专用计算机参数化设计及数字化装配研究
|
摘要
不同类型的专用计算机中,所用到的绝大多数零部件是能够通用和互换的,而那些有所改变的零部件在结构和尺寸上也颇为相似。因此根据其功能不同,将专用计算机中的零件分为各种模块,把有所改变的零件进行参数化设计。建立零件库,在设计新机型的时候进行调用,可以缩短设计周期、减少工作量、提高设计效率。
本文利用模块化设计的思想和基于特征建模的方法,通过Pro/E软件构建专用计算机的三维实体模型;并利用Pro/E系统开发工具包Pro/Toolkit和Visual C++ 6.0编程语言对Pro/E进行二次开发,编写Pro/Toolkit用户应用程序,创建用户自定义菜单和用户对话框,通过对零件模型的调用和参数的传递,实现专用计算机机箱零部件的参数化设计。
Pro/E具有强大的装配功能。通过拆卸法求解装配顺序,并按照装配原则规划装配路径,将专用计算机机箱的零部件装配成机箱的整体模型。预装配完成之后,对机箱零部件进行装配干涉检测;最终通过装配仿真,在计算机上模拟产品的实际装配过程,检验装配顺序和装配路径是否合理,并将存在的问题反馈给设计人员,进行改进。
专用计算机的使用环境比普通计算机的使用环境要更加恶劣,所以需要对专用计算机的温度场分布进行仿真,从而验证所设计的机箱能否满足设计要求。通过Pro/E和ANSYS的接口模块,将建立的Pro/E三维模型导入到ANSYS分析软件中;通过选择网格单元、设置材料特性参数、划分网格、施加载荷和边界条件、后处理等操作,得到机箱整体和关键部件的温度分布云图。通过与试验结果的比较,验证采用ANSYS软件进行热学仿真的可行性。
In the different types of dedicated computers,most majority of the components are versatileand interchangeable, and those varying components are quite similar in structure and size.Therefore, parts of dedicated computers can be classified into various modules by their differentfunctions, and the varying components can be parameterized. Establish a unitstore, quote thecomponents when designing new type computers, which can shorten the design cycle, reduceworkload and improve design efficiency.
By imposing modular design ideas and feature-based modeling method, thethree-dimensional solid models of dedicated computers are built with Pro/E software. Carry outthe secondary development of Pro/E with Pro/Toolkit(the development tool of Pro/E system)andVisual C++ 6.0 programming language. Compile the Pro/Toolkit user applications, createuser-defined menus and user dialogs, realize the parametric design of components of dedicatedcomputers chassis, through quoting the part models and of transferring the parameters.
Pro/E possess a strong function of assembly. Find the assembly order by remove law, layoutthe assembly path in accordance with the assembly principles, and then assemble thecomponents of dedicated computer chassis into overall model. After completing the preassembly,check the interference of the chassis parts. Finally simulate the actual assembly process of theproduct on computer by assembly simulation, check the rationality of assembly sequence andassembly path, feedback the problems to the designers and correcte it.
The operating environment of dedicated computers is more severe than that of regularcomputers, so we have to simulate the temperature field of dedicated computers, which verifieswhether the designed chassis can meet the design requirements. Importing the established Pro/Ethree-dimensional model into ANSYS analysis software Through the interface module betweenPro/E and ANSYS, by selecting the grid cell, setting the parameters of material properties,dividing grids, imposing load and boundary conditions, post-processing and other operations, getthe temperature contours of the holistic chassis and the key components. By comparison with theexperimental results, verify the feasibility of thermal simulation with ANSYS software.
