基于知识的注塑模冷却系统智能设计技术研究
摘要
冷却系统作为注塑模具主要功能结构之一,其作用是将冷却介质由结构合理的冷却水道引入模具中,并将塑料熔体固化定型过程中释放的大部分热量带走,以达到成型制品快速、均匀冷却和缩短成型周期的目的。冷却系统设计的合理与否,不仅影响制品的尺寸精度和质量,而且直接关系到制品的生产效率。因此,研究提高模具冷却系统设计的先进技术与方法,对促进模具设计制造技术的发展具有重要意义。
本文在全面总结注塑模具冷却系统设计理论与知识的基础上,针对冷却系统结构设计的特点和原则要求,采用知识工程和智能化设计的相关理论,研究了基于知识的注塑模具冷却系统智能化设计技术与方法。
通过对冷却系统设计知识和专家经验知识的详细总结、提炼和分类整理,采用基于模糊理论的知识模型和基于特征的编码体系,分别对冷却系统设计的规则知识和事例知识进行了合理的表示;同时,根据不同类型知识的特点,设计并建立了具有层次结构的冷却系统知识库。从便于知识管理和知识利用的角度出发,设计了可视化的知识库管理界面,并采用ADO数据库访问技术,实现了对知识库的查询、添加和修改。针对冷却系统设计计算量大的特点,采用面向对象技术,将冷却系统的设计计算知识封装成独立的模块,供智能化设计过程调用。在深入研究智能化推理技术的基础上,建立了由模糊推理(FR)和事例(CBR)推理两种方式引导的冷却系统智能化推理机制。即采用模糊推理技术,通过对知识库中模糊规则的调用及给定条件与模糊前提的匹配,实现冷却系统方案的模糊化推理。而采用事例推理技术,通过给定事例的索引特征进行事例匹配及相似度计算,提取最相似事例作为推理方案。由此弥补了单一推理方法在规则表示和事例匹配方面的不足。
最后,以水杯塑件为例,给出了注塑模冷却系统智能化设计的基本流程与方法,设计结果显示,应用智能化设计技术推出的冷却系统方案合理可行。
Cooling system is one of the main function structures in the injection mould, its effect is to take the cooling medium into the mould through the rational structure water channel, and to take away large of the heat which is released by molten plastic in the process of solidification molding, in order to make the product be cooled uniform and quickly and to reduce the cooling time. That whether or not the cooling system is designed reasonably not only influences the dimensional precision and quality of the product, but also the production efficiency. Therefore it is very important for promoting the development of mould design and manufacture to research on the advanced technology and method of designing cooling system of injection mould.
The theories and knowledge of injection mould design is summarized completely in the paper. According to the design characteristics and principles of cooling system structure design, the intelligent design technology of injection mould cooling system based on KBE is studied with the related theories of knowledge engineering and intelligent design.
Through summarizing, refining and classifying the design knowledge and expert experiences in cooling system design, the rules and cases of cooling system design are represented by the knowledge model based on fuzzy theory and the code system based on feature. And according to the characteristics of different type knowledge, the knowledge database of cooling system with tree structure is established. A visual management interface of knowledge database is designed to manage and utilized knowledge conveniently. The data of knowledge database is able to be searched, added and amended directly by applying ADO technology. Aiming at the characteristics of large amount calculation in cooling system design, the object oriented technology is used in the packaging of cooling system design calculation as a single module, which makes the designer get rid of the tedious traditional manual calculation. Researching on the intelligent reasoning technology deeply, the reasoning mechanism of cooling system intelligent design guided by FR and CBR is established. Through transferring the data from the knowledge database the given conditions and fuzzy premises are compared and matched to realize the reasoning of intelligent design of cooling system by using the technology of FR. With the technology of case-based reasoning, the most similar case is achieved as the reasoning project by calculating the similarity and matching the feature with the feature indexes. The insufficiency of single reasoning method in the aspects of rule representation and case matching is remedied by this reasoning mechanism.
