JP2000265631A - Ventilation ridge - Google Patents
Ventilation ridgeInfo
- Publication number
- JP2000265631A JP2000265631A JP11073521A JP7352199A JP2000265631A JP 2000265631 A JP2000265631 A JP 2000265631A JP 11073521 A JP11073521 A JP 11073521A JP 7352199 A JP7352199 A JP 7352199A JP 2000265631 A JP2000265631 A JP 2000265631A
- Authority
- JP
- Japan
- Prior art keywords
- ventilation
- ridge
- louver
- roof
- wind
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Roof Covering Using Slabs Or Stiff Sheets (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は屋根の棟部に設置して屋
根裏や小屋裏などの空気を外部に逃がす換気棟に関する
ものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilation building which is installed in a roof ridge to release air from the attic or attic to the outside.
【0002】[0002]
【従来の技術】従来より建物の屋根裏や小屋裏の換気
は、切妻屋根などでは妻側端面のかべに通気孔などを形
成して行うものがあったが、近年の洋風住宅に多く見ら
れる寄棟形式の屋根では妻部分が無く、このような屋根
形状では棟頂部に換気構造が必要となる。この換気棟を
通じて小屋裏や屋根裏の換気を行うものであるが、棟か
ら排気される空気の補充は通常主として軒先などから取
り入れられる。2. Description of the Related Art Conventionally, ventilation of the attic or attic of a building has been performed by forming ventilation holes in a wall on the end face of the wife on a gabled roof. A ridge-type roof has no wives, and such a roof shape requires a ventilation structure at the top of the ridge. Ventilation of the attic and attic is performed through this ventilation building, but air that is exhausted from the building is usually supplied mainly from the eaves.
【0003】換気を行うためには小屋裏と外部を結ぶ換
気口を設ける必要があり、この換気口は空気を流通させ
るために、その大きさは例えばある基準では設置した部
屋の天井面積の1/1600以上の開口部分が必要とな
り、この面積以上の空気が流通する開口部分をもつ換気
棟が理想である。In order to perform ventilation, it is necessary to provide a ventilation port connecting the back of the hut and the outside. This ventilation port has a size, for example, which is one of the ceiling area of the installed room according to a certain standard in order to allow air to flow. An opening of at least / 1600 is required, and a ventilation building having an opening through which air flows over this area is ideal.
【0004】このように施工される換気棟は従来より種
々の構造が知られ、箱形と呼ばれる高さの高い形のもの
が(特開平7−180314号)通常よく知られている
が、このような換気棟の条件としてはつぎのようなもの
が挙げられる。[0004] Ventilation buildings constructed in this manner have conventionally been known in various structures, and those having a high height called a box shape (JP-A-7-180314) are generally well known. Conditions for such a ventilation building include the following.
【0005】すなわち、小屋裏の内部の空気を容易に排
出できる開口部分を有し、反対に強風雨のときにも換気
口から内部に雨が吹き込まない等である。これは内部の
小屋裏から上昇してくるゆるやかな空気の流れは遮断す
る事なく、外部の正面から吹き付ける強風雨などの強い
空気の流れに対しては遮断しなければならない。[0005] That is, there is an opening for easily discharging the air inside the cabin, and conversely, rain does not blow into the inside from the ventilation port even in the case of strong wind and rain. This means that the gentle flow of air rising from the inside of the cabin must not be shut off, but must be shut off against strong airflow such as strong wind and rain blowing from the outside front.
【0006】この他にも屋根の頂部の目につき易い場所
に施工するため、意匠的にも優れたものが要望され、高
さも比較的低くして施工したときにも建物全体の意匠を
損なわないように考慮したものとして特開平7−279
325号が知られている。[0006] In addition to this, it is demanded that the design is excellent in terms of design in order to be installed at a place where the top of the roof is easily visible, and the design of the whole building is not spoiled even when the installation is performed at a relatively low height. Japanese Patent Application Laid-Open No. 7-279
No. 325 is known.
【0007】しかし台風などの際は毎秒30m以上の風
が吹くことがあり、換気棟自体が風圧を避けるためには
高さを低くしなければならず、またこれらの強風と共に
吹き込んでくる雨水も換気棟の奥まで入らない構造が求
められる。However, in the case of a typhoon or the like, a wind of 30 m or more per second may be blown, and the height of the ventilation building itself must be reduced to avoid wind pressure. A structure that does not enter the interior of the ventilation building is required.
