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JP6509679B2 - Draw-through structure of wiring and piping material and penetration structure of wiring and piping material to the roof - Google Patents
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JP6509679B2 - Draw-through structure of wiring and piping material and penetration structure of wiring and piping material to the roof - Google Patents

Draw-through structure of wiring and piping material and penetration structure of wiring and piping material to the roof Download PDF

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JP6509679B2
JP6509679B2 JP2015161512A JP2015161512A JP6509679B2 JP 6509679 B2 JP6509679 B2 JP 6509679B2 JP 2015161512 A JP2015161512 A JP 2015161512A JP 2015161512 A JP2015161512 A JP 2015161512A JP 6509679 B2 JP6509679 B2 JP 6509679B2
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wiring
flange portion
flange
edge
cylindrical body
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JP2017040290A (en
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高橋 淳二
淳二 高橋
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Mirai Industry Co Ltd
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Description

本発明は、配線・配管材を建物内から屋上床を貫通して屋上へと引き出す箇所に用いられる配線・配管材の立て貫通部構成部材および配線・配管材の屋上への引き出し構造に関する。   The present invention relates to a straight through portion forming member of a wiring / pipe material used at a location where the wiring / pipe material is drawn from the inside of the building through the roof floor to the roof, and the structure for drawing the wiring / pipe material onto the roof.

従来、建物内に設置されるエアコン等の室内機と、屋上に設置される室外機は、互いにエアコン用冷媒管で連結されており、そのために屋上床を貫通配管される箇所には、大型の配管取り出し用の屋上配管取出箱が用いられる(例えば、特許文献1)。この屋上配管取出箱は、エアコンのような空調機器だけでなく、給湯機器に接続される給水湯管や、太陽光発電パネルや通信設備に用いられるケーブル等の引き出しにも使用されている。   Conventionally, an indoor unit such as an air conditioner installed in a building and an outdoor unit installed on the roof are connected to each other by a refrigerant pipe for an air conditioner. A roof-top piping box for taking out piping is used (for example, Patent Document 1). This roof piping box is used not only for air conditioners such as air conditioners, but also for drawing water supply pipes connected to hot water supply equipment, cables used for solar panels and communication equipment, and the like.

この屋上配管取出箱を利用してエアコン用冷媒管を屋上に配管するには、屋上へと引き出されたエアコン用冷媒管を取出箱内で一端U字状に屈曲させてから、鍔部に形成された取出孔を通過させて外部へと引き出して、室外機へと接続される。   In order to pipe the refrigerant pipe for air conditioner on the roof using this roof pipe extraction box, the refrigerant pipe for air conditioner drawn out to the roof is bent in a U shape at one end in the extraction box and then formed in the buttocks It is made to pass through the taken-out hole taken out to the outside, and is connected to the outdoor unit.

特開2015−78746号公報JP, 2015-78746, A

エアコン用冷媒管のように極端に屈曲させると座屈してしまう管は、U字状に屈曲させながら先端を狭い取出孔に挿通して引き出すことは困難であり、少しづつ屈曲方向を変えながら送り出す作業は手間であり、面倒であった。   It is difficult to pull the tip through a narrow extraction hole while bending it in a U-shape while bending it in a U-shape like a refrigerant pipe for air conditioner, so that it can be sent out while changing the bending direction little by little. The work was time consuming and cumbersome.

本発明は、このような従来の構成が有していた問題を解決するものであり、作業性を向上させることを目的とするものである。   The present invention is intended to solve the problems that such a conventional configuration has, and it is an object of the present invention to improve workability.

上記の課題を解決するための請求項1の発明は、屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、を有した本体を備えている。そして、前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、前記引出口は、前記取着部を取り囲むように放射状に複数形成されていることを特徴としている。 The invention according to claim 1 for solving the above-mentioned problems is a hollow cylindrical tubular body having a wiring / pipe material disposing route which is disposed on the roof so as to be protruded from the inside and disposed inside the building to the roof. A base including an attachment portion attached to a projecting end portion, and a flange portion provided so as to protrude outward from the attachment portion, covering the projecting end portion of the cylindrical body, and the flange The main body which has between the part and the housing which comprises the bending | flexion space of the wiring and piping material withdraw | derived from the said cylinder is provided. And, an outlet from which the wiring / pipe material bent in the bending space is pulled out to the outside of the main body is formed by the outer edge of the flange portion and the tip edge of the casing, the outlet being the attachment portion It is characterized in that it is radially formed in a plurality so as to surround it .

請求項1の発明によれば、屈曲された配線・配管材を引き出す引出口が、フランジ部の外縁と笠体の先端縁によって囲まれており、フランジ部と笠体を分離させた状態では、笠体の先端縁が囲む箇所が外部に開放し、配線・配管材を小さい孔に挿通させることなく、横方向から引出口内に仮配設でき、フランジ部と笠体を結合させることで、笠体の先端縁によって同開放箇所は閉じられるため、あたかも貫通孔に挿通したかのように配設でき、複雑な屈曲作業によって貫通孔に挿通するという作業がなくなり、作業性が向上する。また、開放箇所は閉じられるため配線・配管材が抜け出すこともない。   According to the invention of claim 1, the outlet for drawing out the bent wiring / pipe material is surrounded by the outer edge of the flange and the tip edge of the housing, and in a state in which the flange and the housing are separated, The portion surrounded by the tip edge of the housing is open to the outside, and wiring and piping materials can be temporarily disposed in the outlet from the lateral direction without being inserted into the small holes, and by connecting the flange portion and the housing, Since the open portion is closed by the front end edge of the casing, it can be disposed as if it were inserted into the through hole, eliminating the work of inserting it into the through hole by complicated bending work, and the workability is improved. In addition, since the open part is closed, the wiring and piping material will not come out.

請求項2の発明は、屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、を有する本体を備えている。そして、前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、前記フランジ部の上面は、水平な屋上床に設置された際に取着部側から外縁に向けて下がり勾配になっていることを特徴としている。
請求項2の発明によれば、屈曲された配線・配管材を引き出す引出口が、フランジ部の外縁と笠体の先端縁によって囲まれており、フランジ部と笠体を分離させた状態では、笠体の先端縁が囲む箇所が外部に開放し、配線・配管材を小さい孔に挿通させることなく、横方向から引出口内に仮配設でき、フランジ部と笠体を結合させることで、笠体の先端縁によって同開放箇所は閉じられるため、あたかも貫通孔に挿通したかのように配設でき、複雑な屈曲作業によって貫通孔に挿通するという作業がなくなり、作業性が向上する。また、開放箇所は閉じられるため配線・配管材が抜け出すこともない。さらに、フランジ部と笠体との間に入り込んだ雨水をより筒体から離れる方向へと案内して筒体の端部から建物内への侵入を防止している。
The invention according to claim 2 is attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe arrangement path disposed inside the building from the inside of the building so as to be disposed on the roof so as to protrude therefrom. The cylindrical body is provided with an attachment portion, a base provided with a flange portion provided so as to project outward from the attachment portion, and a protruding end portion of the cylindrical body, and the cylindrical body between the flange portion And a housing that constitutes a bent space of the wiring and piping material drawn from the housing. And, an outlet from which the wiring / pipe material bent in the bending space is drawn out is formed by the outer edge of the flange portion and the tip edge of the casing, and the upper surface of the flange portion is horizontal When installed on the upper floor, it is characterized by a downward slope from the attachment side toward the outer edge .
According to the invention of claim 2, the outlet for drawing out the bent wiring / pipe material is surrounded by the outer edge of the flange portion and the tip edge of the housing, and in a state in which the flange portion and the housing are separated, The portion surrounded by the tip edge of the housing is open to the outside, and wiring and piping materials can be temporarily disposed in the outlet from the lateral direction without being inserted into the small holes, and by connecting the flange portion and the housing, Since the open portion is closed by the front end edge of the casing, it can be disposed as if it were inserted into the through hole, eliminating the work of inserting it into the through hole by complicated bending work, and the workability is improved. In addition, since the open part is closed, the wiring and piping material will not come out. Furthermore, the rainwater that has entered between the flange portion and the casing is guided in a direction away from the cylinder to prevent the end of the cylinder from entering the building.

請求項3の発明は、屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、を有する本体を備えている。そして、前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、前記引出口は、前記フランジ部の端縁が切欠かれて外方に開放するフランジ切欠部により構成されるフランジ部の外縁と、前記切欠部の外方への開放を閉じるように上方を覆う笠体の先端縁と、により構成されていることを特徴としている。The invention according to claim 3 is attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe arrangement path disposed inside the building from the inside of the building so as to be disposed protruding from the roof. The cylindrical body is provided with an attachment portion, a base provided with a flange portion provided so as to project outward from the attachment portion, and a protruding end portion of the cylindrical body, and the cylindrical body between the flange portion And a housing that constitutes a bent space of the wiring and piping material drawn from the housing. And, an outlet from which the wiring / pipe material bent in the bending space is drawn out is formed by the outer edge of the flange portion and the tip edge of the casing, and the outlet is an end of the flange portion. The outer edge of the flange portion which is formed by the flange notch which is notched at the edge and opens outward, and the tip edge of the casing which covers the upper side so as to close the outward opening of the notch, It is characterized by
請求項3の発明によれば、屈曲された配線・配管材を引き出す引出口が、フランジ部の外縁と笠体の先端縁によって囲まれており、フランジ部と笠体を分離させた状態では、笠体の先端縁が囲む箇所が外部に開放し、配線・配管材を小さい孔に挿通させることなく、横方向から引出口内に仮配設でき、フランジ部と笠体を結合させることで、笠体の先端縁によって同開放箇所は閉じられるため、あたかも貫通孔に挿通したかのように配設でき、複雑な屈曲作業によって貫通孔に挿通するという作業がなくなり、作業性が向上する。また、開放箇所は閉じられるため配線・配管材が抜け出すこともない。さらに、引出口の上方を笠体が覆うことで、引出口からの雨水が侵入しにくくしている。According to the invention of claim 3, the outlet for drawing out the bent wiring / pipe material is surrounded by the outer edge of the flange portion and the tip edge of the casing, and in the state in which the flange portion and the casing are separated, The portion surrounded by the tip edge of the housing is open to the outside, and wiring and piping materials can be temporarily disposed in the outlet from the lateral direction without being inserted into the small holes, and by connecting the flange portion and the housing, Since the open portion is closed by the front end edge of the casing, it can be disposed as if it were inserted into the through hole, eliminating the work of inserting it into the through hole by complicated bending work, and the workability is improved. In addition, since the open part is closed, the wiring and piping material will not come out. Furthermore, the casing covers the upper side of the outlet, making it difficult for rainwater from the outlet to enter.

