JPH0821158A - Bay-window - Google Patents

Bay-window

Info

Publication number
JPH0821158A
JPH0821158A JP15742794A JP15742794A JPH0821158A JP H0821158 A JPH0821158 A JP H0821158A JP 15742794 A JP15742794 A JP 15742794A JP 15742794 A JP15742794 A JP 15742794A JP H0821158 A JPH0821158 A JP H0821158A
Authority
JP
Japan
Prior art keywords
bay window
main body
water collecting
collecting groove
pedestal
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
Application number
JP15742794A
Other languages
Japanese (ja)
Other versions
JP2850760B2 (en
Inventor
Kazuyoshi Yakita
和伊 焼田
Hiroyuki Takebayashi
裕之 竹林
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sankyo Aluminium Industry Co Ltd
Original Assignee
Sankyo Aluminium Industry Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Sankyo Aluminium Industry Co Ltd filed Critical Sankyo Aluminium Industry Co Ltd
Priority to JP15742794A priority Critical patent/JP2850760B2/en
Publication of JPH0821158A publication Critical patent/JPH0821158A/en
Application granted granted Critical
Publication of JP2850760B2 publication Critical patent/JP2850760B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Bay Windows, Entrances, And Structural Adjustments Related Thereto (AREA)

Abstract

PURPOSE:To maintain the appearance and durability of a bay-window, and to treat rainwater excellently. CONSTITUTION:An upward opened catchment groove 24 is formed to a horizontal peripheral surface 19 along the overhang-section periphery of the top face of a plinth 4 regarding a bay-window consisting of a roof section, a main body section and the plinth 4. A drainage canal is communicated with the drain hole 25 of the catchment groove 24, and opened to the outside of the bay- window. The underside of the main body section is arranged while forming a clearance 21 for receiving water with the horizontal peripheral surface 19 of the top face of the plinth 4.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】この発明は出窓に関する。This invention relates to bay windows.

【0002】[0002]

【従来の技術】出窓1(図19)は屋根部2と本体部3
および台輪4で構成され、建物5の壁面から張り出して
取り付けられる。概略で次のような構造を備える。
2. Description of the Related Art A bay window 1 (FIG. 19) has a roof portion 2 and a main body portion 3.
And the pedestal 4 and is attached so as to project from the wall surface of the building 5. The structure is roughly as follows.

【0003】本体部3は通常サッシ構造で正面部6と左
右の袖部7を有し、正面部6と袖部7は方立8で結合さ
れ、本体部3自体は左右の袖部7における建物5側の竪
枠9によって建物5に取り付けられる。正面部6は、左
右の方立8,8と正面部上枠10と正面部下枠11で構
成された枠体にガラス板12(図20)が装着されて形
成されており、袖部7は方立8と竪枠9および袖部上枠
13と袖部下枠14で構成された枠体にガラス板15が
装着されて形成されている。本体部3のサッシ構造にお
いて方立8や竪枠9など縦方向枠は、縦通しに組み付け
られることが多く、また、これらを形成する枠材はアル
ミ合金の押出し成形材で中空なので、縦方向枠は上端
面、下端面で内部空間が開放される。開放されているこ
とが不都合な場合は、上端面、下端面に合成樹脂製のキ
ャップ16が装着される。
The main body 3 usually has a sash structure and has a front portion 6 and left and right sleeve portions 7. The front portion 6 and the sleeve portions 7 are connected by a cuboid 8, and the main body portion 3 itself is located in the left and right sleeve portions 7. It is attached to the building 5 by the vertical frame 9 on the building 5 side. The front part 6 is formed by mounting a glass plate 12 (FIG. 20) on a frame body composed of left and right uprights 8, 8, a front part upper frame 10 and a front part lower frame 11, and the sleeve part 7 is A glass plate 15 is formed by mounting a glass plate 15 on a frame body composed of the upright 8, the vertical frame 9, the sleeve upper frame 13 and the sleeve lower frame 14. In the sash structure of the main body 3, vertical frames such as the vertical 8 and the vertical frame 9 are often assembled vertically, and the frame material that forms these is an extruded aluminum alloy material that is hollow. The inner space is opened at the upper end surface and the lower end surface of the frame. When it is inconvenient to open the caps, synthetic resin caps 16 are attached to the upper end surface and the lower end surface.

【0004】台輪4(図20)は板金加工部材で、回り
縁17とその下面を覆う底板18とからなり、底板18
は回り縁17の下縁から建物側へ下方に傾斜している。
The base wheel 4 (FIG. 20) is a sheet metal working member, and comprises a peripheral edge 17 and a bottom plate 18 covering the lower surface thereof.
Is inclined downward from the lower edge of the peripheral edge 17 toward the building.

【0005】屋根部2と本体部3および台輪4は、それ
ぞれを組み立てた後にこれらを一体に組み付けて出窓全
体を構成することが多く、本体部3に対する台輪4の納
まりを良くするためと補強のために台輪4は上面の建物
5の壁面から屋外側に張り出す部分の周縁、すなわち、
張り出し部周縁に沿って周縁面19を有し、この部分で
上方の本体部3の下面に取り付けられるようになってい
る。符号20は床板で本体部3の下部において張り出し
部周縁を正面部6、袖部7の下枠11,14に係合させ
て取り付けられる。
The roof portion 2, the main body portion 3 and the pedestal 4 are often assembled together and then integrally assembled to form an entire bay window, in order to make the pedestal 4 fit into the main body portion 3 better. For the purpose of reinforcement, the pedestal 4 is a peripheral edge of a portion protruding from the wall surface of the building 5 on the upper surface to the outside,
A peripheral surface 19 is provided along the peripheral edge of the projecting portion, and the peripheral surface 19 is attached to the lower surface of the upper main body 3 at this portion. Reference numeral 20 denotes a floor plate which is attached to the lower portion of the main body portion 3 by engaging the peripheral edge of the protruding portion with the lower frames 11 and 14 of the front portion 6 and the sleeve portion 7.

【0006】出窓1において、正面部6および袖部7の
ガラス板12,15(本体部3の外面)に打ち当る雨は
下方に流下するが、この雨水が台輪4の外面を伝って無
秩序に建物5の壁面に達するのは建物内部への漏水を防
止する上から好ましくないので、本体部3の下面(図2
0の場合、正面部6の下枠11の下面)と台輪4上面の
張り出し部周縁に沿った周縁面19との間に受水用間隙
21を設け、ガラス板12,15の面を流下した雨水が
この間隙21に集められるようになっている。そして、
周縁面19には適宜箇所に排水口が形成されていて、雨
水が台輪4の内部に導かれ、矢印のように底板18の上
面を伝って建物側下部の水切り板22に至り、この箇所
から出窓1の外部に排出されるようになっている。な
お、周縁面19は通常、水平であるが傾斜している場合
もある。
In the bay window 1, rain that hits the glass plates 12 and 15 of the front part 6 and the sleeve part 7 (outer surface of the main body part 3) flows down, but this rainwater travels along the outer surface of the pedestal 4 and is disordered. Since it is not preferable to reach the wall surface of the building 5 in order to prevent water leakage into the building, the lower surface of the main body 3 (see FIG.
In the case of 0, a water receiving gap 21 is provided between the lower surface of the lower frame 11 of the front portion 6 and the peripheral surface 19 along the peripheral edge of the projecting portion of the upper surface of the base 4 and the surface of the glass plates 12, 15 flows down. The rainwater collected is collected in the gap 21. And
Drainage openings are formed at appropriate locations on the peripheral surface 19, and rainwater is introduced into the inside of the pedestal 4 and travels along the upper surface of the bottom plate 18 as shown by the arrow to reach the draining plate 22 at the lower part of the building. Is discharged to the outside of the bay window 1. The peripheral surface 19 is usually horizontal but may be inclined.

