Design Concept of a Crankshaft for Reduction of Main Bearings Power Losses and a Deep Skirt Engine Block Load

机译：减少主轴承功率损失和深裙边发动机缸体负荷的曲轴设计概念

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This paper presents a method for effective design of the crankshaft counterweights with respect to the engine block load due to inertia effects of the crank train rotating parts. The method finds the relationship between internal product moments of inertia of the crank train and the middle main bearing load, since the middle main bearing area can be highly affected by the dynamic effects especially when the engine operating speed is high. In order to investigate the dynamic response of the excited crank train, a computational model based on Multi-Body System is used. The simulation model contains modally reduced flexible bodies and hydrodynamic submodels of main and crank bearings. Described methodology is applied to an innovative design concept of a crankshaft with reduced main bearing power losses and an engine block load.

机译：本文提出了一种由于曲轴旋转部件的惯性效应而针对发动机缸体负载有效设计曲轴配重的方法。该方法找到了曲轴系的内部产品惯性矩与中间主轴承负载之间的关系，因为中间主轴承区域会受到动态影响，特别是在发动机工作速度较高时，会受到很大的影响。为了研究激振曲轴系的动力响应，使用了基于多车身系统的计算模型。该模拟模型包含主轴承和曲柄轴承的模态减小的柔性体以及流体动力学子模型。所描述的方法应用于具有减少的主轴承功率损失和发动机缸体负载的曲轴的创新设计概念。

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《International Conference on Mechatronics - Mechatronika》|2018年|1-4|共4页
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Lubomír Drápal; Jan Vopařil;
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Engines; Force; Load modeling; Vehicle dynamics; Computational modeling; Solid modeling; Hydrodynamics;

机译：引擎;力;负载建模;车辆动力学;计算建模;实体建模;水动力学;

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1. Dynamics and Lubrication Problem Analysis of Main Bearings for IC Engines Based on Coupling between a Crankshaft and a Flexible Whole Engine Block [J] . Y. Rozhdestvensky, N. Khozeniuk, S. Surovtsev Tribology in Industry . 2018,第1期

机译：基于曲轴与挠性整机联轴器的内燃机发动机主轴承动力学与润滑问题分析
2. An EHD-mixed lubrication analysis of main bearings for diesel engine based on coupling between flexible whole engine block and crankshaft [J] . Wei Lidui, Wei Haijun, Duan Shulin, Industrial Lubrication and Tribology . 2015,第2期

机译：基于柔性整体发动机缸体与曲轴耦合的柴油机主轴承EHD混合润滑分析
3. LOADING SPECTRUM AND WEAR PARAMETERS OF THE ENGINE CRANKSHAFT MAIN BEARINGS [J] . A. D. Nazarov Russian engineering research . 2003,第5期

机译：发动机曲轴主轴承的载荷谱和磨损参数
4. Design Concept of a Crankshaft for Reduction of Main Bearings Power Losses and a Deep Skirt Engine Block Load [C] . Lubomír Drápal, Jan Vopa?il International Conference on Mechatronics - Mechatronika . 2018

机译：用于减少主要轴承电源损耗的曲轴的设计概念和深裙引擎块负载
5. Detailed main bearing hydrodynamic characteristics for crankshaft-block dynamic interaction in internal combustion engines. [D] . Ebrat, Omidreza. 2002

机译：详细的主轴承流体动力特性，用于内燃机中的曲轴箱动态相互作用。
6. Lung stress strain and energy load: engineering concepts to understand the mechanism of ventilator-induced lung injury (VILI) [O] . Gary F. Nieman, Joshua Satalin, Penny Andrews, 2016

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7. Identification Of Damages Of Tribological Associations In Crankshaft And Piston Systems Of Two-Stroke Internal Combustion Engines Used As Main Propulsion In Sea-Going Vessels And Proposal Of Probabilistic Description Of Loads As Causes Of These Damages [O] . Girtler Jerzy 2015

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8. IN-LINE AIRCRAFT-ENGINE BEARING LOADS III - MAIN-BEARING LOADS [R] . Milton C. Shaw, E. Fred Macks 1947

机译：直列式飞机发动机轴承负载III - 主轴承载荷

Design Concept of a Crankshaft for Reduction of Main Bearings Power Losses and a Deep Skirt Engine Block Load

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