Finally, the flow and method of the intelligent design of injection mould cooling system is present through an example of plastic cup. The results show that the cooling system designed by applying the intelligent design technology is reasonable and feasible.
本文在全面总结注塑模具冷却系统设计理论与知识的基础上,针对冷却系统结构设计的特点和原则要求,采用知识工程和智能化设计的相关理论,研究了基于知识的注塑模具冷却系统智能化设计技术与方法。
通过对冷却系统设计知识和专家经验知识的详细总结、提炼和分类整理,采用基于模糊理论的知识模型和基于特征的编码体系,分别对冷却系统设计的规则知识和事例知识进行了合理的表示;同时,根据不同类型知识的特点,设计并建立了具有层次结构的冷却系统知识库。从便于知识管理和知识利用的角度出发,设计了可视化的知识库管理界面,并采用ADO数据库访问技术,实现了对知识库的查询、添加和修改。针对冷却系统设计计算量大的特点,采用面向对象技术,将冷却系统的设计计算知识封装成独立的模块,供智能化设计过程调用。在深入研究智能化推理技术的基础上,建立了由模糊推理(FR)和事例(CBR)推理两种方式引导的冷却系统智能化推理机制。即采用模糊推理技术,通过对知识库中模糊规则的调用及给定条件与模糊前提的匹配,实现冷却系统方案的模糊化推理。而采用事例推理技术,通过给定事例的索引特征进行事例匹配及相似度计算,提取最相似事例作为推理方案。由此弥补了单一推理方法在规则表示和事例匹配方面的不足。
最后,以水杯塑件为例,给出了注塑模冷却系统智能化设计的基本流程与方法,设计结果显示,应用智能化设计技术推出的冷却系统方案合理可行。
Cooling system is one of the main function structures in the injection mould, its effect is to take the cooling medium into the mould through the rational structure water channel, and to take away large of the heat which is released by molten plastic in the process of solidification molding, in order to make the product be cooled uniform and quickly and to reduce the cooling time. That whether or not the cooling system is designed reasonably not only influences the dimensional precision and quality of the product, but also the production efficiency. Therefore it is very important for promoting the development of mould design and manufacture to research on the advanced technology and method of designing cooling system of injection mould.
The theories and knowledge of injection mould design is summarized completely in the paper. According to the design characteristics and principles of cooling system structure design, the intelligent design technology of injection mould cooling system based on KBE is studied with the related theories of knowledge engineering and intelligent design.
Through summarizing, refining and classifying the design knowledge and expert experiences in cooling system design, the rules and cases of cooling system design are represented by the knowledge model based on fuzzy theory and the code system based on feature. And according to the characteristics of different type knowledge, the knowledge database of cooling system with tree structure is established. A visual management interface of knowledge database is designed to manage and utilized knowledge conveniently. The data of knowledge database is able to be searched, added and amended directly by applying ADO technology. Aiming at the characteristics of large amount calculation in cooling system design, the object oriented technology is used in the packaging of cooling system design calculation as a single module, which makes the designer get rid of the tedious traditional manual calculation. Researching on the intelligent reasoning technology deeply, the reasoning mechanism of cooling system intelligent design guided by FR and CBR is established. Through transferring the data from the knowledge database the given conditions and fuzzy premises are compared and matched to realize the reasoning of intelligent design of cooling system by using the technology of FR. With the technology of case-based reasoning, the most similar case is achieved as the reasoning project by calculating the similarity and matching the feature with the feature indexes. The insufficiency of single reasoning method in the aspects of rule representation and case matching is remedied by this reasoning mechanism.
Finally, the flow and method of the intelligent design of injection mould cooling system is present through an example of plastic cup. The results show that the cooling system designed by applying the intelligent design technology is reasonable and feasible.