本文利用模块化设计的思想和基于特征建模的方法,通过Pro/E软件构建专用计算机的三维实体模型;并利用Pro/E系统开发工具包Pro/Toolkit和Visual C++ 6.0编程语言对Pro/E进行二次开发,编写Pro/Toolkit用户应用程序,创建用户自定义菜单和用户对话框,通过对零件模型的调用和参数的传递,实现专用计算机机箱零部件的参数化设计。
Pro/E具有强大的装配功能。通过拆卸法求解装配顺序,并按照装配原则规划装配路径,将专用计算机机箱的零部件装配成机箱的整体模型。预装配完成之后,对机箱零部件进行装配干涉检测;最终通过装配仿真,在计算机上模拟产品的实际装配过程,检验装配顺序和装配路径是否合理,并将存在的问题反馈给设计人员,进行改进。
专用计算机的使用环境比普通计算机的使用环境要更加恶劣,所以需要对专用计算机的温度场分布进行仿真,从而验证所设计的机箱能否满足设计要求。通过Pro/E和ANSYS的接口模块,将建立的Pro/E三维模型导入到ANSYS分析软件中;通过选择网格单元、设置材料特性参数、划分网格、施加载荷和边界条件、后处理等操作,得到机箱整体和关键部件的温度分布云图。通过与试验结果的比较,验证采用ANSYS软件进行热学仿真的可行性。
In the different types of dedicated computers,most majority of the components are versatileand interchangeable, and those varying components are quite similar in structure and size.Therefore, parts of dedicated computers can be classified into various modules by their differentfunctions, and the varying components can be parameterized. Establish a unitstore, quote thecomponents when designing new type computers, which can shorten the design cycle, reduceworkload and improve design efficiency.
By imposing modular design ideas and feature-based modeling method, thethree-dimensional solid models of dedicated computers are built with Pro/E software. Carry outthe secondary development of Pro/E with Pro/Toolkit(the development tool of Pro/E system)andVisual C++ 6.0 programming language. Compile the Pro/Toolkit user applications, createuser-defined menus and user dialogs, realize the parametric design of components of dedicatedcomputers chassis, through quoting the part models and of transferring the parameters.
Pro/E possess a strong function of assembly. Find the assembly order by remove law, layoutthe assembly path in accordance with the assembly principles, and then assemble thecomponents of dedicated computer chassis into overall model. After completing the preassembly,check the interference of the chassis parts. Finally simulate the actual assembly process of theproduct on computer by assembly simulation, check the rationality of assembly sequence andassembly path, feedback the problems to the designers and correcte it.
The operating environment of dedicated computers is more severe than that of regularcomputers, so we have to simulate the temperature field of dedicated computers, which verifieswhether the designed chassis can meet the design requirements. Importing the established Pro/Ethree-dimensional model into ANSYS analysis software Through the interface module betweenPro/E and ANSYS, by selecting the grid cell, setting the parameters of material properties,dividing grids, imposing load and boundary conditions, post-processing and other operations, getthe temperature contours of the holistic chassis and the key components. By comparison with theexperimental results, verify the feasibility of thermal simulation with ANSYS software.
引文
[1]李瑞涛,方湄,张文明等.虚拟样机技术的概念及应用[J].金属矿山,2000.7.
[2]于德江.基于Pro/E的三维参数化零件库的实现[C].成都:电子科技大学,2007.
[3]沈克文,刘振志.加油设备模块划分研究[J].石油机械,2004.10,20-22.
[4]杨文杰,刘浩学,王克蒙.包装纸盒盒型参数化设计应用程序的开发与实现[J].包装工程,2004(02),135-137.
[5]戴宁生,孔良良.参数化设计的推广与应用[J].机电信息,2007(B12),51-54.
[6]王洪峰,高天晖,徐松林.三维参数化设计技术在真空淬火炉中的应用[J].电子科技文摘,2008,41(3),31-34.
[7]李丽霞.基于SolidWorks的液压阀块的设计研究(上)[J].
[8]张峰,李兆前,黄传真.数化设计的研究现状与发展趋势[J].机械工程师2002(1). 13-15.
[9]王宗彦,杨金刚,吴淑芳等.桥式起重机桥架参数化设计关键技术[J].机械工程与自动化,2007(2).
[10]王军辉.产品的虚拟装配过程——在Pro/ENGINEER下的实现[C].南京:南京理工大学,2002.
[11]魏志强,王先逵,杨志刚.分布制造环境下的产品数字化预装配技术[J].机械工程师,1999.12.
[12]熊涛,孙刚,刘孟周.数字化技术在卫星总装中的应用[J].航天器环境工程,2008.1.
