JPH049897B2 - - Google Patents

Description

【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、パラペツト部を備える躯体面に金属
板を敷設して防水施工を行う際の排水仕舞構造に
関する。DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a drainage closing structure when waterproofing is performed by laying a metal plate on the surface of a building frame having a parapet part.

〔従来の技術〕[Conventional technology]

近時、ビルデイングの屋上、工場の屋根、一般
住宅のベランダ等パラペツト部をもつ躯体を防水
化するため、ステンレス鋼あるいはチタン等の耐
食性の高い金属薄板を敷設する施工が広く行われ
ている。この防水施工は、側部に立上り縁を備え
る金属薄板よりなる面材を必要に応じて断熱材、
防湿シートその他の下地材を介して敷きつめ各隣
接する立上り縁をシーム溶接すると共に、隅部を
仕舞加工することによつておこなわれ、従来のア
スフアルト被覆、合成樹脂ルーフイング、樹脂塗
膜などの防水手段に比べ耐用年数が延長するう
え、工期が短縮するなどの理由から施工要求が著
しく増加している。 In recent years, in order to waterproof structures with parapets, such as the roofs of buildings, the roofs of factories, and the balconies of ordinary houses, construction work has been widely carried out by laying highly corrosion-resistant thin metal plates such as stainless steel or titanium. This waterproofing construction consists of a facing made of thin metal plates with rising edges on the sides, insulation as needed, and
This is done by laying the floor through a moisture-proof sheet or other base material, seam welding each adjacent rising edge, and finishing the corners, making it waterproof compared to conventional asphalt coatings, synthetic resin roofing, resin coatings, etc. The demand for construction is increasing significantly due to reasons such as longer service life and shorter construction period than conventional methods.

〔発明が解決しようとする問題点〕[Problem that the invention seeks to solve]

然し乍ら、従来のこの種防水施工に於いては、
面材の敷設にあたつて排水機構との結合関係が充
分に配慮されていなかつたため、雨水等の排水が
円滑に処理できず、殊に大量の流水を伴う場合に
は防水効果を阻害するという問題があつた。 However, in conventional waterproofing construction of this type,
When installing the facing material, sufficient consideration was not given to its connection with the drainage mechanism, making it impossible to smoothly dispose of rainwater and other drainage water, which impeded the waterproofing effect, especially when a large amount of running water was involved. There was a problem.

本発明は、上記問題点に鑑み、敷設面材と排水
機構とを一体化した新規な防水施工構造を提供す
るものである。 In view of the above-mentioned problems, the present invention provides a novel waterproof construction structure in which a laying surface material and a drainage mechanism are integrated.

〔問題点を解決するための手段〕 本発明により提供される金属板を用いた防水施
工に於ける排水仕舞構造は、パラペツト部をもつ
躯体面に敷設した面材を所定位置の排水口に向け
て傾斜面を形成するように構造設計するもので、
その構造的特徴は次の通りである。[Means for solving the problem] The drainage structure in waterproofing construction using a metal plate provided by the present invention is such that the facing material laid on the frame surface having a parapet section is directed toward a drainage outlet at a predetermined position. The structure is designed to form an inclined surface.
Its structural features are as follows.

パラペツト部を備える躯体面に多数のステンレ
ス鋼板またはチタン板等の面材を敷設して、隣接
する各面材の立上り縁のシーム溶接と仕舞工法に
よつて防水施工するにあたり、躯体面に中央長手
方向に延びる中央部断熱材層と、パラペツト部に
沿つて長手方向に延びる端部断熱材層とを平行に
展設して躯体の両端張出し部位に相当する位置に
凹路を形成し、前記中央部断熱材層から傾斜面を
形成する断面三角形状の長尺下地部材を中央部断
熱材層に隣接して介設し、面材を前記中央部断熱
材層、端部断熱材層および長尺下地部材の上部に
敷設して表面に前記凹路に沿つた緩やかな傾斜溝
を形成し、該傾斜溝の適宜な位置に排水口を設置
する。更に、望ましい態様として、面材を端部断
熱材層上部に於いて120゜以下の角度で上方向に折
り曲げて傾斜面を形成し、面材下面とパラペツト
部の下隅との間に三角断面の長尺空間を設けるも
のである。 When waterproofing is carried out by laying a large number of facing materials such as stainless steel plates or titanium plates on the building frame surface that includes the parapet section, and by seam welding the rising edge of each adjacent facing material and using the closing method, the central longitudinal direction of the building structure surface is A central insulating material layer extending in the longitudinal direction and an end insulating material layer extending in the longitudinal direction along the parapet section are extended in parallel to form concave passages at positions corresponding to the overhanging portions at both ends of the frame, and the center A long base member having a triangular cross section and forming an inclined surface from the central insulation material layer is interposed adjacent to the central insulation material layer, and the face material is connected to the central insulation material layer, the end insulation material layer and the long base member. It is laid on the upper part of the base member to form a gently sloped groove along the concave path on the surface, and a drainage port is installed at an appropriate position of the sloped groove. Furthermore, as a desirable embodiment, the panel is bent upward at an angle of 120° or less at the top of the end insulation material layer to form an inclined surface, and a triangular section is formed between the bottom surface of the panel and the lower corner of the parapet. A long space is provided.

