Basics of Calculating Anti-Theft Crane Device from Eccentric and Tick-Borne Mechanisms

IF 0.3 Q4 ENGINEERING, MULTIDISCIPLINARY

Science & Technique Pub Date : 2021-07-19 DOI:10.21122/2227-1031-2021-20-4-296-301

N. M. Selivonchik, N. L. Nesterenko

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引用次数: 1

Abstract

According to the requirements of the “Rules for industrial safety of cranes”, anti-theft devices must ensure that cranes under the influence of wind force stop at any point on the track, including at the junction of rails connected by side strips. Various types of anti-theft crane devices recommended for use have a number of disadvantages. Thus, the supply of anti-theft crane devices made in the form of lever grips interacting with the rail head with mechanisms for disengaging and converging grippers with electromechanical, electromagnetic, hydraulic or pneumatic drives complicates their design. There are also known anti-theft crane devices, in which the stopping of cranes on a rail track is carried out by a locking eccentric interacting with the surface of the rail head. The reliability of such devices is insufficient, since, due to the constant force of the spring, the adhesion force of the eccentric to the rail does not depend on the changing wind force. The paper proposes the basics of calculating the anti-theft crane device, representing the kinematic connection of two mechanisms – eccentric and thick-borne, which allows to solve a number of the above problems.

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从偏心和抽动机构计算防盗起重机装置的基础

根据《起重机工业安全规程》的要求，防盗装置必须保证起重机在风力影响下在轨道上的任何点停车，包括在由侧带连接的轨道交界处。推荐使用的各种类型的防盗起重机装置都有一些缺点。因此，以杠杆抓手的形式制造的防盗起重机设备与轨道头相互作用，并具有机电，电磁，液压或气动驱动的分离和聚合抓手的机构，使其设计复杂化。也有已知的防盗起重机装置，其中起重机在轨道上的停止是通过与轨道头表面相互作用的锁定偏心来实现的。这种装置的可靠性是不够的，因为，由于弹簧的恒定力，偏心对轨道的附着力不取决于风力的变化。本文提出了防盗起重机装置的计算基础，表示偏心和厚载两种机构的运动连接，从而可以解决上述一些问题。

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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来源期刊

Science & Technique ENGINEERING, MULTIDISCIPLINARY-

自引率

50.00%

发文量

审稿时长

8 weeks