锻压技术

含运动副间隙的压力机动力学研究

英文标题：

单位：（1.江苏大学机械工程学院江苏镇江 212013 2.江苏兴锻智能装备科技有限公司江苏溧阳 213300）

分类号：TG315

出版年,卷(期):页码：2024,49(2):189-194

摘要：

针对压力机运转时因存在间隙导致的冲击碰撞和运动副磨损等问题，以肘节式压力机为研究对象，基于Recurdyn虚拟仿真技术，借助LN非线性弹簧阻尼模型与修正的库仑摩擦力，建立了间隙理论模型并对含间隙的肘节式压力机进行仿真分析。探究了间隙大小、曲轴转速、恢复系数和双间隙对机构的动力学响应，并通过改变杆件质心位置来减缓冲击振动。结果表明：曲轴转速和间隙越大，机构的振荡幅值越大，恢复系数的逐渐增大也会导致运动副间隙产生较大冲击，在双间隙情况下，越靠近动力源头处所受到的冲击振动越大，调整连杆质心位置可减缓压力机自身结构带来的非平衡力的影响。

For the problems of impact collision and kinematic pair wear caused by the existence of clearance when the press was running, for the toggle press, based on the Recurdyn virtual simulation technology, by the L-N nonlinear spring damping model and the modified coulomb friction force, a clearance theoretical model was established, and the toggle press with clearance was simulated and analyzed. Then, the dynamic response of clearance size, crankshaft speed, restitution factor and double clearance to the mechanism was regearched, and according to the position change of mass center for rod to slow down the impact vibration. The results show that the larger the crankshaft speed and clearance, the larger the oscillation amplitude of the mechanism. The gradual increase of recovery factor also leads to a greater impact on the clearance of moving pair. In the case of double clearance, the closer to the power source, the greater the impact vibration. Adjusting the position of mass center for connecting rod can reduce the influence of unbalanced force caused by the structure of press itself.

基金项目：

作者简介：袁浩（1974-），男，博士，副教授，研究生导师

参考文献：

［1］侯旭睿.含间隙平面四连杆机构动力学分析与仿真
［D］.天津:天津工业大学,2022.

Hou X R. Dynamic Analysis and Simulation of Fourlink Mechanism with Clearance
［D］.Tianjin:Tiangong University,2022.

［2］蔡京成.含间隙多连杆机械压力机机构的动力学建模与分析
［D］.青岛:山东科技大学,2021.

Cai J C.Dynamics Modeling and Analysis of Multilink Mechanical Press Mechanism with Clearance
［D］. Qingdao:Shandong University of Science and Technology,2021.

［3］白争锋.含间隙机构接触碰撞动力学研究
［D］.哈尔滨:哈尔滨工业大学,2009.

Bai Z F. Study on Contact Dynamics of Mechanism with Clearance
［D］.Harbin:Harbin Institute of Technology,2009.

［4］王旭鹏.含间隙铰链机构非线性接触力和碰撞动力学研究
［D］.西安:西北工业大学,2018.

Wang X P.Research on Nonlinear Contact Forces and Impact Dynamics of Mechanism with Clearance Joints
［D］. Xi′an:Northwestern Polytechnical University,2018.

［5］易敏.考虑转动副间隙曲柄滑块机构动力学仿真与可靠性分析
［D］.武汉:华中科技大学,2018.

Yi M. Dynamic Modeling, Simulation and Reliable Analysis of Slidercrank with Revolute Clearance Joints
［D］.Wuhan:Huazhong University of Science and Technology,2018.

［6］金国光,侯旭睿,魏展,等.考虑运动副间隙的平面连杆机构动力学分析
［J］.机械传动, 2022,46(9): 59-66.

Jin G G,Hou X R,Wei Z,et al.Dynamic analysis of planar linkage mechanism considering the clearance of kinematic pair
［J］. Journal of Mechanical Transmission, 2022,46(9): 59-66.

［7］李杭.含间隙多连杆机械压力机机构的刚柔耦合动力学建模与分析
［D］.青岛:山东科技大学,2021.

Li H.Modeling and Analysis of Rigid Flexible Coupling Dynamics of Multilink Mechanical Press with Clearance
［D］.Qingdao:Shandong University of Science and Technology,2021.

［8］张佳楫.含间隙机构运动副动力学模型研究
［D］.西安:西安电子科技大学,2007.

Zhang J J.On Dynamic Modeling of Mechanical Pair Clearance
［D］.Xi′an:Xidian University,2007.

［9］姜岸委.考虑多运动副间隙的多杆机构运动学分析
［D］. 长沙:长沙理工大,2021.

Jiang A W.Kinematic Analysis of a Multibar Mechanism Considering Multiple Motion Pair Clearances
［D］. Changsha:Changsha University of Science & Technology,2021.

［10］张宏阁.混合运动副间隙对六杆机构动力学特性的影响
［J］.机械科学与技术, 2020,39(6):852-857.

Zhang H G. Effects of mixed joint clearances on dynamic characteristic of sixbar mechanism
［J］.Mechanical Science and Technology for Aerospace Engineering, 2020,39(6):852-857.

［11］Meaghed S M，Haroun A F.Analysis of the dynamic behavioral performance of mechanical systems with multiclearance joints
［J］.Journal of Computational and Nonlinear Dynamics, 2012:7(1):011002.

［12］Rahmanian S,Ghazavi M R.Bifurcation in planar slidercrank mechanism with revolute clearance joint
［J］. Mechanism and Machine Theory, 2015,91: 86-101.

［13］Erkaya S,Uzmay I.Experimental investigation of joint clearance effects on the dynamics of a slidercrank mechanism
［J］.Multibody System Dynamics, 2010, 24(1): 81-102.

［14］Gummer A,Sauer B.Modeling planar slidercrank mechanisms with clearance joints in recurdyn
［J］. Multibody System Dynamics，2012,31(2): 127-145.

［15］Olyaei A A,Ghazavi M R.Stabilizing slidercrank mechanism with clearance joints
［J］. Mechanism and Machine Theory, 2012, 53: 17-29.

［16］Tan H Y,Hu Y J,Li L.A continuous analysis method of planar rigidbody mechanical systems with two revolute clearance joints
［J］.Multibody System Dynamics,2016,40(4):347-373.

［17］Zheng X D,Li J,Wang Q,et al.A methodology for modeling and simulating frictional translational clearance joint in multibody systems including a flexible slider part
［J］.Mechanism and Machine Theory,2019,142:103603

［18］Chen Y,Feng J,Peng X,et al.An Approach for Dynamic Analysis of Planar Multibody Systems with Revolute Clearance Joints
［J］. Engineering with Computers, 2020, 37:2159-2172.

服务与反馈：

【文章下载】【加入收藏】