外文翻译--一种基于网络智能化设计系统的注射模 英文版

Robotics and Computer Integrated Manufacturing 24 2008 1 15 An Internet based intelligent design system for injection moulds C K Moka K S China Hongbo Lana b aDepartment of Manufacturing Engineering and Engineering Management City University of Hong Kong Tat Chee Avenue Kowloon Hong Kong bSchool of Mechanical Engineering Shandong University Jinan 250061 China Received 18 October 2005 received in revised form 24 April 2006 accepted 5 May 2006 Abstract The rapid growth of Internet and information technologies in recent years provides a solution to support and facilitate collaborative product developments among different geographically distributed enterprises An effective and feasible tool to aid the collaborative development of injection moulds can be realized by developing an Internet based mould design system as one of the modules of a collaborative product development system This paper presents a prototype Internet based intelligent design system for injection moulds The architecture of the system consists of an interactive KB mould design system embedded in an Internet environment A Java enabled solution together with artifi cial intelligence techniques is employed to develop such a networked interactive CAD system In this system the computational module the knowledge base module and the graphic module for generating mould features are integrated within an interactive CAD based framework The knowledge base of the system would be accessed by mould designers through interactive programs so that their own intelligence and experience could also be incorporated with the total mould design The approach adopted both speeds up the design process and facilitates design standardization which in turn increases the speed of mould manufacture A practical case study is presented to illustrate the operations of the Internet based mould design system r 2006 Elsevier Ltd All rights reserved Keywords Internet Knowledge based expert systems Injection mould design Collaboration 1 Introduction Plastic which is one of the most versatile in the modern age is widely used in many products throughout the world Due to its ability to produce complex shape plastic parts with good dimensional accuracy and very short cycle times injection moulding has become the most important process for manufacturing plastic parts in the plastic industry today However the current plastics industry is under great pressure due to the globalization of the market the short life cycle of product development increasing product diversity high demand of product quality To meet such requirements it is very important for this trade to adopt various advanced technologies which include information and Internet technology CAD CAE CAM integration technology concurrent engineering artifi cial intelligence and so on to effectively aid the development of injection moulded product In injection moulding the design of a mould is of critical importance for product quality and effi cient processing In most cases quality of mould is responsible for the economics of the entire process Injection mould design involves extensive empirical knowledge heuristic knowl edge about the structure and functions of the components ofthemould Nowadays moulddesignfaceswith increasing deadline pressures and the design itself is predominantlybaseduponexperienceofthemould designer Mould designers are required to possess thorough and broad experience because detailed decisions require the knowledge of the interaction among various para meters Unfortunately it is presently impossible to cover the growing demand for such experienced designers Therefore intelligent CAD tools that can assist in the various tasks of the mould design process are very importanttotheproductivityofthemould making industry ARTICLE IN PRESS 0736 5845 see front matter r 2006 Elsevier Ltd All rights reserved doi 10 1016 j rcim 2006 05 003 Corresponding author Fax 85227888423 E mail address meckmok cityu edu hk C K Mok The growing trend in global manufacturing is to a large extent supported by Internet information technologies and global marketing Nowadays it is common to see that design manufacturing and fi nal assembly of a product are made in companies located in different parts of the world The various parties concerned would need to share their expertise and experiences during the product development process The current progress of Internet and information technologies can provide a solution to support and facilitate collaborative product developments among dif ferent geographically distributed enterprises Developing an Internet based intelligent mould design system as one of the module of a collaborative product develop ment system can provide an effective and feasible tool to aid the collaborative development of injection moulds in the small and medium sized enterprises to satisfy the stringent requirements of nowadays competitive global market This paper presents an Internet based intelligent mould design system using Internet technology and knowledge based approach The system can shorten the design cycle of injection mould and can effectively aid the design and development works of injection moulds in the small and medium sized enterprises to meet the increasing pressure of the current competitive world market The rest of the paper is organized as follows Section 2 gives a brief introduction of injection mould design Section 3 introduces earlier research works on mould design and related fi elds The architecture of the Internet based mould design system is presented in section 4 The knowledge based part of the mould design system is described in section 5 Section 6 discusses the development of the system A practical design case is demonstrated in section 7 Conclusion is made in section 8 2 Injection mould design The basic features of an injection mould consist of cavity number and layout feed system cooling system ejection system and mould construction Fig 1 shows the general procedure of mould