引文
[1] 黄嘉,郑恺.我国工程塑料专业发展现状及展望.工程塑料应用,2000,12(3):12-15.
[2] 任志宇,施于庆.模具CAD/CAM技术的现状与发展趋势.机电工程,2001,18(5):9-10.
[3] Chen C H, Occena L G. Knowledge decomposition for a product design blackboard expert system. Artificial Intelligence in Engineering, 2000, (14):71-82.
[4] 朱征,郭志全.模具CAD/CAM的现状和发展.机械研究与应用,2003,16(2):1-2.
[5] 王国中,申长雨.注塑模具CAD/CAE/CAM技术.北京:北京理工大学出版社,1998.
[6] 周雄辉.现代模具设计制造理论与技术.上海:上海交通大学出版社,2001.
[7] Nezhad K S, Siores. An intelligent system for plastic injection molding process design. Journal of Materials Processing Technology, 1997, 63 (5):458-462.
[8] Jee D H, Kang K J. A method for optimal material selection aided with design making Theory. Materials and Design, 2000, 15 (5):199-206.
[9] Raviwongse R. The plastic manufacturing process selection methodology using Self-Organising Map(SOM)/fuzzy analysis. The International Journal of Advanced Manufacturing Technology, 2000, 16 (8):155-161.
[10] 蒋亚军,娄臻亮.基于知识的注塑模顶出设计.上海交通大学报,2004,38(7):1109-1117.
[11] 石峰,娄臻亮.基于模糊粗糙集模型的注塑模浇注系统方案智能化设计研究.机械工程学报,2003,39(9):123-127.
[12] 王轶为,娄臻亮,彭颖红.基于特征的注塑模智能浇注系统设计系统的研究.机械科学与技术,2005,11(6).121-125.
[13] 王德翔,刘来英,王振宝等.基于人工神经网络技术的注塑成型工艺参数优化.模具技术,2001,3(6):1-4.
[14] 李凯岭,张月蓉.基于KBS的注塑模具CAD技术的研究.模具技术,2004,13(3):3-6.
[15] Li C L. A feature-based approach to injection mould cooling system design. Computer-Aided Design, 2001, 13 (8):1073-1090.
[16] Li C L, hi C G, Mok A C K. Automatic layout design of plastic injection mould cooling system. Computer-Aided Design, 2005, 37 (8):645-662.
[17] 华都,王华昌,李建军.基于UG的注塑模冷却系统自动生成的研究与实现.模具技术,2006,(2):6-9.
[18] 秦一芬,吴崇峰,王军等.基于特征和面向对象的注塑模冷却系统设计的研究.工程塑料应用,2004,32(12):53-55.
[19] 唐合存,姜开宇,于同敏.KBE技术在注塑模具设计中的应用.塑料科技,2006,6(4):36-39.
[20] 张俊华,韩华伟.基于知识的CAD研究现状及进展.机械设计,2006,26(6):1-4.
[21] Alam M R, Lee K S, Rahman M et al. Process planning optimization for the manufacture of injection moulds using a generic algorithm. International Journal of Computer Integrated Manufacturing, 2003, 16 (3):81-91.
[22] 杨宁,娄臻亮,周雄辉.基于知识的注塑模具DFx系统建模,计算机集成制造系统,2005,11(6):762-767.
[23] 孙传亭.基于WEB的注塑模知识库系统的建立:(硕士学位论文).大连:大连理工大学,2004.
[24] 邵健,吕震,柯映林.基于KBE的模具型腔设计系统.计算机辅助设计与图形学学报,2006,18(6):781-786.
[25] 骆志高,石明洪.基于知识的注塑模冷却方式图形库的研究.机械工程学报,2000,36(3):89-92.
[26] Qiao H. A systematic computer-aided approach to cooling system optimal design in plastic injection molding. International Journal of Mechanical Sciences, 2006, 48 (4):430-439.
[27] 范小利.注塑模具冷却系统与注塑制品性能关系的研究:(硕士学位论文).北京:北京化工大学,2003.
