Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Locking method of mechanical bridge
The invention discloses a mechanical bridge locking method which comprises the steps that an inner sleeve (100) is provided and rotationally arranged on a fixed supporting leg (400) of a mechanical bridge in a sleeving mode, and the inner sleeve (100) can rotationally lock a movable supporting leg (500) of the mechanical bridge; an outer sleeve (200) is provided and arranged on the inner sleeve (100) in a sleeving mode, and the outer sleeve (200) can drive the inner sleeve (100) to rotate in the axial direction of the fixed supporting leg (400); and the outer sleeve (200) is driven to axially move, so that the inner sleeve (100) and the movable supporting leg (500) are mutually locked or separated from each other. An operator judges the moving position of the corresponding inner cylinder locking gear tooth through the visual axial moving distance of the outer sleeve, and does not need to judge whether the inner cylinder locking gear tooth is in place or not according to rotation of the inner sleeve, so that the operation difficulty in a load working environment is reduced, and the locking operation can be accurately and quickly completed.
本发明公开了一种机械化桥的锁止方法,所述机械化桥的锁止方法包括:提供内套筒(100)并可旋转地套设在机械化桥的固定支腿(400)上,其中,所述内套筒(100)能够旋转锁止机械化桥的活动支腿(500);提供外套筒(200)并套设在所述内套筒(100)上,其中,所述外套筒(200)沿所述固定支腿(400)的轴向移动能够带动所述内套筒(100)自旋转;驱动所述外套筒(200)轴向移动,使得所述内套筒(100)与所述活动支腿(500)相互锁止或脱离锁止。作业人员通过直观的外套筒的轴向移动距离,判断相应的内筒锁止轮齿的移动位置,而无需根据内套筒的旋转判断内筒锁止轮齿是否到位,降低了在负载工作环境下的操作难度,且能够精准快速的完成锁止作业。
Locking method of mechanical bridge
The invention discloses a mechanical bridge locking method which comprises the steps that an inner sleeve (100) is provided and rotationally arranged on a fixed supporting leg (400) of a mechanical bridge in a sleeving mode, and the inner sleeve (100) can rotationally lock a movable supporting leg (500) of the mechanical bridge; an outer sleeve (200) is provided and arranged on the inner sleeve (100) in a sleeving mode, and the outer sleeve (200) can drive the inner sleeve (100) to rotate in the axial direction of the fixed supporting leg (400); and the outer sleeve (200) is driven to axially move, so that the inner sleeve (100) and the movable supporting leg (500) are mutually locked or separated from each other. An operator judges the moving position of the corresponding inner cylinder locking gear tooth through the visual axial moving distance of the outer sleeve, and does not need to judge whether the inner cylinder locking gear tooth is in place or not according to rotation of the inner sleeve, so that the operation difficulty in a load working environment is reduced, and the locking operation can be accurately and quickly completed.
本发明公开了一种机械化桥的锁止方法,所述机械化桥的锁止方法包括:提供内套筒(100)并可旋转地套设在机械化桥的固定支腿(400)上,其中,所述内套筒(100)能够旋转锁止机械化桥的活动支腿(500);提供外套筒(200)并套设在所述内套筒(100)上,其中,所述外套筒(200)沿所述固定支腿(400)的轴向移动能够带动所述内套筒(100)自旋转;驱动所述外套筒(200)轴向移动,使得所述内套筒(100)与所述活动支腿(500)相互锁止或脱离锁止。作业人员通过直观的外套筒的轴向移动距离,判断相应的内筒锁止轮齿的移动位置,而无需根据内套筒的旋转判断内筒锁止轮齿是否到位,降低了在负载工作环境下的操作难度,且能够精准快速的完成锁止作业。
Locking method of mechanical bridge
机械化桥的锁止方法
SHE LINGJUAN (Autor:in) / FU LING (Autor:in) / XIANG SHIJIE (Autor:in) / LIU YANBIN (Autor:in) / YIN LI (Autor:in)
01.07.2022
Patent
Elektronische Ressource
Chinesisch
IPC:
E01D
BRIDGES
,
Brücken