【0007】しかし、出窓における雨水処理のこのよう
な方策は、出窓1のデサイン上、間隙21を大きく取る
ことが難しいので、間隙21における雨水の流動性が悪
く、雨水は間隙21に沿ってうまく流れない。このた
め、間隙21から容易に溢れ出し、回り縁17や底板1
8の表面に多数の流路跡を付けてしまう。また、台輪4
の内部に導かれた雨水は台輪4の内部を濡らすが、台輪
4の内部を濡らすことは腐食の問題を発生しやすく、出
窓1の耐久性を劣化する恐れがある。
However, since such a measure of rainwater treatment in the bay window makes it difficult to make the gap 21 large due to the design of the bay window 1, the fluidity of the rain water in the gap 21 is poor, and the rain water is well distributed along the gap 21. Not flowing. Therefore, it easily overflows from the gap 21, and the peripheral edge 17 and the bottom plate 1
A large number of flow path marks are left on the surface of No. 8. Also, pedestal 4
Although the rainwater guided to the inside of the wheel wets the inside of the pedestal 4, the wetting of the inside of the pedestal 4 easily causes a problem of corrosion and may deteriorate the durability of the bay window 1.

【0008】さらに、風雨が強いときには正面部6や袖
部7のガラス板12,15からそれぞれの下枠11,1
4に雨水が侵入するので、下枠11,14の下面や側面
に水抜き孔23(図20)を設けて外部に排出するよう
にしている。しかし、下枠11,14の断面形状によっ
ては侵入した雨水を水抜き孔23まで導くのが困難であ
ったり、風圧の強い場合には水抜き孔23から雨水が逆
流する恐れがあった。
Further, when the wind and rain are strong, the lower frames 11 and 1 from the glass plates 12 and 15 of the front portion 6 and the sleeve portion 7, respectively.
Since rainwater invades 4, the lower frames 11 and 14 are provided with water drain holes 23 (FIG. 20) on the lower surfaces and side surfaces to discharge the water to the outside. However, depending on the cross-sectional shape of the lower frames 11 and 14, it may be difficult to guide the invading rainwater to the drainage hole 23, or if the wind pressure is strong, the rainwater may flow back from the drainage hole 23.

【0009】[0009]

【発明が解決しようとする課題】出窓の外観や耐久性を
維持し、雨水の処理を良好に行える構造を備えた出窓の
提供。
[Problem to be Solved by the Invention] The provision of a bay window having a structure capable of maintaining the appearance and durability of the bay window and favorably treating rainwater.

【0010】[0010]

【課題を解決するための手段】屋根部、本体部および台
輪からなる出窓に関する。台輪上面の張り出し部周縁に
沿った周縁面に上方に開放された集水溝を設ける。集水
溝に設けられた排水口に連通し出窓の外部に開口する排
水路が台輪内部を貫通して設けられる。本体部の下面が
台輪上面の周縁面と受水用の間隙をとって配置される。
本体部は、その下面の建物壁面から屋外側に張出した張
り出し部の周縁を台輪における集水溝の上方に臨ませ
て、台輪の上方に配置されることがある。
The present invention relates to a bay window including a roof portion, a main body portion and a base wheel. A water collecting groove opened upward is provided on the peripheral surface of the upper surface of the base wheel along the peripheral edge of the protruding portion. A drainage channel communicating with a drainage port provided in the water collection groove and opening to the outside of the bay window is provided penetrating the inside of the base wheel. The lower surface of the main body is arranged with a peripheral surface of the upper surface of the pedestal and a water-receiving gap.
The main body may be disposed above the pedestal with the peripheral edge of the overhanging portion projecting from the building wall surface on the lower surface of the main body facing the outside above the water collecting groove of the pedestal.

【0011】台輪上面の建物壁面から屋外側に張出した
張り出し部の周縁に沿った周縁面であって本体部下面の
周縁より外方に張り出した部分に集水溝が設けられるこ
とがある。本体部を構成する縦方向枠(方立、竪枠)の
底部に縦方向枠の内部空間を集水溝あるいは排水路に通
じる連通路の形成されることがある。本体部の縦方向枠
の下端面に装着されるキャップに、集水溝の一部となる
通水部を備えることがある。
A water collecting groove may be provided on a peripheral surface along the peripheral edge of the projecting portion projecting from the building wall surface on the upper surface of the pedestal wheel to the outdoor side and projecting outward from the peripheral edge of the lower surface of the main body. A communication passage may be formed at the bottom of the vertical frame (vertical frame, vertical frame) that constitutes the main body, which connects the internal space of the vertical frame to a water collection groove or a drainage channel. A cap attached to the lower end surface of the vertical frame of the main body may be provided with a water passage that is part of the water collecting groove.

【0012】集水溝の一部となる通水部と排水口を備え
た排水用部品を使用することが有る。排水路を排水用部
品の通水部と一体に成形することがある。台輪の回り縁
部分の外面に細い溝が下方向に形成され、台輪の下面と
の境界箇所に開口されて排水路とされることがある。
[0012] There is a case where a drainage component having a water passage and a drainage hole which is a part of the water collection groove is used. The drainage channel may be formed integrally with the water passage part of the drainage part. In some cases, a thin groove is formed on the outer surface of the peripheral portion of the bogie in a downward direction, and the groove is opened at a boundary with the lower surface of the bogie to form a drainage channel.

【0013】[0013]

【作用】集水溝は台輪上面の建物壁面から張出した張り
出し部の周縁に沿った周縁面上に集められる水の流動を
促進する。排水路あるいは回り縁外面の細い溝は集水溝
の雨水を出窓の外部に排出する。本体部の下面が台輪上
面の周縁面と受水用の間隙をとって配置された構成、本
体部下面の張り出し部周縁を台輪における集水溝の上方
に臨ませた構成、台輪上面の張り出し部周縁に沿った周
縁面であって本体部下面の周縁より外方に張り出した部
分に集水溝が設けられた構成は、出窓の正面部、袖部を
流下する雨水を集水溝に集めることを可能にする。
The water collecting groove promotes the flow of water collected on the peripheral surface along the peripheral edge of the projecting portion protruding from the building wall surface on the upper surface of the pedestal. The drainage channel or a narrow groove on the outer surface of the peripheral edge discharges rainwater from the water collection groove to the outside of the bay window. The lower surface of the main body is arranged with a peripheral surface of the upper surface of the bogie with a gap for receiving water, the peripheral surface of the protruding portion of the lower surface of the main body is located above the water collecting groove of the bogie, the upper surface of the bogie The configuration in which the water collecting groove is provided on the peripheral surface along the peripheral edge of the overhanging portion of the main body lowering out from the peripheral edge of the lower surface of the main body is such that the rainwater flowing down the front part of the bay window and the sleeve part Allows you to collect in.

【0014】本体部を構成する縦方向枠(方立、竪枠)
の底部、または、縦方向枠の下端面に装着されたキャッ
プに、縦方向枠の内部空間を集水溝あるいは排水路に通
じる連通路が形成された構成は、縦方向枠(方立、竪
枠)の内部空間を正面部、袖部を構成する枠体の内部空
間に侵入した雨水の流路として利用することを可能にす
る。
A vertical frame (a vertical frame or a vertical frame) that constitutes the main body
The bottom part of the vertical frame or the cap attached to the lower end surface of the vertical frame is provided with a communication passage that connects the internal space of the vertical frame to the water collection groove or drainage channel. It is possible to use the inner space of the frame) as a flow path of rainwater that has entered the inner space of the frame body forming the front part and the sleeve part.

【0015】排水路や排水用の細い溝をを台輪の下面、
または、台輪の下面との境界箇所に開口させた構成は排
水路からの雨水が底板の外面に伝うのを防止する。排水
管をキャップあるいは排水用部品の通水部と一体に成形
した構成は、部品点数および作業手順を削減する。
A drainage channel and a narrow groove for drainage are formed on the lower surface of the base wheel,
Alternatively, the structure in which the opening is formed at the boundary with the lower surface of the base wheel prevents rainwater from the drainage channel from reaching the outer surface of the bottom plate. The structure in which the drain pipe is integrally formed with the cap or the water passage portion of the drainage component reduces the number of components and the work procedure.

【0016】[0016]

【実施例】図1は第1の実施例を示し、出窓1における
正面の正面部下枠11と台輪4の回り縁17の部分を断
面にして示している。符号12はガラス板、符号18は
底板である。図示されていない他の構成は従来例として
説明した出窓1と同じなので同じ部材に同じ符号を用い
ることとし説明を省略する。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a first embodiment in which a front lower frame 11 on the front of a bay window 1 and a peripheral edge 17 of a base wheel 4 are shown in section. Reference numeral 12 is a glass plate, and reference numeral 18 is a bottom plate. Other configurations (not shown) are the same as those of the bay window 1 described as the conventional example, and the same reference numerals are used for the same members, and the description thereof will be omitted.

