Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
SLIDE BASE ISOLATION MECHANISM
PROBLEM TO BE SOLVED: To provide a slide base isolation mechanism capable of reducing an amount of steel material, weight of steel material, setting a high friction coefficient and making stable side surface friction.SOLUTION: A slider element 23 is formed in such a way that upper side guides 30 protruding upward are installed at each of both sides of an upper surface and lower side guides 31 protruding downward are installed at each of both sides of a lower surface. Then, an upper shoe 21 is engaged between a pair of upper side guides 30 and a lower shoe 22 is engaged between a pair of lower side guides 31 and the slider element 23 is placed between the upper shoe 21 and the lower shoe 22. In addition, a resilient body and a slide material are arranged in this order from inner surfaces 33, 35 of the upper side guides 30 and the lower side guides 31 are arranged between the inner surface 33 of the upper side guides 30 and a side surface 32 of the upper shoe 21, and between the inner surface 35 of the lower side guides 31 and a side surface 34 of the lower shoe 22, respectively.SELECTED DRAWING: Figure 1
【課題】鋼材量、重量の削減、高摩擦係数化、側面摩擦の安定化を図ることが可能な滑り免震機構を提供する。【解決手段】摺動子23は、上面側の両側部側にそれぞれ、上方に突出する上側側部ガイド30を設け、下面側の両側部側にそれぞれ、下方に突出する下側側部ガイド31を設けて形成する。そして、一対の上側側部ガイド30の間に上沓21を係合させ、一対の下側側部ガイド31の間に下沓22を係合させて上沓21と下沓22の間に摺動子23を介装する。また、上側側部ガイド30の内面33と上沓21の側面32の間、及び下側側部ガイド31の内面35と下沓22の側面34の間にそれぞれ、上側側部ガイド30と下側側部ガイド31の内面33、35側から順に弾性体、滑り材を設ける。【選択図】図1
SLIDE BASE ISOLATION MECHANISM
PROBLEM TO BE SOLVED: To provide a slide base isolation mechanism capable of reducing an amount of steel material, weight of steel material, setting a high friction coefficient and making stable side surface friction.SOLUTION: A slider element 23 is formed in such a way that upper side guides 30 protruding upward are installed at each of both sides of an upper surface and lower side guides 31 protruding downward are installed at each of both sides of a lower surface. Then, an upper shoe 21 is engaged between a pair of upper side guides 30 and a lower shoe 22 is engaged between a pair of lower side guides 31 and the slider element 23 is placed between the upper shoe 21 and the lower shoe 22. In addition, a resilient body and a slide material are arranged in this order from inner surfaces 33, 35 of the upper side guides 30 and the lower side guides 31 are arranged between the inner surface 33 of the upper side guides 30 and a side surface 32 of the upper shoe 21, and between the inner surface 35 of the lower side guides 31 and a side surface 34 of the lower shoe 22, respectively.SELECTED DRAWING: Figure 1
【課題】鋼材量、重量の削減、高摩擦係数化、側面摩擦の安定化を図ることが可能な滑り免震機構を提供する。【解決手段】摺動子23は、上面側の両側部側にそれぞれ、上方に突出する上側側部ガイド30を設け、下面側の両側部側にそれぞれ、下方に突出する下側側部ガイド31を設けて形成する。そして、一対の上側側部ガイド30の間に上沓21を係合させ、一対の下側側部ガイド31の間に下沓22を係合させて上沓21と下沓22の間に摺動子23を介装する。また、上側側部ガイド30の内面33と上沓21の側面32の間、及び下側側部ガイド31の内面35と下沓22の側面34の間にそれぞれ、上側側部ガイド30と下側側部ガイド31の内面33、35側から順に弾性体、滑り材を設ける。【選択図】図1
SLIDE BASE ISOLATION MECHANISM
滑り免震機構
HAMA TOMOKI (Autor:in) / KITAMURA YOSHIHISA (Autor:in)
22.03.2016
Patent
Elektronische Ressource
Japanisch
SLIDE BASE ISOLATION MECHANISM AND CONSTRUCTION METHOD FOR THE SLIDE BASE ISOLATION MECHANISM
| Europäisches Patentamt | 2016