Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses a horizontal splicing bridge, which comprises a bridge main board, and the inner surface of the bridge main board is movably connected with a splicing mechanism; the splicing mechanism comprises a hexagonal mounting frame, a supporting vibration plate is movably connected to the top of the hexagonal mounting frame, positioning rings are movably connected to the top and the bottom of the inner surface of the hexagonal mounting frame, a vibration column is movably connected to the middle of the top of each positioning ring, and a vibration ball is movably connected to the bottom of each vibration column; a V-shaped internal energy mechanism is movably connected to the bottom of the outer surface of the vibration ball, an adjusting mechanism is movably connected to the inner surface of the supporting frame plate, and an electromagnetic ellipsoid is movably connected to the side, close to the vibration ball, of the inner surface of the supporting frame plate. By means of self vibration and arc-shaped structure design, connection points between bridges are strengthened, generated vibration force is dispersed, internal dispersion is achieved, the transmission direction of vibration is changed, mutual counteracting of vibration is achieved, and protection of the connection positions of the bridges is achieved.
本发明公开了一种水平拼接桥梁,包括桥梁主板,所述桥梁主板内表面活动连接有拼接机构;所述拼接机构包括六边安装框,所述六边安装框顶部活动连接有支撑震板,所述六边安装框内表面顶部和底部活动连接有定位环,所述定位环顶部中间位置活动连接有颤柱,所述颤柱底部活动连接有颤球,所述颤球外表面底部活动连接有V型内能机构,所述支撑架板内表面活动连接有调节机构,所述支撑架板内表面靠近颤球的一侧活动连接有电磁椭球,本发明涉及桥梁技术领域。利用自身的震动和弧形结构设计,对桥梁相互之间的连接点进行强化,将其产生的震动力进行分散并实现内部分散,改变震动的传递方向,对实现震动的相互抵消,实现对桥梁连接处的的保护。
The invention discloses a horizontal splicing bridge, which comprises a bridge main board, and the inner surface of the bridge main board is movably connected with a splicing mechanism; the splicing mechanism comprises a hexagonal mounting frame, a supporting vibration plate is movably connected to the top of the hexagonal mounting frame, positioning rings are movably connected to the top and the bottom of the inner surface of the hexagonal mounting frame, a vibration column is movably connected to the middle of the top of each positioning ring, and a vibration ball is movably connected to the bottom of each vibration column; a V-shaped internal energy mechanism is movably connected to the bottom of the outer surface of the vibration ball, an adjusting mechanism is movably connected to the inner surface of the supporting frame plate, and an electromagnetic ellipsoid is movably connected to the side, close to the vibration ball, of the inner surface of the supporting frame plate. By means of self vibration and arc-shaped structure design, connection points between bridges are strengthened, generated vibration force is dispersed, internal dispersion is achieved, the transmission direction of vibration is changed, mutual counteracting of vibration is achieved, and protection of the connection positions of the bridges is achieved.
本发明公开了一种水平拼接桥梁,包括桥梁主板,所述桥梁主板内表面活动连接有拼接机构;所述拼接机构包括六边安装框,所述六边安装框顶部活动连接有支撑震板,所述六边安装框内表面顶部和底部活动连接有定位环,所述定位环顶部中间位置活动连接有颤柱,所述颤柱底部活动连接有颤球,所述颤球外表面底部活动连接有V型内能机构,所述支撑架板内表面活动连接有调节机构,所述支撑架板内表面靠近颤球的一侧活动连接有电磁椭球,本发明涉及桥梁技术领域。利用自身的震动和弧形结构设计,对桥梁相互之间的连接点进行强化,将其产生的震动力进行分散并实现内部分散,改变震动的传递方向,对实现震动的相互抵消,实现对桥梁连接处的的保护。
| Europäisches Patentamt | 2024
Width splicing structure and width splicing method of width splicing bridge
| Europäisches Patentamt | 2024