【0017】出窓1は、屋根部2、本体部3および台輪
4からなり、台輪4の上面には建物壁面から張出した張
り出し部の周縁に沿って周縁面19が水平に形成されて
いる。周縁面19は、プレス加工によって上方に開放さ
れた集水溝24を有し、その一部に排水口25が形成さ
れている。排水口25には排水路26の一端が接続され
て台輪4の内部を貫通し、他端が台輪4の底板18の下
部で外部に開口27している。すなわち、集水溝24に
連通し出窓1の外部に開口する排水路が排水路26によ
って形成されている。台輪4は本体部3の下面にあらか
じめ固定された取り付け部材28に係合されて取り付け
られる。この際、本体部3の下面が台輪4上面の水平な
周縁面19と受水用の間隙21をとって配置される。
The bay window 1 is composed of a roof portion 2, a main body portion 3 and a pedestal wheel 4, and a rim surface 19 is horizontally formed on the upper surface of the pedestal wheel 4 along the rim of the projecting portion projecting from the wall surface of the building. . The peripheral surface 19 has a water collecting groove 24 opened upward by press working, and a drain port 25 is formed in a part thereof. One end of a drainage channel 26 is connected to the drainage port 25 and penetrates the inside of the pedestal 4 and the other end is opened 27 outside under the bottom plate 18 of the pedestal 4. That is, a drainage channel 26 is formed which communicates with the water collecting groove 24 and opens to the outside of the bay window 1. The pedestal 4 is attached by being engaged with an attachment member 28 that is fixed in advance to the lower surface of the main body 3. At this time, the lower surface of the main body 3 is arranged with a horizontal peripheral surface 19 on the upper surface of the pedestal 4 and a water receiving gap 21.

【0018】なお、取り付け部材28は本体部3下面の
正面と両袖の3か所にあらかじめ取り付けられており、
台輪4は本体部3の正面側から水平に建物5側に向けて
スライドさせるようにしてその周縁面19の内側を取付
け部材28に係合させて取り付けられる。また、集水溝
24は台輪4の周縁面19に正面側と袖側にわたって連
続して形成され、建物5に近接した両端で堰き止められ
ている。
The attachment members 28 are attached to the front surface of the lower surface of the main body 3 and the sleeves at three positions in advance.
The pedestal 4 is attached by sliding the pedestal 4 horizontally from the front side of the main body 3 toward the building 5 side so that the inside of the peripheral surface 19 thereof is engaged with the attachment member 28. Further, the water collecting groove 24 is continuously formed on the peripheral surface 19 of the bogie 4 over the front side and the sleeve side, and is dammed at both ends close to the building 5.

【0019】本体部3の外面を流下してきた雨水は下枠
11,14の屋外側縁、すなわち、本体部3の全体から
すると本体部3における下面の張り出し部周縁p1の全
体から受水用間隙21に入り込み、集水溝24に集めら
れる。受水用間隙21は集水溝24によって間隔が大き
くされているので、集められた雨水は集水溝24をスム
ーズに排水口25まで流れ、排水路26(排水パイプ)
からすみやかに出窓1の外部に排出される。図示の実施
例では正面部下枠11、袖部下枠14に侵入した雨水は
水抜き孔23を経由して集水溝24に集められる。
The rainwater flowing down on the outer surface of the main body portion 3 is exposed from the outer side edges of the lower frames 11 and 14, that is, from the entire main body portion 3, the entire peripheral edge p1 of the lower surface of the main body portion 3 for receiving water. It enters 21 and is collected in the water collecting groove 24. Since the water receiving gap 21 is widened by the water collecting groove 24, the collected rainwater smoothly flows through the water collecting groove 24 to the drain port 25, and the drainage channel 26 (drain pipe).
It is immediately discharged to the outside of the bay window 1. In the illustrated embodiment, rainwater that has entered the front lower frame 11 and the sleeve lower frame 14 is collected in the water collecting groove 24 via the drain hole 23.

【0020】したがって、外観でみる受水用間隙21の
間隔は小さくとも、受水用間隙21に雨水が溢れて不定
の箇所から台輪4の回り縁表面を流下するということは
無い。集められた雨水は排水路26の開口27から垂直
に落下し、底板18の外面を伝うことは少ない。集水溝
24の雨水は速やかに排出されるので下枠11,14の
水抜き孔23が集水溝24の上部に配置されていても雨
水が吹き込まれるということが少ない。以上の構成にお
いて、排水路26はホースやチューブでも良く、一般に
は管として表現される可撓性あるいは非可撓性のもので
あってよい。
Therefore, even if the distance between the water receiving gaps 21 as viewed from the outside is small, rainwater does not overflow into the water receiving gaps 21 and flow down on the peripheral edge surface of the bogie 4 from an indefinite point. The collected rainwater falls vertically from the opening 27 of the drainage channel 26 and rarely travels on the outer surface of the bottom plate 18. Since the rainwater in the water collecting groove 24 is quickly discharged, even if the drain holes 23 of the lower frames 11 and 14 are arranged above the water collecting groove 24, the rainwater is rarely blown in. In the above configuration, the drainage channel 26 may be a hose or a tube, and may be a flexible or inflexible one generally expressed as a tube.

【0021】図2は第2の実施例を示し、第1の実施例
とほぼ同様であるが、本体部3における下面の建物壁面
から張出した張り出し部の周縁p1が台輪4の回り縁1
7における上面の周縁p2よりも屋内側とされている点
が異なる。この実施例の構造では台輪4の回り縁17が
多少屋外側に突出するデザインとなるが、受水用間隙2
1とともに本体部3における下面の張り出し部周縁p1
が集水溝24の上部とされていることによって、本体部
3の外面を流下してきた雨水をより確実に集水溝24に
集めることができる。
FIG. 2 shows a second embodiment, which is almost the same as the first embodiment, but the peripheral edge p1 of the projecting portion projecting from the building wall surface of the lower surface of the main body 3 is the peripheral edge 1 of the base wheel 4.
7 is different from the peripheral edge p2 of the upper surface in the indoor side. In the structure of this embodiment, the peripheral edge 17 of the pedestal 4 is designed to project slightly to the outside, but the water receiving gap 2
1 and the peripheral edge p1 of the underside of the main body 3
The upper part of the water collecting groove 24 allows the rainwater flowing down the outer surface of the main body 3 to be more reliably collected in the water collecting groove 24.

【0022】図3は第3の実施例を示し、この実施例で
は受水用間隙21がなく、台輪4上面の水平な周縁面1
9の大部分は本体部3の下面、すなわち下枠11(した
がって、下枠14も)の下面に当接して配置されてい
る。しかし、台輪4における上面の建物壁面から張出し
た張り出し部の周縁に沿った水平な周縁面19であって
本体部3の下面周縁より外方に張り出した部分29に上
方に開放された集水溝24が形成されている。この集水
溝24には排水口25が設けられていて、これに一端を
接続されたチューブ30が台輪4の内部を貫通して他端
が底板18の下部で出窓1の外部に開口(開口27)し
ている。チューブ30は集水溝24と出窓1の外部を連
通した排水路である。
FIG. 3 shows a third embodiment, in which there is no water receiving gap 21 and the horizontal peripheral surface 1 of the upper surface of the base wheel 4 is shown.
Most of 9 is arranged in contact with the lower surface of the main body 3, that is, the lower surface of the lower frame 11 (and therefore also the lower frame 14). However, the water collection that is opened upward to a portion 29 that is a horizontal peripheral surface 19 along the peripheral edge of the projecting portion that projects from the upper building wall surface of the bogie 4 and that projects outward from the lower surface peripheral edge of the main body portion 3. The groove 24 is formed. A drainage port 25 is provided in the water collecting groove 24, and a tube 30 having one end connected to the drainage port 25 penetrates the inside of the base wheel 4 and the other end is opened under the bottom plate 18 to the outside of the bay window 1 ( It has an opening 27). The tube 30 is a drainage channel that connects the water collection groove 24 and the outside of the bay window 1.

