion 14 arranged on the roof surface side and the hanging portion 15 arranged on the wall surface side form a cross-sectional mountain shape, and both the inclined portion 14 and the hanging portion 15 are indoors and outdoors. Ventilation passages 38 and 40 that allow ventilation are provided, and the apex angle of the mountain-shaped cross section is formed asymmetrically with respect to an imaginary line that bisects.

本発明の請求項2に係る換気装置Aは、請求項1において、傾斜部14の軒棟方向の長さを垂下部15の上下方向の長さよりも長く形成して成ることを特徴とするものである。   The ventilator A according to claim 2 of the present invention is characterized in that, in claim 1, the length of the inclined portion 14 in the eaves ridge direction is formed longer than the length of the drooping portion 15 in the vertical direction. It is.

本発明の請求項3に係る換気装置Aは、請求項1又は2において、垂下部15の通気路40の防水性能を傾斜部14の通気路38の防水性能よりも高水準として成ることを特徴とするものである。   The ventilator A according to claim 3 of the present invention is characterized in that, in claim 1 or 2, the waterproof performance of the air passage 40 of the hanging portion 15 is higher than the waterproof performance of the air passage 38 of the inclined portion 14. It is what.

本発明の請求項4に係る換気装置Aは、請求項1乃至3のいずれか一項において、傾斜部14の通気路38及び垂下部15の通気路40に突出するよう邪魔板24を設けると共に、垂下部15の通気路40に設ける邪魔板24の数を傾斜部14の通気路38に設ける邪魔板24の数より多くして成ることを特徴とするものである。   A ventilator A according to a fourth aspect of the present invention is the ventilator A according to any one of the first to third aspects, wherein the baffle plate 24 is provided so as to protrude into the air passage 38 of the inclined portion 14 and the air passage 40 of the hanging portion 15. The number of baffle plates 24 provided in the air passage 40 of the hanging portion 15 is larger than the number of baffle plates 24 provided in the air passage 38 of the inclined portion 14.

本発明の請求項5に係る片流れ屋根の換気構造は、傾斜部14と垂下部15とを備えて片流れ屋根の棟頂部に対応した断面山型を成した換気装置Aを形成し、傾斜部14と垂下部15の両方に屋内と屋外とを通気可能とする通気路38、40を備えると共に、断面山型の頂角を二等分する仮想線に対して非対称に形成し、棟頂部に形成された連通孔47を覆うように片流れ屋根の棟頂部に換気装置Aを設けると共に傾斜部14を屋根面側に、垂下部15を壁面側にそれぞれ配し、上記通気口38、40と連通孔47とを通じて屋内と屋外とを通気可能として成ることを特徴とするものである。   The ventilation structure of the single-flow roof according to claim 5 of the present invention includes the inclined portion 14 and the hanging portion 15 to form a ventilation device A having a mountain-shaped cross section corresponding to the top of the single-flow roof, and the inclined portion 14. In addition, air passages 38 and 40 that allow ventilation between indoors and outdoors are provided in both the hanging part 15 and the hanging part 15, and the apex angle of the cross-sectional mountain shape is formed asymmetrically with respect to a virtual line that bisects and formed at the top of the building A ventilation device A is provided at the top of the ridge of the single-flow roof so as to cover the formed communication hole 47, the inclined portion 14 is disposed on the roof surface side, and the drooping portion 15 is disposed on the wall surface side. 47, the indoor and the outdoor can be ventilated.

請求項1の発明では、傾斜部と垂下部の両方に通気口を設けることにより、小屋裏と屋根外部との圧力差が生じにくくなり、換気効率と防水性を向上させることができるものである。また、両方に通気路を設けていても、非対称に形成されているために、屋根面側と壁面側とを逆に取り付けてしまうことを防止できるものである。   In the first aspect of the present invention, by providing vents in both the inclined portion and the hanging portion, a pressure difference between the back of the hut and the outside of the roof is less likely to be generated, and the ventilation efficiency and waterproofness can be improved. . Moreover, even if it provides the ventilation path in both, since it forms asymmetrically, it can prevent attaching a roof surface side and a wall surface side reversely.

請求項2の発明では、片流れ屋根の棟頂部形状によって連通孔が軒側に位置ずれしていても、傾斜部によって確実に連通孔を覆うことができ、棟頂部形状の異なる多くの施工物件にも容易に対応することができるものである。   In the invention of claim 2, even if the communication hole is displaced to the eaves side due to the ridge top shape of the single-flow roof, the communication hole can be reliably covered by the inclined portion, and in many construction properties having different ridge top shapes. Can be easily handled.