【0008】[0008]
【発明が解決しようとする課題】このような従来よりの
換気棟の課題として、換気能力を高めることは換気口を
大きくすることであるが、これはまた外部から風雨によ
る吹き込みの恐れも大きく、雨水の侵入も多くなり、こ
れらを確実に防がなくてはならない。雨水が換気棟から
小屋裏などに侵入すると天井などが濡れてしまうことは
もちろん、長期間にわたると換気棟本体や建物の腐食の
原因にもなった。As a problem of such a conventional ventilation building, increasing the ventilation capacity is to increase the size of the ventilation opening, but this also increases the possibility of blowing from the outside due to wind and rain. Rainwater infiltration will increase and these must be reliably prevented. If rainwater enters the back of the hut from the ventilation ridge, the ceiling and the like will become wet, and over a long period of time, it will cause corrosion of the ventilation ridge itself and the building.
【0009】施工後の外観から考慮すると、棟の高さが
あまり高いと換気棟が目だちすぎて建物全体の意匠を損
なうことにもなり、高さは低くして換気能力が十分であ
り、また強風雨に対しても雨水が侵入しない構造が要望
されている。このため棟カバーである上面に換気口を形
成した構造などもあるが、これらは換気能力である開口
部分が少なかったり、また雨水が一度内部に入ってから
排出されるため内部に湿気が溜りやすく腐食の原因とも
なっていた。Considering the appearance after the construction, if the height of the building is too high, the ventilation building will be too noticeable and impair the design of the whole building, and the height is low and the ventilation capacity is sufficient. Also, there is a demand for a structure that does not allow rainwater to penetrate against strong wind and rain. For this reason, there are structures with ventilation holes formed on the upper surface, which is the ridge cover, but these have only a small opening for ventilation, and because rainwater once enters the inside and is discharged, moisture easily collects inside. It also caused corrosion.
【0010】[0010]
【課題を解決するための手段】上記したような条件を満
たすため本発明に係る換気棟は、不要な雨水の侵入を避
けるため途中に空気の流路を複雑にすると共に、外から
吹き付ける風雨を遮断し、風と一緒に吹き込んでくる雨
水を内部にまで侵入させないようにしたものである。In order to satisfy the above-mentioned conditions, the ventilation building according to the present invention complicates the air flow path on the way to avoid unnecessary rainwater intrusion, and prevents wind and rain blowing from the outside. It shuts out and prevents rainwater that blows in with the wind from entering the interior.
【0011】このため上部を被閉する棟カバーの下部の
屋根面に当接する本体部分を有し、該本体部分の下部両
側にやや離れた位置に風防板を設置してなる構造とした
ものであり、この風防板がやや傾斜をつけて風の流れを
変えるものとなっている。またため外側のルーバー部分
には扉状に開いた羽根を多数配置して、空気の流路の方
向を変えて複雑にすると共に流路を長くすることによ
り、強風などによる雨水の侵入を防止するものとした。For this reason, a structure is provided in which a main body portion is in contact with the lower roof surface of the lower part of the ridge cover whose upper part is to be closed, and a windshield is installed at a position slightly apart on both lower sides of the main body portion. Yes, this windshield changes the flow of the wind with a slight slope. In addition, a large number of door-shaped open blades are arranged on the outer louver part to change the direction of the air flow path, complicate it, and lengthen the flow path to prevent rainwater from entering due to strong winds etc. It was taken.
【0012】[0012]
【作用】このように本発明に係る換気棟は内部の空気は
排出し易く、また外部から吹き込む雨水などは完全に遮
断できるものである。その構造として傾斜した風防板が
設置されているが、この風防板によって屋根面の正面や
吹き上がって来る風の方向を上方に変え、その方向が変
わった風雨は換気棟の上方を吹き抜けるようにして通過
して行くものである。As described above, in the ventilation building according to the present invention, the air inside can be easily discharged, and rainwater blown from the outside can be completely shut off. An inclined windshield is installed as a structure, but this windshield changes the front of the roof surface and the direction of the wind coming up, so that the wind and rain that changed direction can blow above the ventilation building. Is going through.