【0023】この第3の実施例では集水溝24が多少狭
くなる傾向があるが、その分深くすれば良く、雨水の流
動に格別な支障はない。一方、台輪4の上面が広い範囲
にわたって本体部3の下面に当接して取り付けられるの
で、本体部3に対する台輪4の取り付けを安定させやす
い。さらに、本体部3と台輪4の間に受水用間隙21の
ような間隙が無いので外観が向上する。下枠11,14
に侵入した雨水は下枠11,14の側面に形成した水抜
き孔23から抜くこともできるが、第3実施例の場合は
これら下枠11,14の雨水を方立8や竪枠9に導き、
これら縦方向枠の底部から処理する方が有利である(後
述)。
In the third embodiment, the water collecting groove 24 tends to be narrowed to some extent, but it may be deepened accordingly, and there is no particular obstacle to the flow of rainwater. On the other hand, since the upper surface of the pedestal 4 abuts on the lower surface of the main body 3 over a wide range, the pedestal 4 can be easily attached to the main body 3 in a stable manner. Further, since there is no gap such as the water receiving gap 21 between the main body portion 3 and the base wheel 4, the appearance is improved. Lower frame 11, 14
The rainwater that has invaded into the lower frames 11 and 14 can also be drained from the drain holes 23 formed on the side surfaces of the lower frames 11 and 14, but in the case of the third embodiment, the rainwater from these lower frames 11 and 14 is directed to the vertical 8 or vertical frame 9. Guide,
It is advantageous to process from the bottom of these vertical frames (discussed below).

【0024】図4は第4の実施例で、第1の実施例に類
似し、本体部3の下面と台輪4との間に受水用間隙21
を備えると共に方立8の直下に排水路26が台輪4の内
部を貫通して配置されている。方立8の下端面にはキャ
ップ16が装着されており、キャップ16の屋外側は受
水用間隙21に合わせて切欠かれている。排水路26は
比較的短く回り縁17部分の下面で開口している。
FIG. 4 shows a fourth embodiment, which is similar to the first embodiment and has a water receiving gap 21 between the lower surface of the main body 3 and the base wheel 4.
The drainage channel 26 is disposed immediately below the cuboid 8 and penetrates the inside of the base wheel 4. A cap 16 is attached to the lower end surface of the upright 8, and the outdoor side of the cap 16 is cut out in accordance with the water receiving gap 21. The drainage channel 26 is relatively short and opens at the lower surface of the peripheral edge 17.

【0025】本体部3の外面を流下してきた雨水は図示
のように本体部3における下面の張り出し部周縁の全体
から受水用間隙21に入り込み、集水溝24に集められ
る。そして、排水口25から排水路26を経て開口27
からすみやかに出窓1の外部に排出される。
The rainwater flowing down on the outer surface of the main body portion 3 enters the water receiving gap 21 from the entire periphery of the protruding portion on the lower surface of the main body portion 3 as shown, and is collected in the water collecting groove 24. Then, an opening 27 is formed from the drain port 25 through the drainage channel 26.
It is immediately discharged to the outside of the bay window 1.

【0026】受水用間隙21は集水溝24によって間隔
が大きくされているので集められた雨水は集水溝24を
スムーズに流れ、排水路26も短いので雨水が素早く処
理される。図示の実施例では正面部下枠11、袖部下枠
14に侵入した雨水はこれらの下枠11,14に形成さ
れた水抜き孔23から集水溝24に集められる。なお、
排水路26の取付け位置は必ずしも方立8の直下でなく
ともよい。
Since the gap 21 for receiving water is widened by the water collecting groove 24, the collected rainwater flows smoothly through the water collecting groove 24 and the drainage channel 26 is short, so that the rainwater can be treated quickly. In the illustrated embodiment, rainwater that has entered the front lower frame 11 and the sleeve lower frame 14 is collected in the water collecting groove 24 through the drain holes 23 formed in the lower frames 11 and 14. In addition,
The attachment position of the drainage channel 26 does not necessarily have to be immediately below the vertical 8.

【0027】図5は第5の実施例であって、第4の実施
例とほぼ同様であるが、正面部下枠11、袖部下枠14
に侵入した雨水は方立8に導かれる。方立8のキャップ
16には方立8の内部空間を集水溝24に通じる連通路
31が集水溝24の上部に形成されている。この様な連
通路31は袖部7の竪枠9の下部にも形成されて良い。
また、キャップ16を装着しない場合は縦方向枠の底部
であって他の部分に連通路31が形成されていても良
い。すなわち、この実施例は本体部3を構成する縦方向
枠(方立8、竪枠9)の底部(キャップ16)に、縦方
向枠の内部空間を集水溝24に通じる連通路31が形成
されており、正面部下枠11、袖部下枠14に侵入した
雨水は連通路31を通じて縦方向枠の底部から集水溝2
4に集められる点に特徴を有する。したがって、第5の
実施例は断面形状により下枠11、14内の雨水をこれ
ら下枠11,14の下面や側面に誘導するのが困難な場
合に、この雨水を集水溝24に集める上で有利である。
FIG. 5 shows a fifth embodiment, which is almost the same as the fourth embodiment, except that the front lower frame 11 and the sleeve lower frame 14 are arranged.
The rainwater that has infiltrated into is directed to the cubic 8. The cap 16 of the vertical 8 is provided with a communication passage 31 communicating with the water collecting groove 24 in the inner space of the vertical 8 at the upper portion of the water collecting groove 24. Such a communication passage 31 may be formed in the lower part of the vertical frame 9 of the sleeve portion 7.
Further, when the cap 16 is not attached, the communication passage 31 may be formed in the other portion at the bottom of the vertical frame. That is, in this embodiment, a communication passage 31 that connects the internal space of the vertical frame to the water collecting groove 24 is formed in the bottom portion (cap 16) of the vertical frame (vertical 8 and vertical frame 9) that constitutes the main body 3. Rainwater that has entered the front lower frame 11 and the sleeve lower frame 14 passes through the communication passage 31 from the bottom of the vertical frame to the water collecting groove 2
It is characterized in that it is collected in 4. Therefore, in the fifth embodiment, when it is difficult to guide the rainwater in the lower frames 11 and 14 to the lower surfaces and the side surfaces of the lower frames 11 and 14 due to the sectional shape, the rainwater is collected in the water collecting groove 24. Is advantageous.

【0028】図6、図7は第6の実施例を示し、第1の
実施例と同様に本体部3と台輪4との間に受水用間隙2
1を備え、台輪4における上面の張り出し部周縁に沿っ
た水平な周縁面19に上方に開放された集水溝24が形
成されている。第1の実施例との相違は集水溝24から
の排水路であって、図7のように排水口25が集水溝2
4の屋外側壁に切り欠きとして形成され、これに連通し
て台輪の回り縁17の外面に細い溝32が下方向に形成
されて排水路とされている。細い溝32は台輪4と底板
18との境界箇所に開口(開口27)されている。
FIG. 6 and FIG. 7 show a sixth embodiment, and like the first embodiment, the water receiving gap 2 is provided between the main body 3 and the base wheel 4.
1, a water collecting groove 24 opened upward is formed on a horizontal peripheral surface 19 along the peripheral edge of the protruding portion on the upper surface of the base wheel 4. The difference from the first embodiment is the drainage channel from the water collecting groove 24, and the drainage port 25 has the water collecting groove 2 as shown in FIG.
4 is formed as a notch on the outdoor side wall, and a thin groove 32 is formed downwardly on the outer surface of the peripheral edge 17 of the bogie to communicate with this and serve as a drainage channel. The narrow groove 32 is opened (opening 27) at the boundary between the base wheel 4 and the bottom plate 18.