請求項4の発明は、屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、を有する本体を備えている。そして、前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、前記フランジ部には、前記引出口に隣接して当該フランジ部の外縁側から前記取着部側へ向かうにつれて傾斜するように当該フランジ部から突出した傾斜面が形成されるとともに、前記傾斜面に沿わせた前記配線・配管材を保持する保持部が設けられていることを特徴としている。The invention according to claim 4 is attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe arrangement path disposed inside the building from the inside of the building so as to be disposed protruding from the roof. The cylindrical body is provided with an attachment portion, a base provided with a flange portion provided so as to project outward from the attachment portion, and a protruding end portion of the cylindrical body, and the cylindrical body between the flange portion And a housing that constitutes a bent space of the wiring and piping material drawn from the housing. And the outlet from which the wiring / pipe material bent in the bending space is pulled out to the outside of the main body is formed by the outer edge of the flange portion and the tip edge of the casing, and in the flange portion, the outlet An inclined surface is formed adjacent to the flange portion so as to be inclined from the outer edge side of the flange portion toward the attachment portion side, and the wiring / pipe material along the inclined surface is held. A holding unit is provided.
請求項4の発明によれば、屈曲された配線・配管材を引き出す引出口が、フランジ部の外縁と笠体の先端縁によって囲まれており、フランジ部と笠体を分離させた状態では、笠体の先端縁が囲む箇所が外部に開放し、配線・配管材を小さい孔に挿通させることなく、横方向から引出口内に仮配設でき、フランジ部と笠体を結合させることで、笠体の先端縁によって同開放箇所は閉じられるため、あたかも貫通孔に挿通したかのように配設でき、複雑な屈曲作業によって貫通孔に挿通するという作業がなくなり、作業性が向上する。また、開放箇所は閉じられるため配線・配管材が抜け出すこともない。さらに、配線・配管材を固定して、配線・配管材の揺動や振動を防止できる。According to the invention of claim 4, the outlet for drawing out the bent wiring / pipe material is surrounded by the outer edge of the flange and the tip edge of the housing, and in a state in which the flange and the housing are separated, The portion surrounded by the tip edge of the housing is open to the outside, and wiring and piping materials can be temporarily disposed in the outlet from the lateral direction without being inserted into the small holes, and by connecting the flange portion and the housing, Since the open portion is closed by the front end edge of the casing, it can be disposed as if it were inserted into the through hole, eliminating the work of inserting it into the through hole by complicated bending work, and the workability is improved. In addition, since the open part is closed, the wiring and piping material will not come out. Furthermore, the wiring and piping material can be fixed to prevent the swing and vibration of the wiring and piping material.

請求項5の発明は、屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、を有する本体を備えている。そして、前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、前記フランジ部には、配線・配管材を外部に引き出す引出孔がフランジ部の端縁から離れた箇所に設けられていることを特徴としている。The invention according to claim 5 is attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe arrangement path disposed inside the building from the inside of the building so as to be disposed protruding from the roof. The cylindrical body is provided with an attachment portion, a base provided with a flange portion provided so as to project outward from the attachment portion, and a protruding end portion of the cylindrical body, and the cylindrical body between the flange portion And a housing that constitutes a bent space of the wiring and piping material drawn from the housing. And the outlet from which the wiring / pipe material bent in the bent space is pulled out to the outside of the main body is formed by the outer edge of the flange portion and the tip edge of the casing, and the flange portion Are drawn out from the edge of the flange portion.
請求項5の発明によれば、屈曲された配線・配管材を引き出す引出口が、フランジ部の外縁と笠体の先端縁によって囲まれており、フランジ部と笠体を分離させた状態では、笠体の先端縁が囲む箇所が外部に開放し、配線・配管材を小さい孔に挿通させることなく、横方向から引出口内に仮配設でき、フランジ部と笠体を結合させることで、笠体の先端縁によって同開放箇所は閉じられるため、あたかも貫通孔に挿通したかのように配設でき、複雑な屈曲作業によって貫通孔に挿通するという作業がなくなり、作業性が向上する。また、開放箇所は閉じられるため配線・配管材が抜け出すこともない。さらに、フランジ部の外縁と笠体の先端縁により囲まれた引出口と別の箇所に、複数の配線・配管材をそれぞれ別の系統に分けて配設でき、区別がしやすく、また整然として見栄えがよい。また、引出孔は、前記引出口よりも前記筒体側に位置させることで、最低屈曲半径の大きい、例えばエアコン冷媒管や光ファイバーを、筒体から離れた箇所に形成された引出口から引き出し、最低屈曲半径が小さい、例えば信号線を、筒体から近い箇所に形成された引出孔から引き出すことで、それぞれの最低屈曲半径に応じて区分して配設できる。According to the invention of claim 5, the outlet for drawing out the bent wiring / pipe material is surrounded by the outer edge of the flange portion and the tip edge of the housing, and in the state in which the flange portion and the housing are separated, The portion surrounded by the tip edge of the housing is open to the outside, and wiring and piping materials can be temporarily disposed in the outlet from the lateral direction without being inserted into the small holes, and by connecting the flange portion and the housing, Since the open portion is closed by the front end edge of the casing, it can be disposed as if it were inserted into the through hole, eliminating the work of inserting it into the through hole by complicated bending work, and the workability is improved. In addition, since the open part is closed, the wiring and piping material will not come out. Furthermore, a plurality of wiring and piping materials can be divided into different systems and arranged in separate systems at different locations from the outlet surrounded by the outer edge of the flange portion and the front end edge of the frame, which makes them easy to distinguish and orderly It looks good. In addition, the extraction hole is located closer to the cylinder than the extraction port, so that, for example, an air conditioner refrigerant pipe or an optical fiber having a large minimum bending radius is extracted from the outlet formed at a location away from the cylinder By drawing a small bending radius, for example, a signal line from a lead-out hole formed at a position close to the cylindrical body, it can be arranged separately according to the respective minimum bending radius.

請求項6の発明は、請求項1〜請求項5のいずれか一項に記載の発明において、前記取着部は、下端に前記筒体の突出端部が内挿される、または突出端部に外嵌する下開口と、上端に前記筒体に取着した状態で筒体内を上方に臨ませる上開口と、を構成する中空筒状を成し、前記筒体の突出端部に取着した状態で、前記フランジ部の上面よりも前記上開口縁のほうが高くなるように前記フランジ部の上面よりも前記上開口側が突出していることを特徴としている。According to the invention of claim 6, in the invention according to any one of claims 1 to 5, the attachment portion has a lower end into which the projecting end of the cylindrical body is inserted, or to the projecting end. A hollow cylindrical shape is formed that constitutes a lower opening to be fitted outside and an upper opening that faces the upper side of the cylindrical body in a state of being attached to the upper end at the upper end, and is attached to the projecting end of the cylindrical body In the state, the upper opening side protrudes from the upper surface of the flange portion so that the upper opening edge is higher than the upper surface of the flange portion.
請求項6の発明によれば、フランジ部と笠体との間に入り込んだ雨水が筒体の端部から建物内へと侵入するのを防止できる。According to the invention of claim 6, it is possible to prevent rainwater which has entered between the flange portion and the casing from intruding into the building from the end of the cylinder.

請求項7の発明は、請求項1〜請求項6のいずれか一項に記載の発明において、前記フランジ部の上面は、取着部側から外縁に向けて下がり勾配になっていることを特徴としている。The invention according to claim 7 is characterized in that, in the invention according to any one of claims 1 to 6, the upper surface of the flange portion is sloped downward from the attachment portion side toward the outer edge. And
請求項7の発明によれば、フランジ部と笠体との間に入り込んだ雨水をより筒体から離れる方向へと案内して筒体の端部から建物内への侵入を防止している。According to the invention of claim 7, the rainwater which has entered between the flange portion and the casing is guided in the direction away from the cylinder to prevent the intrusion of the end of the cylinder into the building.

請求項8の発明は、請求項1〜請求項7のいずれか一項に記載の発明において、前記引出口は、前記フランジ部の端縁が切欠かれて外方に開放するフランジ切欠部により構成されるフランジ部の外縁と、前記切欠部の外方への開放を閉じるように上方を覆う笠体の先端縁と、により構成されることを特徴としている。The invention according to claim 8 is characterized in that, in the invention according to any one of claims 1 to 7, the outlet is constituted by a flanged notch which is notched at the end edge of the flange and opened outward. It is characterized by comprising: an outer edge of the flange portion; and a tip end edge of a casing which covers the upper side so as to close the outward opening of the notch portion.
請求項8の発明によれば、引出口の上方を笠体が覆うことで、引出口からの雨水が侵入しにくくしている。According to the invention of claim 8, the casing covers the upper side of the outlet so that rainwater from the outlet is less likely to intrude.

請求項9の発明は、請求項1〜請求項8のいずれか一項に記載の発明において、前記フランジ部には、前記配線・配管材を保持する保持部が設けられていることを特徴としている。The invention according to claim 9 is characterized in that, in the invention according to any one of claims 1 to 8, the flange portion is provided with a holding portion for holding the wiring / pipe material. There is.
請求項9の発明によれば、配線・配管材を固定して、配線・配管材の揺動や振動を防止できる。According to the invention of claim 9, the wiring and piping material can be fixed to prevent the swing and vibration of the wiring and piping material.