[13]武书彦,李欣等. Pro/ENGINEER零件设计与技术实践(3.0野火版)[M].北京:电子工业出版社,2007.2,4-6.
[14]张冶,陈志英.基于装配约束关系的零部件参数化设计[J].机械科学与技术,2003.5.
[15]王志刚,郭连水.产品全相关设计方法的研究[J].机械工程师,2007.4.
[16]罗金桥,杨波,邓楚南.应用UG NX软件实现汽车零部件的参数化设计[J]. CAD/CAM与制造业信息化,2006.5.
[17]赵梅.基于Pro/ENGINEER的铸造模具工艺装备CAD系统设计[C].济南:山东大学,2008.
[18]二代龙震工作室. Pro/Toolkit Wildfire2.0插件设计[M].北京:电子工业出版社,2005:8-10.
[19] Sven A.Brueckner, Richard Gerth.Applying Adaptive Optimization to Digital Car Body Development[M].Lecture Notes in Computer Science.Heidelberg:Springer Berlin, 2005.
[20]张继春.Pro/ENGINEER二次开发实用教程[M].北京:北京大学出版社,2003:12-14.
[21]陈鹏,曹建谋等.基于Pro/Toolkit二次开发的参数化程序设计[J].机电工程技术. 2005.6.
[22]朱新云,顾寄南,任一新. Pro/Toolkit二次开发的参数化设计的研究与实现[J].机械设计与制造.2006.11.
[23]张俊河.面向注塑模的Pro/E二次开发[C].大连:大连理工大学,2006.
[24] A.P.Buchmann. Object-Oriented Technigues for CAD.Computer-Aided Design, 2000, (22):8-9.
[25] Parametric Technology Corporation. Pro/ENGINEER Wildfire Pro/TOOLKIT User’s Guide. USA:Parametric Technology Corporation, 2003.
[26] Nam P. Suh. A Theory of Complexity, Periodicity and the Design Axioms[J]. Research in EngineeringDesign, 1999,11(2) .
[27]王从宅.虚拟装配中的路径规划及操作空间分析[C].秦皇岛:燕山大学,2010.
[28]刘江省,姚英学,赵焕菊.数字化装配技术[J].兵工自动化,2004,Vol.23,No.5,33-36.
[29]刘子强.虚拟装配的基础研究[C].哈尔滨:哈尔滨工程大学,2004.2.
[30] Homen de Mello L S,Sanderson AC.A correct and complete algorithm For the generation of mechanicalassembly sequences. IEEE Transaction on Robotics and Automation,1991,7(2)228-240.
[31] Huang Y F and Lee C SG. Precedence knowledge in feature mating operation assembly planning, IEEEInternational Conference on Robotics and Automation Scotsdale, Arizona ,1989:216-221.
[32] Gottschlich S N, Kak A AMP-CAD. Automatic assemble motion planning using CAD models of part.Robotics and Automation System ,1994,13(2):245-289.
[33]陈定方,罗亚波.虚拟设计[M].北京:机械工业出版社,2002:108-131.
[34]高奇.翅片成形机虚拟设计研究[C].阜新:辽宁工程技术大学,2007.
[35]曹磊.虚拟装配系统设计[C].南京:南京理工大学,2004.
[36]张林煊,童秉枢.并行工程中的装配仿真系统及其关键技术研究[J].计算机辅助设计与图形学学报, 1999(2):163-166
[37]杨培林,朱均.并行工程中向装配的设计[J].机械科学与技术,2000(l):153-154
[38]李春书,彭商贤,崔根群.产品装配特征的分类与表达技术的研究[J].机械科学与技术,2000(5):770-772.
[39]叶新朝,尹文生,王启付等.面向装配的三维标准件库工具的研究和开发[J].机械科学与技术,2000(4):662-664.
[40]杨世铭.传热学(第二版)[M],北京:高等教育出版社,1987:56-60.
[41]赵春林.电子设备的热设计[J].电子机械工程,2002Vol.18NO.5.