請求項3の発明では、壁面側の防水性を確保することができるものである。すなわち、屋根面に吹き付けられる風雨は屋根面に沿って吹き上がるが、屋根面の上方に逃げ場がある。これに対し、壁面に吹き付けられる風雨は逃げ場が無く壁面に沿って吹き上がる。立地条件により差異はあるが、壁面側(垂下部)の開口に吹き付ける風雨の方がより強くなる可能性がある。この場合であっても、請求項3の発明では防水性を確保することができる。   In invention of Claim 3, the waterproofness of the wall surface side can be ensured. In other words, the wind and rain sprayed on the roof surface blows up along the roof surface, but there is a refuge above the roof surface. On the other hand, the wind and rain blown on the wall surface is blown up along the wall surface without any escape. Although there are differences depending on the location conditions, wind and rain blowing on the opening on the wall side (hanging part) may be stronger. Even in this case, the invention of claim 3 can ensure waterproofness.

請求項4の発明では、邪魔板の数が多い垂下部の防水性能を傾斜部よりも高水準にすることができ、壁面側の防水性を確保することができるものである。更に、邪魔板の数が多い側を壁面側に施工すれば良く、目印になり、施工を容易に行うことができるものである。   In the invention of claim 4, the waterproof performance of the hanging portion having a large number of baffle plates can be made higher than that of the inclined portion, and the waterproof property on the wall surface side can be secured. Furthermore, the side having the larger number of baffle plates may be constructed on the wall surface side, which serves as a mark and can be easily constructed.

請求項5の発明では、傾斜部と垂下部の両方に通気口を設けることにより、小屋裏と屋根外部との圧力差が生じにくくなり、換気効率と防水性を向上させることができるものである。また、両方に通気路を設けていても、非対称に形成されているために、屋根面側と壁面側とを逆に取り付けてしまうことを防止できるものである。   In the invention of claim 5, by providing vents in both the inclined portion and the hanging portion, a pressure difference between the back of the hut and the outside of the roof is less likely to be generated, and the ventilation efficiency and waterproofness can be improved. . Moreover, even if it provides the ventilation path in both, since it forms asymmetrically, it can prevent attaching a roof surface side and a wall surface side reversely.

本発明の実施の形態の一例を示す断面図である。It is sectional drawing which shows an example of embodiment of this invention. 同上の換気装置を示し、(a)(b)は側面図、(c)は正面図、(d)は背面図である。The ventilation apparatus same as the above is shown, (a) (b) is a side view, (c) is a front view, (d) is a rear view. 同上の換気装置を示す分解斜視図である。It is a disassembled perspective view which shows a ventilator same as the above. 同上の換気装置を示す分解斜視図である。It is a disassembled perspective view which shows a ventilator same as the above. 同上の取付金具を示し、(a)は側面図、(b)は平面図である。The attachment bracket same as the above is shown, (a) is a side view and (b) is a plan view. 同上の換気装置を示し、(a)は側面図、(b)は一部の拡大した断面図である。The ventilation apparatus same as the above is shown, (a) is a side view, (b) is a partially enlarged sectional view. 同上の棟部の一部を示す断面図である。It is sectional drawing which shows a part of ridge part same as the above. 従来例を示す断面図である。It is sectional drawing which shows a prior art example.

以下、本発明を実施するための形態を説明する。   Hereinafter, modes for carrying out the present invention will be described.

換気装置Aは複数の部材を組み合わせて形成されている。これらの部材は塗装鋼板などの耐食性の高い金属で形成されている。具体的には、図2(a)〜(d)に示すように、装置本体10、固定部材11、防水部材12、増設部材32などを備えて換気装置Aが形成されている。   The ventilation device A is formed by combining a plurality of members. These members are made of a metal having high corrosion resistance such as a coated steel plate. Specifically, as shown in FIGS. 2A to 2D, the ventilation device A is formed by including the device main body 10, the fixing member 11, the waterproof member 12, the additional member 32, and the like.

装置本体10は平板状の傾斜片10aと平板状の垂下片10bとで断面山型に形成されている。垂下片10bは鉛直方向と略平行に形成されており、傾斜片10aは垂下片10bの上端から斜め下方に向かって下り傾斜するように形成されている。また、傾斜片10aの前端(換気装置Aを棟頂部に設置したときに軒側に位置する端部)から後端(換気装置Aを棟頂部に設置したときに棟側に位置する端部)までの寸法は垂下片10bの上端から下端までの寸法よりも長く形成されている。また、傾斜片10aの前端には裏面側(換気装置Aを棟頂部に設置したときの建物側)に略垂直に突設された係止片16が形成されており、係止片16の下端には断面U字状の係止部17が設けられている。さらに、垂下片10bの下端にも裏面側に略垂直に突設された係止片18が形成されており、係止片18の先端には断面倒U字状の係止部19が設けられている。   The apparatus main body 10 is formed in a mountain-shaped cross section by a flat inclined piece 10a and a flat hanging piece 10b. The hanging piece 10b is formed substantially parallel to the vertical direction, and the inclined piece 10a is formed so as to be inclined downward from the upper end of the hanging piece 10b. Moreover, from the front end (end part located in the eaves side when the ventilator A is installed on the ridge top) to the rear end (end part located on the ridge side when the ventilator A is installed on the ridge top) of the inclined piece 10a These dimensions are longer than the dimensions from the upper end to the lower end of the hanging piece 10b. Further, a locking piece 16 is formed at the front end of the inclined piece 10a so as to project substantially vertically on the back side (the building side when the ventilation device A is installed on the top of the building). Is provided with a locking portion 17 having a U-shaped cross section. Furthermore, a locking piece 18 is formed at the lower end of the drooping piece 10b so as to protrude substantially perpendicularly to the back surface side. A locking portion 19 having an inverted U-shaped cross section is provided at the tip of the locking piece 18. ing.