【0029】この実施例において集水溝24に集められ
た雨水は排水口25から細い溝32に流れ込み、開口2
7から落下する。開口27は台輪4と底板18との境界
箇所にあってこの箇所では底板18が急激に建物5側に
屈曲しているので落下する雨水が底板18の外面を伝う
ことは少ない。また、排水路としてパイプなどを台輪4
の内部に貫通させて配置する必要がないので出窓1を組
み立てる際の手数が少ない。なお、このように台輪4に
おける回り縁17の外面に形成される下方向の細い溝3
2を排水路とする構成は、第2実施例、第3実施例の場
合にも適用できるものである。
In this embodiment, the rainwater collected in the water collecting groove 24 flows into the narrow groove 32 from the drain port 25, and the opening 2
Fall from 7. The opening 27 is located at the boundary between the pedestal wheel 4 and the bottom plate 18, and the bottom plate 18 is abruptly bent toward the building 5 at this position, so that rainwater that falls does not travel along the outer surface of the bottom plate 18. In addition, pipes 4 are used as drainage channels.
Since it is not necessary to pierce and arrange it inside, the number of steps for assembling the bay window 1 is small. In addition, the downward narrow groove 3 formed on the outer surface of the peripheral edge 17 of the base wheel 4 in this manner.
The configuration using 2 as the drainage channel can be applied to the cases of the second and third embodiments.

【0030】図8は第7の実施例を示したもので、第6
の実施例と同様の構造を有するが、方立8の下端面にキ
ャップ16が装着され、キャップ16に方立8の内部空
間を集水溝24に連通する連通孔31が集水溝24の上
方に開口して形成されている。
FIG. 8 shows a seventh embodiment, which is the sixth embodiment.
The cap 16 is attached to the lower end surface of the upright 8 and the communication hole 31 for communicating the internal space of the upright 8 with the water collecting groove 24 is formed in the water collecting groove 24. It is formed by opening upward.

【0031】図9〜図11は第8の実施例を示し、第3
実施例と同様の構造を有するが、集水溝24に排水用部
品33が装着されている。排水用部品33は集水溝24
の一部となる通水部34と排水口25を備え、この実施
例ではさらに排水口25に連続して排水パイプ35(排
水路)が一体に成形されている。排水用部品33は排水
パイプ35を集水溝24に形成した装着孔に差し込んで
その先端の開口27を回り縁17の下面から出窓外部に
開口させ、通水部34を集水溝24に固定して装着され
ている(図9)。
9 to 11 show the eighth embodiment and the third embodiment.
Although it has the same structure as the embodiment, a drainage component 33 is attached to the water collecting groove 24. The drainage part 33 is the water collecting groove 24.
In the present embodiment, a drainage pipe 35 (drainage channel) is integrally formed so as to be continuous with the drainage port 25. In the drainage part 33, the drainage pipe 35 is inserted into a mounting hole formed in the water collection groove 24, the opening 27 at the tip thereof is opened from the lower surface of the rim 17 to the outside of the bay window, and the water passage portion 34 is fixed to the water collection groove 24. (Fig. 9).

【0032】第8の実施例において通水部34と排水パ
イプ35は別体のものを一体にして用いることもでき
る。また、図示していないが排水用部品33は第1およ
び第2実施例のように比較的幅が広い集水溝24の場合
にも用いることがある。この実施例によれば台輪4の集
水溝24に排水口25や排水路26を集水溝24に切欠
きを設けておく程度の簡単な準備で容易に設けることが
できる。
In the eighth embodiment, the water passage portion 34 and the drainage pipe 35 can be used separately as one body. Although not shown, the drainage component 33 may also be used in the case of the relatively wide water collecting groove 24 as in the first and second embodiments. According to this embodiment, the drainage port 25 and the drainage channel 26 can be easily provided in the water collecting groove 24 of the pedestal 4 with a simple preparation such that a notch is provided in the water collecting groove 24.

【0033】図12は第9の実施例で第8の実施例と同
様の構造であるが、方立8の下端面に装着されたキャッ
プ16の側面に集水溝24に臨んで方立8の内部空間と
連通した連通孔31が形成され、下枠11,14に侵入
した雨水がここから集水溝24に集められるようになっ
ている。すなわち、方立8の内部空間を集水溝24に連
通する連通孔31が縦方向枠の底部側面に開口してい
る。
FIG. 12 shows a ninth embodiment, which has the same structure as the eighth embodiment, but faces the water collecting groove 24 on the side surface of the cap 16 attached to the lower end surface of the upright 8 and stands upright. A communication hole 31 that communicates with the internal space is formed so that rainwater that has entered the lower frames 11 and 14 can be collected from here into the water collecting groove 24. That is, the communication hole 31 that communicates with the water collecting groove 24 in the inner space of the upright 8 is opened at the bottom side surface of the vertical frame.

【0034】図13は第10の実施例で第8の実施例に
類似するが、方立8のキャップ16に連通路31が形成
されるとともに、連通路31が集水溝24に装着された
排水用部品33の排水パイプ35に接続されている。こ
れにより下枠11,14に侵入した雨水は方立8を経て
排水パイプ35に流される。この実施例によれば、下枠
11,14に侵入した雨水が外に現れることなく処理さ
れる。また、連通路31が集水溝24に開口している
と、集水溝24が雨水で満たされているとか、風圧が強
い場合に排水が困難になることがあるが、この実施例で
は連通路31が排水パイプ35に接続されるので、連通
路31からの排水は集水溝24の状況に格別影響されな
い。
FIG. 13 shows a tenth embodiment which is similar to the eighth embodiment, but the communication passage 31 is formed in the cap 16 of the cubic 8 and the communication passage 31 is attached to the water collecting groove 24. It is connected to the drainage pipe 35 of the drainage component 33. As a result, the rainwater that has entered the lower frames 11 and 14 is made to flow into the drainage pipe 35 via the cubic 8. According to this embodiment, the rainwater that has entered the lower frames 11 and 14 is treated without appearing outside. Further, when the communication passage 31 is opened to the water collecting groove 24, drainage may be difficult when the water collecting groove 24 is filled with rainwater or when wind pressure is strong. Since the passage 31 is connected to the drain pipe 35, the drainage from the communication passage 31 is not particularly affected by the condition of the water collecting groove 24.

【0035】図14は第11の実施例であり、第3の実
施例における排水路26を台輪4の回り縁17の外面に
細い溝32として下方向に形成し、台輪4における回り
縁17とここから建物側へ急激に屈曲した底板18との
境界箇所に開口(開口27)されている。この実施例に
おいて集水溝24に集められた雨水は排水口25から細
い溝32に流れ込み開口27から落下する。開口27は
台輪4と底板18との境界箇所にあってこの箇所では底
板18が急激に建物5側に屈曲しているので落下する雨
水が底板18の外面を伝うことは少ない。また、排水路
26などを台輪4の内部に貫通させて配置する必要がな
いので出窓1を組み立てる際の手数が少ない。
FIG. 14 shows an eleventh embodiment, in which the drainage channel 26 in the third embodiment is formed in the downward direction as a thin groove 32 on the outer surface of the peripheral edge 17 of the base wheel 4 so that An opening (opening 27) is formed at a boundary portion with the bottom plate 18 that is sharply bent from here to the building side. In this embodiment, the rainwater collected in the water collecting groove 24 flows into the narrow groove 32 from the drain port 25 and falls from the opening 27. The opening 27 is located at the boundary between the pedestal wheel 4 and the bottom plate 18, and the bottom plate 18 is abruptly bent toward the building 5 at this position, so that rainwater that falls does not travel along the outer surface of the bottom plate 18. Further, since it is not necessary to dispose the drainage channel 26 and the like inside the pedestal 4, it is possible to reduce the labor for assembling the bay window 1.

【0036】図15は第12の実施例であり、第11の
実施例と同様の構造であるが、方立8の下端面に装着さ
れたキャップ16の側面に方立8の内部空間と連通した
連通路31が形成され、下枠11,14に侵入した雨水
がここから集水溝24に集められるようになっている。
FIG. 15 shows a twelfth embodiment, which has the same structure as that of the eleventh embodiment, but communicates with the internal space of the cuboid 8 on the side surface of the cap 16 attached to the lower end surface of the cuboid 8. The communicating passage 31 is formed so that rainwater that has entered the lower frames 11 and 14 can be collected in the water collecting groove 24 from here.

