现代制造工程Issue(1):87-94,8.DOI:10.16731/j.cnki.1671-3133.2026.01.010
一体化滑片式电动空气泵牵连运动分析与优化
Implicated motion analysis and optimization for integrated sliding vane electric air pump
摘要
Abstract
Aiming at the problems such as complex structure and low power transmission efficiency existing in the traditional high-pressure air supply system of vehicle air suspension,structurally integrated sliding vane electric air pump technology is proposed.By integrating the drive motor and the sliding vane air pump in the design,the direct conversion of electrical energy into pneumatic energy is realized,thus forming a new type of efficient and compact electric air pump.The modeling and kinematic characterization of the implicated motion of the articulated sliding vane has been carried out by means of the ADAMS software platform.The results show that,the articulated sliding vane's centroid exhibits simple harmonic motion in radial displacement var-iation,tracing an elliptical trajectory.Its velocity and acceleration demonstrate sinusoidal variation patterns,with particularly pro-nounced fluctuations during the initial phase.Optimizing the spherical joint dimensions of the articulated sliding vane and the dis-tance between the sliding vane's spherical joint and the pump outer rotor center improves system performance.Under steady-state motor operation,the 1.7 mm spherical joint radius reduces angular acceleration by 60.00%compared to the 1.6 mm baseline,while a radius of 1.8 mm achieves a 99.97%reduction.Within the selectable range,a larger spherical joint of the articulated sliding vane increases the stability of the implicated motion system.A greater distance between the articulated sliding vane's spherical joint and the pump outer rotor center enhances motion stability within its allowable range.关键词
滑片式空气泵/集成设计/牵连运动/铰接滑片/优化Key words
sliding vane air pump/integrated design/implicated motion/articulated sliding vane/optimization分类
交通工程引用本文复制引用
付姗姗,鲁力群,谢欣妤,张璨,耿文鹏,柏鑫..一体化滑片式电动空气泵牵连运动分析与优化[J].现代制造工程,2026,(1):87-94,8.基金项目
中央引导地方科技发展专项基金项目(YDZX2023086) (YDZX2023086)
山东省重点研发计划(竞争性创新平台)项目(2024CXPT094) (竞争性创新平台)