[28] Dimla D E, Camilotto M, Miani F. Design andoptimization of conformal cooling channels in injection moulding tools. Journal of Materials Technology, 2005, 164:1294-1300.
[29] 塑料模具设计手册编写组.塑料模具设计手册.北京:机械工业出版社,1994.
[30] 王文广,田宝善,田雁晨.塑料注射模具设计技巧与实例.北京:化学工业出版社,2004.
[31] 蔡一芬.基于AutoCAD注塑模具温控系统的开发:(硕士学位论文).天津:天津科技大学,2005.
[32] 汪立胜.注射模中冷却水路结构的设计.模具制造,2005,(8):37-39.
[33] Asif I, Ning H, Li Let al. A fuzzy expert system for optimizing parameters and predicting performance measures in hard-milling process. Expert Systems with Applications, 2007, 32 (4):1020-1027.
[34] 周丹晨,殷国富.机械工程专家系统技术的研究进展.机械设计与制造工程,2002,31(15):3-6.
[35] 周治震,凌玲.一种用于设计型专家系统的模糊知识表示与推理模型.中国机械工程,2002,13(21):1859-1861.
[36] 张佑生,何洲平,李寿兵.基于产生式规则和模糊推理的注射模总体结构设计专家系统.小型微型计算机系统,2001,22(10):1222-1225.
[37] 于同敏,李冠华,姜开宇.基于事例推理的模具分型面设计方法研究.中国机械工程,2004,15(13):1167-1170.
[38] 邓武.基于实例推理和粗糙集理论的智能冲模CAD关键技术研究:(硕士学位论文).大连:大连交通大学,2006.
[39] 朱莉萍,娄臻亮,邢渊.基于事例的注塑模架自动设计系统的研究.模具技术,2001,(1):7-10.
[40] 刘文剑,许之伟,陈在礼.基于事例的工艺设计中形状相似性计算方法.计算机集成制造系统,2001,7(9):55-70.
[41] 孙晓斌,杨海成,王佑君.基于事例的设计方法研究.机械科学与技术,2000,19(2):331-332.
[42] 江勤,葛燕,李登道.基于CBR专家系统案例知识的检索、匹配及其扩展.山东科技大学学报,2002,21(2):35-38.
[43] Crevier D I. History reviews of the research for artificial intelligence. Artificial Intelligence, 1996, 37 (3):27-32.
[44] 李寿兵,张佑生,葛亮.基于事例推理的注塑模概念设计.计算机工程与应用,2002,(9):89-91.
[45] 李世国.AutoCAD高级开发技术ARX编程及应用.北京:机械工业出版社,1999.
[46] 赵京,郑忠俊,方志高.在ARX程序中应用AD嘞问数据库技术的研究.机械,2004,31(9):36-38.
[47] 杨翔,张玉峰.ADO技术在ARX中的应用.建筑技术开发,2005,32(2):96-98.
[48] 周子凡,吴崇峰,王华山.基于AutoCAD的塑料注射模的二次开发.塑料科技,2003,(1):3-7.
[49] 刘军华.智能注塑模具CAD系统S3DMAD的研究与开发:(硕士学位论文).山东:山东大学,2005.
[50] 于同敏,李冠华.注塑模成型零件自动生成技术研究综述.模具工业,2003,(11):10-14.
[51] 蒋亚军,娄臻亮.基于知识的注塑模顶出设计.上海交通大学报,2004,38(7):1109-1117.
[52] 王军,孙惠学,吴凤和.基于知识的智能设计系统知识库构建方法研究.机械设计,2007,24(2):30-34
[53] Siu C K, Wing M W. A study of building a resource-based learning environment with the inquiry learning approach. Computers and Education, 2007, 50 (1):37-60.
[54] 宋延杭,王川,李永宣.0bjectARX实用指南——AutoCAD二次开发.北京:人民邮电出版社,1999.