固定部材11は、図3、4に示すように、平板状のベース部20の前端に表面側(換気装置Aを棟頂部に設置したときの建物と反対側)に折り返し屈曲して固定片21を形成すると共にベース部20の後端に表面側に突出する通気片22が形成されている。また、通気片22の先端にはベース部20と対向するように押さえ片23が設けられている。固定片21の後端には表面側に突出する断面倒L字状の邪魔板24(24a)が形成されている。また、通気片22には厚み方向に貫通し、横方向に長い通気孔25が形成されている。   As shown in FIGS. 3 and 4, the fixing member 11 is bent and bent to the front side of the flat base portion 20 on the surface side (the side opposite to the building when the ventilation device A is installed on the ridge top), and is fixed to the fixing piece 21. A ventilation piece 22 is formed at the rear end of the base portion 20 and protrudes to the surface side. A pressing piece 23 is provided at the tip of the ventilation piece 22 so as to face the base portion 20. A baffle plate 24 (24a) having an inverted L-shaped cross-section projecting to the surface side is formed at the rear end of the fixed piece 21. The ventilation piece 22 has a ventilation hole 25 penetrating in the thickness direction and long in the lateral direction.

防水部材12は、図3、4に示すように、平板状の取付片26の前端と後端とに裏面側に突出する断面L字状の邪魔板24(24b、24c)が形成されている。   As shown in FIGS. 3 and 4, the waterproof member 12 is formed with baffle plates 24 (24 b, 24 c) having an L-shaped cross section projecting to the back side at the front end and the rear end of the flat mounting piece 26. .

取付金具13は図3、4、5に示すように、、平板状の差し込み片29の後端に表面側に突出する断面倒L字状の支持片30を形成し、支持片30の前端に裏面側に突出する被係止片31が形成されている。   As shown in FIGS. 3, 4, and 5, the mounting bracket 13 is formed with an inverted L-shaped support piece 30 projecting to the surface side at the rear end of the flat insertion piece 29, and at the front end of the support piece 30. A locked piece 31 protruding on the back side is formed.

増設部材32は、図4に示すように、平板状の延設片33と、延設片33の上端に表面側に突出する断面倒L字状の邪魔板24(24d)が形成されている。   As shown in FIG. 4, the extension member 32 is formed with a flat plate-like extended piece 33 and a baffle plate 24 (24 d) having an inverted L-shaped cross section that protrudes to the surface side at the upper end of the extended piece 33. .

そして、傾斜片10aの前端部に固定部材11と防水部材12とを設けることによって、換気装置Aの傾斜部14を形成することができる。また、垂下片10bの下端部に上記とは別の固定部材11と防水部材12及び増設部材32を設けることによって、換気装置Aの垂下部15を形成することができる。尚、傾斜部14の固定部材11と防水部材12とをそれぞれ固定部材11a、防水部材12aとし、垂下部15の固定部材11と防水部材12とをそれぞれ固定部材11b、防水部材12bとする。   And the inclined part 14 of the ventilation apparatus A can be formed by providing the fixing member 11 and the waterproof member 12 in the front-end part of the inclined piece 10a. Moreover, the hanging part 15 of the ventilation apparatus A can be formed by providing the fixing member 11 different from the above, the waterproof member 12, and the additional member 32 at the lower end part of the hanging piece 10b. The fixing member 11 and the waterproof member 12 of the inclined portion 14 are respectively referred to as a fixing member 11a and a waterproof member 12a, and the fixing member 11 and the waterproof member 12 of the hanging portion 15 are respectively referred to as a fixing member 11b and a waterproof member 12b.

