A platform for research: civil engineering, architecture and urbanism
Dredger fill consolidation drainage structure and dredger fill rapid reinforcement method
The dredger fill consolidation drainage structure comprises dredger fill layers and brick slag layers, the brick slag layers are arranged between the dredger fill layers, the dredger fill layers are formed by mixing pug and gravel, filter screen plates are arranged at one ends of the dredger fill layers and the brick slag layers, first water conveying grooves are formed in one sides of the filter screen plates, and second water conveying grooves are formed in the other sides of the filter screen plates. And a second water conveying groove is formed in one side of the brick slag layer. According to the drainage structure of the dredger fill, water in the dredger fill can be rapidly drained, the drainage rate is high, the drainage speed is high, water can be rapidly conveyed by using brick slag as a water conveying base layer, the dredger fill can be extruded, the drainage rate of the dredger fill can be improved, the solidification efficiency of the dredger fill can be improved, and the reinforcement method of the dredger fill can be used for reinforcing the dredger fill. The dredger fill and the gravel are mixed to increase gaps between dredger fill pug, the overall reinforcing speed of the dredger fill is increased, water in the dredger fill can be drained easily, and the dredger fill can be reasonably recycled.
本发明公开了一种吹填土固结排水结构及吹填土快速加固方法,包括吹填土层和砖渣层,每层吹填土层之间设有砖渣层,吹填土层由泥料和碎石混合构成,吹填土层和砖渣层的一端均设有过滤网板,过滤网板的一侧设有第一输水槽,砖渣层的一侧设有第二输水槽。该吹填土的排水结构可以快速将吹填土内的水进行排出,而且排水率高,排水速度快,利用砖渣作为输水基层可以快速进行输水,而且还能对吹填土进行挤压,提高吹填土的排水率,该吹填土的加固方法可以提高吹填土的固化效率,让吹填土与碎石混合增加吹填土泥料之间的间隙,不仅提高了吹填土的整体加固速度,也有利于吹填土内水的排出,让吹填土能合理再利用。
Dredger fill consolidation drainage structure and dredger fill rapid reinforcement method
The dredger fill consolidation drainage structure comprises dredger fill layers and brick slag layers, the brick slag layers are arranged between the dredger fill layers, the dredger fill layers are formed by mixing pug and gravel, filter screen plates are arranged at one ends of the dredger fill layers and the brick slag layers, first water conveying grooves are formed in one sides of the filter screen plates, and second water conveying grooves are formed in the other sides of the filter screen plates. And a second water conveying groove is formed in one side of the brick slag layer. According to the drainage structure of the dredger fill, water in the dredger fill can be rapidly drained, the drainage rate is high, the drainage speed is high, water can be rapidly conveyed by using brick slag as a water conveying base layer, the dredger fill can be extruded, the drainage rate of the dredger fill can be improved, the solidification efficiency of the dredger fill can be improved, and the reinforcement method of the dredger fill can be used for reinforcing the dredger fill. The dredger fill and the gravel are mixed to increase gaps between dredger fill pug, the overall reinforcing speed of the dredger fill is increased, water in the dredger fill can be drained easily, and the dredger fill can be reasonably recycled.
本发明公开了一种吹填土固结排水结构及吹填土快速加固方法,包括吹填土层和砖渣层,每层吹填土层之间设有砖渣层,吹填土层由泥料和碎石混合构成,吹填土层和砖渣层的一端均设有过滤网板,过滤网板的一侧设有第一输水槽,砖渣层的一侧设有第二输水槽。该吹填土的排水结构可以快速将吹填土内的水进行排出,而且排水率高,排水速度快,利用砖渣作为输水基层可以快速进行输水,而且还能对吹填土进行挤压,提高吹填土的排水率,该吹填土的加固方法可以提高吹填土的固化效率,让吹填土与碎石混合增加吹填土泥料之间的间隙,不仅提高了吹填土的整体加固速度,也有利于吹填土内水的排出,让吹填土能合理再利用。
Dredger fill consolidation drainage structure and dredger fill rapid reinforcement method
一种吹填土固结排水结构及吹填土快速加固方法
FENG RILI (author) / CHEN ZHAOKUN (author) / LIU QUAN (author) / ZHOU JINXUE (author) / LIU XIUJU (author) / WANG XIAOLING (author) / ZHU JIAN (author)
2023-06-27
Patent
Electronic Resource
Chinese
Vacuum electroosmosis combined electrode for dredger fill consolidation
European Patent Office | 2021
|Engineering Index Backfile | 1931
|Screening and loading platform for dredger fill of cutter suction dredger
European Patent Office | 2024
|Study on Consolidation Test for Fresh Soft Dredger Fill
British Library Conference Proceedings | 2014
|