【0037】図16は第13の実施例で第11の実施例
に同様の構造を備えるが、キャップ16の連通路31は
下面に開口して形成されており、この箇所から集水溝2
4まで導水路36が配置されている。第11の実施例に
同様の構造であるが、方立8の内部空間を集水溝24に
連通させる連通路31が外部から目立たない。
FIG. 16 shows a thirteenth embodiment having a structure similar to that of the eleventh embodiment, but the communication passage 31 of the cap 16 is formed so as to open at the lower surface, and the water collecting groove 2 is formed from this portion.
Up to four water conduits 36 are arranged. The structure is similar to that of the eleventh embodiment, but the communication passage 31 that communicates the inner space of the upright 8 with the water collecting groove 24 is inconspicuous from the outside.

【0038】図17、図18は第14の実施例で、本体
部3の縦方向枠(方立8)の下端面にキャップ16が装
着されており、キャップ16に集水溝24の一部となる
通水部34が形成され、キャップ底面の中央に排水口2
5が形成されている。方立8の下端縁には切欠き37が
設けられていて、集水溝24から通水部34に入った雨
水は切欠き37から方立8の下部に入り、排水口25に
誘導される。方立8の内部空間を伝った雨水はそのまま
キャップ16に受け止められ、排水口25から排水され
る。さらに、この実施例では排水口25に続いて排水路
26が一体に成形されている。
17 and 18 show a fourteenth embodiment in which a cap 16 is attached to the lower end surface of the vertical frame (vertical 8) of the main body 3, and the cap 16 has a part of the water collecting groove 24. A water passage 34 is formed, and the drain port 2 is formed at the center of the bottom surface of the cap.
5 is formed. A cutout 37 is provided at the lower end edge of the vertical direction 8, and rainwater that has entered the water passage portion 34 from the water collection groove 24 enters the lower part of the vertical direction 8 from the cutout 37 and is guided to the drainage port 25. . The rainwater that has propagated through the inner space of the cubic 8 is directly received by the cap 16 and drained from the drain port 25. Further, in this embodiment, the drainage channel 26 is integrally formed following the drainage port 25.

【0039】第14実施例は本体部3における縦方向枠
の下端に装着されるキャップ16が排水用部品33を兼
ねた構造である。この場合に、排水路26が一体成形さ
れた構造であると、本体部3の下面に台輪4を取り付け
るだけで集水溝24が排水路に連通されると共に方立8
の内部空間も排水路26に連通される。以上は実施例で
あって、本発明は図示された具体的な構成に限定されな
い。
The fourteenth embodiment has a structure in which the cap 16 attached to the lower end of the vertical frame of the main body 3 also serves as the drainage component 33. In this case, if the drainage channel 26 has a structure integrally formed, the water collecting groove 24 is communicated with the drainage channel and the cuboid 8 is formed only by attaching the base wheel 4 to the lower surface of the main body 3.
The internal space of is also communicated with the drainage channel 26. The above is an embodiment, and the present invention is not limited to the illustrated specific configuration.

【0040】[0040]

【発明の効果】請求項1の構成によれば、出窓における
本体部の外面を流下する雨水を受水用間隙で受け止め、
かつ、排水路で出窓の内部を濡らすことなく、確実に出
窓の外部に排出することができる。これにより、出窓の
台輪外面に流路跡等の汚れがつかず、出窓の外観を美麗
に維持できる。また、長期的に見ても腐蝕による劣化の
恐れが少ない。さらに、出窓の外部に排水路を現さない
ので出窓の外観が向上する。
According to the first aspect of the invention, rainwater flowing down the outer surface of the main body of the bay window is received by the water receiving gap.
In addition, the drainage channel can surely discharge the water to the outside of the bay window without wetting the inside of the bay window. As a result, the outer surface of the stand wheel of the bay window does not get dirty such as a flow path mark, and the appearance of the bay window can be kept beautiful. Further, there is little risk of deterioration due to corrosion even in the long term. Further, since the drainage channel is not exposed outside the bay window, the appearance of the bay window is improved.

【0041】請求項2の構成によれば、請求項1の作用
・効果に加え、出窓本体部の外面を流下する雨水を受水
用間隙で受け止める機能がより確実である。請求項3の
構成によれば、出窓における本体部の外面を流下する雨
水を集水溝に受け止め、かつ、出窓の内部を濡らすこと
なく、確実に出窓の外部に排出することができる。これ
により、出窓の台輪外面に流路跡等の汚れがつかず、長
期的に見ても腐蝕による劣化の恐れが少ない。さらに、
出窓の本体部に対する台輪の取付け状態が安定しやすい
上、本体部と台輪との間に間隙がないので外観が向上す
る。
According to the structure of claim 2, in addition to the action and effect of claim 1, the function of receiving rainwater flowing down the outer surface of the bay window main body in the water receiving gap is more reliable. According to the structure of claim 3, rainwater flowing down the outer surface of the main body portion of the bay window can be received in the water collecting groove, and can be reliably discharged to the outside of the bay window without wetting the inside of the bay window. As a result, the outer surface of the stand wheel of the bay window is not contaminated with traces of a flow path or the like, and there is little risk of deterioration due to corrosion even in the long term. further,
The mounting state of the pedestal with respect to the main body of the bay window is easy to stabilize, and the appearance is improved because there is no gap between the main body and the pedestal.

【0042】請求項4の構成によれば、出窓における本
体部の外面を流下する雨水を集水溝に受け止め、確実に
出窓の外部に排出することができる。これにより、出窓
の台輪外面に流路跡等の汚れがつかず、出窓の外観を美
麗に維持できる。また、雨水が台輪の内部に入り込むこ
とはないので、長期的に見ても腐蝕による劣化の恐れが
少ない。さらに、台輪の回り縁部に切欠き状の簡単な排
水口と細い溝を形成する簡単な加工を施すだけで、雨水
を出窓の外部に排出することができるので、格別な部品
を必要とせず、組立作業の手間、部品管理の手間を削減
できる。請求項5の構成によれば、請求項4の作用・効
果に加え、出窓本体部の外面を流下する雨水を受水用間
隙で受け止める機能がより確実である。
According to the structure of claim 4, rainwater flowing down on the outer surface of the main body portion in the bay window can be received in the water collecting groove and reliably discharged to the outside of the bay window. As a result, the outer surface of the stand wheel of the bay window does not get dirty such as a flow path mark, and the appearance of the bay window can be kept beautiful. In addition, since rainwater does not enter the inside of the pedestal, there is little risk of deterioration due to corrosion over the long term. Furthermore, rainwater can be discharged to the outside of the bay window by simply performing a simple process to form a notch-shaped simple drainage port and a thin groove on the periphery of the base wheel, so no special parts are required. It is possible to reduce the time and effort of assembly work and the time and labor of parts management. According to the configuration of claim 5, in addition to the action and effect of claim 4, the function of receiving rainwater flowing down the outer surface of the bay window main body in the water receiving gap is more reliable.

【0043】請求項6の構成によれば、出窓における本
体部の外面を流下する雨水を集水溝に受け止め、かつ、
出窓の内部を濡らすことなく、確実に出窓の外部に排出
することができる。さらに、出窓の本体部に対する台輪
の取付け状態が安定しやすい上、本体部と台輪との間に
間隙がないので外観が向上する。請求項7の構成によれ
ば、本体部の下枠に侵入した雨水を方立など本体部の縦
方向枠に導いて集水溝に上方から自然流下で排出できる
ので、下枠の断面形状が複雑な場合にも侵入した雨水の
排出をスムーズに行える。請求項8の構成によれば、縦
方向枠の下方に集水溝がない場合に縦方向枠の内部空間
を伝う雨水を集水溝に誘導する手段が提供され、本体部
の下枠に侵入した雨水を方立など本体部の縦方向枠に導
いて集水溝へ排出できるので、下枠の断面形状が複雑な
場合にも侵入した雨水の排出をスムーズに行える。
According to the structure of claim 6, rainwater flowing down the outer surface of the main body of the bay window is received by the water collecting groove, and
It can be reliably discharged to the outside of the bay window without wetting the inside of the bay window. Furthermore, the mounting state of the pedestal to the main body of the bay window is easy to stabilize, and since there is no gap between the main body and the pedestal, the appearance is improved. According to the configuration of claim 7, the rainwater that has entered the lower frame of the main body can be guided to the vertical frame of the main body such as a vertical direction and discharged into the water collecting groove from above by gravity flow. Even in complicated cases, the rainwater that invades can be discharged smoothly. According to the structure of claim 8, when there is no water collecting groove below the vertical frame, means for guiding the rainwater that propagates through the internal space of the vertical frame to the water collecting groove is provided, and enters the lower frame of the main body portion. Since the collected rainwater can be guided to the vertical frame of the main body such as a cubicle and discharged to the water collecting groove, even if the cross-sectional shape of the lower frame is complicated, the rainwater that has entered can be discharged smoothly.