固定部材11a及び防水部材12aを傾斜片10aに取り付けるにあたっては、まず、ベース部20と固定片21との間に差し込み片29を差し込んで固定部材11aに取付金具13を取り付ける。取付金具13は固定部材11aの長手方向(片流れ屋根の棟部と平行な方向)に沿って複数個設けることができる。また、取付金具13の被係止片31は固定部材11aの押さえ片23よりも前側(固定片21側)に位置している。次に、固定部材11aに取り付けた取付金具13の被係止片31を傾斜片10aの係止部17に差し込んで係止する。次に、防水部材12aの取付片26の表面を傾斜片10aの裏面に当接させて防水部材12aを傾斜片10aの裏面側に配置する。次に、上記固定部材11aの押さえ片23の表面を上記防水部材12aの取付片26の裏面に当接させる。そして、取付金具13の支持片30と傾斜片10aとをリベット留めなどで固定すると共に取付片26と押さえ片23と傾斜片10aとをリベット留めなどで固定する。このようにして固定部材11a及び防水部材12aを傾斜片10aに取り付けることができる。   In attaching the fixing member 11a and the waterproof member 12a to the inclined piece 10a, first, the insertion piece 29 is inserted between the base portion 20 and the fixing piece 21, and the mounting bracket 13 is attached to the fixing member 11a. A plurality of the mounting brackets 13 can be provided along the longitudinal direction of the fixing member 11a (direction parallel to the ridge portion of the single-flow roof). Further, the locked piece 31 of the mounting bracket 13 is located on the front side (fixed piece 21 side) of the pressing piece 23 of the fixed member 11a. Next, the locked piece 31 of the mounting bracket 13 attached to the fixing member 11a is inserted into the locking portion 17 of the inclined piece 10a and locked. Next, the surface of the attachment piece 26 of the waterproof member 12a is brought into contact with the back surface of the inclined piece 10a, and the waterproof member 12a is disposed on the back surface side of the inclined piece 10a. Next, the surface of the pressing piece 23 of the fixing member 11a is brought into contact with the back surface of the mounting piece 26 of the waterproof member 12a. Then, the support piece 30 and the inclined piece 10a of the attachment fitting 13 are fixed by riveting or the like, and the attachment piece 26, the pressing piece 23 and the inclined piece 10a are fixed by riveting or the like. In this way, the fixing member 11a and the waterproof member 12a can be attached to the inclined piece 10a.

図6に示すように、傾斜部14を構成する上記の傾斜片10aの係止片16の下端と、固定部材11aの固定片21との間は屋根面側の換気口37として形成されている。また、防水部材12aの後側の邪魔板24cから通気孔25を通じて換気口37に至るまでが屋根面側の通気路38として形成されている。この屋根面側の通気路38は邪魔板24a、24b、24cにより上下にジグザグに形成され、邪魔板24a、24b、24cにより雨水の吹き込みを防止している。また、ベース部20と固定片21の前端部は換気口37から外側(屋根面側の通気路38と反対側)に突出しており、このベース部20の前端部には複数の水抜き孔59が形成されている。   As shown in FIG. 6, a space between the lower end of the locking piece 16 of the inclined piece 10a constituting the inclined portion 14 and the fixed piece 21 of the fixing member 11a is formed as a ventilation opening 37 on the roof surface side. . Further, a ventilation passage 38 on the roof surface side is formed from the baffle plate 24c on the rear side of the waterproof member 12a to the ventilation opening 37 through the ventilation hole 25. The airflow path 38 on the roof surface side is formed in a zigzag manner by the baffle plates 24a, 24b, 24c, and rainwater is prevented from being blown by the baffle plates 24a, 24b, 24c. Further, the front ends of the base portion 20 and the fixed piece 21 protrude outward from the ventilation port 37 (opposite the air passage 38 on the roof surface side), and a plurality of drain holes 59 are formed in the front end portion of the base portion 20. Is formed.

また、上記とは別の固定部材11b、防水部材12b及び増設部材32を垂下片10bに取り付けるにあたっては、まず、ベース部20と固定片21との間に差し込み片29を差し込んで固定部材11bに取付金具13を取り付ける。取付金具13は固定部材11bの長手方向(片流れ屋根の棟部と平行な方向)に沿って複数個設けることができる。また、取付金具13の被係止片31は固定部材11bの押さえ片23よりも下側(固定片21側)に位置している。次に、固定部材11bに取り付けた取付金具13の被係止片31を垂下片10bの係止部19に差し込んで係止する。次に、防水部材12bの取付片26の表面を垂下片10bの裏面に当接させて防水部材12bを垂下片10bの裏側に配置する。次に、上記固定部材11bの押さえ片23の表面を上記防水部材12bの取付片26の裏面に当接させる。そして、取付金具13の支持片30と垂下片10bとをリベット留めなどで固定すると共に取付片26と押さえ片23と垂下片10bとをリベット留めなどで固定する。さらに、増設部材32の延設片33の下部の表面を上記固定部材11bのベース部20の裏面に当接し、延設片33とベース部20とをリベット留めなどで固定する。このようにして固定部材11b及び防水部材12bを垂下片10bに取り付けると共に増設部材32を固定部材11bに取り付けることができる。   Further, when attaching the fixing member 11b, the waterproof member 12b, and the additional member 32 different from the above to the hanging piece 10b, first, the insertion piece 29 is inserted between the base portion 20 and the fixing piece 21 to the fixing member 11b. The mounting bracket 13 is attached. A plurality of the mounting brackets 13 can be provided along the longitudinal direction of the fixing member 11b (the direction parallel to the ridge portion of the single-flow roof). Further, the locked piece 31 of the mounting bracket 13 is positioned below (the fixed piece 21 side) than the pressing piece 23 of the fixing member 11b. Next, the locked piece 31 of the mounting bracket 13 attached to the fixing member 11b is inserted into the locking portion 19 of the hanging piece 10b and locked. Next, the surface of the attachment piece 26 of the waterproof member 12b is brought into contact with the back surface of the hanging piece 10b, and the waterproofing member 12b is disposed on the back side of the hanging piece 10b. Next, the surface of the pressing piece 23 of the fixing member 11b is brought into contact with the back surface of the mounting piece 26 of the waterproof member 12b. Then, the support piece 30 and the hanging piece 10b of the mounting bracket 13 are fixed by riveting or the like, and the mounting piece 26, the holding piece 23 and the hanging piece 10b are fixed by riveting or the like. Further, the lower surface of the extension piece 33 of the extension member 32 is brought into contact with the back surface of the base portion 20 of the fixing member 11b, and the extension piece 33 and the base portion 20 are fixed by riveting or the like. In this manner, the fixing member 11b and the waterproof member 12b can be attached to the hanging piece 10b and the extension member 32 can be attached to the fixing member 11b.