請求項10の発明は、請求項1〜請求項のいずれか一項に記載の発明において、前記フランジ部には、配線・配管材を外部に引き出す引出孔が端縁から離れた箇所に設けられていることを特徴としている。 According to the invention of claim 10, in the invention according to any one of claims 1 to 9 , the flange portion is provided with a lead-out hole for drawing out the wiring / pipe material to the outside at a position away from the edge. It is characterized by being

請求項10の発明によれば、フランジ部の外縁と笠体の先端縁により囲まれた引出口と別の箇所に、複数の配線・配管材をそれぞれ別の系統に分けて配設でき、区別がしやすく、また整然として見栄えがよい。また、引出孔は、前記引出口よりも前記筒体側に位置させることで、最低屈曲半径の大きい、例えばエアコン冷媒管や光ファイバーを、筒体から離れた箇所に形成された引出口から引き出し、最低屈曲半径が小さい、例えば信号線を、筒体から近い箇所に形成された引出孔から引き出すことで、それぞれの最低屈曲半径に応じて区分して配設できる。 According to the invention of claim 10 , a plurality of wiring and piping materials can be divided into different systems and disposed at different locations from the outlet surrounded by the outer edge of the flange portion and the tip edge of the casing, and It is easy to work with and it is orderly and good looking. In addition, the extraction hole is located closer to the cylinder than the extraction port, so that, for example, an air conditioner refrigerant pipe or an optical fiber having a large minimum bending radius is extracted from the outlet formed at a location away from the cylinder By drawing a small bending radius, for example, a signal line from a lead-out hole formed at a position close to the cylindrical body, it can be arranged separately according to the respective minimum bending radius.

請求項11の発明は、請求項1〜請求項10のいずれか一項に記載の発明において、前記フランジ部外縁及び笠体先端縁において少なくとも引出口を形成する箇所には、引き出される配線・配管材の外面に当接して圧縮される圧縮部材が設けられていることを特徴としている。 According to the invention of claim 11, in the invention according to any one of claims 1 to 10 , the wiring / pipe to be drawn out is at least a place where an outlet is formed in the flange outer edge and the casing tip edge. It is characterized in that a compression member which is compressed in contact with the outer surface of the material is provided.

請求項11の発明によれば、引出口から引き出される配線・配管材の外面と引出口縁との間から雨水や虫等の侵入を防止できる。 According to the invention of claim 11 , it is possible to prevent rainwater, insects and the like from entering between the outer surface of the wiring / pipe material pulled out from the outlet and the outlet edge.

請求項12の発明は、配線・配管材の屋上への引き出し構造であって、請求項1〜請求項11のいずれか一項に記載の配線・配管材立て貫通部構成部材が、屋上に突出配置された筒体の突出端部に取着され、配線・配管材が筒体を通り屈曲されて前記引出口から引き出され、前記配線・配管材の周囲に建物内と屋外との連通を遮断する封止部材が設けられていることを特徴としている。 The invention of claim 12 is a structure for drawing out the wiring and piping material to the roof, and the wiring and piping material penetration portion constituting member according to any one of claims 1 to 11 protrudes on the roof. Attached to the protruding end of the arranged cylinder, wiring and piping material is bent through the cylinder and drawn out from the outlet, and communication between the inside of the building and the outside is interrupted around the wiring and piping material It is characterized in that a sealing member is provided.

請求項12の発明によれば、封止部材によって、筒体端部からの雨水や虫等の異物の建物内への侵入を防止できる。また、笠体内面に発生した結露水の侵入も防止できる。 According to the invention of claim 12 , the sealing member can prevent the entry of foreign matter such as rain water and insects from the end of the cylinder into the building. In addition, it is possible to prevent the entry of condensation water generated on the inner surface of the housing.

請求項13の発明は、請求項12に記載の発明において、前記封止部材は、粘着性のあるパテ状あるいは粘土状からなり、前記フランジ部上から配線・配管材外面にかけて盛り付けられていることを特徴としている。 The invention according to claim 13 is characterized in that, in the invention according to claim 12, the sealing member is made of an adhesive putty-like or clay-like shape, and is provided from the flange portion to the outer surface of the wiring / pipe material. It is characterized by

請求項13の発明によれば、封止部材の粘着性および一部がフランジ部上に載る様に盛り付けられることで、筒体内部への落下を防止できる。 According to the invention of claim 13 , the adhesive property of the sealing member and a part thereof being mounted on the flange portion can prevent the drop into the inside of the cylindrical body.

請求項14の発明は、請求項12または請求項13に記載の発明において、前記配線・配管材が前記フランジ部に設けられた保持部により保持されていることを特徴としている。 The invention of claim 14 is characterized in that, in the invention according to claim 12 or claim 13, the wiring / pipe material is held by a holding portion provided on the flange portion.

請求項14の発明によれば、配線・配管材の引き出された側の風や振動による外力によって、揺動あるいは移動するのを防止でき、封止部材の封止状態を維持できる。 According to the invention of claim 14 , it is possible to prevent rocking or movement due to an external force due to wind or vibration on the drawn side of the wiring / pipe material, and the sealed state of the sealing member can be maintained.

請求項15の発明は、請求項12〜請求項14のいずれか一項に記載の発明において、前記筒体内にエアコン用冷媒管とケーブルが配設され、前記フランジ部の張り出し方向の先端縁に切欠かれた、外方に開放するフランジ切欠部と、前記切欠部の外方への開放を閉じるように上方を覆う笠体の先端縁と、により構成される引出口から前記エアコン用冷媒管が引き出し配管され、前記引出口よりも筒体に近い箇所に形成された引出孔に接続された電線管内に前記ケーブルが配線されていることを特徴としている。 According to the invention of claim 15, in the invention according to any one of claims 12 to 14, a refrigerant pipe and a cable for an air conditioner are disposed in the cylindrical body, and the tip end edge of the flange portion in the projecting direction is provided. The refrigerant pipe for the air conditioner is provided from the outlet port which is constituted by a notch, an outwardly opening flange notch portion, and a tip edge of a casing which covers the upper side so as to close the outward opening of the notch portion. It is characterized in that the cable is wired in an electric wire pipe which is drawn out and connected to a drawn-out hole formed at a location closer to the cylindrical body than the drawn-out port.

請求項15の発明によれば、フランジ部の先端縁に形成された引出口から屈曲し難いエアコン用冷媒管が引き出され、接続された電線管にケーブルを配線でき、それぞれを区分して配設できる。 According to the invention of claim 15, the refrigerant pipe for an air conditioner which is hard to bend is drawn out from the outlet formed at the tip end edge of the flange portion, and the cables can be wired to the connected electric conduits. it can.

本発明によれば、複雑な屈曲作業によって貫通孔に挿通するという作業がなくなり、作業性が向上させられる。   ADVANTAGE OF THE INVENTION According to this invention, the operation | work of penetrating to a through-hole by complicated bending operation is lose | eliminated, and workability | operativity is improved.

また、他の効果として、雨水や虫等の建物内への侵入を防止することもできる。   Also, as another effect, it is possible to prevent rainwater, insects and the like from entering the building.

本発明の配線・配管材貫通部構成部材の第1実施例の使用状態を示す斜視図である。It is a perspective view which shows the use condition of 1st Example of the wiring and piping material penetration part structural member of this invention. 同じ第1実施例の引出口を下方側から見た部分斜視図である。It is the partial perspective view which looked at the outlet of the same 1st Example from lower side. 同じく第1実施例の基体を示すものであり、(a)は平面図、(b)は正面図である。Similarly, it shows the base of the first embodiment, (a) is a plan view, and (b) is a front view. 同じく第1実施例の基体を示すものであり、(c)は底面図、(d)および(e)は異なる方向からそれぞれ見た斜視図である。Similarly, the base of the first embodiment is shown, (c) is a bottom view, and (d) and (e) are perspective views respectively viewed from different directions. (a)は図3(a)に示す指示線Aの断面図、(b)は図3(b)に示す指示線Bの断面図である。(A) is sectional drawing of the instruction line A shown to Fig.3 (a), (b) is sectional drawing of the instruction line B shown to FIG.3 (b). 同じく第1実施例の笠体を示すものであり、(a)は平面図、(b)は正面図、(c)は正面図に示す指示線Cの断面図、(d)および(e)は、異なる方向からそれぞれ見た斜視図である。Similarly, the frame of the first embodiment is shown, (a) is a plan view, (b) is a front view, (c) is a cross-sectional view of an indicator line C shown in the front view, (d) and (e) These are perspective views seen from different directions. 同じく第1実施例の使用状態の断面図である。It is sectional drawing of the use condition of 1st Example similarly. 同じく第1実施例の使用状態の断面図であり、傾斜面に添わせたエアコン用冷媒管を保持具で保持させた状態を示している。Similarly, it is a cross-sectional view of the use state of the first embodiment, and shows a state in which the air conditioner refrigerant pipe aligned with the inclined surface is held by the holder. 同じく第1実施例の基体の引出孔に保護管接続具を取り付けた状態を示し、(a)は下方側斜視図、(b)は断面図である。The state which attached the protective pipe connector to the extraction hole of the base | substrate of 1st Example similarly is shown, (a) is a lower side perspective view, (b) is sectional drawing. 同じく第1実施例の引出口周縁に圧縮部材を設けた、基体及び笠体の斜視図である。It is a perspective view of a base and a case which provided a compression member in the outlet circumference of the 1st example similarly. 同じく第1実施例の引出口周縁に圧縮部材を設けた、本体の断面図である。It is sectional drawing of the main body which provided the compression member in the outlet periphery of 1st Example similarly. 同じく第1実施例の上開口に封止部材を設けた使用状態の断面図である。It is sectional drawing of the use condition which provided the sealing member in the upper opening of 1st Example similarly. 本発明の配線・配管材貫通部構成部材の第2実施例の使用状態を示す断面図である。It is sectional drawing which shows the use condition of 2nd Example of the wiring and piping material penetration part structural member of this invention. 本発明の配線・配管材貫通部構成部材の第3実施例を示し、(a)は笠体と基体の斜視図であり、(b)は筒体に本体を取着した状態を示す断面図である。The 3rd Example of wiring / piping material penetration part structural member of this invention is shown, (a) is a perspective view of a housing and a base | substrate, (b) is sectional drawing which shows the state which attached the main body to the cylinder. It is. 本発明の配線・配管材貫通部構成部材の第1実施例とは引出口の形状が異なる例を示す笠体と基体の各斜視図である。It is each perspective view of a housing and a base | substrate which shows the example from which 1st Example of the wiring and piping material penetration part structural member of this invention differs in the shape of an outlet. 図15に示した例の使用状態の断面図である。It is sectional drawing of the use condition of the example shown in FIG. 本発明の引出孔に取着されるブッシングの例であり、(a)および(b)はそれぞれ異なる方向から見た斜視図であり、(c)は正面図、(d)は(c)に示す指示線Dの断面図、(e)は底面図である。It is an example of the bushing attached to the lead-out hole of this invention, (a) and (b) is the perspective view seen from the respectively different direction, (c) is a front view, (d) is in (c) FIG. 6 is a cross-sectional view of a command line D shown, and FIG. 図17に示すブッシングを引出孔に取着した状態を示す基体の部分断面図である。FIG. 18 is a partial cross-sectional view of the base showing a state in which the bushing shown in FIG. 17 is attached to the lead-out hole. 本発明の配線・配管材貫通部構成部材の第1実施例とは引き出し口の形状が異なる例を示しており、(a)は本体の斜視図、(b)は本体の断面図である。The first embodiment of the wiring / pipe material penetrating portion constituting member of the present invention shows an example in which the shape of the drawing port is different, (a) is a perspective view of the main body, and (b) is a cross-sectional view of the main body.

