王立存,罗礼培,王旭东,张贤明,陈彬,张永栋
WANG Li-cun1,2,LUO Li-pei3,WANG Xu-dong1,4,ZHANG Xian-ming1

• 1:重庆工商大学废油资源化技术与装备教育部工程研究中心
• 2:西安交通大学流体机械及压缩机国家工程研究中心
• 3:东风汽车有限公司
• 4:重庆大学机械传动国家重点实验室

摘要(Abstract)：

在涡旋式滤油机真空泵涡旋型线设计中,利用基于泛函的通用涡旋型线设计理论,对涡旋式滤油机真空泵运转机理进行了分析,利用工程分析软件PRO/ENGINEER建立了通用涡旋型线涡旋式真空泵零部件三维实体模型并进行了整机装配,运用PRO/ENGINEER动态仿真模块进行了涡旋式滤油机真空泵整机运动仿真,利用其放大功能,在放大几万倍的条件下,啮合点仍然保持正确接触,且在动态模拟仿真过程中运转正常,证明了通用涡旋型线理论和求解建立模型过程的正确性,为通用涡旋型线涡旋式真空泵的结构设计提供了依据,拓宽了单一涡旋型线设计理论与方法研究的思路。
In the design of general scroll vacuum pump,the work principle of the general scroll vacuum pump was analyzed.Using engineering analysis soft Pro/Engineer,the solid modeling of the key parts of scroll compressor were built and the whole assembly was finished.The dynamic simulation for the machine was carried out in the engineering analysis soft Pro/Engineer.Using the function of microscope magnify,in the condition of several ten thousand times,the meshing points still touch accurately,and the process dynamic simulation is running in gear,which proves that the general scroll profiles theory and process of seek and solid modeling are correct.The design proof is presented for the general scroll profiles theory and the methodology of single scroll profiles design theory is broadened.

关键词(KeyWords)： 涡旋式真空泵;通用涡旋型线;泛函分析;实体建模;动态仿真
scroll vacuum pump;general scroll profiles;functional analysis;solid modeling;dynamic simulation

Abstract:

Keywords:

基金项目(Foundation): 国家自然科学基金(50805149);; 中国博士后科学基金资助项目(20090450166/201003669);; 重庆高校创新团队项目(KJTD201019);; 重庆市科技攻关项目(2009AB3234/2011AC6068);; 重庆市教委科技项目(KJ110710)

作者(Author): 王立存,罗礼培,王旭东,张贤明,陈彬,张永栋
WANG Li-cun1,2,LUO Li-pei3,WANG Xu-dong1,4,ZHANG Xian-ming1

参考文献(References)：

• [1]陈进,王立存,李世六.通用涡旋型线理论研究与深入分析[J].机械工程学报,2006,12(5):11-15.
• [2]王君,刘振全.多涡旋齿涡旋压缩机的双圆弧型线修正研究[J].中国机械工程,2006,17(15):1553-1562.
• [3]王立存,陈进.涡旋压缩机几何理论及耦合机理研究[J].中国机械工程,2006,17(5):524-528.
• [4]Zhao Yuanyang,LI Liansheng,YANG Qichao,et al.Research on Heat and Force Deformations of Large De-liv-ery Scroll Air Compressor[A].Proceedings of the5th International Conference on Compressor and Re-frigera-tion[C].Xi′an:Xi′an Jiaotong UniversityPress,2005:249-255.
• [5]赵远扬,李连生,束鹏程,等.散热对无油涡旋空气压缩机性能影响的实验[J].西安交通大学学报,2008,42(1):5-8.
• [6]Wang Baolong,Li Xianting,Shi Wenxing.A generalgeometrical model of scroll compressors based on dis-cretional initial angles of involutes[J].InternationalJournal of Refrigeration,2005,28(6):958-966.
• [7]宋立权,赵孝峰,刁锦瑞,等.基于三圆弧的旋叶式压缩机新型线叶片设计[J].机械工程学报,2009,45(6):298-303.
• [8]王猛,赵远扬,李连生.蒸气压缩式制冷系统中能量回收旋叶膨胀机的几何理论研究[J].西安交通大学学报,2009,30(6):1-4.
• [9]Wang Jun,Ju Hong,Zhao Ming,et al.Influence ofwrap number on performance of multi-wrap scroll com-pressor[J].Journal of China University of Petroleum(Edition of Natural Science),2009,33(3):118-122.
• [10]王君,李雪琴.多齿涡旋机械啮合型线的构建理论[J].机械工程学报,2008,24(4):74-79.
• [11]强建国,刘振全.EA-SAL修正涡旋齿端面积计算[J].兰州理工大学学报,2006,32(5):36-39.
• [12]濮伟.制冷空调机器设备[M].北京:机械工业出版社,2002.
• [13]Blunier B,Cirrincione G,Herv啨Y,et al.Anewan-alytical and dynamical model of a scroll compressorwith experimental validation[J].International Jour-nal of Refrigeration,2009,32(5):874-891.
• [14]Sato Hajime,Fujitani M,Kobayashi H,et al.Devel-opment of a three-dimensional scroll compressor[J].Proceedings of the Institution of Mechanical Engi-neers,Part E:Journal of Process Mechanical Engi-neering,2008,222(4):193-200.
• [15]陈进,张永栋,宋立权,等.基于多目标遗传算法的涡旋型线形状优化[J].机械工程学报,2005,41(1):172-175.
• [16]Cristian Cuevas,Jean Lebrun.Testing and modellingof a variable speed scroll compressor[J].AppliedThermal Engineering,2009,29(2):469-478.
• [17]Wang Jun,Ju Hong,Zhao Ming,et al.Influence ofwrap number on performance of multi-wrap scrollcompressor[J].Journal of China University of Petro-leum(Edition of Natural Science),2009,33(3):118-122.
• [18]王君,李雪琴.多齿涡旋机械啮合型线的构建理论[J].机械工程学报,2008,24(4):74-79.