【0013】またこの風防板のような風の方向を上方に
逃がすように変え、内部への雨滴の侵入防止構造を持っ
ているのに加えて、複雑で長いな流路となるルーバー部
分を通過するため、風も弱くなりまた雨水も途中で落下
してしまい内部にまで吹き込むことは無いものである。In addition to having a structure to prevent the intrusion of raindrops into the inside by changing the direction of the wind like the windshield to escape upward, in addition to passing through the louver portion which is a complicated and long flow path, As a result, the wind is weakened, and the rainwater falls on the way and does not blow into the interior.
【0014】[0014]
【実施例】以下、本発明を添付図面に示した一実施例に
より詳説する。図1は本発明に係る換気棟Aを屋根Bの
頂部に施工しキャップJを取り付けたときの斜視図を示
し、図2は同じく換気棟Aの分解斜視図である。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to an embodiment shown in the accompanying drawings. FIG. 1 is a perspective view when a ventilation ridge A according to the present invention is installed on the top of a roof B and a cap J is attached thereto, and FIG.
【0015】換気棟Aは上部に覆せる棟カバー1、本体
2およびルーバー3から構成され(図2)、棟カバー1
は棟頂部13にて施工する屋根の勾配に合わせて折曲可
能であり、両側端部は下方の折曲して垂下片11および
その先端を裏面に折り返した折り返し片12が形成され
ている。このとき本体2とルーバー3はあらかじめ固定
しておいても施工などには影響はない。The ventilation building A is composed of a building cover 1, which can be overlaid on the top, a main body 2 and a louver 3 (FIG. 2).
Can be bent in accordance with the slope of the roof constructed at the ridge top 13, and both end portions are bent downward to form a hanging piece 11 and a folded piece 12 having its tip folded back. At this time, even if the main body 2 and the louver 3 are fixed in advance, there is no effect on construction and the like.
【0016】長手方向の長さは本実施例では1m程度と
したが、この長さは特に技術上の制約は特になく例えば
2mないし3mでも可能で、換気する小屋裏の面積など
を勘案してその長さを決めればよく、たとえば1mより
短いものを多数接続させて施工することも可能である。
この棟カバー1の軒先側の端部には固定用のネジ孔14
が適宜な間隔で窄設され、図示例のものでは片側に4箇
所設けた。ネジ孔14はルーバー3のネジ孔39を相互
にネジGにて固定するものであり、従ってそれぞれの孔
位置は相互に対応したものとなっている。Although the length in the longitudinal direction is about 1 m in the present embodiment, this length is not particularly limited in technical terms and can be 2 m to 3 m, for example, and the area of the back of the shed to be ventilated is taken into consideration. The length may be determined. For example, it is also possible to connect a large number of things shorter than 1 m and to construct.
A screw hole 14 for fixing is provided at the end of the ridge cover 1 on the eaves end side.
Are provided at appropriate intervals, and in the example shown in the figure, four portions are provided on one side. The screw holes 14 fix the screw holes 39 of the louver 3 to each other with the screws G, and accordingly, the positions of the respective holes correspond to each other.
【0017】この内部のルーバー3の扉状部分を通し
て、奥の小屋裏との間には通気部Kが形成され、小屋裏
から上昇してくる空気の通路tとなっている。(図7) すなわちこの空気の流路tを形成して維持して置くこと
が換気棟の性能を維持することとなる。A ventilation portion K is formed between the inside of the louver 3 and the back of the hut through the door-like portion of the louver 3, thereby forming an air passage t rising from the back of the hut. (FIG. 7) That is, forming and maintaining the air flow path t will maintain the performance of the ventilation building.
【0018】ルーバー3(図3)は本体2に裁置する裁
置板36の両側端を立ち上げて支持板34及び分割板3
7が設けられ、この支持板34の両端縁からはそれぞれ
扉状に折曲した羽根33が内方に向かって形成されてい
る。この羽根33は略両開き状態として相対向して2列
に形成され、相対向した羽根33は換気口35どうしを
横方向にずらして配置し、空気の流通経路を長くして直
線的に連通させず(図4)、強風と共に入ってくる雨滴
などを途中で落下させて侵入を防ぐ構造となっている。The louver 3 (FIG. 3) raises both side ends of the placing plate 36 to be placed on the main body 2 to raise the supporting plate 34 and the dividing plate 3.