design 1 It can be seen that how interrelated the conditions are and which boundary and secondary conditions have to be met by the main functions A mould design project normally starts with economic considerations namely the question of how many parts can and should be produced in one mould in one shot in order to meet the delivery date and other requirements This is followed by consideration of the arrangements of the cavities in the mould frame which might directly include thoughts on the ease of ejection and subsequently the connection between mouldings and runners and part quality number position and shape of gates The feed system accommodates the molten plastic material coming from the injection nozzle of the moulding machine and distributes it into each cavity To remove the heat from the moulding it is necessary to provide the mould with a cooling system After the moulding has solidifi ed and cooled down it has to be removed from the mould by the ejection system Mould is normally constructed by stacking several metal plates to form a rigid body It has to house various mould components in correct positions for the proper functioning of the mould Mould construction normally involves the selection of mould bases and standard mould parts For complicated plastic parts some other mechanisms such as slides unscrewing device etc might also be involved in the whole mould structure 3 Related research A number of research activities have been carried out on mould design and its related fi eld over the years using computer aided techniques These research activities range from studying specifi c areas of mould design to investigat ing mould design as a whole integrated system They can broadly be classifi ed into three areas the functional and initial mould designs the algorithms to automate mould generation and system development of mould design Hui and Tan 2 presented a heuristic search approach based on sweep operations to develop automated mould design systems for determining parting direction parting line side core etc Huang et al 3 used solid modelling techniques to build mould plates and library of standard mould components Chen and Liu 4 have developed a cost model which depicts the relationships between cost factors and product development activities as well as their relationships with product geometry for cost effectiveness design for injection moulding Fu et al 5 proposed an effi cient methodology which systematically presents the undercut feature defi nition classifi cation undercut feature parameters and the recognition criteria of all types of undercut features for undercut feature recognition in an injection mould design system Chen et al 6 presented a method for determination of parting direction based on dexel model and fuzzy decision making Li JC 7 presented a neural network approach for modelling and optimization of injection mould gate parameters Li CL 8 used a feature based approach to design the cooling system of injection moulds Chung and Lee 9 proposed a frame work of collaborative design environment for injection mouldinginwhichgeographicallydistributed multi disciplinary designers can collaborate with one another Ma et al 10 described the development of a standard component library for plastic injection mould design using an object oriented approach Low and Lee 11 introduced a methodology of providing the initial design in 3D solid model instead of 2D drawings using the standardization method Ashaab et al 12 described a supporting plastic engineering development system to facilitate the sharing of injection moulding information and knowledge between interested parties via the Internet for the collaborative design of injection mould Li et al 13 used graph based technique and developed a heuristic search algorithm to automate the layout design of plastic injection mould cooling system ARTICLE IN PRESS C K Mok et al Robotics and Computer Integrated Manufacturing 24 2008 1 152 Researchers have started to adopt a knowledge based approach to solve the injection moulding and mould design problems in recent years DTMOULD 1 14 is a KBS for of injection moulds cost estimation EIMPPLAN 1 15 incorporated mouldability considerations into part designs and addressed the conceptual design development of injection moulded parts CADFEED 16 was developed for injection mould design They are however limited to specifi c design areas or simple parts and are not mature and practical enough to cover general mould design Bozdana and Eyercioglu 17 developed an expert system for the determination of injection moulding parameters of thermoplastic materials Chan et al 18 presented the basic structure of a CAD knowledge based assisted injection mould design system which covers both the mould design process and mould knowledge management From the above review it can be seen that most of the previous work consider only certain aspects of the total design and some of them are too theoretical to be applied for practical mould design which involves a substantial ARTICLE IN PRESS Fig 1 The general procedure of mould design 1 C K Mok et al Robotics and Computer Integrated Manufacturing 24 2008 1 153 practicalknowledgecomponentaboutfunctionsand structure of a mould human heuristic knowledge and empirical type of knowledge The KB system has demon strated great potential to assist the designer to interact with a CAD system for conceptualized design as well as the fi nal engineering design of a mould by using engineering rules of thumb with extensive analytical means In addition there is stillrelativelyfewresearchworksonInternet based intelligent system for injection mould design 4 Architecture of the Internet based mould design system 4 1 Overview At the present time most CAD systems provide only the geometric modelling functions which facilitate the drafting operations of mould design and do not provide mould designers with necessary knowledge to develop good mould designs Conventionalcomputer aidedengineering packages are usually good