Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
LATH FOR OUTER WALL VENTILATION METHOD
PROBLEM TO BE SOLVED: To provide a lath for an outer wall ventilation method that can achieve a long span of a furring strip, in other words, can eliminate an auxiliary furring strip, as a result of optimizing the shape and arrangement of ribs (vertical rib, and horizontal rib) and increasing an outer-surface rigidity in a good balance.SOLUTION: A lath 10 for an outer wall ventilation method is formed by backing a backing member 5 to a lath 4 formed by joining a lath netting 3 and ribs 1, 2. The ribs 1, 2 comprise the vertical rib 1 spaced horizontally and disposed in the vertical direction, and the horizontal rib 2 spaced vertically and disposed in the horizontal direction. The vertical rib 1 is bent and formed in a wave shape where an upper flange 11 and a lower flange 12 are alternately ranged through a web 13, and the horizontal rib 2 is joined to the lower flange 12 of the vertical rib 1. The lath netting 3 is bent and formed in a cross-section wave shape so as to conform to the vertical rib 1, and is joined at least with the vertical rib 1. The backing member 5 is mounted to the lower flange 12 of the vertical rib 1.SELECTED DRAWING: Figure 2
【課題】力骨(縦力骨、横力骨)の形状および配置を最適化してバランスよく面外剛性を高めた結果、胴縁の長スパン化、言い換えると補助胴縁の無用化を実現できる外壁通気工法用ラスを提供する。【解決手段】ラス網3と力骨1、2とを接合して形成したラス4に裏打ち材5を裏打ちしてなる外壁通気工法用ラス10である。力骨1、2は、横方向に間隔をあけて縦向き方向へ配置された縦力骨1と、縦方向に間隔をあけて横向き方向へ配置された横力骨2とからなる。前記縦力骨1は、上フランジ11と下フランジ12とがウエブ13を介して交互に連なる波形状に屈曲形成され、前記横力骨2は、前記縦力骨1の下フランジ12に接合されている。前記ラス網3は、前記縦力骨1に沿うように断面波形状に屈曲形成され、少なくとも縦力骨1と接合されている。前記裏打ち材5は、前記縦力骨1の下フランジ12に取り付けられている。【選択図】図2
LATH FOR OUTER WALL VENTILATION METHOD
PROBLEM TO BE SOLVED: To provide a lath for an outer wall ventilation method that can achieve a long span of a furring strip, in other words, can eliminate an auxiliary furring strip, as a result of optimizing the shape and arrangement of ribs (vertical rib, and horizontal rib) and increasing an outer-surface rigidity in a good balance.SOLUTION: A lath 10 for an outer wall ventilation method is formed by backing a backing member 5 to a lath 4 formed by joining a lath netting 3 and ribs 1, 2. The ribs 1, 2 comprise the vertical rib 1 spaced horizontally and disposed in the vertical direction, and the horizontal rib 2 spaced vertically and disposed in the horizontal direction. The vertical rib 1 is bent and formed in a wave shape where an upper flange 11 and a lower flange 12 are alternately ranged through a web 13, and the horizontal rib 2 is joined to the lower flange 12 of the vertical rib 1. The lath netting 3 is bent and formed in a cross-section wave shape so as to conform to the vertical rib 1, and is joined at least with the vertical rib 1. The backing member 5 is mounted to the lower flange 12 of the vertical rib 1.SELECTED DRAWING: Figure 2
【課題】力骨(縦力骨、横力骨)の形状および配置を最適化してバランスよく面外剛性を高めた結果、胴縁の長スパン化、言い換えると補助胴縁の無用化を実現できる外壁通気工法用ラスを提供する。【解決手段】ラス網3と力骨1、2とを接合して形成したラス4に裏打ち材5を裏打ちしてなる外壁通気工法用ラス10である。力骨1、2は、横方向に間隔をあけて縦向き方向へ配置された縦力骨1と、縦方向に間隔をあけて横向き方向へ配置された横力骨2とからなる。前記縦力骨1は、上フランジ11と下フランジ12とがウエブ13を介して交互に連なる波形状に屈曲形成され、前記横力骨2は、前記縦力骨1の下フランジ12に接合されている。前記ラス網3は、前記縦力骨1に沿うように断面波形状に屈曲形成され、少なくとも縦力骨1と接合されている。前記裏打ち材5は、前記縦力骨1の下フランジ12に取り付けられている。【選択図】図2
LATH FOR OUTER WALL VENTILATION METHOD
外壁通気工法用ラス
NISHIMURA KOHEI (Autor:in) / ISHIMARU AKIRA (Autor:in) / OKADA TADAYOSHI (Autor:in) / NAKANO MICHIO (Autor:in) / TACHI JUMPEI (Autor:in) / ABE ITSUKI (Autor:in)
24.08.2017
Patent
Elektronische Ressource
Japanisch
IPC:
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden
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