図6に示すように、垂下部15を構成する上記の垂下片10bの係止片18の先端と、固定部材11bの固定片21との間は壁面側の換気口39として形成されている。また、固定部材11bに取り付けた増設部材32の邪魔板24dから通気孔25を通じて換気口39に至るまでが壁面側の通気路40として形成されている。この壁面側の通気路40は邪魔板24a、24b、24c、24dにより表裏にジグザグに形成され、邪魔板24a、24b、24c、24dにより雨水の吹き込みを防止している。また、上記ベース部20と固定片21の先端は換気口39から下側(壁面側の通気路40と反対側)に突出しており、下端部には複数の水抜き孔(図示省略)が形成されている。   As shown in FIG. 6, a wall-side ventilation port 39 is formed between the tip of the locking piece 18 of the hanging piece 10b constituting the hanging part 15 and the fixing piece 21 of the fixing member 11b. Also, a wall surface side air passage 40 is formed from the baffle plate 24d of the additional member 32 attached to the fixing member 11b to the vent hole 39 through the vent hole 25. The wall surface side air passage 40 is formed in a zigzag manner on the front and back sides by baffle plates 24a, 24b, 24c, and 24d, and rain water is prevented from being blown in by the baffle plates 24a, 24b, 24c, and 24d. Further, the tips of the base portion 20 and the fixing piece 21 protrude downward from the ventilation port 39 (on the side opposite to the air passage 40 on the wall surface side), and a plurality of drain holes (not shown) are formed at the lower end portion. Has been.

さらに、傾斜片10aと垂下片10bの裏面にポリエチレン発泡体等で形成される防露材35を設ける。また、傾斜部14の固定部材11aの裏面と垂下部15の固定部材11bの裏面には、予め防水テープ36を貼り付けておいても良い。このようにして換気装置Aを形成することができる。本発明で用いる換気装置Aは、傾斜部14の軒棟方向の長さを垂下部15の上下方向の長さよりも長く形成することによって、断面山型の頂角(傾斜部14と垂下部15の間の角)を二等分する仮想線(図1、6に一点鎖線で示す)に対して非対称に形成したものである。   Further, a dewproof material 35 formed of polyethylene foam or the like is provided on the back surfaces of the inclined piece 10a and the hanging piece 10b. Further, a waterproof tape 36 may be attached in advance to the back surface of the fixing member 11 a of the inclined portion 14 and the back surface of the fixing member 11 b of the hanging portion 15. In this way, the ventilation device A can be formed. The ventilator A used in the present invention is formed such that the length of the inclined portion 14 in the eaves ridge direction is longer than the vertical length of the hanging portion 15, so that the apex angle (inclined portion 14 and hanging portion 15 Are formed asymmetrically with respect to an imaginary line (indicated by a dashed line in FIGS. 1 and 6).

次に、上記の換気装置Aを用いた片流れ屋根の換気構造について説明する。   Next, the ventilation structure of the single flow roof using said ventilation apparatus A is demonstrated.