at data processing for informa tion intensive problems or at number manipulation for formulation intensive problems The former comprehends the computer aided drafting and graphics and data reduction and transformation while the latter involves numerical ormathematical modellingandanalysis However in design problem especially in mould design which involves a substantial practical knowledge compo nent about functions and structure of a mould human heuristic knowledge and empirical type of knowledge are neededin additionto the information intensive and formulation intensive knowledge Therefore conventional computer aided design technology is unsuitable for proces sing heuristic and empirical type of knowledge which is critical in the mould design problems In general the major advantage of the KB system for mould design over conventional computer aided design systems is the explicit representation and manipulation of a body of knowledge representing the human expertise An Internet based mould design system using Internet technology and knowledge based approach can provide an effective and feasible tool to aid the collaborative develop ment of injection moulds in the small and medium sized enterprises to satisfy the stringent requirements of nowadays competitive global market Moreover there is a consistent need to check and update the information to ensure that the data is accurate and updated as mould manufacturers and standard components suppliers continually improve and upgrade their equipments and processes By taking full advantage of the fast evolving computer network and information technologies an Internet based mould design system could have the ability to continually update and upgrade the large amount of information related to injection mould design in a prompt and convenient manner 4 2 System architecture Based on the practical mould design procedures and the issues to be considered in this stage the architecture of anInternet basedintelligentinjectionmoulddesign system is proposed as shown in Fig 2 It consists of a ARTICLE IN PRESS Internet User Layer Network Layer Business Logic Layer Data and most of the knobs buckets and cups are basically circular in shape The Opitz system 19 which is the popular classifi cation system for mechanical parts has also been referred to in developing part of the coding system The code is divided into three sections and has a total of 12 digits The fi rst section which describes the plastic part contains the fi rst four digits The second section which describes the relation between the part and the mould includes the fi fth digit The third section which describes the mould contains the last seven digits 5 1 1 The fi rst section part description This section includes the fi rst four digits They represent the part class part external shape undercut features and material class respectively 5 1 1 1 Part class The fi rst digit distinguishes the part as a circular part or a non circular part There are seven numeric positions for this digit as shown below 1 Circular part with H Dp0 5 2 Circular part with 0 5oH Do3 3 Circular part with H DX3 4 Variational circular part 5 Non circular part with H Dep0 5 6 Non circular part with 0 5oH De o3 7 Non circular part with H DeX3 ARTICLE IN PRESS C K Mok et al Robotics and Computer Integrated Manufacturing 24 2008 1 156 Here H is the height of the part measured from the parting line D is the diameter of a circular part De is the equivalent diameter of a non circular part with length L and width W De O 4LW p Parts belong to Class 1 andClass3arelike fl atdiscsandlongcylinders respectively Parts belonging to Class 5 and Class 7 are like fl ats and long prisms respectively 5 1 1 2 Part external shape The second digit depends on which class the part belongs and the classifi cation rules are as follows Class 1 3 1 Smooth having a uniform diameter along the entire height 2 Cone diameter stepped to one end 3 Having various diameters along the entire height Class 4 1 Curved rotating axis 2 More than one parallel rotating axes 3 More than one non parallel rotating axes Class 5 1 Rectangular with no deviation in corner 2 Rectangular with one deviation right angle or trian gular 3 Rectangular with circular deviation 4 Flat part regularly arched or dished 5 Irregular contoured fl at part Class 6 7 1 Straight axis uniform cross section no deviation in corner 2 Straight axis uniform cross section with one devia tion 3 Straight axis uniform other than rectangular cross section 4 Straight axis varying cross section stepped to one end 5 Straight axis varying cross section along the entire height 6 Curved axis 5 1 1 3 Undercut feature Mould designers are frequently encountered with demoulding problems resulting from undercuts existing on the plastic parts An undercut can be defi ned as any interference occurring between the mould and the moulded part when the part is knocked out from the mould in the withdrawal direction The design of an appropriate mould for this type of products is inevitably more complicated than for those without any undercuts In general undercuts can be classifi ed into three types external undercut internal undercut and internal thread The undercut feature is represented by the third digit which has the following positions 1 External undercut only 2 Internal undercut only 3 Internal thread only 4 External undercut and internal undercut 5 External undercut and internal thread 5 1 1 4 Material class Plastic material used for mould ing the part is classifi ed according to its material constant n 20 There are four positions for the fourth digit Position1234 Material constant n0 60 70 80 9 5 1 2 The second section the relationship between the part and the mould This section consists of only one digit the fi fth digit It describes the relation between the directions of the part axis and the mould parting line and is classifi ed as below 1 Part axis is perpendicular to the mould parting line

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