A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention discloses a bridge drainage channel, and particularly relates to the field of bridge drainage. The bridge drainage channel comprises an arc-shaped bridge supporting mechanism, the two sides of the arc-shaped bridge supporting mechanism are both fixedly provided with a side-arranged bridge water diversion outer frame through bolts, and the side-arranged bridge water diversion outer frame is internally and fixedly provided with a bridge accumulated water drainage mechanism through bolts; the laterally-arranged bridge water diversion outer frame comprises a first arc-shaped water diversion frame body, a second arc-shaped water diversion frame body is fixedly installed on one side of the first arc-shaped water diversion frame body, and communicating type laterally-arranged waterdiversion transverse grooves are formed in the outer wall of the first arc-shaped water diversion frame body and the outer wall of the second arc-shaped water diversion frame body. By arranging the bridge accumulated water drainage mechanism, water flow scours an inner cavity of the semicircular drainage groove when moving so that the semicircular drainage cover drives the arc-shaped suspension supporting rod to rotate, the flow speed of the water flow is increased, and the bridge drainage efficiency is relatively improved.
本发明公开了一种桥梁排水槽,具体涉及桥梁排水领域,包括弧形桥梁支撑机构,弧形桥梁支撑机构的两侧均通过螺栓固定安装有侧置型桥梁引水外框架,侧置型桥梁引水外框架的内部通过螺栓固定安装有桥梁积水引流机构;侧置型桥梁引水外框架包括第一弧形引水框架,第一弧形引水框架的一侧固定安装有第二弧形引水框架,第一弧形引水框架与第二弧形引水框架的外壁均开设有连通型侧置引水横槽。本发明通过设置了桥梁积水引流机构,水流在移动时冲刷在半圆形排水槽的内腔,使得半圆形排水罩带动弧形悬置支撑杆进行旋转,从而提升水流的流速,相对提升了桥梁排水的效率。
The invention discloses a bridge drainage channel, and particularly relates to the field of bridge drainage. The bridge drainage channel comprises an arc-shaped bridge supporting mechanism, the two sides of the arc-shaped bridge supporting mechanism are both fixedly provided with a side-arranged bridge water diversion outer frame through bolts, and the side-arranged bridge water diversion outer frame is internally and fixedly provided with a bridge accumulated water drainage mechanism through bolts; the laterally-arranged bridge water diversion outer frame comprises a first arc-shaped water diversion frame body, a second arc-shaped water diversion frame body is fixedly installed on one side of the first arc-shaped water diversion frame body, and communicating type laterally-arranged waterdiversion transverse grooves are formed in the outer wall of the first arc-shaped water diversion frame body and the outer wall of the second arc-shaped water diversion frame body. By arranging the bridge accumulated water drainage mechanism, water flow scours an inner cavity of the semicircular drainage groove when moving so that the semicircular drainage cover drives the arc-shaped suspension supporting rod to rotate, the flow speed of the water flow is increased, and the bridge drainage efficiency is relatively improved.
本发明公开了一种桥梁排水槽,具体涉及桥梁排水领域,包括弧形桥梁支撑机构,弧形桥梁支撑机构的两侧均通过螺栓固定安装有侧置型桥梁引水外框架,侧置型桥梁引水外框架的内部通过螺栓固定安装有桥梁积水引流机构;侧置型桥梁引水外框架包括第一弧形引水框架,第一弧形引水框架的一侧固定安装有第二弧形引水框架,第一弧形引水框架与第二弧形引水框架的外壁均开设有连通型侧置引水横槽。本发明通过设置了桥梁积水引流机构,水流在移动时冲刷在半圆形排水槽的内腔,使得半圆形排水罩带动弧形悬置支撑杆进行旋转,从而提升水流的流速,相对提升了桥梁排水的效率。