図1に示すように、柱41の上端には棟木42が設けられており、棟木42の上側には垂木43が斜め下方に向かって長く設けられている。垂木43の上には野地板44が設けられていると共に野地板44の上面(表面)には防水シート等の下葺き材45が敷設されている。さらに、下葺き材45の上に複数の屋根材46が敷設されている。上記野地板44の棟側端部には厚み方向に貫通する連通孔47が形成されている。また、最も棟側に位置する屋根材46と連通孔47の間には水切り板48が設けられている。また、棟木42の壁側面(屋外側面)と垂木43の棟側端面とにわたって破風下地49が取り付けられている。破風下地49は棟部の長手方向の全長にわたって設けられている。また、破風下地49の屋外側面の上部には調整笠木50が棟部の長手方向の全長にわたって設けられている。この調整笠木50の厚みは後述の化粧破風板51の厚みに応じて調整される。また、調整笠木50の上下方向の取り付け位置は上記換気装置Aの取り付け位置によって調整される。また、調整笠木50の屋外面と破風下地49の屋外面と垂木43の屋外面及び柱41の屋外面にわたって上記と同様の下葺き材52が設けられている。   As shown in FIG. 1, a purlin 42 is provided at the upper end of the pillar 41, and a rafter 43 is provided on the upper side of the purlin 42 so as to extend obliquely downward. A base plate 44 is provided on the rafters 43, and an underlay material 45 such as a waterproof sheet is laid on the upper surface (surface) of the base plate 44. Further, a plurality of roofing materials 46 are laid on the lower covering material 45. A communication hole 47 penetrating in the thickness direction is formed at the ridge side end of the base plate 44. Further, a draining plate 48 is provided between the roof material 46 located on the most ridge side and the communication hole 47. Further, a blast ground foundation 49 is attached across the wall side surface (outdoor side surface) of the purlin 42 and the ridge side end surface of the rafter 43. The gable base 49 is provided over the entire length in the longitudinal direction of the ridge. Moreover, the adjustment headboard 50 is provided in the upper part of the outdoor side surface of the gable base 49 over the full length of the ridge part in the longitudinal direction. The thickness of the adjustment headboard 50 is adjusted according to the thickness of a decorative windbreak plate 51 described later. Further, the vertical mounting position of the adjustment headboard 50 is adjusted by the mounting position of the ventilation device A. Further, the underlaying material 52 similar to the above is provided over the outdoor surface of the adjustment headboard 50, the outdoor surface of the gable base 49, the outdoor surface of the rafter 43, and the outdoor surface of the column 41.

そして、上記の換気装置Aは最も棟側に配置された屋根材46と調整笠木50とにわたって棟部を跨ぐようにして取り付けられる。屋根面側においては、屋根材46の上に屋根面側の換気口37から突出する固定片21をビス等の固定具53で固定する。また、壁面側においては、垂下片10bの外面からベース部20を貫通して調整笠木50までビス等の固定具53を打入することにより固定する。なお、屋根面側、壁面側の何れにおいても、取付金具13を介して固定することで、より強固に固定することができる。また、固定部材11aの防水テープ36は屋根材46の上面(表面)に密着させると共に固定部材11bの防水テープ36は調整笠木50を覆う下葺き材52の表面に密着させる。この後、調整笠木50の下側において、破風下地49の屋外側面に下葺き材52を介して化粧破風板51を棟部の全長にわたって取り付ける。この場合、調整笠木50の下端と化粧破風板51の上端との境界部分が壁面側の換気口39から突出する固定片21により覆われる。このようにして連通孔47を覆うと共に傾斜部14を屋根面側に、垂下部15を壁面側にそれぞれ配して換気装置Aを片流れ屋根の棟頂部に設けることができる。   And said ventilation apparatus A is attached so that the ridge part may be straddle | crossed over the roof material 46 and adjustment headboard 50 which are arrange | positioned most at the ridge side. On the roof surface side, the fixing piece 21 protruding from the ventilation surface 37 on the roof surface side is fixed on the roof material 46 with a fixing tool 53 such as a screw. On the wall surface side, fixing is performed by driving a fixing tool 53 such as a screw through the base portion 20 from the outer surface of the hanging piece 10b to the adjustment headboard 50. In addition, it can fix more firmly by fixing via the attachment metal fitting 13 in any of the roof surface side and the wall surface side. Further, the waterproof tape 36 of the fixing member 11 a is brought into close contact with the upper surface (front surface) of the roof material 46, and the waterproof tape 36 of the fixing member 11 b is brought into close contact with the surface of the lower covering material 52 covering the adjustment headboard 50. Thereafter, a makeup windbreak plate 51 is attached to the outdoor side surface of the windbreak base 49 via the lower covering material 52 over the entire length of the ridge portion below the adjustment headboard 50. In this case, the boundary portion between the lower end of the adjustment headboard 50 and the upper end of the decorative windbreak plate 51 is covered with the fixing piece 21 protruding from the ventilation port 39 on the wall surface side. In this way, the ventilation hole A can be provided at the top of the single-flow roof by covering the communication hole 47 and arranging the inclined portion 14 on the roof surface side and the hanging portion 15 on the wall surface side.

尚、上記の換気装置Aは棟頂部の長手方向の一部に設けられるものであって、換気装置Aが設けられない部分には、図7に示すように、換気機能のない通常の片流れ屋根用の棟包み55が取り付けられる。この場合、屋根材46と棟包み55の間には屋根面側の通気路38の厚みとほぼ同等の厚みを有する笠木56が設けられる。また、調整笠木50と棟包み55の間には壁面側の通気路40の厚みとほぼ同等の厚みを有する笠木57が設けられる。また、柱41の屋外側には壁材などが取り付けられて外壁が形成される。   The above ventilator A is provided in a part of the ridge top in the longitudinal direction, and in the portion where the ventilator A is not provided, as shown in FIG. A ridge wrap 55 is attached. In this case, a headboard 56 having a thickness substantially equal to the thickness of the ventilation path 38 on the roof surface side is provided between the roof material 46 and the wrapping 55. Further, a cap 57 having a thickness substantially equal to the thickness of the air passage 40 on the wall surface side is provided between the adjustment cap 50 and the wrapping 55. Moreover, a wall material etc. are attached to the outdoor side of the pillar 41, and an outer wall is formed.

