Power Calculation of Anti-Driveaway Crane Device from Eccentric and Wedge Mechanisms

Science & Technique Pub Date : 2023-04-06 DOI:10.21122/2227-1031-2023-22-2-113-118

N. M. Selivonchik, N. L. Nesterenko

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Abstract

To carry out a power calculation of the anti-driveaway device (AD) of lifting cranes operating in the open air, it is necessary to know the conditions that ensure their reliable stop and fixation on rails, as well as kinematic parameters, namely, the speed and acceleration of cranes when they move along the rails under the influence of the wind force. The considered AD for stopping cranes driven away by the force of the wind uses a tong gripper driven by an eccentric mechanism.The paper presents the calculation of the forces arising during the operation of the tong gripper, considering the possibilities of various types of friction on the contact surfaces both in the absence of lubrication and in its presence. The calculations of the eccentric mechanism as one of the fundamental mechanisms of the anti-driveaway crane device are presented in the paper. The stronger the wind force, the more due to the kinematic connection of the two mechanisms, when turning the eccentric mechanism, the pressure of the tong mechanism increases on the side faces of the head of the crane rail. The constructive solution of the AD excludes any actions of the personnel and makes it automatic.

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偏心与楔形机构反自行式起重机的功率计算

为了对露天起重起重机防漂移装置(AD)进行功率计算，需要知道保证其可靠停止并固定在轨道上的条件，以及运动学参数，即起重机在风力的影响下沿轨道运动时的速度和加速度。所考虑的用于阻止被风吹走的起重机的AD使用一个由偏心机构驱动的长抓手。考虑到在无润滑和有润滑的情况下接触面上各种摩擦的可能性，本文给出了钳爪在工作过程中产生的力的计算。本文介绍了作为反自行式起重机基本机构之一的偏心机构的计算。风力越强，由于两机构的运动连接越多，在转动偏心机构时，吊车导轨头部侧面上的钳机构压力增大。AD的建设性解决方案排除了人员的任何行为，使其自动化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Science & Technique

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