最初に、図1ないし図12を用いて本発明の第1実施例の配線・配管材貫通部構成部材について説明する。図1は、屋上床Fから屋上に突出するように設置された筒体Pの先端に、配線・配管材貫通部構成部材の本体1が取着されて、配線・配管材Lが本体1から引き出された状態を示している。図2は、第1実施例の本体1が有する引出口7を下方側から見た部分斜視図である。図3及び図4は、同じく第1実施例の配線・配管材貫通部構成部材の本体1の一部を構成する基体2を示し、図5は、図3に示す各指示線の断面図、図6は、同じく第1実施例の配線・配管材貫通部構成部材の本体1の一部を構成する笠体6を示し、図7は、図1に示した使用状態の断面図である。図8は、同じく第1実施例の基体2に保持部84で配線・配管材Lを保持させた状態を示す端面図、図9は、同じく第1実施例の基体2の引出孔5に保護管接続具90を取り付けた状態を示す部分斜視図および部分断面図、図10は、同じく第1実施例の基体2と笠体6に圧縮部材T(T1、T2)を取り付けた状態を示す斜視図であり、図11は、圧縮部材Tを取り付けた基体2と笠体6を組付けた状態を示す断面図、図12は、同じく第1実施例の使用状態を示す断面図である。なお、図1において笠体6は破線で示している。   First, the wiring and piping material penetration portion constituting member according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 12. In FIG. 1, the main body 1 of the wiring / pipe material penetrating portion constituting member is attached to the tip of the cylindrical body P installed so as to project from the roof floor F to the roof, and the wiring / pipe material L is from the main body 1 It shows the pulled out state. FIG. 2 is a partial perspective view of the outlet 7 of the main body 1 of the first embodiment as viewed from the lower side. 3 and 4 show the base 2 which constitutes a part of the main body 1 of the wiring / pipe material penetrating portion constituting member of the first embodiment, and FIG. 5 is a sectional view of each indication line shown in FIG. FIG. 6 shows the housing 6 which constitutes a part of the main body 1 of the wiring / pipe material penetrating portion constituting member of the first embodiment, and FIG. 7 is a sectional view of the use state shown in FIG. 8 is an end view showing a state in which the wiring / pipe material L is held by the holding portion 84 in the base 2 of the first embodiment, and FIG. 9 is a diagram showing protection of the extraction hole 5 of the base 2 of the first embodiment. FIG. 10 is a perspective view showing a state in which the compression members T (T1 and T2) are attached to the base 2 and the housing 6 of the first embodiment. FIG. 11 is a cross-sectional view showing a state in which a base 2 to which a compression member T is attached and a housing 6 are assembled, and FIG. 12 is a cross-sectional view showing a use state of the first embodiment. In addition, the housing 6 is shown with the broken line in FIG.

筒体Pは、屋上側に上端が、建物内に下端が、それぞれ突出するように屋上床Fに設置され、内部に建物内と屋上とを連通する空間が形成された中空筒状をなし、空間内にエアコン用冷媒管、給水湯管などの配管類や、通信線、電力線などの配線類が配設されることで建物内から屋上へと配線・配管材Lの配設経路を構成している。そして、筒体Pの上端には、配線・配管材貫通部構成部材の本体1が取着されている。本体1は、中央に筒体Pの端部が内挿される取着部3と、取着部3から円盤状に外方に張り出すフランジ部4とを備えた基体2と、筒体Pの端部上方を覆うとともに、フランジ部4との間に配線・配管材Lの屈曲空間Wを構成するように椀状をなす笠体6と、により構成されている。   The cylindrical body P is installed on the roof floor F so that the upper end is projected on the roof side and the lower end is projected in the building, and a hollow cylindrical shape is formed in which a space communicating the building interior and the roof is formed. The installation route of wiring and piping material L from the inside of the building to the roof is constructed by arranging the air conditioner refrigerant pipe, piping such as feed water pipe, and wiring such as communication line and power line in the space. ing. And the main body 1 of the wiring and piping material penetration part structural member is attached to the upper end of the cylindrical body P. The main body 1 has a base 2 including an attachment portion 3 into which the end of the cylindrical body P is inserted at the center, and a flange portion 4 projecting outward in a disk shape from the attachment portion 3; While covering the upper end part, it is comprised by the rod body 6 which makes a bowl shape so that the bending space W of the wiring and the piping material L may be comprised between the flange parts 4. FIG.

基体2には、筒体Pの形状に合致した円形中空筒状の取着部3が形成され、下端に筒体Pの端部が内挿される下開口31が、上端に筒体Pの内部を上方に臨ませる上開口32が、内部に筒体Pの上端部が当接する段部33が形成され、下端から内挿された筒体Pの上端部と段部33の下面が当接して筒体P軸方向の位置が定められる。段部33より下方には内挿された筒体Pの外面に先端を圧接させて固定するための固定ボルトが挿通されるボルト挿通部34が90度間隔で4つ設けられている。なお、固定ボルトによる筒体Pへの固定は、先端を圧接させる方法に限らず、筒体Pにねじ込まれるようにして固定しても良いし、接着や溶接によって固定されても良く、要するに筒体Pと一体化されれば良い。   The base 2 is provided with a circular hollow cylindrical attachment portion 3 conforming to the shape of the cylindrical body P, and the lower opening 31 into which the end of the cylindrical body P is inserted at the lower end is the inside of the cylindrical body P at the upper end The upper opening 32 for facing the upper side is formed with a step 33 in which the upper end of the cylinder P abuts, and the upper end of the cylinder P inserted from the lower end abuts the lower surface of the step 33 The position in the direction of the cylinder P axis is determined. Below the step portion 33, four bolt insertion portions 34 are provided at intervals of 90 degrees, through which fixing bolts for pressing and fixing the tip end are inserted to the outer surface of the inserted cylindrical body P. Fixation to the cylindrical body P by the fixing bolt is not limited to the method of pressing the tip end, and may be fixed by being screwed into the cylindrical body P, or may be fixed by adhesion or welding. It may be integrated with the body P.

基体2の取着部3の上端と下端の間から、取着部3から離れる方向に張り出すフランジ部4が形成されており、言い換えると、取着部3の上端(上開口32の開口縁)のほうがフランジ部の上面42よりも高くなるように環状の取着部3の上端側がフランジ部の上面42よりも上方に突出形成されている。これにより、フランジ部4上に侵入した雨水の筒体P内への侵入を防ぐ堤防の役目を果たしている。   A flange 4 extending in the direction away from the attachment 3 is formed between the upper end and the lower end of the attachment 3 of the base 2. In other words, the upper end of the attachment 3 (the opening edge of the upper opening 32) The upper end side of the annular attachment portion 3 is formed to project above the upper surface 42 of the flange portion so that the upper surface 42 of the flange portion is higher than the upper surface 42 of the flange portion. Thereby, it plays the role of the dike which prevents the penetration | invasion in the cylinder P of the rainwater which invaded on the flange part 4. As shown in FIG.

フランジ部4の張り出した先端側となる端縁にはその一部が切欠かれて外方に開放するフランジ切欠部47が90度間隔で4つ形成され、各フランジ切欠部47は、後述する笠体6の先端縁61とともに取り囲み、内部に配線・配管材Lが通る引出口7を構成する。また、全てのフランジ切欠部47は、薄肉部によってフランジ部4と一体化され打ち抜くことで除去される閉塞板47aにより閉塞されており、使用する箇所の閉塞板47aのみを除去し、使用しない箇所は塞いだままとすることで、吹き上げられたり跳ね返った雨水や、虫等の異物の下方からの侵入を防止する。さらに、各閉塞板47aには、閉塞板排水孔47bが形成されており、閉塞板47a上に入り込んだ雨水を排水することができる。そして、使用する箇所の閉塞板を除去することによりフランジ部の外縁41は円盤状の一部が凹設された形状となる。   Four flange notches 47 are formed at intervals of 90 degrees at the end edge of the flange 4 that is the protruding tip side and a part thereof is notched and opened outward, and each flange notch 47 is a weir to be described later It encloses with the front end edge 61 of the body 6, and constitutes the outlet 7 through which the wiring and piping material L passes. In addition, all the flange notches 47 are closed by the closing plate 47a which is integrated with the flange 4 by the thin walled part and removed by punching out, and only the closing plate 47a of the place to be used is removed and not used By keeping it closed, it prevents intrusion of rainwater which has been blown up or bounced back from below and foreign substances such as insects. Furthermore, in each closing plate 47a, a closing plate drainage hole 47b is formed, and it is possible to drain the rainwater that has entered the closing plate 47a. And the outer edge 41 of a flange part becomes a shape by which a part of disk shape was concavely provided by removing the closure board of the location to be used.

フランジ部の上面42は取着部3側となる基端からフランジ部4の外縁41に向かって下がり勾配となる勾配面が形成されており、フランジ部4上に入り込んだ雨水がフランジ部の外縁41に向かって流れるように案内している。そして、フランジ部の外縁41の近傍には下がり勾配によって案内された雨水をフランジ部4の下方に排水するためのフランジ排水孔43が形成されている。詳細には、排水孔43は、フランジ切欠部47を挟むように一対設けられ、フランジ切欠部47が4つ形成された本実施例においては、計8つのフランジ排水孔43が形成されて、閉塞板排水孔47bとともに、基体2上に侵入した雨水の排水口として機能する。   The upper surface 42 of the flange portion is formed with a slope which is a downward slope toward the outer edge 41 of the flange portion 4 from the base end on the attachment portion 3 side. Rainwater entering the flange portion 4 forms the outer edge of the flange portion It guides to flow toward 41. In the vicinity of the outer edge 41 of the flange portion, a flange drainage hole 43 for draining the rainwater guided by the downward slope below the flange portion 4 is formed. Specifically, the drainage holes 43 are provided in a pair so as to sandwich the flange cutouts 47, and in the present embodiment in which four flange cutouts 47 are formed, a total of eight flange drainage holes 43 are formed to close them. It functions as a drainage port of the rainwater which invaded on the base 2 with the board drainage hole 47b.