[2] 任志宇,施于庆.模具CAD/CAM技术的现状与发展趋势.机电工程,2001,18(5):9-10.
[3] Chen C H, Occena L G. Knowledge decomposition for a product design blackboard expert system. Artificial Intelligence in Engineering, 2000, (14):71-82.
[4] 朱征,郭志全.模具CAD/CAM的现状和发展.机械研究与应用,2003,16(2):1-2.
[5] 王国中,申长雨.注塑模具CAD/CAE/CAM技术.北京:北京理工大学出版社,1998.
[6] 周雄辉.现代模具设计制造理论与技术.上海:上海交通大学出版社,2001.
[7] Nezhad K S, Siores. An intelligent system for plastic injection molding process design. Journal of Materials Processing Technology, 1997, 63 (5):458-462.
[8] Jee D H, Kang K J. A method for optimal material selection aided with design making Theory. Materials and Design, 2000, 15 (5):199-206.
[9] Raviwongse R. The plastic manufacturing process selection methodology using Self-Organising Map(SOM)/fuzzy analysis. The International Journal of Advanced Manufacturing Technology, 2000, 16 (8):155-161.
[10] 蒋亚军,娄臻亮.基于知识的注塑模顶出设计.上海交通大学报,2004,38(7):1109-1117.
[11] 石峰,娄臻亮.基于模糊粗糙集模型的注塑模浇注系统方案智能化设计研究.机械工程学报,2003,39(9):123-127.
[12] 王轶为,娄臻亮,彭颖红.基于特征的注塑模智能浇注系统设计系统的研究.机械科学与技术,2005,11(6).121-125.
[13] 王德翔,刘来英,王振宝等.基于人工神经网络技术的注塑成型工艺参数优化.模具技术,2001,3(6):1-4.
[14] 李凯岭,张月蓉.基于KBS的注塑模具CAD技术的研究.模具技术,2004,13(3):3-6.
[15] Li C L. A feature-based approach to injection mould cooling system design. Computer-Aided Design, 2001, 13 (8):1073-1090.
[16] Li C L, hi C G, Mok A C K. Automatic layout design of plastic injection mould cooling system. Computer-Aided Design, 2005, 37 (8):645-662.
[17] 华都,王华昌,李建军.基于UG的注塑模冷却系统自动生成的研究与实现.模具技术,2006,(2):6-9.
[18] 秦一芬,吴崇峰,王军等.基于特征和面向对象的注塑模冷却系统设计的研究.工程塑料应用,2004,32(12):53-55.
[19] 唐合存,姜开宇,于同敏.KBE技术在注塑模具设计中的应用.塑料科技,2006,6(4):36-39.
[20] 张俊华,韩华伟.基于知识的CAD研究现状及进展.机械设计,2006,26(6):1-4.
[21] Alam M R, Lee K S, Rahman M et al. Process planning optimization for the manufacture of injection moulds using a generic algorithm. International Journal of Computer Integrated Manufacturing, 2003, 16 (3):81-91.
[22] 杨宁,娄臻亮,周雄辉.基于知识的注塑模具DFx系统建模,计算机集成制造系统,2005,11(6):762-767.
[23] 孙传亭.基于WEB的注塑模知识库系统的建立:(硕士学位论文).大连:大连理工大学,2004.
[24] 邵健,吕震,柯映林.基于KBE的模具型腔设计系统.计算机辅助设计与图形学学报,2006,18(6):781-786.
[25] 骆志高,石明洪.基于知识的注塑模冷却方式图形库的研究.机械工程学报,2000,36(3):89-92.
[26] Qiao H. A systematic computer-aided approach to cooling system optimal design in plastic injection molding. International Journal of Mechanical Sciences, 2006, 48 (4):430-439.
[27] 范小利.注塑模具冷却系统与注塑制品性能关系的研究:(硕士学位论文).北京:北京化工大学,2003.