上記の構造設計をとることにより、雨水等の流
水は、面材の傾斜面に沿つて迅速円滑に排水口に
流入する。この作用により、完全に排水処理する
ことが可能である。また、面材の端部がパラペツ
ト部に傾斜をつけて取付けられているためパラペ
ツト隅部の防水を一層確実にするとともに、断熱
効果も向上する。 By adopting the above structural design, running water such as rainwater quickly and smoothly flows into the drain outlet along the slope of the facing material. This action makes it possible to completely treat wastewater. In addition, since the end of the face material is attached to the parapet part with an inclination, the waterproofing of the corner part of the parapet is further ensured, and the heat insulation effect is also improved.

〔実施例〕〔Example〕

以下、添付図面に基いて本発明の実施例を説明
する。 Embodiments of the present invention will be described below based on the accompanying drawings.

第１図は本発明による排水仕舞構造の一部切欠
き平面図、第２図は第１図のＡ−Ａ線に沿う断面
図、そして第３図は第２図の楕円表示部分の拡大
図である。 Fig. 1 is a partially cutaway plan view of the drainage structure according to the present invention, Fig. 2 is a sectional view taken along line A-A in Fig. 1, and Fig. 3 is an enlarged view of the elliptical portion of Fig. 2. It is.

図において、１はパラペツト部２を備える躯
体、３はステンレス鋼またはチタン板等にて構成
した面材、４は各面材の側面を形成する立上り縁
である。 In the figure, 1 is a frame including a parapet part 2, 3 is a face plate made of stainless steel or titanium plate, etc., and 4 is a rising edge forming the side surface of each face plate.

５は中央部断熱材層で、適宜な厚さで躯体面の
中央長手方向に展設されている。６は中央部断熱
材層５に平行にパラペツト部２に沿つて長手方向
に延びる状態に展設された端部断熱材層であり、
前記中央部断熱材層５と該端部断熱材層６の展設
により躯体１の両端張出し部位７に相当する位置
に浅い凹路８を形成する。 Reference numeral 5 denotes a central heat insulating material layer, which is extended in the central longitudinal direction of the building frame surface with an appropriate thickness. Reference numeral 6 denotes an end heat insulating material layer extending in the longitudinal direction along the parapet portion 2 parallel to the central heat insulating material layer 5;
By extending the central heat insulating material layer 5 and the end heat insulating material layer 6, shallow concave passages 8 are formed at positions corresponding to the projecting portions 7 at both ends of the frame 1.

中央部断熱材層５の側面には、同一高さから傾
斜面を形成する略三角断面形の長尺下地部材９が
隣接して介設される。該長尺下地部材９は、例え
ばアルミニユウムの中空押出材などによつて構成
することができる。 An elongated base member 9 having a substantially triangular cross section and forming an inclined surface from the same height is adjoined and interposed on the side surface of the central heat insulating material layer 5 . The elongated base member 9 can be made of, for example, hollow extruded aluminum material.

面材３は、躯体１上に設置された中央部断熱材
層５、端部断熱材層６および長尺下地部材９の上
部に敷設し各立上り縁４をシーム溶接して一体化
する。敷設した面材３の表面には、凹路８に沿つ
た緩やかな傾斜溝が形成される。 The facing material 3 is laid on top of the central heat insulating material layer 5, the end heat insulating material layer 6, and the elongated base member 9 installed on the frame 1, and is integrated by seam welding the rising edges 4. A gently sloping groove along the concave path 8 is formed on the surface of the laid panel material 3.

面材３の側端部分をパラペツト部２に仕舞をお
こなうにあたつては、端部断熱材層６の上部にお
いて、120゜以下の角度で上方向に折り曲げて傾斜
面１０を形成し、面材の下面とパラペツト部２の
下隅との間に三角断面の長尺空間１１を設ける構
造とすることが望ましい。 When storing the side end portions of the face material 3 in the parapet portion 2, the upper part of the end heat insulating material layer 6 is bent upward at an angle of 120 degrees or less to form an inclined surface 10. It is desirable to have a structure in which an elongated space 11 with a triangular cross section is provided between the lower surface of the material and the lower corner of the parapet portion 2.