【0044】請求項9の構成によれば、キャップに集水
溝の一部となる通水部を備えているので、本体部の縦方
向枠の下方における集水溝および排水口の配置が容易に
なる。請求項10の構成によれば、集水溝の状況に格別
影響されずに縦方向枠の内部空間を伝う雨水をスムーズ
に排出できるので、本体部の下枠に侵入した雨水を方立
など本体部の縦方向枠に導いて支障なく排出できる。請
求項11の構成によれば、排水用部品を回り縁上面の周
面縁に設けた切欠きに嵌め込む等の単純な作業で集水溝
に必要な排水口を簡単に設けることができる。
According to the ninth aspect of the invention, since the cap has the water passage portion which is a part of the water collecting groove, it is easy to dispose the water collecting groove and the drainage port below the vertical frame of the main body. become. According to the configuration of claim 10, the rainwater that propagates through the internal space of the vertical frame can be smoothly discharged without being affected by the condition of the water collecting groove, so that the rainwater that has entered the lower frame of the main body can be upright. It can be discharged to the vertical frame of the part without any trouble. According to the structure of claim 11, the drainage port necessary for the water collecting groove can be easily provided by a simple operation such as fitting the drainage component into the notch provided in the peripheral edge of the peripheral edge upper surface.

【図面の簡単な説明】[Brief description of drawings]

【図1】出窓の正面部の要部を示した断面による側面図
(第1の実施例)。
FIG. 1 is a side view of a cross section showing a main part of a front part of a bay window (first embodiment).

【図2】出窓の正面部の要部を示した断面による側面図
(第2の実施例)。
FIG. 2 is a side view of a cross section showing the main part of the front part of the bay window (second embodiment).

【図3】出窓の正面部の要部を示した断面による側面図
(第3の実施例)。
FIG. 3 is a side view (third embodiment) with a cross section showing a main part of a front part of a bay window.

【図4】出窓の方立部の要部を示した概略の断面による
側面図(第4の実施例)。
FIG. 4 is a side view with a schematic cross section showing a main part of a vertical portion of a bay window (fourth embodiment).

【図5】出窓の方立部の要部を示した概略の断面による
側面図(第5の実施例)。
FIG. 5 is a side view (fifth embodiment) with a schematic cross section showing a main part of a vertical portion of a bay window.

【図6】出窓の方立部の要部を示した概略の断面による
側面図(第6の実施例)。
FIG. 6 is a side view (sixth embodiment) with a schematic cross section showing a main part of a vertical portion of a bay window.

【図7】集水溝と排水路の配置を示した要部の斜視図
(第6の実施例)。
FIG. 7 is a perspective view of a main part showing the arrangement of a water collecting groove and a drainage channel (sixth embodiment).

【図8】出窓の方立部の要部を示した概略の断面による
側面図(第7の実施例)。
FIG. 8 is a side view (seventh embodiment) with a schematic cross section showing a main part of a vertical portion of a bay window.

【図9】出窓の方立部の要部を示した概略の断面による
側面図(第8の実施例)。
FIG. 9 is a side view (eighth embodiment) with a schematic cross section showing a main part of a vertical portion of a bay window.

【図10】排水用部品の斜視図(第8の実施例)。FIG. 10 is a perspective view of a drainage component (eighth embodiment).

【図11】装着状態を示す斜視図(第8の実施例)。FIG. 11 is a perspective view showing an attached state (eighth embodiment).

【図12】出窓の方立部の要部を示した概略の断面によ
る側面図(第9の実施例)。
FIG. 12 is a side view (ninth embodiment) with a schematic cross section showing a main part of a vertical portion of a bay window.

【図13】出窓の方立部の要部を示した概略の断面によ
る側面図(第10の実施例)。
FIG. 13 is a side view with a schematic cross section showing a main part of a vertical portion of a bay window (tenth embodiment).

【図14】集水溝と排水路の配置を示す斜視図(第11
の実施例)。
FIG. 14 is a perspective view showing the arrangement of the water collection groove and the drainage channel (No. 11).
Example).

【図15】出窓の方立部の要部を示した概略の断面によ
る側面図(第12の実施例)。
FIG. 15 is a side view with a schematic cross section showing a main part of a vertical portion of a bay window (a twelfth embodiment).

【図16】出窓の方立部の要部を示した概略の断面によ
る側面図(第13の実施例)。
FIG. 16 is a side view (thirteenth embodiment) with a schematic cross section showing a main part of a vertical portion of a bay window.

【図17】キャップの斜視図(第14の実施例)。FIG. 17 is a perspective view of a cap (fourteenth embodiment).

【図18】出窓の方立部の要部を示した概略の断面によ
る側面図(第14の実施例)。
FIG. 18 is a side view with a schematic cross section showing a main part of a vertical portion of a bay window (fourteenth embodiment).

【図19】分解して出窓の構造を示す斜視図(従来
例)。
FIG. 19 is a perspective view showing a structure of a bay window when disassembled (conventional example).

【図20】出窓の正面部の要部を示した断面による側面
図(従来例)。
FIG. 20 is a side view (conventional example) of a cross section showing a main part of a front part of a bay window.

【符号の説明】[Explanation of symbols]

1 出窓 2 屋根部 3 本体部 4 台輪 5 建物 6 正面部 7 袖部 8 方立 9 竪枠 10 正面部上
枠 11 正面部下枠 12 ガラス板 13 袖部上枠 14 袖部下枠 15 ガラス板 16 キャップ 17 回り縁 18 底板 19 周縁面 20 床板 21 受水用間隙 22 水切り 23 水抜き孔 24 集水孔 25 排水口 26 排水路 27 開口 28 取付け部
材 29 外方に張出した部分 30 チューブ 31 連通路 32 細い溝 33 排水用部品 34 通水部 35 排水パイプ 36 導水路 37 切欠き
1 bay window 2 roof part 3 main part 4 pedestal 5 building 6 front part 7 sleeve part 8 cubic 9 vertical frame 10 front part upper frame 11 front part lower frame 12 glass plate 13 sleeve part upper frame 14 sleeve part lower frame 15 glass plate 16 Cap 17 Surrounding edge 18 Bottom plate 19 Peripheral surface 20 Floor plate 21 Water receiving gap 22 Drainer 23 Draining hole 24 Water collecting hole 25 Drainage port 26 Drainage channel 27 Opening 28 Mounting member 29 Overhanging portion 30 Tube 31 Communication channel 32 Thin Groove 33 Drainage component 34 Water passage portion 35 Drain pipe 36 Water conduit 37 Notch

Claims (11)