各フランジ切欠部47の間には、薄肉部によってフランジ部4と一体化され打ち抜くことで除去される円形の閉塞部材51により閉塞された引出孔5が形成されている。詳細には、フランジ部の上面42に膨出するとともに、上側面が平坦面をなし中央に打ち抜かれて円形に開口する丸穴からなる。図9に示すように、保護管接続具90は、挿入される保護管外面に係止する係止部を備えた接続具本体91とナット92とから構成され、接続具本体91とナット92とでフランジ部4に固定される。引出孔5の周縁は平坦な面が残されており、保護管をフランジ部4(基体2)に一体に接続するための保護管接続具90が挟持する挟持面52を構成している。引出孔5はフランジ部4の端縁から離れた箇所に設けられている。より詳細には、フランジ切欠部47により形成された引出口7よりも取着部3側に片寄って設けられている。換言すると、引出孔5は、引出口7よりも取着される筒体P側に位置している。このため、エアコン用冷媒管等の必要とする最低屈曲半径が大きい配線・配管材Lと区分して、最低屈曲半径が小さいケーブル等を、接続した保護管内に配設することができ、必要とする屈曲半径に応じて整然と配設することができる。保護管接続具90は笠体6により覆われて、接続される保護管内への雨水の侵入が防止されている。また、ナット92や接続具本体91がフランジ部4上面から突出しており、保護管内への雨水の侵入を防ぐ堤防の役目を果たしている。   Between the flange notches 47, a lead-out hole 5 is formed which is closed by a circular closing member 51 which is integrated with the flange 4 by a thin portion and removed by punching. Specifically, the upper surface 42 of the flange portion bulges out, and the upper side surface is a flat surface, and is formed by a round hole which is punched out in the center and opened in a circle. As shown in FIG. 9, the protective pipe connector 90 is composed of a connector main body 91 having a locking portion to be locked to the outer surface of the protective pipe to be inserted, and a nut 92, and the connector main body 91 and the nut 92 It fixes to the flange part 4 by this. A flat surface is left on the peripheral edge of the extraction hole 5 and constitutes a holding surface 52 held by a protective tube connector 90 for integrally connecting the protective tube to the flange portion 4 (base 2). The extraction hole 5 is provided at a position away from the end edge of the flange portion 4. More specifically, it is provided closer to the attachment portion 3 than the outlet 7 formed by the flange notch 47. In other words, the extraction hole 5 is located closer to the cylindrical body P to be attached than the extraction port 7. Therefore, cables and the like having a small minimum bending radius can be disposed in the connected protective pipe by dividing them from the wiring and piping material L having a large minimum bending radius, such as a refrigerant pipe for an air conditioner, etc. Can be arranged in order according to the bending radius. The protective pipe connector 90 is covered by the housing 6 to prevent rainwater from entering the protective pipe to be connected. In addition, a nut 92 and a connector main body 91 protrude from the upper surface of the flange portion 4 and play a role of a bank preventing rainwater from entering the protective pipe.

引出口7を構成する基体2のフランジ切欠部47には、フランジ切欠部47に隣接して取着部3側に傾斜するようにフランジ部4から突出した傾斜面49が形成され、傾斜面49の裏面に配線・配管材Lを保持する保持具84としての保持体85が取り付けられる取付け孔49aが設けられている。配線・配管材Lを取付け孔49aに挿通されたバンド状の保持体85が傾斜面49とともに配線・配管材Lを取り囲んだ状態で保持体が有する締結部86によって締結されて傾斜面49に添わした配線・配管材Lを保持する。図1に示すように、配線・配管材Lを保持することで、配線・配管材Lの引き出された側が受ける、風や振動による外力によって配線・配管材Lが揺動あるいは移動するのを防止できる。また、笠体6に覆われた箇所に保持体85が設けられることで、合成樹脂製の保持体を用いても、紫外線劣化を防止することができる。   An inclined surface 49 protruding from the flange 4 is formed in the flange notch 47 of the base 2 constituting the outlet 7 so as to be inclined toward the attachment portion 3 adjacent to the flange notch 47. The mounting hole 49a to which the holding body 85 as a holding tool 84 holding the wiring and the piping material L is attached is provided in the back surface of. The band-like holding body 85 in which the wiring / pipe material L is inserted into the mounting hole 49 a is fastened by the fastening portion 86 of the holding body in a state of surrounding the wiring / pipe material L together with the inclined surface 49 and joined to the inclined surface 49 Hold the wiring and piping material L. As shown in FIG. 1, holding the wiring / pipe material L prevents the wiring / pipe material L from swinging or moving due to an external force due to wind or vibration that the drawn-out side of the wiring / pipe material L receives. it can. Moreover, by providing the holding body 85 in the location covered by the housing 6, even if it uses a synthetic resin holding body, it is possible to prevent ultraviolet ray deterioration.

基体2のフランジ部4端縁には、笠体6が載置される載置面44と、その先端に環状に突出する突出部46及び載置面44に形成され笠体6が固定されるビス固定孔45が形成されている。ビス固定孔45は、フランジ部4の周方向に間隔をあけて8つ設けられている。これらビス固定孔45は8つのビス固定孔45は、周方向に等間隔にはなっておらず、引出口7を挟むようにして対をなす90度間隔に4対設けられている。   A mounting surface 44 on which the housing 6 is mounted, a projection 46 projecting annularly at its tip, and the mounting surface 44 are fixed to the end of the flange 4 of the base 2 and the housing 6 is fixed Screw fixing holes 45 are formed. Eight screw fixing holes 45 are provided at intervals in the circumferential direction of the flange portion 4. In the screw fixing holes 45, eight screw fixing holes 45 are not equally spaced in the circumferential direction, and four pairs of 90 degrees are provided so as to sandwich the outlet 7.

フランジ部4下面側には、取着部3から放射状に延びる直線状リブ48a及び取着部3と同心円状の環状リブ48bによって補強されている。またフランジ排水孔43及び閉塞板排水孔47bは下方に突出する筒を貫通するように形成されている。   The lower surface side of the flange portion 4 is reinforced by a linear rib 48 a radially extending from the attachment portion 3 and an annular rib 48 b concentric with the attachment portion 3. Further, the flange drainage hole 43 and the closing plate drainage hole 47b are formed so as to pass through a cylinder projecting downward.

続いて図1及び図5により示す笠体6について説明する。笠体6は、椀状(ドーム状)に形成され先端縁61に水平に延びる延設部62と、延設部62の先端から屈曲して垂れさがれる環状の垂れ壁64と、を有し、基体2に取り付けられた状態で基体2の上方からその全体を覆う大きさであり、椀状の内部は、フランジ部4との間に配線・配管材Lの屈曲空間Wを構成している。また、延設部62には、基体2のフランジ部4の端縁に載置された状態で基体2にビス固定されるビス孔63が基体2のビス固定孔45の位置に対応して一対のビス孔63が90度間隔で4対設けられている。ビス孔63(及び基体2のビス固定孔45)は、周方向に等間隔でないのは、引出口7を構成する基体2のフランジ切欠部47が形成するフランジ部の外縁41の位置と、笠体6の先端縁61の引出口7を形成する予定位置を合致させるためである。90度間隔に引出口7が形成された本実施例において、ビス固定孔45(ビス孔63)を仮に周方向に等間隔とすると、45度ずらした状態でも基体2に笠体6を固定でき、引出口7を形成する予定箇所がずれてしまうが、本実施例のように周方向に等間隔とならないように、基体2と笠体6を一定の向きでのみ取付け可能とすることで、基体2と笠体6の引出口7の形成予定箇所を合致させることができる。特に、後述する圧縮部材Tの位置を合わせる必要がある時に有効である。   Subsequently, a casing 6 shown by FIGS. 1 and 5 will be described. The housing 6 has an extending portion 62 which is formed in a bowl shape (dome shape) and extends horizontally to the tip edge 61, and an annular hanging wall 64 which is bent and dropped from the tip of the extending portion 62. In a state of being attached to the base 2 to cover the whole of the base 2 from the upper side, and the bowl-like inner portion constitutes a bending space W of the wiring / pipe material L with the flange portion 4 There is. Further, in the extension portion 62, a screw hole 63 fixed to the base 2 in a state of being mounted on the end edge of the flange portion 4 of the base 2 corresponds to the position of the screw fixing hole 45 of the base 2 The four screw holes 63 are provided at 90 degree intervals. The screw holes 63 (and the screw fixing holes 45 of the base 2) are not equally spaced in the circumferential direction because the position of the outer edge 41 of the flange portion formed by the flange notch 47 of the base 2 constituting the outlet 7 This is to match the planned positions for forming the outlet 7 of the distal end edge 61 of the body 6. In the present embodiment in which the outlets 7 are formed at intervals of 90 degrees, if the screw fixing holes 45 (screw holes 63) are temporarily equally spaced in the circumferential direction, the casing 6 can be fixed to the base 2 even in a state shifted 45 degrees. Although the planned portion for forming the outlet 7 is shifted, the base 2 and the housing 6 can be attached only in a fixed direction so that they are not equally spaced in the circumferential direction as in this embodiment. The planned formation locations of the base 2 and the outlet 7 of the housing 6 can be matched. In particular, it is effective when it is necessary to align the position of the compression member T described later.