面材３による傾斜溝の適宜な位置には、排水口
１２を設置して排水管１３に連結する。なお、排
水口１２には、例えば符号Ａに示したような多数
の小孔をあげたドレインキヤツプ１４を設置して
おくとよい。 Drain ports 12 are installed at appropriate positions of the inclined groove formed by the face material 3 and connected to a drain pipe 13. Incidentally, it is preferable that a drain cap 14 having a large number of small holes, such as the one shown by reference numeral A, is installed at the drain port 12, for example.

〔発明の効果〕〔Effect of the invention〕

本発明に係る金属板を用いた防水施工に於ける
排水仕舞構造は、防排水機能が一体化しているの
で、大量の降雨に際しても流水を迅速円滑に完全
排水することができる。また、面材の側端部分に
傾斜面を形成すると、パラペツト隅部を含め全体
の防水機能を一層向上させるとともに、断熱効果
をも高めることができるため、本発明実施による
効果は著しい。 The drainage structure in waterproof construction using a metal plate according to the present invention has an integrated drainage prevention function, so that running water can be quickly and smoothly completely drained even in the event of a large amount of rainfall. Further, by forming slopes on the side edges of the panel, the waterproof function of the entire parapet including the corners can be further improved, and the heat insulation effect can also be enhanced, so the effects of implementing the present invention are significant.

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

図は本発明の実施例を示したもので、第１図は
全体構造の一部切欠き平面図、第２図は第１図の
Ａ−Ａ線に沿う断面図、第３図は第２図の楕円表
示部分の拡大図である。 １……躯体、３……面材、５……中央部断熱材
層、６……端部断熱材層、９……長尺下地部材、
１２……排水口、１３……排水管。 The figures show an embodiment of the present invention, in which Fig. 1 is a partially cutaway plan view of the overall structure, Fig. 2 is a sectional view taken along line A-A in Fig. 1, and Fig. 3 is a cross-sectional view of the entire structure. It is an enlarged view of the ellipse display part of a figure. DESCRIPTION OF SYMBOLS 1... Frame, 3... Face material, 5... Central insulation material layer, 6... End insulation material layer, 9... Long base member,
12...Drain port, 13...Drain pipe.

Claims (1)

【特許請求の範囲】 １ パラペツト部を備える躯体面に多数のステン
レス鋼板またはチタン板等の面材を敷設して、隣
接する各面材の立上り縁のシーム溶接と仕舞工法
によつて防水施工するにあたり、躯体面に中央長
手方向に延びる中央部断熱材層と、パラペツト部
に沿つて長手方向に延びる端部断熱材層とを平行
に展設して躯体の両端張出し部位に相当する位置
に凹路を形成し、前記中央部断熱材層から傾斜面
を形成する略三角断面形の長尺下地部材を中央部
断熱材層に隣接して介設し、面材を前記中央部断
熱材層、端部断熱材層および長尺下地部材の上部
に敷設して表面に前記凹路に沿つた緩やかな傾斜
溝を形成し、該傾斜溝の適宜な位置に排水口を設
置してなる金属板を用いた防水施工に於ける排水
仕舞構造。 ２ 面材を端部断熱材層上部に於いて120゜以下の
角度で上方向に折り曲げて傾斜面を形成し、面材
下面とパラペツト部の下隅との間に三角断面の長
尺空間を設けてなる特許請求の範囲第１項記載の
金属板を用いた防水施工に於ける排水仕舞構造。[Scope of Claims] 1. Waterproofing is carried out by laying a large number of face materials such as stainless steel plates or titanium plates on the frame surface including the parapet part, and by seam welding the rising edge of each adjacent face material and using the closing method. In this process, a central insulating material layer extending in the central longitudinal direction and an end insulating material layer extending in the longitudinal direction along the parapet section are laid out in parallel on the building frame surface, and recesses are made at positions corresponding to the overhanging parts at both ends of the building structure. A long base member with a substantially triangular cross section forming a slope from the central insulation material layer is interposed adjacent to the central insulation material layer, and the face material is the central insulation material layer, A metal plate is laid on top of the end heat insulating material layer and the elongated base member to form a gently sloping groove along the concave path on the surface, and a drainage port is installed at an appropriate position of the sloping groove. Drainage closure structure used in waterproofing construction. 2. Bend the facing material upward at an angle of 120° or less above the end insulation material layer to form an inclined surface, and create a long space with a triangular cross section between the bottom surface of the facing material and the lower corner of the parapet part. A drainage structure in waterproofing construction using the metal plate according to claim 1.