Research on energy-saving technology of loader hydraulic torque converter based on MATLAB dynamic characteristic simulation

Liang Sun, Jia Luo, Yinhu Qiao
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Abstract

At present, hydraulic transmission loaders have high automatic adaptability and convenient operation, but their transmission efficiency is low, and the intelligent degree of energy consumption regulation is limited. Strengthening the research of locking device in torque converter is an important measure to effectively reduce energy consumption. Therefore, the research uses MATLAB software and torque converter parameters to build the external characteristic curves of the engine and torque converter, and builds the dynamic model based on the working principle and locking process of the lockup clutch. The research and experimental analysis are carried out from three aspects of the lockup dynamic process of the torque converter, the lock-up and unlocking conditions, and the change of the lockup oil pressure of the clutch. The results show that the speed difference range between pump wheel and turbine (233.08–365.44 rpm) is much lower than that of other cases (409.68–616.23 rpm) when the engine and torque converter are matched. And the fuel rate is the highest when the throttle opening of the loader is 70%, about 38%. The above results show that the locking structure of the hydraulic torque converter of the loader can effectively reduce the working vibration and improve the service life and fuel rate. And its energy-saving application effect has an important enlightening effect on the performance optimization and resource utilization of construction machinery, and provides new ideas for improvement.

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基于 MATLAB 动态特性仿真的装载机液力变矩器节能技术研究
目前,液力传动装载机自动适应性强,操作方便,但传动效率低,能耗调节智能化程度有限。加强对液力变矩器锁止装置的研究是有效降低能耗的重要措施。因此,本研究利用 MATLAB 软件和变矩器参数建立发动机和变矩器的外部特性曲线,并根据锁止离合器的工作原理和锁止过程建立动态模型。从液力变矩器的锁止动态过程、锁止和解锁条件、离合器锁止油压的变化三个方面进行了研究和实验分析。结果表明,当发动机与变矩器匹配时,泵轮与涡轮的转速差范围(233.08-365.44 rpm)远低于其他情况(409.68-616.23 rpm)。而当装载机油门开度为 70% 时,燃油率最高,约为 38%。以上结果表明,装载机液力变矩器的锁止结构能有效降低工作振动,提高使用寿命和燃油效率。其节能应用效果对工程机械的性能优化和资源利用具有重要的启示作用,并提供了新的改进思路。
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