基体2と笠体6を互いに組付けて形成される引出口7は、フランジ部4の端縁が切欠かれて外方に開放するフランジ切欠部47により構成されるフランジ部の外縁41の一部と、前記フランジ切欠部47の外方への開放を閉じるように上方を覆う笠体6の先端縁61の一部と、により取り囲む内側に構成される。この引出口7から引き出されるエアコン用冷媒管等の配線・配管材Lと引出口7との間に残る隙間は、引き出される配線・配管材Lの外面に当接して圧縮される圧縮部材Tによって塞がれる。より具体的には、圧縮部材Tは、図10及び図11に示すように基体2のフランジ切欠部47を囲むU字状のフランジ部側圧縮部材T1と、笠体6の内面側の引出口7を構成する箇所に設けられた板状の笠体側圧縮部材T2と、から構成され、保持体85(保持部84)により保持された配線・配管材Lの外面に押圧されて外形状に沿って潰されながら密着し、引出口7の不要な隙間を塞いで、虫や小型の鳥、雨水等の侵入を防止する。これら圧縮部材Tは、例えば多孔質のスポンジやゴム等の弾性体によって形成される。   The outlet 7 formed by assembling the base 2 and the housing 6 to each other is a part of the outer edge 41 of the flange portion constituted by the flange cutout 47 in which the end edge of the flange 4 is notched and opened outward. And a part of the tip edge 61 of the casing 6 which covers the upper side so as to close the outward opening of the flange notch 47, and is formed inside. A gap remaining between the wiring and piping material L such as an air conditioning refrigerant pipe and the like drawn out from the drawing outlet 7 and the drawing outlet 7 is a compression member T which is compressed by coming into contact with the outer surface of the drawn wiring and piping material L It is blocked. More specifically, as shown in FIGS. 10 and 11, the compression member T is a U-shaped flange portion side compression member T1 surrounding the flange notch portion 47 of the base 2 and an outlet on the inner surface side of the housing 6. 7 is pressed by the outer surface of the wiring / plumbing material L which is constituted by a plate-shaped casing-side compression member T2 provided at a location that constitutes 7 and is held by the holding body 85 (the holding portion 84). It adheres while being crushed and blocks unnecessary gaps in the outlet 7 to prevent insects, small birds, rainwater and the like from entering. The compression members T are formed of, for example, an elastic body such as porous sponge or rubber.

図12に示すように、筒体Pに取着された本体1の上開口32には、筒体P内面と配設された配線・配管材L外面との間を封止する封止部材Sを設けて、筒体Pの端部からの雨水、笠体6内面に発生した結露水、虫等の異物の建物内への侵入を防止することが望ましい。詳細には、封止部材Sは、粘着性のあるパテ状あるいは粘土状からなり、フランジ部上から配線・配管材外面にかけて盛り付けられることで、筒体P内への落下が防止される。また、保持部84によって配線・配管材Lが保持されることで、半硬化性であったり硬化性のものが硬化するまでの間、配線・配管材Lが動いて封止部材Sを押し動かして隙間が形成されるのを防止する。なお、図12において引出口7に圧縮部材Tは図示していないが、当然に圧縮部材Tを設けて引出口7からの雨水等の侵入を防止することが望ましいが、必ずしも必須ではない。図示しないが、保護管接続具90の端部にも同様に封止部材を設けることで保護管内への異物の侵入を防止しても良い。封止部材Sは不燃材料により形成してさらに耐火性能を備えさせたり、水膨潤性材料により形成して吸水性能を備えさせても良く、必要に応じた材料を適宜選択できる。上開口32に封止部材Sを設けたが筒体Pの下端であったり、筒体Pの中間や取着部3の下開口31付近に設けてもよく、また、封止していれば(内部空間と建物内との連通を遮断していれば)、フランジ部4上にかけて盛りつけられなくとも、別の封止部材受け具を用いて落下しないように配置してもかまわない。   As shown in FIG. 12, in the upper opening 32 of the main body 1 attached to the cylindrical body P, a sealing member S for sealing between the inner surface of the cylindrical body P and the outer surface of the wiring / pipe material L disposed. It is desirable to prevent intrusion of foreign matter such as rain water from the end of the cylindrical body P, condensed water generated on the inner surface of the casing 6, and insects into the building. In detail, the sealing member S is in the form of sticky putty or clay and is prevented from falling into the cylindrical body P by being embedded from the flange portion to the outer surface of the wiring / pipe material. Further, by holding the wiring / pipe material L by the holding portion 84, the wiring / pipe material L moves to push and move the sealing member S until the semi-hardening material or the curable material is cured. To prevent the formation of gaps. Although the compression member T is not illustrated in the outlet 7 in FIG. 12, it is desirable to provide the compression member T to prevent intrusion of rain water or the like from the outlet 7, but it is not necessarily essential. Although not shown, the sealing member may be similarly provided at the end of the protective pipe connector 90 to prevent the entry of foreign matter into the protective pipe. The sealing member S may be formed of a non-combustible material to be further provided with fire resistance performance, or be formed of a water-swellable material to be provided with water absorption performance, and a material according to need can be selected appropriately. The sealing member S is provided in the upper opening 32 but may be provided at the lower end of the cylindrical body P, in the middle of the cylindrical body P or in the vicinity of the lower opening 31 of the attachment portion 3 (If communication between the interior space and the inside of the building is shut off), it may be arranged not to be dropped over the flange portion 4 using another sealing member receiver.

続いて、本発明の第2実施例について図13に基づいて説明する。この例では、筒体Pが屋上床Fを貫いておらず、また、筒体Pが取着部3を貫くようにして基体2が筒体Pに取着されている点が第1実施例と異なる。筒体Pは、下端が固定板P1によって屋上床Fの上面に固定されており、屋上床Fには筒体Pの内部より狭い貫通孔F1が形成されている。また、基体2の取着部3内には筒体Pに当接する段部が形成されておらず、筒体Pの端部が取着部3を貫いて突出した状態で、基体2が筒体Pに取着されている。このとき、筒体Pの先端開口P2が第1実施例における取着部3の上開口32として機能し、フランジ部4よりも上方に上開口32が配置されている。換言すると、取着部3は、下端に筒体Pの突出端部が内挿される下開口31と、上端に筒体Pに取着した状態で筒体P内を上方に臨ませる上開口32と、を構成する中空筒状を成し、筒体Pの突出端部に取着した状態で、フランジ部の上面42よりも筒体Pの突出端部縁(先端開口P2の開口縁)のほうが高くなるように取着されている。このため、筒体Pの突出端が堤防としての機能を果たす。なお、図13において、封止部材Sや圧縮部材Tは図示していないが、それぞれを設置することが望ましい。   Subsequently, a second embodiment of the present invention will be described based on FIG. In this example, the cylinder P does not penetrate the roof floor F, and the base 2 is attached to the cylinder P in such a manner that the cylinder P penetrates the attachment portion 3 in the first embodiment. It is different from The lower end of the cylindrical body P is fixed to the upper surface of the roof floor F by a fixing plate P1, and the roof floor F is formed with a through hole F1 narrower than the inside of the cylindrical body P. Further, in the attachment portion 3 of the base 2, there is no step formed in contact with the cylindrical body P, and the end of the cylindrical body P protrudes through the attachment portion 3 so that the base 2 is cylindrical. It is attached to the body P. At this time, the tip end opening P2 of the cylindrical body P functions as the upper opening 32 of the attachment portion 3 in the first embodiment, and the upper opening 32 is disposed above the flange portion 4. In other words, the attachment portion 3 has a lower opening 31 in which the projecting end of the cylindrical body P is inserted at the lower end, and an upper opening 32 that faces the inside of the cylindrical body P in the state of being attached to the cylindrical body P at the upper end In a state of being attached to the projecting end of the cylindrical body P, of the projecting end edge of the cylindrical body P (the opening edge of the tip opening P2) than the upper surface 42 of the flange portion It is attached so as to be higher. Therefore, the protruding end of the cylindrical body P functions as a dike. In addition, in FIG. 13, although the sealing member S and the compression member T are not shown in figure, it is desirable to install each.

次に、本発明の第3実施例について図14に基づいて説明する。図14(a)は、笠体6及び基体2の斜視図であり、(b)は筒体Pに取着した状態を示す断面図である。基体2に形成された4箇所のフランジ切欠部47のうち2箇所が閉塞板47aにより閉塞され、他の2箇所が予め開放されている。また、笠体6と基体2は、基体2から立設する4つの組付筒83と笠体6の上面を平坦にしそこに形成した4つのビス孔63によって組付けられる。この場合は、基体2に対して笠体6の周方向の向きが90度間隔でしか組付けられず、どの向きで組付けても90度間隔で形成された引出口7を構成する箇所が常に合致するように設けられている。換言すると引出口7を構成する箇所と合致する向きでしか組付けできないように設定されている。   Next, a third embodiment of the present invention will be described based on FIG. FIG. 14 (a) is a perspective view of the casing 6 and the base 2, and FIG. 14 (b) is a cross-sectional view showing a state where it is attached to the cylindrical body P. FIG. Two of the four flange notches 47 formed in the base 2 are closed by the closing plate 47a, and the other two places are opened in advance. Further, the housing 6 and the base 2 are assembled by the four assembling cylinders 83 erected from the base 2 and the four screw holes 63 formed on the flat top of the housing 6. In this case, the direction of the circumferential direction of the casing 6 can be assembled to the base 2 only at 90 degree intervals, and there is a point that constitutes the outlet 7 formed at 90 degree intervals no matter which orientation is assembled. It is provided to always match. In other words, it is set so that the assembly can be performed only in the direction that matches the location of the outlet 7.

また、フランジ部の上面42は下がり勾配は形成されておらず、補強リブはフランジ部の上面42のみに形成され、取着部3の下方は筒体P内に内挿されている点は、第1実施例および第2実施例とは異なるが、第1及び第2実施例をこのような構成に変更することも可能である。   Further, the upper surface 42 of the flange portion is not inclined downward, and the reinforcing rib is formed only on the upper surface 42 of the flange portion, and the lower portion of the attachment portion 3 is inserted into the cylindrical body P, Although different from the first embodiment and the second embodiment, it is also possible to change the first and second embodiments to such a configuration.

各実施例において引出口7は、フランジ部4の端縁が切欠かれて外方に開放するフランジ切欠部47により構成されるフランジ部の外縁41と、切欠部の外方への開放を閉じるように上方を覆う笠体6の先端縁61と、により構成された例を示したが、図15に示すように、引出口7を笠体6の先端縁61を切欠く笠体切欠部65とフランジ部の外縁41とから構成しても良い。図15に示す笠体6は、1つの引出口7を構成する笠体切欠部65と、点線で示す箇所に閉塞され除去することにより引出口7として露出する3つの笠体切欠部65とを備えている。詳細には、笠体6の先端縁61を切欠いて外方に開放する笠体切欠部の縁66と、フランジ部の外縁41とにより囲まれる引出口7を有する本体1から構成されている。笠体切欠部の縁66は、笠体の先端縁61となっている。   In each embodiment, the outlet 7 is configured to close the outer opening 41 of the flange portion constituted by the flange notch portion 47 where the end edge of the flange portion 4 is cut away and opens outward, and the outward opening of the notch portion. In the example shown in FIG. 15, the outlet 7 is cut out of the end edge 61 of the casing 6 and the cutout 65 of the casing is shown. You may comprise from the outer edge 41 of a flange part. The housing 6 shown in FIG. 15 includes a housing cutout portion 65 constituting one outlet 7 and three housing cutout portions 65 exposed as the outlet 7 by being occluded and removed at a position shown by a dotted line. Have. In detail, it comprises the main body 1 having the outlet 7 which is surrounded by the edge 66 of the housing notch which cuts the tip edge 61 of the housing 6 and opens outward, and the outer edge 41 of the flange. The edge 66 of the rod cutout is the tip edge 61 of the rod.

