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A platform for research: civil engineering, architecture and urbanism
Anti-collision drainage device suitable for bank slope type wharf in high-incidence debris flow disaster area
The invention belongs to the field of bank slope wharfs in high-incidence debris flow areas, and particularly relates to an anti-collision drainage device suitable for a bank slope wharf in a high-incidence debris flow disaster area. The device comprises a drainage groove, a low-water-level platform, a lap joint platform A, a high-water-level platform A, a hydraulic cylinder and a high-water-level platform B, wherein the drainage groove formed in the mountain slope is located in the center position under the low-water-level platform, the lap joint platform A, the high-water-level platform A and the high-water-level platform B. When the flow is larger than the maximum design flow of the drainage groove, the high-water-level platform B can avoid the debris flow which overflows and flows downwards, so that the situation that the wharf composed of the low-water-level platform, the lap joint platform A, the high-water-level platform A and the high-water-level platform B hinders the debris flow and is damaged is avoided.
本发明属于泥石流高发区岸坡码头领域,尤其涉及一种适用于高发泥石流灾害地区岸坡式码头的防冲撞引流装置,它包括排导槽、低水位平台、搭接台A、高水位平台A、液压缸、高水位平台B,其中设在山体斜坡的排导槽位于低水位平台、搭接台A、高水位平台A及高水位平台B的正下方中心位置;本发明中的高水位平台B在流量大于排导槽最大设计流量时可以对溢出下流的泥石流形成避让,避免由低水位平台、搭接台A、高水位平台A和高水位平台B组成的码头因其对泥石流形成阻碍而发生损坏。
Anti-collision drainage device suitable for bank slope type wharf in high-incidence debris flow disaster area
The invention belongs to the field of bank slope wharfs in high-incidence debris flow areas, and particularly relates to an anti-collision drainage device suitable for a bank slope wharf in a high-incidence debris flow disaster area. The device comprises a drainage groove, a low-water-level platform, a lap joint platform A, a high-water-level platform A, a hydraulic cylinder and a high-water-level platform B, wherein the drainage groove formed in the mountain slope is located in the center position under the low-water-level platform, the lap joint platform A, the high-water-level platform A and the high-water-level platform B. When the flow is larger than the maximum design flow of the drainage groove, the high-water-level platform B can avoid the debris flow which overflows and flows downwards, so that the situation that the wharf composed of the low-water-level platform, the lap joint platform A, the high-water-level platform A and the high-water-level platform B hinders the debris flow and is damaged is avoided.
本发明属于泥石流高发区岸坡码头领域,尤其涉及一种适用于高发泥石流灾害地区岸坡式码头的防冲撞引流装置,它包括排导槽、低水位平台、搭接台A、高水位平台A、液压缸、高水位平台B,其中设在山体斜坡的排导槽位于低水位平台、搭接台A、高水位平台A及高水位平台B的正下方中心位置;本发明中的高水位平台B在流量大于排导槽最大设计流量时可以对溢出下流的泥石流形成避让,避免由低水位平台、搭接台A、高水位平台A和高水位平台B组成的码头因其对泥石流形成阻碍而发生损坏。
Anti-collision drainage device suitable for bank slope type wharf in high-incidence debris flow disaster area
一种适用于高发泥石流灾害地区岸坡式码头的防冲撞引流装置
ZHU PENG (author) / HUANG HUA (author) / MEI LONGXI (author) / ZENG ZHANGBO (author) / FANG HUOLANG (author) / PEI ZHIYONG (author) / TANG YIJIA (author) / LIU PUJUN (author) / YANG QUAN (author) / DONG MINGMING (author)
2022-01-18
Patent
Electronic Resource
Chinese
| European Patent Office | 2023
Anti-impact drainage equipment for wharf in potential area with high incidence of debris flow
| European Patent Office | 2022