上記のように形成される本発明の片流れ屋根の換気構造では、屋根面側において、屋根面側の換気口37から屋根面側の通気路38と連通孔47とを通じて小屋裏58にまで至る換気通路が形成される。また、壁面側において、壁面側の換気口39から壁面側の通気路40と連通孔47とを通じて小屋裏58にまで至る換気通路が形成される。このように屋根面側と壁面側の両側に換気口37、39を設けることで、屋外と屋内(小屋裏58)との内外圧力差を緩和することができ、空気の流通がスムーズになって換気効率を向上させることができる。また、屋根材46の上側に配設される傾斜部14の傾斜方向(軒棟方向)の寸法を垂下部15の上下方向の寸法よりも長く形成するので、雨水の屋根面の駆け上がり距離を長く確保することができ、防水性を向上させることができる。また、屋根面側の通気路38よりも壁面側の通気路40に多くの邪魔板24a〜24dを設けたので、壁面側の通気路40を通じて雨水が吹き込むのを防止することができ、防水性を向上させることができる。また、屋根面側の換気口37と壁面側の換気口39とは同じ高さ位置に設けるのが好ましい。この場合、換気口37と39とにおける圧力差が少なくなり、換気を換気口37と39とからバランス良く行うことができ、スムーズに換気を行うことができる。   In the ventilation structure of the single flow roof of the present invention formed as described above, on the roof surface side, ventilation from the roof surface side ventilation port 37 to the back of the hut 58 through the ventilation passage 38 and the communication hole 47 on the roof surface side. A passage is formed. Further, on the wall surface side, a ventilation passage is formed from the wall surface side ventilation port 39 to the cabin back 58 through the wall surface side air passage 40 and the communication hole 47. Thus, by providing the ventilation openings 37 and 39 on both sides of the roof surface side and the wall surface side, the pressure difference between the outside and the inside (the back of the hut 58) can be alleviated, and the air circulation becomes smooth. Ventilation efficiency can be improved. Moreover, since the dimension of the inclination direction (eave building direction) of the inclination part 14 arrange | positioned above the roof material 46 is formed longer than the dimension of the up-down direction of the drooping part 15, the run-up distance of the roof surface of rainwater is increased. It can be ensured for a long time, and waterproofness can be improved. In addition, since many baffle plates 24a to 24d are provided in the air passage 40 on the wall surface side than the air passage 38 on the roof surface side, rainwater can be prevented from being blown through the air passage 40 on the wall surface side, and is waterproof. Can be improved. Moreover, it is preferable to provide the ventilation port 37 on the roof surface side and the ventilation port 39 on the wall surface side at the same height position. In this case, the pressure difference between the ventilation ports 37 and 39 is reduced, ventilation can be performed with good balance from the ventilation ports 37 and 39, and ventilation can be performed smoothly.

尚、上記では傾斜部14の傾斜方向の寸法を垂下部15の上下方向の寸法よりも長く形成した場合について説明したが、逆に、垂下部15の上下方向の寸法を傾斜部14の傾斜方向の寸法よりも長く形成してもよい。この場合は、壁面側の通気路40を長く形成することができ、壁面側の防水性を向上させることができる。また、化粧破風板51の代わりに垂下部15で、例えば、ベース部20及び固定片21を下方に延設して破風下地49の屋外面を覆うことができ、化粧破風板51を不要にすることができる。   In the above description, the case in which the dimension of the inclined part 14 in the inclination direction is longer than the dimension in the vertical direction of the hanging part 15 is described. Conversely, the dimension in the vertical direction of the hanging part 15 is the inclination direction of the inclined part 14. You may form longer than these dimensions. In this case, the wall surface side air passage 40 can be formed long, and the waterproof property on the wall surface side can be improved. Further, instead of the decorative windbreak plate 51, for example, the base portion 20 and the fixing piece 21 can be extended downward to cover the outdoor surface of the windbreak base 49, so that the decorative windbreak plate 51 is not required. be able to.

A 換気装置
14 傾斜部
15 垂下部
24 邪魔板
38 通気路
40 通気路
46 屋根材
47 連通孔
A Ventilator 14 Inclined part 15 Hanging part 24 Baffle plate 38 Ventilation path 40 Ventilation path 46 Roofing material 47 Communication hole

Claims (5)

