|
|
- 2016
变频电机-多输出泵调速回路速度特性分析
|
Abstract:
针对普通电机多输出泵调速回路存在功率损失、变频电机定量单泵调速回路动态特性差及流量输出范围受泵转速范围的限制等问题,提出一种新型变频电机?捕嗍涑霰玫魉倩芈贰8眯滦突芈房梢酝ü?变频电机进行无级调速,节省了普通电机多输出泵调速回路中的功率损失;通过多输出泵的多级容积调速,在不改变泵的允许转速范围的情况下,扩大了变频电机定量单泵调速回路的流量输出范围,并且能够得到多条速度特性线。理论分析表明,新型回路没有功率损失,最小输出流量随排量比例系数的增加而减小,最大输出流量随排量比例系数和多输出泵作用数的增加而增加。AMEsim仿真结果表明,通过选择不同的速度特性线,新型回路可以满足不同工况对动态响应的要求,提高了回路的适应性。
A new speed regulation circuit driven by a YVF??multi??output pump is proposed to deal with problems that there exist energy loss in general motor??multi??output pump speed regulation circuits,and the YVF??constant single pump speed regulation circuit has the disadvantage of poor dynamic response and its output flow is restricted by the allowable range of pump speeds. The proposed circuit saves energy loss of general motor??multi??output pump speed regulation circuits through the stepless speed control of YVF. The range of output flow is expanded without changing the allowable range of pump speeds, and multiple speed characteristic lines are obtained through the step speed control of multi??output pump. Theoretical analysis shows that there is no energy loss in new circuit, and the minimum output flow decreases as the displacement ratio of multi??output pump increases and the maximum output flow increases as both the ratio and the action number of multi??output pumps increase. The results of AMEsim simulation show that the proposed circuit meets the dynamic responses of different working conditions and improves the adaptability of the speed regulation circuit through selecting different speed characteristic lines
| [1] | [1]李壮云. 液压元件与系统 [M]. 3版. 北京: 机械工业出版社, 2011: 307??325. |
| [2] | [2]官忠范. 液压传动系统 [M]. 北京: 机械工业出版社, 2004: 41??99. |
| [3] | [3]崔培雪, 凤宪琴. 典型液压气动回路600例 [M]. 北京: 化学工业出版社, 2011: 3??15. |
| [4] | [4]邵俊鹏, 周德繁, 韩桂华, 等. 液压系统设计禁忌 [M]. 北京: 机械工业出版社, 2008: 146??165. |
| [5] | [6]彭天好, 徐兵, 杨华勇. 变频液压技术的发展及研究综述 [J]. 浙江大学学报(工学版), 2004, 28(2): 215??221. |
| [6] | LI Mian, LUO Yongwu, ZHA Xiaochun, et al. Application of speed control with AC frequency conver?? |
| [7] | [10]WEN Desheng, WANG Zhili. Output speed and flow of double??acting double??stator multi??pumps and multi??motors [J]. Journal of Zhejiang University: Science AApplied Physics & Engineering, 2011, 12(4): 301??309. |
| [8] | [7]黎勉, 罗勇武, 查晓春, 等. 交流变频调速在液压系统中的应用 [J]. 机床与液压, 1997(6): 15??16. |
| [9] | [8]冯开林, 刘广瑞. 变频调速在液压技术中的应用研究 [J]. 山东工程学院学报, 1997, 11(2): 28??30. |
| [10] | FENG Kailin, LIU Guangrui. A study on application of conversion technology for governing speed in hydraulic system [J]. Journal of Shandong Institute of Technology, 1997, 11(2): 28??30. |
| [11] | [11]WEN Desheng. Theoretical analysis of output speed of multi??pump and multi??motor driving system [J]. Science China: Technological Science, 2011, 54(4): 992??997. |
| [12] | WEN Desheng, GUO Gaofeng, DU Xiaojie, et al. Research on energy??saving methods for hydraulic speed??regulating circuit based on multi??pump [J]. Chinese Journal of Mechanical Engineering, 2011, 22(24): 2966??2969. |
| [13] | [13]孔祥东, 王益群. 控制工程基础 [M]. 北京: 机械工业出版社, 2008: 127??132. |
| [14] | [14]王春行. 液压控制系统 [M]. 北京: 机械工业出版社, 1999: 40??47. |
| [15] | [5]张利平. 液压传动系统设计与使用 [M]. 北京: 化学工业出版社, 2010: 343??346. |
| [16] | PENG Tianhao, XU Bing, YANG Huayong. Development and research overview on variable frequency hydraulic technology [J]. Journal of Zhejiang University (Engineering Science), 2004, 28(2): 215??221. |
| [17] | [9]刘巧燕, 李喜田, 高俊峰, 等. 比例型多泵多马达传动概述 [J]. 液压气动与密封, 2015(5): 1??3. |
| [18] | LIU Qiaoyan, LI Xitian, GAO Junfeng, et al. The overview of proportional multi??pump and multi??motor transmission system [J]. Hydraulics Pneumatics & Seals, 2015(5): 1??3. |
| [19] | [12]闻德生, 郭高峰, 杜孝杰, 等. 新型液压多泵在液压调速系统中的节能分析 [J]. 中国机械工程, 2011, 22(24): 2966??2969. |