[42]祝效华,志祥等. ANSYS高级工程有限元分析范例精选[M].北京:电子工业出版社. 2004.
[43]刘一兵,刘国华. ANSYS的关键技术及热分析研究[J].重庆科技学院学报2008.12.
[44]杨宇军. ANSYS动力学仿真技术在航天计算机机箱结构设计中的应用[J].电子机械工程42-43.
[45]王海龙,王秀喜.气动加热下导弹温度场有限元分析[J]. 2004ANSYS中国用户论文集.
[46] Liu Joshua C. Electronic package thermal design using boundary elements .The Sixth IEEE SEMITHERMTM Symp. 1990, :65~69 .
[47] Case K,Cao J.Feature technology.an overview,Int.J.Computer Intergrated Manufacturing 1993
[48]陈耀武,赵良知,黄锦强.基于PRO/E与ANSYS的一模多腔模具热分析[J]. Die and MouldTechnology. 50-51.
[49] Lin V C,Gossard D,Light R.Variation geometry in computer-aided design.Computer Graph.1981.
[50]胡健.产品零部件相关修改的建模与实现方法[J].机械设计与研究. 1999(4):29-31.
[51]黄国权.有限元方法基础及ANSYS应用[M].北京:机械工业出版社. 2001.
[52]孙淼,姚列明,霍中生.机箱风冷系统散热性能的ANSYS仿真[J]. 2004 ANSYS中国用户论文集.
[2]于德江.基于Pro/E的三维参数化零件库的实现[C].成都:电子科技大学,2007.
[3]沈克文,刘振志.加油设备模块划分研究[J].石油机械,2004.10,20-22.
[4]杨文杰,刘浩学,王克蒙.包装纸盒盒型参数化设计应用程序的开发与实现[J].包装工程,2004(02),135-137.
[5]戴宁生,孔良良.参数化设计的推广与应用[J].机电信息,2007(B12),51-54.
[6]王洪峰,高天晖,徐松林.三维参数化设计技术在真空淬火炉中的应用[J].电子科技文摘,2008,41(3),31-34.
[7]李丽霞.基于SolidWorks的液压阀块的设计研究(上)[J].
[8]张峰,李兆前,黄传真.数化设计的研究现状与发展趋势[J].机械工程师2002(1). 13-15.
[9]王宗彦,杨金刚,吴淑芳等.桥式起重机桥架参数化设计关键技术[J].机械工程与自动化,2007(2).
[10]王军辉.产品的虚拟装配过程——在Pro/ENGINEER下的实现[C].南京:南京理工大学,2002.
[11]魏志强,王先逵,杨志刚.分布制造环境下的产品数字化预装配技术[J].机械工程师,1999.12.
[12]熊涛,孙刚,刘孟周.数字化技术在卫星总装中的应用[J].航天器环境工程,2008.1.
[13]武书彦,李欣等. Pro/ENGINEER零件设计与技术实践(3.0野火版)[M].北京:电子工业出版社,2007.2,4-6.
[14]张冶,陈志英.基于装配约束关系的零部件参数化设计[J].机械科学与技术,2003.5.
[15]王志刚,郭连水.产品全相关设计方法的研究[J].机械工程师,2007.4.
[16]罗金桥,杨波,邓楚南.应用UG NX软件实现汽车零部件的参数化设计[J]. CAD/CAM与制造业信息化,2006.5.
[17]赵梅.基于Pro/ENGINEER的铸造模具工艺装备CAD系统设计[C].济南:山东大学,2008.
[18]二代龙震工作室. Pro/Toolkit Wildfire2.0插件设计[M].北京:电子工业出版社,2005:8-10.
[19] Sven A.Brueckner, Richard Gerth.Applying Adaptive Optimization to Digital Car Body Development[M].Lecture Notes in Computer Science.Heidelberg:Springer Berlin, 2005.
[20]张继春.Pro/ENGINEER二次开发实用教程[M].北京:北京大学出版社,2003:12-14.
[21]陈鹏,曹建谋等.基于Pro/Toolkit二次开发的参数化程序设计[J].机电工程技术. 2005.6.