7 are provided, and from both end edges of the support plate 34, blades 33 bent in a door shape are formed inward. The blades 33 are formed in two rows facing each other in a substantially double-opened state, and the opposed blades 33 are arranged such that the ventilation holes 35 are shifted from each other in the horizontal direction, and the air circulation path is lengthened to communicate linearly. (Fig. 4), the structure is such that raindrops coming in along with strong winds are dropped on the way to prevent intrusion.
【0019】ルーバー3の詳細な構造は、支持板34と
分割板37の上端は長手方向に連続して棟頂部方向に折
曲されて支承板32が形成され、棟カバー1の下面側に
当接して支承するものであり、上下方向の強度を維持す
ることもでき、施工時などに踏んだりしても変形しない
ものである。The detailed structure of the louver 3 is as follows. The support plate 34 and the upper end of the split plate 37 are continuously bent in the longitudinal direction toward the top of the ridge to form the support plate 32, and the support plate 32 is formed on the lower surface of the ridge cover 1. It is supported in contact with it, can maintain strength in the vertical direction, and does not deform when stepped on during construction.
【0020】またルーバー3の水下側は押圧板31が折
曲されている。このルーバー3は棟頂部の左右で対称構
造のものを突き合わせて施工するが、この支承板32の
突合せ部分に例えば発泡ゴムのような断熱材Dが下面側
より貼着して接続され、この断熱材Dによって湿気によ
る結露を防止するものである。この結露は小屋裏の暖か
く湿った空気が上方に上がってきて、冷たい棟板部分で
発生するものであるが、この空気と支承板32の直接当
たる部分の温度差を断熱材Dによって少なくして結露を
防ぐものである。A pressing plate 31 is bent below the louver 3 under water. The louver 3 is constructed by abutting a symmetrical structure on the left and right of the top of the building, and a heat insulating material D such as foamed rubber is attached to the abutting portion of the support plate 32 from the lower surface side and connected. The material D prevents condensation due to moisture. This condensation is caused by the warm and moist air of the back of the hut rising upward and in the cold ridge plate portion. However, the temperature difference between the air and the portion directly contacting the support plate 32 is reduced by the heat insulating material D. This is to prevent condensation.
【0021】またルーバー3の下面に配置される本体2
は、底板24の下面側にも帯状の弾性材Cが全長にわた
って貼着されており、この弾性材Cは屋根面から強風と
共に吹き上がって来る雨水が隙間に侵入するのを防ぐも
のである。そしてこの本体2を施工する際には、ルーバ
ー3の裁置板36に設けられた釘孔38(図2)にて野
地板Fと固定され、ルーバー3と本体2はバーリング孔
23にてカシメなどによる固定が可能である。A main body 2 arranged on the lower surface of the louver 3
The belt-like elastic member C is also adhered to the bottom surface of the bottom plate 24 over the entire length thereof, and this elastic member C prevents rainwater that blows up from the roof surface with strong wind from entering the gap. When the main body 2 is constructed, the louver 3 and the main body 2 are fixed to each other by the nailing holes 38 (FIG. 2) provided in the setting plate 36 of the louver 3, and the louver 3 and the main body 2 are caulked by the burring holes 23. It is possible to fix by such as.
【0022】本体2は図2の斜視図を示す如く、屋根面
に当接し中央にバーリング孔23を底板24に設けら
れ、その水上側の端縁を上方に立ち上げて傾斜板22が
折曲され、さらにその先端を外方に折曲して水返し板2
1が設けられている。また本体2の水下側の端縁は、傾
斜板25、風防板26、折曲片27がそれぞれ折曲さ
れ、略三角形をなしている。この風防板26は屋根面に
たいして30度ないし60度の傾斜をもって設置されて
いるが、屋根面を沿うようにして吹き上がって来る強風
雨の流れを上方に向きを変えて換気棟の上を通過させる
ものである。As shown in the perspective view of FIG. 2, the main body 2 is provided with a burring hole 23 in the center of the bottom plate 24 in contact with the roof surface, and the upper edge of the water is raised upward to bend the inclined plate 22. The tip is bent outward and the water return plate 2
1 is provided. In addition, an inclined edge 25, a windshield 26, and a bent piece 27 are bent at the edge of the main body 2 on the underwater side to form a substantially triangular shape. The windshield 26 is installed at an angle of 30 to 60 degrees with respect to the roof surface, but turns the flow of the strong wind that comes up along the roof surface upward and passes over the ventilation building. It is to let.
