共查询到20条相似文献,搜索用时 203 毫秒
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城市客车冬季制动管路经常结冰会导致制动失效,行车有安全隐患,为了解决这个问题,对城市客车制动管路结冰问题进行专项研究。对城市客车的行驶特点、制动系统零部件结构功能和管路安装形式进行了详细介绍,总结出城市客车制动管路结冰的4方面原因。通过理论计算与分析,提出防止制动管路结冰的4项措施,解决了城市客车冬季制动管路结冰这个问题。 相似文献
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介绍了某款教练用客车副驾驶制动系统。通过对气压制动回路的改制,重新布置了副驾驶座椅、制动踏板,完成了教练客车副制动系统的功能设计,满足了在使用过程中教练对教练用车采取应急制动的使用要求,该设计具用重要的推广应用价值。 相似文献
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在调研国内外相关研究的基础上,结合全承载式客车的特点,建立了某客车车身骨架有限元模型。计算了该车在弯曲、转弯、制动及扭转4种工况下的应力及变形,并进行了模态分析。分析结果表明,设计的车身满足强度和变形的要求,分析结果可以为客车车身的改进设计提供理论依据。 相似文献
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<正>汽车的制动性能是汽车的主要性能之一,它直接关系到交通安全。重大交通事故往往与制动距离太长、紧急制动时发生侧滑等情况有关,因此良好的制动性能是汽车安全行驶的重要保障。笔者在单位主要从事送检工作,经常接触客车的检测报告,检测报告中的制动数据能够清晰地体现客车的制动性能。当客车的制动性能检测不合格时,就需要对客车的制动系进行调试或维修,而分析制动不合格客车的制动性能 相似文献
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文中介绍了国内外法规对气制动客车踏板力的要求,对某气制动客车制动踏板力与管路压力进行了试验,对试验过程进行了介绍,并分析了试验结果。 相似文献
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根据制动力分配比初值及直线制动时的最佳制动力分配,给出了在实际使用频率下使客车达到最佳制动性能的优化数学模型,并开发了制动性能分析软件系统;以某客车为例,在常用路面附着系数范围内进行了性能计算,计算结果以文本和图形两种形式在系统中输出,同时最佳制动性能下的制动距离也可直接显示,可直接判断客车制动性能是否满足制动法规要求,可用于汽车制动性能评价。 相似文献
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Combined control of a regenerative braking and antilock braking system for hybrid electric vehicles 总被引:1,自引:0,他引:1
D. Peng Y. Zhang C. -L. Yin J. -W. Zhang 《International Journal of Automotive Technology》2008,9(6):749-757
Most parallel hybrid electric vehicles (HEV) employ both a hydraulic braking system and a regenerative braking system to provide
enhanced braking performance and energy regeneration. A new design of a combined braking control strategy (CBCS) is presented
in this paper. The design is based on a new method of HEV braking torque distribution that makes the hydraulic braking system
work together with the regenerative braking system. The control system meets the requirements of a vehicle longitudinal braking
performance and gets more regenerative energy charge back to the battery. In the described system, a logic threshold control
strategy (LTCS) is developed to adjust the hydraulic braking torque dynamically, and a fuzzy logic control strategy (FCS)
is applied to adjust the regenerative braking torque dynamically. With the control strategy, the hydraulic braking system
and the regenerative braking system work synchronously to assure high regenerative efficiency and good braking performance,
even on roads with a low adhesion coefficient when emergency braking is required. The proposed braking control strategy is
steady and effective, as demonstrated by the experiment and the simulation. 相似文献
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本文中首先基于电机等效电路模型,分析了车用内置式永磁同步电机的耗能制动状态和回馈制动状态;然后根据电机矢量控制原理,对控制电流指令进行解析,并经试验数据的验证;接着计算得到永磁同步电机最优回馈转矩曲线,并据此提出一种制动回馈能量最优的串联制动控制策略。最后针对某P4并联混合动力商用车,仿真分析了在C?WTVC、CHTC?TT循环工况和试验采集到的某段省道工况下,并联制动和所提出的串联最优制动控制策略下的百公里油耗和制动回收能量。结果表明,与并联制动控制相比,基于电机最优回馈转矩曲线的串联制动控制策略可降低油耗,并回收更多的制动能量,实现制动回收能量和燃油经济性的提升。 相似文献
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Improvement of drivability and fuel economy with a hybrid antiskid braking system in hybrid electric vehicles 总被引:1,自引:0,他引:1
J. L. Zhang Ch. L. Yin J. W. Zhang 《International Journal of Automotive Technology》2010,11(2):205-213
When braking on wet roads, Antilock Braking System (ABS) control can be triggered because the available brake torque is not
sufficient. When the ABS system is active, for a hybrid electric vehicle, the regenerative brake is switched off to safeguard
the normal ABS function. When the ABS control is terminated, it would be favorable to reactivate the regenerative brake. However,
recurring cycles from ABS to motor regenerative braking could occur. This condition is felt to be unpleasant by the driver
and has adverse effects on driving stability. In this paper, a novel hybrid antiskid braking system using fuzzy logic is proposed
for a hybrid electric vehicle that has a regenerative braking system operatively connected to an electric traction motor and
a separate hydraulic braking system. This control strategy and the method for coordination between regenerative and hydraulic
braking are developed. The motor regenerative braking controller is designed. Control of regenerative and hydraulic braking
force distribution is investigated. The simulation and experimental results show that vehicle braking performance and fuel
economy can be improved and the proposed control strategy and method are effective and robust. 相似文献
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Liang Li Xujian Li Xiangyu Wang Jian Song Xu Ran 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2016,54(2):231-257
Regenerative braking is an important technology in improving fuel economy of an electric vehicle (EV). However, additional motor braking will change the dynamic characteristics of the vehicle, leading to braking instability, especially when the anti-lock braking system (ABS) is triggered. In this paper, a novel semi-brake-by-wire system, without the use of a pedal simulator and fail-safe device, is proposed. In order to compensate for the hysteretic characteristics of the designed brake system while ensure braking reliability and fuel economy when the ABS is triggered, a novel switching compensation control strategy using sliding mode control is brought forward. The proposed strategy converts the complex coupling braking process into independent control of hydraulic braking and regenerative braking, through which a balance between braking performance, braking reliability, braking safety and fuel economy is achieved. Simulation results show that the proposed strategy is effective and adaptable in different road conditions while the large wheel slip rate is triggered during a regenerative braking course. The research provides a new possibility of low-cost equipment and better control performance for the regenerative braking in the EV and the hybrid EV. 相似文献
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混合动力电动汽车制动系统回馈特性仿真 总被引:5,自引:1,他引:5
为了研究混合动力电动汽车(HEV)回馈制动特性,建立了用于城市公交的混合动力电动汽车复合制动系统的仿真模型,提出了回馈制动控制策略,分析了复合制动系统的工作过程,并探讨影响电动汽车制动系统可靠、安全和高效的主要因素,研究电动汽车复合制动系统优化途径。研究结果表明:回馈制动最低车速限值越小,制动能量回收率越大;从回收电动汽车能量角度分析,回馈制动比例应有一个有效范围值;在各种循环工况下,具有回馈制动功能时混合动力电动汽车城市客车单位里程的能量消耗可降低10%~25%。 相似文献