[22]朱新云,顾寄南,任一新. Pro/Toolkit二次开发的参数化设计的研究与实现[J].机械设计与制造.2006.11.
[23]张俊河.面向注塑模的Pro/E二次开发[C].大连:大连理工大学,2006.
[24] A.P.Buchmann. Object-Oriented Technigues for CAD.Computer-Aided Design, 2000, (22):8-9.
[25] Parametric Technology Corporation. Pro/ENGINEER Wildfire Pro/TOOLKIT User’s Guide. USA:Parametric Technology Corporation, 2003.
[26] Nam P. Suh. A Theory of Complexity, Periodicity and the Design Axioms[J]. Research in EngineeringDesign, 1999,11(2) .
[27]王从宅.虚拟装配中的路径规划及操作空间分析[C].秦皇岛:燕山大学,2010.
[28]刘江省,姚英学,赵焕菊.数字化装配技术[J].兵工自动化,2004,Vol.23,No.5,33-36.
[29]刘子强.虚拟装配的基础研究[C].哈尔滨:哈尔滨工程大学,2004.2.
[30] Homen de Mello L S,Sanderson AC.A correct and complete algorithm For the generation of mechanicalassembly sequences. IEEE Transaction on Robotics and Automation,1991,7(2)228-240.
[31] Huang Y F and Lee C SG. Precedence knowledge in feature mating operation assembly planning, IEEEInternational Conference on Robotics and Automation Scotsdale, Arizona ,1989:216-221.
[32] Gottschlich S N, Kak A AMP-CAD. Automatic assemble motion planning using CAD models of part.Robotics and Automation System ,1994,13(2):245-289.
[33]陈定方,罗亚波.虚拟设计[M].北京:机械工业出版社,2002:108-131.
[34]高奇.翅片成形机虚拟设计研究[C].阜新:辽宁工程技术大学,2007.
[35]曹磊.虚拟装配系统设计[C].南京:南京理工大学,2004.
[36]张林煊,童秉枢.并行工程中的装配仿真系统及其关键技术研究[J].计算机辅助设计与图形学学报, 1999(2):163-166
[37]杨培林,朱均.并行工程中向装配的设计[J].机械科学与技术,2000(l):153-154
[38]李春书,彭商贤,崔根群.产品装配特征的分类与表达技术的研究[J].机械科学与技术,2000(5):770-772.
[39]叶新朝,尹文生,王启付等.面向装配的三维标准件库工具的研究和开发[J].机械科学与技术,2000(4):662-664.
[40]杨世铭.传热学(第二版)[M],北京:高等教育出版社,1987:56-60.
[41]赵春林.电子设备的热设计[J].电子机械工程,2002Vol.18NO.5.
[42]祝效华,志祥等. ANSYS高级工程有限元分析范例精选[M].北京:电子工业出版社. 2004.
[43]刘一兵,刘国华. ANSYS的关键技术及热分析研究[J].重庆科技学院学报2008.12.
[44]杨宇军. ANSYS动力学仿真技术在航天计算机机箱结构设计中的应用[J].电子机械工程42-43.
[45]王海龙,王秀喜.气动加热下导弹温度场有限元分析[J]. 2004ANSYS中国用户论文集.
[46] Liu Joshua C. Electronic package thermal design using boundary elements .The Sixth IEEE SEMITHERMTM Symp. 1990, :65~69 .
[47] Case K,Cao J.Feature technology.an overview,Int.J.Computer Intergrated Manufacturing 1993
[48]陈耀武,赵良知,黄锦强.基于PRO/E与ANSYS的一模多腔模具热分析[J]. Die and MouldTechnology. 50-51.
[49] Lin V C,Gossard D,Light R.Variation geometry in computer-aided design.Computer Graph.1981.
[50]胡健.产品零部件相关修改的建模与实现方法[J].机械设计与研究. 1999(4):29-31.
[51]黄国权.有限元方法基础及ANSYS应用[M].北京:机械工业出版社. 2001.
[52]孙淼,姚列明,霍中生.机箱风冷系统散热性能的ANSYS仿真[J]. 2004 ANSYS中国用户论文集.