基于行星传动的双模混合动力履带车辆传动系统结构设计

doi:10.16511/j.cnki.qhdxxb.2018.22.005

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摘要该文提出了一种具有双输出的混联式混合动力履带车辆的传动系统结构设计。该结构具有双输出轴分别连接左、右履带，通过与3排行星齿轮结构连接，可以实现两侧履带的精确独立控制，通过控制发动机工作状态，使车辆的运行效率最优，在充分保证直线行驶性能的同时，增强行进中转向能力。相比于现有的复杂混合动力履带车辆传动系统，该设计可以省去转向机构，并提升系统综合运行能力。采用自动建模的方法对所有可行结构进行动力学分析，结合不同结构类型的特点确定双模结构组合方式。通过系统特性初筛、性能精细筛选得到满足设计要求的结构。通过动态规划算法对所选结构进行典型工况下的燃油经济性分析。仿真结果表明，得到的最优方案比目前常用的串联式混合动力履带推土机具有更优的直线行驶、转向行驶和燃油经济性能。

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	秦兆博
	罗禹贡
	解来卿
	陈文强
	李克强

关键词 ：行星传动, 履带车辆, 混合动力车辆, 双模, 转向性能

Abstract：This paper presents a powertrain design for hybrid track-type vehicles based on planetary gear sets. The design uses a three planetary gear set structure with two operating modes for the best fuel efficiency while improving the straight driving performance and the steering performance. This design eliminates the complex steering shaft while ensuring the steering index and improving steering efficiency compared with current powertrain designs. An automated modelling method is used to analyze all the candidate designs. The designs are screened using dynamic programming to analyze the fuel economy to select the best one with the least fuel consumption. Simulations indicate that the design has better performance and fuel economy than the current series hybrid benchmark for the track-type vehicle powertrain design.

Key words： planetary gear set track-type vehicle hybrid vehicle dual mode steering performance

收稿日期: 2017-03-22 出版日期: 2018-01-15

ZTFLH:

U469.6+94

通讯作者: 李克强,教授,E-mail:likq@tsinghua.edu.cn E-mail: likq@tsinghua.edu.cn

引用本文:

秦兆博, 罗禹贡, 解来卿, 陈文强, 李克强. 基于行星传动的双模混合动力履带车辆传动系统结构设计[J]. 清华大学学报（自然科学版）, 2018, 58(1): 27-34.
QIN Zhaobo, LUO Yugong, XIE Laiqing, CHEN Wenqiang, LI Keqiang. Dual-mode hybrid track-type vehicle powertrain design using planetary gear sets. Journal of Tsinghua University(Science and Technology), 2018, 58(1): 27-34.

链接本文:

http://jst.tsinghuajournals.com/CN/10.16511/j.cnki.qhdxxb.2018.22.005 或 http://jst.tsinghuajournals.com/CN/Y2018/V58/I1/27

图１双模混合动力履带推土机的系统结构

图２本文混合动力履带推土机传动系统设计方法

图３３排行星传动的两种结构形式

图４直线行驶情况下的行星传动结构杠杆图

图５本文双模结构构成方式

图６第一模式及其动力学特征矩阵

图７４种可能第二模式及其动力学特征矩阵

表１履带推土机的基本参数

图８筛选后得到的其中３种设计方案示例

图９履带推土机实际循环工况示意图 ^[１２]

图１０串联式方案的动态规划结果

图１１最优方案的控制结果分析

图１２最优方案极限直线行驶性能控制

图１３最优方案极限转向行驶性

[1]	LE A T. Modelling and control of tracked vehicles[D]. Sydney, Australia:University of Sydney, 1999.
[2]	JO D Y, KWAK S, KIM N. Development of fuel-efficient construction equipment[C]//IEEE 8th International Conference on Power Electronics and ECCE Asia (ICPE & ECCE, 2011). Jeju, Korea, 2011:31-37.
[3]	DIESEL I C. Hybrid electric and hydraulic technology applications in off-road vehicles[M]//Transportation technologies for sustainability. Berlin, Germany:Springer, 2012.
[4]	DUOBA M, NG H, LARSEN R. Characterization and comparison of two hybrid electric vehicles (HEVs):Honda Insight and Toyota Prius:SAE technical paper[R]. Warrendale, USA:SAE, 2001.
[5]	LIU J, PENG H. Modeling and control of a power-split hybrid vehicle[J]. IEEE Transactions on Control Systems Technology, 2008, 16(6):1242-1251.
[6]	ZHANG X, LI S E, PENG H, et al. Design of multimode power-split hybrid vehicles:A case study on the Voltec powertrain system[J]. IEEE Transactions on Vehicular Technology, 2016, 65(6):4790-4801.
[7]	YOSHIMURA T. Vehicle power transmission:US8535189 B2. 2013.
[8]	邹渊, 陈晓玲, 李东阁, 等. 串联式混合动力推土机驱动系参数匹配设计[J]. 机械工程学报, 2014, 50(1):70-75.ZOU Y, CHEN X L, LI D G, et al. Parameter matching design and control optimization for series hybrid tracked bulldozer[J]. Journal of Mechanical Engineering, 2014, 50(1):70-75. (in Chinese)
[9]	盖江涛, 黄守道, 周广明, 等. 双电机耦合驱动履带车辆自适应滑模转向控制[J]. 兵工学报, 2015, 36(3):405-411.GAI J T, HUANG S D, ZHOU G M, et al. Adaptive sliding mode steering control of double motor coupling drive transmission for tracked vehicle[J]. Acta Armamentarii, 2015, 36(3):405-411. (in Chinese)
[10]	张东好, 项昌乐, 韩立金, 等. 功率分流混合动力车辆多目标优化分层控制方法[J]. 吉林大学学报(工学版), 2016, 46(2):373-382.ZHANG D H, XIANG C L, HAN L J, et al. Multi-objective optimization hierarchic control method for power-split hybrid electric vehicles[J]. Journal of Jilin University (Engineering and Technology Edition), 2016, 46(2):373-382. (in Chinese)
[11]	QIN Z, LUO Y, PAN Z, et al. Optimal design of hybrid track-type dozers with two-planetary gear sets and clutches[C]//Proceedings of the 13th International Symposium on Advanced Vehicle Control (AVEC'16). Munich, Germany, 2016.
[12]	秦兆博, 罗禹贡, 张东好, 等. 液压混合动力履带推土机行星齿轮传动系统的设计[J]. 清华大学学报(自然科学版), 2017, 57(5):497-503. QIN Z B, LUO Y G, ZHANG D H, et al. Powertrain design of hydraulic hybrid track-type bull dozers based on planetary gear sets[J]. Journal of Tsinghua University (Science and Technology), 2017, 57(5):497-503. (in Chinese)
[13]	YANG H, CHO S, KIM N, et al. Analysis of planetary gear hybrid powertrain system, Part 1:Input split system[J]. International Journal of Automotive Technology, 2007, 8(6):771-780.
[14]	BENFORD H, LEISING M. The lever analogy:A new tool in transmission analysis:SAE technical paper 810102[R]. Warrendale, USA:SAE, 1981.

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