なお、図15に示す笠体6を第1実施例に示した基体2と組み合わせて、引出口7をフランジ切欠部47(が形成するフランジ部の外縁41)と笠体切欠部65(が形成する笠体切欠部の縁66)とから構成しても良い。いずれの場合であっても、引出口7を構成する縁のフランジ部4側と笠体6側の少なくとも一方には圧縮部材T(フランジ側圧縮部材T1または笠体側圧縮部材T2)を設けることが望ましい。また、各実施例において、引出口7は筒体Pを中心に90度間隔で配置されていたが、この間隔に限定されるものではなく、また等間隔でなくても良い。引出口7は本体1に複数形成されているが、1つでも良い。圧縮部材は、基体2と笠体6とに分かれて設けられなくとも、1つの圧縮部材を基体2または笠体6あるいは配線・配管材Lに取着することで配置しても良い。   In addition, the housing 6 shown in FIG. 15 is combined with the base 2 shown in the first embodiment, and the outlet 7 is formed with the flange cutout 47 (the outer edge 41 of the flange formed) and the housing cutout 65 (the And the edge 66) of the housing notch. In any case, a compression member T (flange-side compression member T1 or casing-side compression member T2) may be provided on at least one of the flange 4 side and the casing 6 side of the edge constituting the outlet 7. desirable. Moreover, in each Example, although the outlet 7 was arrange | positioned by 90 degree space | interval centering on the cylindrical body P, it is not limited to this space | interval, Moreover, it is not necessary to be equal intervals. A plurality of outlets 7 are formed in the main body 1, but may be one. The compression member may be disposed by attaching one compression member to the base 2 or the housing 6 or the wiring / pipe material L, even if the compression member is not separately provided to the base 2 and the housing 6.

各実施例において引出孔5は、4つの引出口7の間に4つ配置されているが、その場所や数は限定されるものではない。また、保護管接続具90を取り付けた例を示したが、基体2に一体に保護管接続機構を設けても良い。さらには、引出孔5に保護管を接続しなくても、図17に示すようなブッシング部材93を据え付けることで、保護管を使用せずに露出した状態で配線・配管材Lを配設することもできる。このブッシング部材93は、複数の溝94により切割られる複数の舌片95を有しており、切割られる前は舌片95どうしが連結されているため、引出孔5の閉塞部材51としても使用できる。   In each embodiment, four extraction holes 5 are arranged between the four extraction holes 7, but the place and the number thereof are not limited. Moreover, although the example which attached the protective pipe connection tool 90 was shown, you may provide the protective pipe connection mechanism integrally with the base | substrate 2. FIG. Furthermore, even if the protective pipe is not connected to the drawing hole 5, the wiring / pipe material L is disposed in the exposed state without using the protective pipe by installing the bushing member 93 as shown in FIG. It can also be done. The bushing member 93 has a plurality of tongues 95 cut by a plurality of grooves 94. Since the tongues 95 are connected before being cut, they can also be used as the closing member 51 of the drawing hole 5 .

各実施例において引出口7はフランジ部4の端縁を切欠いて形成される例を示したが、図19に示すように、円形状の笠体6の先端縁61に対して円盤状の一部を対向する直線状に切り落とした略トラック形状(略小判形状)のフランジ部4とすることで、笠体6の先端縁61と直線状からなるフランジ部の外縁81によって引出口7を構成しても良い。この場合において直線状に切り落とされた箇所がフランジ切欠部47であるともいえる。また、図19の例においては、フランジ部の弧状の箇所82に引出口7を追加しても良いし、配線・配管材Lを引き出す引出孔5を引出口7とは別の任意の箇所に設けることも可能である。   In each embodiment, the outlet 7 is formed by notching the end edge of the flange portion 4, but as shown in FIG. By forming the flange portion 4 of a substantially track shape (generally oval shape) cut in a straight line opposite to each other, the outlet 7 is configured by the outer edge 81 of the flange portion formed linearly with the tip edge 61 of the housing 6 It is good. In this case, it can be said that the portion cut in a straight line is the flange notch 47. Further, in the example of FIG. 19, the outlet 7 may be added to the arc-shaped location 82 of the flange portion, or the outlet hole 5 for extracting the wiring / pipe material L may be provided at any location other than the outlet 7. It is also possible to provide.

なお、本発明は上記した実施例に限らず、要旨を逸脱しない範囲で変更が可能である。例えば、笠体6は平面視において円形状であるが、四角形状や八角形状等の多角形状であっても、オーバル形状であっても良い。引出口7は90度間隔に形成し筒体Pから四方に向かって配線・配管材Lを配設可能としたが、引出口7を1つとして一方のみに配設可能としても良く、複数の引出口7を並列させて同一方向に配設可能としても良い。また、引出孔5は引出口7の数と同数でなくても良く、また、引出口7(フランジ切欠部47や笠体切欠部65)に保護管を接続できるようにしても良い。   The present invention is not limited to the above-described embodiment, and modifications can be made without departing from the scope of the invention. For example, although the housing 6 is circular in plan view, the housing 6 may have a polygonal shape such as a quadrilateral shape or an octagonal shape, or may have an oval shape. The outlet 7 is formed at an interval of 90 degrees so that the wiring / pipe material L can be disposed in four directions from the cylindrical body P. However, one outlet 7 may be disposed on only one side. The outlets 7 may be arranged in parallel so that they can be arranged in the same direction. Further, the number of the drawing holes 5 may not be the same as the number of the drawing openings 7, and a protective pipe may be connected to the drawing opening 7 (flange cutout 47 or casing cutout 65).

フランジ部4の上面に形成された下がり勾配は必ずしも必須ではなく、平坦な面としても良く、取着部3に向かう下がり勾配として取着部3近傍に排水口を設けるようにしても良い。笠体6は基体2に取り付けられずに、筒体Pによって支持されていても良い。傾斜面49に配線・配管材Lを沿わせて保持体85で保持させたが、傾斜面49はなくても良い。保持部84は別体のバンド状のものを使用した例を示したが、保持できればバンド状でなくとも良く、また、基体2と一体であっても良い。   The downward slope formed on the upper surface of the flange portion 4 is not necessarily essential, and may be a flat surface, and a drain may be provided in the vicinity of the attachment portion 3 as a downward slope toward the attachment portion 3. The housing 6 may be supported by the cylinder P without being attached to the base 2. Although the wiring / pipe material L is placed along the inclined surface 49 and held by the holder 85, the inclined surface 49 may be omitted. Although the holding portion 84 is shown as an example using a separate band shape, it may not be in the band shape as long as it can be held, and may be integral with the base 2.

フランジ部4は取着部3を中心として円盤状に張り出す例を示したが、これに限らず、例えば取着部3から一方向のみに張り出すように設けても良く、また、特定の二方向に張り出すように設けても良い。笠体6に設けた圧縮部材T2は引出口7を囲む箇所のみに設けられているが、先端縁61に沿って連続する環状の圧縮部材を設けても良く、その場合には基体2に対する取付け向きに制限がなくなる。   Although the flange portion 4 has a disk-like shape extending around the attachment portion 3, the invention is not limited to this. For example, the flange portion 4 may be provided so as to protrude from the attachment portion 3 only in one direction. It may be provided to project in two directions. The compression member T2 provided on the housing 6 is provided only at a location surrounding the outlet 7. However, a continuous annular compression member may be provided along the leading edge 61, in which case the attachment to the base 2 There is no restriction on the direction.

1・・本体、2・・基体、3・・取着部、31・・下開口、32・・上開口、4・・フランジ部、41・・フランジ部の外縁、42・・フランジ部の上面、47・・フランジ切欠部、5・・引出孔、6・・笠体、61・・笠体の先端縁、7・・引出口、84・・保持部、S・・封止部材、T・・圧縮部材、T1・・フランジ側圧縮部材、T2・・笠体側圧縮部材、W・・屈曲空間、L・・配線・配管材、F・・屋上床、P・・筒体 1 · · · body · · · base · 3 · · · attachment portion 31 · · lower opening 32 · · upper opening 4 · · flange portion 41 · · outer edge of flange portion 42 · · upper surface of flange portion 47 · · · · · · · · · · · · · flange notch portion, 5 · · · extraction hole, 6 · · · body, 61 · · tip edge of the body, 7 · · withdrawal port, 84 · · · holding portion, S · · sealing member, T · · · Compression member, T1 · · · Flange side compression member, T · · · Body side compression member, W · · Bending space, L · · Wiring · piping material, · · · · · · · · · · · · · · · · · · · · · · · ·

Claims (15)

屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、
前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、
を有する本体を備え、
前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され
前記引出口は、前記取着部を取り囲むように放射状に複数形成されていることを特徴とする配線・配管材の立て貫通部構成部材。
The attachment portion attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe material disposing route which is disposed on the roof and disposed inside the building to the roof from the inside, and the attachment portion. A base provided with a flange portion provided so as to protrude outward from the fitting portion;
A housing which covers the projecting end of the cylindrical body and which constitutes a bending space of wiring and piping material drawn from the cylindrical body between the cylindrical body and the flange portion;
Having a body with
An outlet from which the wiring / pipe material bent in the bending space is drawn out of the main body is formed by the outer edge of the flange portion and the leading edge of the housing .
A plurality of the outlets are radially formed so as to surround the attachment portion .
屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、
前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、
を有する本体を備え、
前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、
前記フランジ部の上面は、水平な屋上床に設置された際に取着部側から外縁に向けて下がり勾配になっていることを特徴とする配線・配管材の立て貫通部構成部材。
The attachment portion attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe material disposing route which is disposed on the roof and disposed inside the building to the roof from the inside, and the attachment portion. A base provided with a flange portion provided so as to protrude outward from the fitting portion;
A housing which covers the projecting end of the cylindrical body and which constitutes a bending space of wiring and piping material drawn from the cylindrical body between the cylindrical body and the flange portion;
Having a body with
An outlet from which the wiring / pipe material bent in the bending space is drawn out of the main body is formed by the outer edge of the flange portion and the leading edge of the housing.
The upper surface of the flange portion is sloped downward from the attachment portion side toward the outer edge when installed on a horizontal rooftop floor .
屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、
前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、
を有する本体を備え、
前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、
前記引出口は、前記フランジ部の端縁が切欠かれて外方に開放するフランジ切欠部により構成されるフランジ部の外縁と、前記切欠部の外方への開放を閉じるように上方を覆う笠体の先端縁と、により構成されていることを特徴とする配線・配管材の立て貫通部構成部材。
The attachment portion attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe material disposing route which is disposed on the roof and disposed inside the building to the roof from the inside, and the attachment portion. A base provided with a flange portion provided so as to protrude outward from the fitting portion;
A housing which covers the projecting end of the cylindrical body and which constitutes a bending space of wiring and piping material drawn from the cylindrical body between the cylindrical body and the flange portion;
Having a body with
An outlet from which the wiring / pipe material bent in the bending space is drawn out of the main body is formed by the outer edge of the flange portion and the leading edge of the housing.
The outlet is covered with an outer edge of a flange portion formed by a flange notch portion which is notched and opened outward by an edge of the flange portion, and an upper edge which covers the opening of the notch portion to the outside. A front end component member of a wiring / pipe material, characterized by comprising a front end edge of a body .
屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、
前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、
を有する本体を備え、
前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、
前記フランジ部には、前記引出口に隣接して当該フランジ部の外縁側から前記取着部側へ向かうにつれて傾斜するように当該フランジ部から突出した傾斜面が形成されるとともに、前記傾斜面に沿わせた前記配線・配管材を保持する保持部が設けられていることを特徴とする配線・配管材の立て貫通部構成部材。
The attachment portion attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe material disposing route which is disposed on the roof and disposed inside the building to the roof from the inside, and the attachment portion. A base provided with a flange portion provided so as to protrude outward from the fitting portion;
A housing which covers the projecting end of the cylindrical body and which constitutes a bending space of wiring and piping material drawn from the cylindrical body between the cylindrical body and the flange portion;
Having a body with
An outlet from which the wiring / pipe material bent in the bending space is drawn out of the main body is formed by the outer edge of the flange portion and the leading edge of the housing.
The flange portion is formed with an inclined surface which protrudes from the flange portion so as to be inclined from the outer edge side of the flange portion toward the attachment portion side adjacent to the outlet. A holding part for holding the wiring and piping material along the line is provided, and the wiring and piping material upright penetrating part constituting member.
屋上に突出配置されて内部に建物内から屋上へと配設される配線・配管材の配設経路を有する中空筒状の筒体の突出端部に取着される取着部と、前記取着部から外方に張り出すように設けられるフランジ部と、を備えた基体と、
前記筒体の突出端部を覆うとともに、前記フランジ部との間に前記筒体から引き出された配線・配管材の屈曲空間を構成する笠体と、
を有する本体を備え、
前記屈曲空間内で屈曲された配線・配管材が本体外部へ引き出される引出口が、前記フランジ部の外縁および前記笠体の先端縁によって形成され、
前記フランジ部には、配線・配管材を外部に引き出す引出孔がフランジ部の端縁から離れた箇所に設けられていることを特徴とする配線・配管材の立て貫通部構成部材。
The attachment portion attached to the projecting end of a hollow cylindrical cylinder having a wiring / pipe material disposing route which is disposed on the roof and disposed inside the building to the roof from the inside, and the attachment portion. A base provided with a flange portion provided so as to protrude outward from the fitting portion;
A housing which covers the projecting end of the cylindrical body and which constitutes a bending space of wiring and piping material drawn from the cylindrical body between the cylindrical body and the flange portion;
Having a body with
An outlet from which the wiring / pipe material bent in the bending space is drawn out of the main body is formed by the outer edge of the flange portion and the leading edge of the housing.
In the flange portion, a lead-out hole for drawing out the wiring / pipe material to the outside is provided at a position away from the edge of the flange portion .
前記取着部は、下端に前記筒体の突出端部が内挿される、または突出端部に外嵌する下開口と、上端に前記筒体に取着した状態で筒体内を上方に臨ませる上開口と、を構成する中空筒状を成し、前記筒体の突出端部に取着した状態で、前記フランジ部の上面よりも前記上開口縁のほうが高くなるように前記フランジ部の上面よりも前記上開口側が突出していることを特徴とする請求項1〜請求項5のいずれか一項に記載の配線・配管材の立て貫通部構成部材。 The attachment portion allows the cylindrical body to face upward in a state where the projecting end of the cylinder is inserted at the lower end or a lower opening externally fitted to the projecting end and the upper end is attached to the cylinder. The upper surface of the flange portion is formed such that the upper opening edge is higher than the upper surface of the flange portion in a state of forming a hollow cylindrical shape that constitutes the upper opening and attached to the projecting end portion of the cylindrical body The said through-opening side protrudes rather than , The standing penetration part structure member of the wiring and piping material as described in any one of the Claims 1-5 characterized by the above-mentioned. 前記フランジ部の上面は、取着部側から外縁に向けて下がり勾配になっていることを特徴とする請求項1〜請求項6のいずれか一項に記載の配線・配管材の立て貫通部構成部材。 The upper surface of the flange portion is inclined downward from the attachment portion side toward the outer edge, and the through hole of the wiring / pipe material according to any one of claims 1 to 6 Component members. 前記引出口は、前記フランジ部の端縁が切欠かれて外方に開放するフランジ切欠部により構成されるフランジ部の外縁と、前記切欠部の外方への開放を閉じるように上方を覆う笠体の先端縁と、により構成されることを特徴とする請求項1〜請求項7のいずれか一項に記載の配線・配管材の立て貫通部構成部材。 The outlet is covered with an outer edge of a flange portion formed by a flange notch portion which is notched and opened outward by an edge of the flange portion, and an upper edge which covers the opening of the notch portion to the outside. The front penetration edge component member of the wiring and piping material according to any one of claims 1 to 7, characterized by comprising a front end edge of the body . 前記フランジ部には、前記配線・配管材を保持する保持部が設けられていることを特徴とする請求項1〜請求項8のいずれか一項に記載の配線・配管材立て貫通部構成部材。The wiring and piping material stand-up portion constituting member according to any one of claims 1 to 8, wherein the flange portion is provided with a holding portion for holding the wiring and piping material. . 前記フランジ部には、配線・配管材を外部に引き出す引出孔がフランジ部の端縁から離れた箇所に設けられていることを特徴とする請求項1〜請求項9のいずれか一項に記載の記載の配線・配管材立て貫通部構成部材。The said flange part is provided in the location away from the edge of the flange part with the drawing-out hole which pulls out wiring and piping material outside, It is characterized by the above-mentioned. Wiring and piping material penetration part structure member of description. 前記フランジ部外縁及び笠体先端縁において少なくとも引出口を形成する箇所には、引き出される配線・配管材の外面に当接して圧縮される圧縮部材が設けられていることを特徴とする請求項1〜請求項10のいずれか一項に記載の配線・配管材立て貫通部構成部材。A compression member is provided which is compressed by coming into contact with the outer surface of the wiring / pipe material to be drawn out, at least at a location where an outlet is formed at the flange outer edge and the housing tip edge. The wiring and piping material penetration part structure member as described in any one of-. 請求項1〜請求項11のいずれか一項に記載の配線・配管材立て貫通部構成部材が、屋上に突出配置された筒体の突出端部に取着され、配線・配管材が筒体を通り屈曲されて前記引出口から引き出され、前記配線・配管材の周囲に建物内と屋外との連通を遮断する封止部材が設けられていることを特徴とする配線・配管材の屋上への引き出し構造。 The wiring / pipeline stand penetrating portion constituting member according to any one of claims 1 to 11 is attached to a projecting end portion of a cylindrical body protrudingly disposed on the roof, and the wiring / pipeline material is a cylindrical body A sealing member is provided which is bent through and drawn out of the outlet, and blocks communication between the inside of the building and the outside around the wiring and piping material. Drawer structure. 前記封止部材は、粘着性のあるパテ状あるいは粘土状からなり、前記フランジ部上から配線・配管材外面にかけて盛り付けられていることを特徴とする請求項12に記載の配線・配管材の屋上への引き出し構造。The roof of a wire / pipe material according to claim 12, wherein the sealing member is made of an adhesive putty or clay and is provided from the flange portion to the outer surface of the wire / pipe material. Drawer structure to. 前記配線・配管材が前記フランジ部に設けられた保持部により保持されていることを特徴とする請求項12または請求項13に記載の配線・配管材の屋上への引き出し構造。The said wiring and piping material is hold | maintained by the holding | maintenance part provided in the said flange part, The drawer structure to the roof of wiring or piping material of Claim 12 or Claim 13 characterized by the above-mentioned. 前記筒体内にエアコン用冷媒管とケーブルが配設され、前記フランジ部の張り出し方向の先端縁に切欠かれた、外方に開放するフランジ切欠部と、前記切欠部の外方への開放を閉じるように上方を覆う笠体の先端縁と、により構成される引出口から前記エアコン用冷媒管が引き出し配管され、前記引出口よりも筒体に近い箇所に形成された引出孔に接続された電線管内に前記ケーブルが配線されていることを特徴とする請求項12〜請求項14のいずれか一項に記載の配線・配管材の屋上への引き出し構造。A refrigerant pipe and a cable for an air conditioner are disposed in the cylinder, and an outwardly opening flange notch cut out at a tip end edge of the flange in a projecting direction and an outward opening of the notch are closed. As described above, the refrigerant pipe for the air conditioner is drawn out from the outlet constituted by the tip edge of the casing covering the upper side, and the electric wire connected to the extraction hole formed at a location closer to the cylinder than the outlet. The said cable is wired in the pipe | tube, The withdrawal structure to the roof of wiring / piping material as described in any one of Claims 12-14 characterized by the above-mentioned.
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