[28] Dimla D E, Camilotto M, Miani F. Design andoptimization of conformal cooling channels in injection moulding tools. Journal of Materials Technology, 2005, 164:1294-1300.
[29] 塑料模具设计手册编写组.塑料模具设计手册.北京:机械工业出版社,1994.
[30] 王文广,田宝善,田雁晨.塑料注射模具设计技巧与实例.北京:化学工业出版社,2004.
[31] 蔡一芬.基于AutoCAD注塑模具温控系统的开发:(硕士学位论文).天津:天津科技大学,2005.
[32] 汪立胜.注射模中冷却水路结构的设计.模具制造,2005,(8):37-39.
[33] Asif I, Ning H, Li Let al. A fuzzy expert system for optimizing parameters and predicting performance measures in hard-milling process. Expert Systems with Applications, 2007, 32 (4):1020-1027.
[34] 周丹晨,殷国富.机械工程专家系统技术的研究进展.机械设计与制造工程,2002,31(15):3-6.
[35] 周治震,凌玲.一种用于设计型专家系统的模糊知识表示与推理模型.中国机械工程,2002,13(21):1859-1861.
[36] 张佑生,何洲平,李寿兵.基于产生式规则和模糊推理的注射模总体结构设计专家系统.小型微型计算机系统,2001,22(10):1222-1225.
[37] 于同敏,李冠华,姜开宇.基于事例推理的模具分型面设计方法研究.中国机械工程,2004,15(13):1167-1170.
[38] 邓武.基于实例推理和粗糙集理论的智能冲模CAD关键技术研究:(硕士学位论文).大连:大连交通大学,2006.
[39] 朱莉萍,娄臻亮,邢渊.基于事例的注塑模架自动设计系统的研究.模具技术,2001,(1):7-10.
[40] 刘文剑,许之伟,陈在礼.基于事例的工艺设计中形状相似性计算方法.计算机集成制造系统,2001,7(9):55-70.
[41] 孙晓斌,杨海成,王佑君.基于事例的设计方法研究.机械科学与技术,2000,19(2):331-332.
[42] 江勤,葛燕,李登道.基于CBR专家系统案例知识的检索、匹配及其扩展.山东科技大学学报,2002,21(2):35-38.
[43] Crevier D I. History reviews of the research for artificial intelligence. Artificial Intelligence, 1996, 37 (3):27-32.
[44] 李寿兵,张佑生,葛亮.基于事例推理的注塑模概念设计.计算机工程与应用,2002,(9):89-91.
[45] 李世国.AutoCAD高级开发技术ARX编程及应用.北京:机械工业出版社,1999.
[46] 赵京,郑忠俊,方志高.在ARX程序中应用AD嘞问数据库技术的研究.机械,2004,31(9):36-38.
[47] 杨翔,张玉峰.ADO技术在ARX中的应用.建筑技术开发,2005,32(2):96-98.
[48] 周子凡,吴崇峰,王华山.基于AutoCAD的塑料注射模的二次开发.塑料科技,2003,(1):3-7.
[49] 刘军华.智能注塑模具CAD系统S3DMAD的研究与开发:(硕士学位论文).山东:山东大学,2005.
[50] 于同敏,李冠华.注塑模成型零件自动生成技术研究综述.模具工业,2003,(11):10-14.
[51] 蒋亚军,娄臻亮.基于知识的注塑模顶出设计.上海交通大学报,2004,38(7):1109-1117.
[52] 王军,孙惠学,吴凤和.基于知识的智能设计系统知识库构建方法研究.机械设计,2007,24(2):30-34
[53] Siu C K, Wing M W. A study of building a resource-based learning environment with the inquiry learning approach. Computers and Education, 2007, 50 (1):37-60.
[54] 宋延杭,王川,李永宣.0bjectARX实用指南——AutoCAD二次开发.北京:人民邮电出版社,1999.