STUDYING THE OPERATION OF THE PNEUMOHYDRAULIC SHOCK ABSORBER WITH ZERO BOTTOMING IN THE SUSPENSION OF A TRANSPORT AND HANDLING MACHINE

Q1 Engineering

Architecture and Engineering Pub Date : 2023-03-31 DOI:10.23968/2500-0055-2023-8-1-82-87

S. Repin, I. Vorontsov, D. Orlov, R. Litvin

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Abstract

Introduction: The movement smoothness of transport and handling machines (THM) (excavators, cranes, road maintenance equipment, etc.) on a vehicle chassis significantly affects their durability as a result of the large weight of equipment and uneven load distribution along the axes of the base chassis, which causes heavy dynamic loads when moving along roads with imperfect pavement. However, THM often have to move along those very roads. Purpose of the study: We aimed to increase the movement smoothness of THM on a vehicle chassis by using a shock absorber of new design as the main vehicle undercarriage suspension element. Methods: The hydropneumatic shock absorber is considered the most common. The principle of its operation is based on hydraulic resistance that occurs when the piston with the rod move in a space filled with oil, while the gas in the closed part is compacted, compensating for changes in the internal volume. Most often, the main disadvantage related to the operation of hydropneumatic shock absorbers (HPSA) is the probability of bottoming when hitting a barrier (obstacle), which results in dynamic loads reducing the service life of the vehicle and the parts of the shock absorber. Results: The paper describes a new shock absorber design ruling out bottoming, provides a mathematical model of its elastic response, and presents the results of modeling in Mathcad, confirming the operability of the device.

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零底气液减振器在搬运机械悬架中的工作研究

简介:运输搬运机械(THM)(挖掘机、起重机、道路养护设备等)在车辆底盘上的运动平稳性对其耐久性影响很大，因为设备重量大，载荷沿基础底盘轴线分布不均匀，在路面不完善的道路上行驶时，会产生较大的动载荷。然而，THM经常不得不沿着这些道路移动。研究目的:我们的目的是通过使用新设计的减振器作为主要的车辆底盘悬挂元件来增加THM在车辆底盘上的运动平稳性。方法:液压-气动减振器是最常用的减振器。其工作原理是基于当活塞与杆在充满油的空间中运动时产生的液压阻力，而封闭部分的气体被压缩，补偿了内部体积的变化。大多数情况下，与液压-气动减震器(HPSA)操作相关的主要缺点是在撞击障碍物(障碍物)时可能会触底，从而导致动载荷降低车辆和减震器部件的使用寿命。结果:本文描述了一种新的排除触底的减振器设计，给出了其弹性响应的数学模型，并给出了在Mathcad中建模的结果，证实了该装置的可操作性。

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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