【0023】また傾斜板25の下部には施工したときに
上部から流下する雨水が滞溜しないように、水抜き孔2
8が複数個設けられ、この傾斜板25の高さは棟カバー
1の垂下片11より高くなっており、その高さには幅W
の差が生じるように形成してある。(図6) 従って風防板26の傾斜角度は屋根面から吹き付ける風
雨を換気棟の棟カバー1の上面に逃がすようにするため
である。また折曲片27は雨水の侵入を防ぐためと、風
防板26の補強のためであり、またその下面はやや隙間
を設けて水抜き孔28から流下する雨水を屋根面に排水
できるようになっている。The drain hole 2 is provided at the lower part of the inclined plate 25 so that rain water flowing down from the upper part does not accumulate when constructed.
8 are provided, and the height of the inclined plate 25 is higher than the hanging piece 11 of the ridge cover 1, and the height is the width W.
Are formed so as to cause a difference. (FIG. 6) Accordingly, the inclination angle of the windshield 26 is to allow the wind and rain sprayed from the roof surface to escape to the upper surface of the ridge cover 1 of the ventilation ridge. The bent piece 27 is for preventing rainwater from entering and for reinforcing the windshield plate 26. The lower surface of the bent piece 27 is provided with a slight gap so that rainwater flowing down from the drain hole 28 can be drained to the roof surface. ing.
【0024】上記の如く構成される各部を屋根の頂部に
施工するが、この頂部には予め空気が流通するような小
屋裏や屋根裏と連続した通気部Kが形成されているが、
これは屋根の棟頂部の野地板などを切り欠いて形成して
おく。Each part constructed as described above is installed on the top of the roof. At the top of the roof, a ventilation section K is formed which is connected to the back of the hut or the attic through which air flows in advance.
This is formed by cutting out the roof plate at the top of the roof.
【0025】この頂部に本発明に係る換気棟を施工する
が、本体2とルーバー3を棟の頂部を跨ぐようにして配
置し、前記釘孔38にて屋根の野地板FやタルキIに固
定釘Hにて固定するものである。(図7) この固定釘Hは屋根材Bを貫通して固定されているが、
弾性材Cによって雨水の吹き込みによる水漏れの恐れは
ない。また棟カバー1は側部からネジGなどにより固定
すればよい。A ventilation building according to the present invention is constructed on this top. The main body 2 and the louver 3 are arranged so as to straddle the top of the building, and are fixed to the roof base plate F or tarki I with the nail holes 38. It is fixed with nails H. (FIG. 7) The fixing nail H is fixed through the roof material B,
With the elastic material C, there is no possibility of water leakage due to rainwater blowing. The ridge cover 1 may be fixed from the side with screws G or the like.
【0026】図7において小屋裏の内部から上昇して来
る空気の流れtと、反対側の換気口から通過して来る空
気の流れSは、通気部Kを通過して外部に容易に排出さ
れるものである。また図8において屋根面方向から吹き
付ける風雨による風Sは風防板26にて方向を上方に変
えられ、そのまま換気棟Aの上方に流れて風雨共に換気
棟の内部には侵入しないものである。In FIG. 7, the air flow t rising from the inside of the cabin and the air flow S passing from the ventilation port on the opposite side are easily discharged to the outside through the ventilation part K. Things. In FIG. 8, the wind S due to the wind and rain blown from the roof surface direction is changed upward by the windshield 26, flows as it is above the ventilation building A, and neither wind nor rain enters the inside of the ventilation building.
【0027】[0027]
【発明の効果】上記したように本発明に係る換気棟は、
風の方向を変える高さの高い風防板に加え、扉状のルー
バーなどによる構造であるため強風雨などが吹き付けて
もその方向を変えて従来にない種々の効果を有するもの
である。As described above, the ventilation building according to the present invention has the following features.
