A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
REINFORCEMENT STRUCTURE OF FERROUS CASTING SHOE GROUP
PROBLEM TO BE SOLVED: To realize a reinforcement structure of a ferrous casting shoe group capable of further easily reinforcing a plurality of ferrous casting shoes.SOLUTION: In a reinforcement structure 100 of a cast-iron shoe group configured to group a plurality of cast-iron shoes 30 by installing a horizontal force transmission body 60 and an energization mechanism 70 in the plurality of cast-iron shoes 30 so as to collectively reinforce the plurality of cast-iron shoes 30, inertial force of a main girder 20 acting on a side block 31 of one place via a soleplate 40 is transmitted to an adjacent cast-iron shoe 30 via the horizontal force transmission body 60, or is transmitted to an opposite side cast-iron shoe 30 via the energization mechanism 70, so that its inertial force can be dispersed to the whole cast-iron shoes 30, and the side block 31 of an individual cast-iron shoe 30 can be prevented from being disrupted.SELECTED DRAWING: Figure 1
【課題】より簡便に複数の鉄系鋳物製沓を補強することができる鉄系鋳物製沓群の補強構造を実現する。【解決手段】複数の鋳鉄沓30を一括して補強するように、複数の鋳鉄沓30に水平力伝達体60と付勢機構70を取り付けて、複数の鋳鉄沓30を一群化した鋳鉄沓群の補強構造100であれば、一箇所のサイドブロック31にソールプレート40を介して作用した主桁20の慣性力は、水平力伝達体60を通じて隣の鋳鉄沓30に伝達されたり、付勢機構70を通じて反対側の鋳鉄沓30に伝達されたりすることで、その慣性力を全ての鋳鉄沓30に分散させることができ、個々の鋳鉄沓30のサイドブロック31が破壊されるのを防止することができる。【選択図】図1
REINFORCEMENT STRUCTURE OF FERROUS CASTING SHOE GROUP
PROBLEM TO BE SOLVED: To realize a reinforcement structure of a ferrous casting shoe group capable of further easily reinforcing a plurality of ferrous casting shoes.SOLUTION: In a reinforcement structure 100 of a cast-iron shoe group configured to group a plurality of cast-iron shoes 30 by installing a horizontal force transmission body 60 and an energization mechanism 70 in the plurality of cast-iron shoes 30 so as to collectively reinforce the plurality of cast-iron shoes 30, inertial force of a main girder 20 acting on a side block 31 of one place via a soleplate 40 is transmitted to an adjacent cast-iron shoe 30 via the horizontal force transmission body 60, or is transmitted to an opposite side cast-iron shoe 30 via the energization mechanism 70, so that its inertial force can be dispersed to the whole cast-iron shoes 30, and the side block 31 of an individual cast-iron shoe 30 can be prevented from being disrupted.SELECTED DRAWING: Figure 1
【課題】より簡便に複数の鉄系鋳物製沓を補強することができる鉄系鋳物製沓群の補強構造を実現する。【解決手段】複数の鋳鉄沓30を一括して補強するように、複数の鋳鉄沓30に水平力伝達体60と付勢機構70を取り付けて、複数の鋳鉄沓30を一群化した鋳鉄沓群の補強構造100であれば、一箇所のサイドブロック31にソールプレート40を介して作用した主桁20の慣性力は、水平力伝達体60を通じて隣の鋳鉄沓30に伝達されたり、付勢機構70を通じて反対側の鋳鉄沓30に伝達されたりすることで、その慣性力を全ての鋳鉄沓30に分散させることができ、個々の鋳鉄沓30のサイドブロック31が破壊されるのを防止することができる。【選択図】図1
REINFORCEMENT STRUCTURE OF FERROUS CASTING SHOE GROUP
鉄系鋳物製沓群の補強構造
KOBAYASHI KAORU (author)
2017-05-18
Patent
Electronic Resource
Japanese
IPC:
E01D
BRIDGES
,
Brücken
| British Library Conference Proceedings | 1999
| Online Contents | 1998