【特許請求の範囲】[Claims] 【請求項1】 屋根部、本体部および台輪からなる出窓
において、建物の壁面から屋外側に張出した台輪上面
の、張り出し部の周縁に沿った周縁面に上方に開放され
た集水溝とこの溝に設けられた排水口に連通し出窓の外
部に開口する排水路が台輪内部を貫通して形成されてお
り、本体部の下面が台輪上面の周縁面と受水用の間隙を
とって配置されていることを特徴とした出窓。
1. In a bay window composed of a roof portion, a main body portion, and a pedestal, a water collecting groove that is opened upward on a peripheral surface along the rim of the protruding portion on the upper surface of the pedestal protruding from the wall surface of the building to the outdoor side. And a drainage channel that communicates with the drainage port provided in this groove and opens to the outside of the bay window is formed through the inside of the wheel base, and the lower surface of the main body part is the peripheral surface of the wheel base upper surface and the gap for receiving water. A bay window which is characterized by being arranged.
【請求項2】 屋根部、本体部および台輪からなる出窓
において、建物の壁面から屋外側に張出した台輪上面の
張り出し部周縁に沿った周縁面に上方に開放された集水
溝とこの溝に設けられた排水口に連通し出窓の外部に開
口する排水路が台輪内部を貫通して形成されており、本
体部がその下面の張り出し部周縁を台輪における集水溝
の上方に臨ませて台輪の上方に配置されていることを特
徴とした出窓。
2. In a bay window consisting of a roof portion, a main body portion and a pedestal wheel, a water collecting groove which is opened upward on a peripheral surface along the rim of the projecting portion on the upper surface of the pedestal wheel which projects from the wall surface of the building to the outdoor side, and A drainage channel that communicates with the drainage port provided in the groove and opens to the outside of the bay window is formed through the inside of the base wheel, and the main body is located on the lower edge of the protruding portion above the water collection groove in the base wheel. A bay window that is located above the pedestal to face it.
【請求項3】 屋根部、本体部および台輪からなる出窓
において、建物の壁面から屋外側に張出した台輪上面の
張り出し部周縁に沿った周縁面であって本体部下面の周
縁より外方に張り出した部分に上方に開放された集水溝
とこの溝に設けられた排水口に連通し出窓の外部に開口
した排水路が台輪内部を貫通して形成されていることを
特徴とした出窓。
3. A bay window consisting of a roof portion, a main body portion and a pedestal wheel, which is a peripheral surface along the peripheral edge of the projecting portion of the upper surface of the pedestal wheel projecting from the wall surface of the building to the outside and outside the peripheral edge of the lower surface of the main body portion. It is characterized in that a water collecting groove that is opened upward in the portion that projects to the top and a drainage channel that communicates with the drainage port provided in this groove and that is open to the outside of the bay window are formed through the inside of the base wheel. bay window.
【請求項4】 屋根部、本体部および台輪からなる出窓
において、建物の壁面から屋外側に張出した台輪上面
の、張り出し部の周縁に沿った周縁面に上方に開放され
た集水溝が形成されると共に、集水溝に連通して台輪の
回り縁部分の外面に細い溝が下方向に形成されて台輪の
下面との境界箇所に開口されており、本体部の下面が台
輪上面の周縁面と受水用の間隙をとって配置されている
ことを特徴とした出窓。
4. In a bay window composed of a roof portion, a main body portion and a pedestal wheel, a water collecting groove that is opened upward on a peripheral surface along the rim of the projecting portion on the upper surface of the pedestal wheel that projects from the wall surface of the building to the outdoor side. In addition, a thin groove is formed on the outer surface of the rim of the base wheel, which communicates with the water collecting groove, and is opened downward at the boundary with the bottom surface of the base wheel. A bay window that is arranged with a gap for receiving water from the peripheral surface of the upper surface of the ring.
【請求項5】 屋根部、本体部および台輪からなる出窓
において、建物の壁面から屋外側に張出した台輪上面の
張り出し部周縁に沿った周縁面に上方に開放された集水
溝が形成されると共に、集水溝に連通して台輪の回り縁
部分の外面に細い溝が下方向に形成されて台輪の下面と
の境界箇所に開口されており、本体部がその下面の張り
出し部周縁を台輪における集水溝の上方に臨ませて台輪
の上方に配置されていることを特徴とした出窓。
5. In a bay window composed of a roof portion, a main body portion and a pedestal wheel, a water collecting groove opened upward is formed on a peripheral surface along a rim of the projecting portion on the upper surface of the pedestal wheel which projects from the wall surface of the building to the outdoor side. At the same time, a thin groove is formed on the outer surface of the periphery of the base wheel that communicates with the water collecting groove, and is opened downward at the boundary with the bottom surface of the base wheel. A bay window characterized in that it is arranged above the pedestal with its periphery facing above the water collecting groove of the pedestal.
【請求項6】 屋根部、本体部および台輪からなる出窓
において、建物の壁面から屋外側に張出した台輪上面の
張り出し部周縁に沿った周縁面であって本体部下面の周
縁より外方に張り出した部分に上方に開放された集水溝
が形成され、集水溝に連通して台輪の回り縁部分の外面
に細い溝が下方向に形成されて台輪の下面との境界箇所
に開口されていることを特徴とした出窓。
6. A bay window composed of a roof portion, a main body portion and a pedestal wheel, which is a peripheral surface along the peripheral edge of the projecting portion of the upper surface of the pedestal wheel projecting from the wall surface of the building to the outside and outside the peripheral edge of the lower surface of the main body portion. A water collection groove that is open upward is formed in the overhanging part, and a thin groove is formed downward on the outer surface of the peripheral edge of the bogie that communicates with the water collection groove and forms a downward direction at the boundary with the bottom surface of the bogie. A bay window that is characterized by being opened.
【請求項7】 本体部を構成する縦方向枠の底部に縦方
向枠の内部空間を集水溝に通じる連通路が集水溝の上部
に開口して形成されていることを特徴とした請求項1、
請求項2、請求項4および請求項5に記載の出窓。
7. A communication passage for communicating the internal space of the vertical frame with the water collecting groove is formed at the bottom of the vertical frame constituting the main body, and opens at the upper part of the water collecting groove. Item 1,
The bay window according to claim 2, claim 4 or claim 5.
【請求項8】 本体部を構成する縦方向枠の底部に縦方
向枠の内部空間を集水溝に通じる連通路が集水溝に臨ん
で縦方向枠の底部側面に開口して形成されていることを
特徴とした請求項3または請求項6に記載の出窓。
8. A communication passage communicating with an inner space of the vertical frame to the water collecting groove is formed at a bottom portion of the vertical frame forming the main body part, and opens at a bottom side surface of the vertical frame facing the water collecting groove. The bay window according to claim 3 or 6, wherein
【請求項9】 本体部の縦方向枠の下端面にキャップが
装着されており、キャップに集水溝の一部となる通水部
を備えていることを特徴とした請求項4〜請求項6に記
載の出窓。
9. The cap according to claim 4, wherein a cap is attached to the lower end surface of the vertical frame of the main body, and the cap is provided with a water passage part which is a part of the water collecting groove. Bay window according to 6.
【請求項10】 本体部を構成する縦方向枠の底部と集
水溝に接続された排水路とが縦方向枠の内部空間を排水
路に通じる連通路で連結されていることを特徴とした請
求項4〜請求項6に記載の出窓。
10. The bottom of the vertical frame forming the main body and the drainage channel connected to the water collecting groove are connected by a communication channel that communicates the internal space of the vertical frame with the drainage channel. The bay window according to claim 4.
【請求項11】 集水溝の一部となる通水部と排水口を
備えた排水用部品が集水溝に装着され、排水用部品の排
水口が集水溝の排水口とされていることを特徴とした請
求項1〜請求項6に記載の出窓。
11. A drainage part equipped with a water passage and a drainage hole that is a part of the water collection trench is attached to the water collection trench, and the drainage port of the drainage part is the drainage port of the water collection trench. The bay window according to claim 1, which is characterized in that.
JP15742794A 1994-07-08 1994-07-08 Bay window Expired - Lifetime JP2850760B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP15742794A JP2850760B2 (en) 1994-07-08 1994-07-08 Bay window

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP15742794A JP2850760B2 (en) 1994-07-08 1994-07-08 Bay window

Publications (2)

Publication Number Publication Date
JPH0821158A true JPH0821158A (en) 1996-01-23
JP2850760B2 JP2850760B2 (en) 1999-01-27

Family

ID=15649404

Family Applications (1)

Application Number Title Priority Date Filing Date
JP15742794A Expired - Lifetime JP2850760B2 (en) 1994-07-08 1994-07-08 Bay window

Country Status (1)

Country Link
JP (1) JP2850760B2 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101144709B1 (en) * 2008-11-07 2012-05-11 김영재 Rain Waterspout of knockdown building
CN103216189A (en) * 2013-05-10 2013-07-24 杨家元 Downsun window with rainwater collection characteristic

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101144709B1 (en) * 2008-11-07 2012-05-11 김영재 Rain Waterspout of knockdown building
CN103216189A (en) * 2013-05-10 2013-07-24 杨家元 Downsun window with rainwater collection characteristic

Also Published As

Publication number Publication date
JP2850760B2 (en) 1999-01-27

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