In addition to a tall windshield that changes the direction of the wind, it has a door-like louver structure, so that even if strong wind or rain blows, the direction can be changed to provide various unprecedented effects.
【0028】1.屋根面から吹き付ける風雨に対して、
その風の流れ方向を変化させる風防板が設置され、この
高さが棟カバーの垂下片より高く形成してあるため、風
雨は換気棟上部を通過し、内部に雨水が侵入することも
なく腐蝕する恐れもないものである。 2.風防板はその折曲角度や長さを容易に変えられるた
め、どのような傾斜の屋根にも適用してその効果が得ら
れ、またコスト的にもきわめて有利にしてその効果も大
なるものである。 3.また相互に互い違いとなる扉状のルーバーが設けて
あるため、外部から吹き込む風雨に対して複雑な流路を
有するようになり、雨滴などに対して十分な遮断効果が
得られ、雨滴などが吹き込んで内部を濡らすようなこと
もない。 4.本発明による構造は、棟カバーを含めて全体の高さ
を低くできるため屋根の棟に設置したときにも外観を損
なうことがない。 5.本発明の換気棟はその構造も簡易なため製造コスト
的にも有利であり、大量生産により安価に提供できるも
のである。1. Against wind and rain blowing from the roof,
A windshield that changes the direction of the wind is installed, and the height is higher than the hanging piece of the ridge cover. There is no fear of doing it. 2. Since the windshield can be easily changed in bending angle and length, the effect can be obtained by applying it to any sloped roof, and it is extremely advantageous in terms of cost and the effect is large. is there. 3. In addition, since the door-shaped louvers that are alternately provided are provided, a complicated flow path is provided for wind and rain blown from the outside, a sufficient blocking effect against raindrops and the like is obtained, and raindrops are blown. It does not wet the inside. 4. The structure according to the present invention can reduce the overall height including the ridge cover, so that the appearance is not impaired even when installed in a roof ridge. 5. The ventilation building of the present invention is advantageous in terms of manufacturing cost because of its simple structure, and can be provided at low cost by mass production.
【図1】は本発明に係る実施例である換気棟を屋根に施
工したときの斜視図、FIG. 1 is a perspective view when a ventilation building according to an embodiment of the present invention is constructed on a roof,
【図2】は同上の換気棟の分解斜視図、FIG. 2 is an exploded perspective view of the same ventilation building.
【図3】は同上の換気棟のルーバーの斜視図、FIG. 3 is a perspective view of a louver of the ventilation building according to the first embodiment;
【図4】は同上の換気棟のルーバーの平面図、FIG. 4 is a plan view of a louver of the ventilation building according to the first embodiment,
【図5】は同上の換気棟の端部の斜視図、FIG. 5 is a perspective view of the end of the ventilation building,
【図6】は同上の換気棟を屋根に施工したときの側面断
面図、FIG. 6 is a side cross-sectional view when the same ventilation building is installed on a roof,
【図7】は同上の換気棟を屋根に施工したときの側面断
面図、FIG. 7 is a side cross-sectional view when the same ventilation building is constructed on a roof,
【図8】は同上の換気棟に外部からの風の流れを示した
側面断面図。 A・・・換気棟 B・・・屋根材 C・・・弾性材 D・・・断熱材 E・・・シート F・・・野地板 G・・・ネジ H・・・固定ネジ I・・・タルキ J・・・キャップ K・・・通気部 1・・・棟カバー 11・・垂下片 12・・折返し片 13・・棟頂部 14・・ネジ孔 2・・・本体 21・・水返し板 22・・傾斜板 23・・バーリング孔 24・・底板 25・・傾斜板 26・・風防板 27・・折曲片 28・・水抜き孔 3・・・ルーバー 31・・押圧板 32・・支承板 33・・羽根 34・・支持板 35・・換気口 36・・裁置板 37・・分割板 38・・ネジ孔 39・・ネジ孔FIG. 8 is a side sectional view showing the flow of wind from the outside in the ventilation building. A: Ventilation building B: Roofing material C: Elastic material D: Heat insulating material E: Sheet F: Field board G: Screw H: Fixing screw I: Tarky J ・ ・ ・ Cap K ・ ・ ・ Ventilation section 1 ・ ・ ・ Building cover 11 ・ ・ Dropping piece 12 ・ ・ Folding piece 13 ・ ・ Bridge top 14 ・ ・ Screw hole 2 ・ ・ ・ Main body 21 ・ ・ Water return plate 22 ..Slope plate 23..Burring hole 24..Bottom plate 25..Slope plate 26..Windshield 27..Bent piece 28..Drain hole 3 ... Louver 31..Press plate 32..Support plate 33 ・ ・ Blade 34 ・ ・ Support plate 35 ・ ・ Ventilation port 36 ・ ・ Placement plate 37 ・ ・ Divided plate 38 ・ ・ Screw hole 39 ・ ・ Screw hole
