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行星排式混合动力汽车传动系扭转振动分析 被引量:18

Torsional vibration analysis of planetary hybrid electric vehicle driveline
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摘要 为了对行星排式混合动力汽车的扭转振动进行分析,以MEEBS混合动力汽车传动系为研究对象,分析了该车传动系统的转速特性,根据传动系各部件的动力学方程,计算了传动系的固有频率及其振型,并通过在发动机和电机激励下的强迫扭振计算,找到了影响传动系扭振的主要因素,结果表明:传动系的低阶固有频率以整车和车轮振动为主,中高频主要是差速器、减速器及行星轮的耦合振动;同时还得出扭转减振器的阻尼和刚度取为15N·m·s/rad和618N·m/rad,飞轮的转动惯量取0.42kg·m2时对改善传动系统扭振响应较好。该研究可为混合动力汽车的振动及噪声性能改善提供参考。 Noise, Vibration, and Harshness (NVH) are important factors with which to evaluate a vehicle. The automotive industry pays more and more attention to NVH to meet the growing comfort expectation of customers. Therefore, the noise and vibration analysis of the hybrid electric vehicles (HEVs) is significantly meaningful. In order to investigate the torsional vibration behavior of a planetary power split hybrid electric vehicle (HEV), the MEEBS hybrid driveline was studied by the dynamic equation. The compound planetary gear set in this HEV consists of a ring, a carrier, a small sun gear 1, a big sun gear 2, three short planets, and three long planets. All the short and long planets are mounted on the carrier. The compound planetary gear set has two rows. The first planetary row is made up of sun gear 1, short planets, and the ring, while the second planetary row consists of sun gear 2, short planets, long planets, and the ring. The planetary rows share the carrier and the ring. The short planet and corresponding long planet engage with each other. The sun gear 1 and sun gear 2 are connected to electrical motors E1 and E2, respectively. Both motors are permanent magnetic synchronous machines. The carrier was connected to the engine through a torsional damper. All of the system output torque was exported to the ring, and then to the wheels through the reducer, differential, and halfshafts. Compared with the traditional Ravingneaux gear set, the power-split system can increase the lever efficiency of the second row to reduce the requirement power of E2, leading to decreased system cost. Compared with the traditional Ravingneaux gear set, the power-split system can increase the lever efficiency of the second row to reduce the requirement power of E2, leading to decreased system cost. In order to realize the optimizing control in electric-only mode and make the engine work in the optimum working zone, the power-split system also has two brakes to lock the carrier and S1, respectively. Numerical results for natural frequencies and corresponding modes of the hybrid driveline are produced. The forced torsional vibrations under different excitations and parameters were analyzed. The main factors that influence the torsional vibration of the driveline were found out. The results show that the low-order frequencies are focused on the vehicle and wheels, while the high-orders are concentrated on the differential, reducer, and planets. The results also show that the amplitude of the torsional vibration of the driveline is the lowest when the damping and stiffness of the torsional damper were 15 N·m·s/rad and 618 N·m/rad respectively and the rotational inertial of flywheel was0.42 kg·m 2 . The research can provide a reference to improve the vibration and noise levels of HEVs.
作者 于海生 张彤 马智涛 王瑞平
机构地区 浙江吉利罗佑发动机有限公司
出处 《农业工程学报》 EI CAS CSCD 北大核心 2013年第15期57-64,共8页 Transactions of the Chinese Society of Agricultural Engineering
基金 上海市青年科技启明星计划(B类)资助项目(11OB1402600) 国家"863"资助项目(2010AA1122803001)
关键词 车辆 传动系 混合动力汽车 扭振 行星排 多体动力学 vehicles transmissions hybrid electric vehicle (HEV) torsional vibration planetary gear set multibody dynamics
分类号 TH212 [机械工程—机械制造及自动化] TH213.3 [机械工程—机械制造及自动化]
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参考文献24

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二级参考文献29

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共引文献255

同被引文献101

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引证文献18

二级引证文献78

农业工程学报
2013年 第15期

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