片流れ屋根の棟頂部に対応した断面山型を成し、棟頂部に形成された連通孔を覆うよう設けられ、屋内と屋外とを通気可能とする換気装置において、屋根面側に配される傾斜部と壁面側に配される垂下部により断面山型を成し、傾斜部と垂下部の両方に屋内と屋外とを通気可能とする通気路を備えると共に、断面山型の頂角を二等分する仮想線に対して非対称に形成して成ることを特徴とする換気装置。   Inclined to be arranged on the roof surface side in a ventilation device that forms a cross-sectional mountain shape corresponding to the ridge top of the single-flow roof, covers the communication hole formed in the ridge top, and allows ventilation between indoors and outdoors The section and the hanging part on the wall side form a mountain-shaped cross section, and both the slope and hanging part are equipped with air passages that allow indoor and outdoor ventilation, and the apex angle of the cross-sectional mountain shape is second-class A ventilator characterized by being formed asymmetrically with respect to a virtual line to be divided. 傾斜部の軒棟方向の長さを垂下部の上下方向の長さよりも長く形成して成ることを特徴とする請求項1に記載の換気装置。   The ventilation device according to claim 1, wherein the length of the inclined portion in the eaves ridge direction is formed longer than the length in the vertical direction of the hanging portion. 垂下部の通気路の防水性能を傾斜部の通気路の防水性能よりも高水準として成ることを特徴とする請求項1又は2に記載の換気装置。   The ventilating apparatus according to claim 1 or 2, wherein the waterproof performance of the hanging passage is higher than the waterproof performance of the inclined passage. 傾斜部の通気路および垂下部の通気路に突出するよう邪魔板を設けると共に、垂下部の通気路に設ける邪魔板の数を傾斜部の通気路に設ける邪魔板の数より多くして成ることを特徴とする請求項1乃至3のいずれか一項に記載の換気装置。   Baffle plates are provided so as to protrude into the ventilation passages of the inclined portion and the ventilation passage of the hanging portion, and the number of baffle plates provided in the ventilation passage of the hanging portion is made larger than the number of baffle plates provided in the ventilation passage of the inclined portion. The ventilator according to any one of claims 1 to 3. 傾斜部と垂下部とを備えて片流れ屋根の棟頂部に対応した断面山型を成した換気装置を形成し、傾斜部と垂下部の両方に屋内と屋外とを通気可能とする通気路を備えると共に、断面山型の頂角を二等分する仮想線に対して非対称に形成し、棟頂部に形成された連通孔を覆うように片流れ屋根の棟頂部に換気装置を設けると共に傾斜部を屋根面側に、垂下部を壁面側にそれぞれ配し、上記通気口と連通孔とを通じて屋内と屋外とを通気可能として成ることを特徴とする片流れ屋根の換気構造。
A ventilating device having a sloped section and a hanging part and having a mountain-shaped cross section corresponding to the top of a single-flow roof is formed, and both the inclined part and the hanging part have an air passage that allows ventilation indoors and outdoors. Along with the imaginary line that divides the apex angle of the cross-sectional mountain shape into two equal parts, a ventilation device is provided at the top of the single-flow roof so as to cover the communication hole formed at the top of the ridge, and the inclined part is roofed A ventilating structure for a single-flow roof, wherein hanging portions are arranged on the surface side, respectively, on the wall surface side, and the indoor and the outdoor can be ventilated through the vent hole and the communication hole.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012241442A (en) * 2011-05-20 2012-12-10 Shinsei:Kk Roof
JP2014163185A (en) * 2013-02-27 2014-09-08 Nippon Jukankyo Kk Ventilator for single flow ridge
JP2015034391A (en) * 2013-08-08 2015-02-19 三菱樹脂インフラテック株式会社 Ventilation component for shed roof
JP2016006281A (en) * 2014-05-27 2016-01-14 株式会社トーコー Sheet metal accessory for roof
JP2016079755A (en) * 2014-10-21 2016-05-16 ケイミュー株式会社 Roof ventilation structure and ventilation member
JP2017166147A (en) * 2016-03-14 2017-09-21 株式会社ヨネキン Sheet metal accessory at ridge part of shed roof, and ridge part structure of shed roof
CN113776147A (en) * 2021-09-18 2021-12-10 冯雪 Unpowered roof natural ventilator

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JPH0490618U (en) * 1990-12-25 1992-08-07
JP2001303732A (en) * 2000-04-19 2001-10-31 Matsushita Electric Works Ltd Ventilating structure of shed roof

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0490618U (en) * 1990-12-25 1992-08-07
JP2001303732A (en) * 2000-04-19 2001-10-31 Matsushita Electric Works Ltd Ventilating structure of shed roof

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2012241442A (en) * 2011-05-20 2012-12-10 Shinsei:Kk Roof
JP2014163185A (en) * 2013-02-27 2014-09-08 Nippon Jukankyo Kk Ventilator for single flow ridge
JP2015034391A (en) * 2013-08-08 2015-02-19 三菱樹脂インフラテック株式会社 Ventilation component for shed roof
JP2016006281A (en) * 2014-05-27 2016-01-14 株式会社トーコー Sheet metal accessory for roof
JP2016079755A (en) * 2014-10-21 2016-05-16 ケイミュー株式会社 Roof ventilation structure and ventilation member
JP2017166147A (en) * 2016-03-14 2017-09-21 株式会社ヨネキン Sheet metal accessory at ridge part of shed roof, and ridge part structure of shed roof
CN113776147A (en) * 2021-09-18 2021-12-10 冯雪 Unpowered roof natural ventilator

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