Claims (1)
外部に換気をする棟構造において、上部を被閉する棟カ
バーの下部の屋根面に当接する本体部分を有し、該本体
部分の水下側の下部両側に棟頂部方向に向かって傾斜し
た風防板を全長にわたって設置してなる換気棟。1. A ridge structure constructed on a ridge portion of a roof top and ventilating air behind a hut to the outside, comprising a main body portion abutting on a lower roof surface of a ridge cover closing an upper portion. Ventilation building with windshields inclined toward the top of the building on both sides below the main body under the water.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP07352199A JP4151044B2 (en) | 1999-03-18 | 1999-03-18 | Ventilation building |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP07352199A JP4151044B2 (en) | 1999-03-18 | 1999-03-18 | Ventilation building |
Publications (2)
Publication Number | Publication Date |
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JP2000265631A true JP2000265631A (en) | 2000-09-26 |
JP4151044B2 JP4151044B2 (en) | 2008-09-17 |
Family
ID=13520639
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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JP07352199A Expired - Lifetime JP4151044B2 (en) | 1999-03-18 | 1999-03-18 | Ventilation building |
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JP (1) | JP4151044B2 (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002121872A (en) * | 2000-10-13 | 2002-04-26 | Ig Tech Res Inc | Ridge ventilating apparatus |
JP2002129717A (en) * | 2000-10-20 | 2002-05-09 | Ig Tech Res Inc | Ridge ventilation equipment |
JP2002129718A (en) * | 2000-10-26 | 2002-05-09 | Ig Tech Res Inc | Ridge ventilation equipment |
JP2003056145A (en) * | 2001-08-20 | 2003-02-26 | Jbeck Co Ltd | Air deflector |
JP2006009293A (en) * | 2004-06-23 | 2006-01-12 | Hauze Sanei:Kk | Ventilation ridge |
JP2021014717A (en) * | 2019-07-12 | 2021-02-12 | 株式会社トーコー | Ventilation member unit and method for constructing ridge ventilator |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP5551293B1 (en) | 2013-05-22 | 2014-07-16 | 株式会社ハウゼコ | Ventilation structure |
-
1999
- 1999-03-18 JP JP07352199A patent/JP4151044B2/en not_active Expired - Lifetime
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2002121872A (en) * | 2000-10-13 | 2002-04-26 | Ig Tech Res Inc | Ridge ventilating apparatus |
JP2002129717A (en) * | 2000-10-20 | 2002-05-09 | Ig Tech Res Inc | Ridge ventilation equipment |
JP4526678B2 (en) * | 2000-10-20 | 2010-08-18 | アイジー工業株式会社 | Building ventilation system |
JP2002129718A (en) * | 2000-10-26 | 2002-05-09 | Ig Tech Res Inc | Ridge ventilation equipment |
JP2003056145A (en) * | 2001-08-20 | 2003-02-26 | Jbeck Co Ltd | Air deflector |
JP2006009293A (en) * | 2004-06-23 | 2006-01-12 | Hauze Sanei:Kk | Ventilation ridge |
JP4571449B2 (en) * | 2004-06-23 | 2010-10-27 | 株式会社ハウゼサンエイ | Ventilation building |
JP2021014717A (en) * | 2019-07-12 | 2021-02-12 | 株式会社トーコー | Ventilation member unit and method for constructing ridge ventilator |
JP7356132B2 (en) | 2019-07-12 | 2023-10-04 | 株式会社トーコー | Construction method of ventilation component unit and ridge ventilation system |
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JP4151044B2 (en) | 2008-09-17 |
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