盒蓋零件的注射模設(shè)計(jì)【一模兩腔】【側(cè)抽芯】【說明書+CAD】

盒蓋零件的注射模設(shè)計(jì)【一模兩腔】【側(cè)抽芯】【說明書+CAD】,一模兩腔,側(cè)抽芯,說明書+CAD,盒蓋零件的注射模設(shè)計(jì)【一模兩腔】【側(cè)抽芯】【說明書+CAD】,盒蓋,零件,注射,設(shè)計(jì),說明書,仿單,cad CHINESE J0URNAL OF MECHANICAL ENGINEERING vo118，No4，2005 609 Yu Tongmin Li Guanhua Li Youmin Lan Jian Key Laboratory for Precision and Non- traditional Machining Technology of Ministry of Education， Dalian University of Technology, Dalian 116024China 0 INTRoDUCTIoN DESIG N TECH NOLOGY FOR INJECTION MOLD PARTING SURFACE BASED ON CASES AND KNOWLEDGE Abstract：On the basis of the comprehensive analysis about the automatic generation of the irject- ion mold parting surface，the parting surface design method which introduces knowledge and case based reasoning(CBR)into the computeraided design is described by combining with the actual characteristic in injection mold designand the design process of casebased reasoning method is also givenA case library including the information of parting surface is built with the index of main shape features，The automatic design of the mold parting surface is realized combined with the forwardreasoning method and the similarity solution procedure The rule knowledge library is also founded including the knowledge，principles and experiences for paging surface design An example is used to show the validity of the methodand the quality and the efnciency of the mold design are improved Key words：lnjection mold Parting surface design Casebased reasoning(CBR) Similarity solution Being one of the important steps in injection mold design， the choice of parting surface has an directly effect on the general frame design，mold making cost，the parting surface machining and the quality of the final plastic parts L“So the rational choosing of the parting surface is the precondition of a successful injection mold design and the basis of realizing injection molding part automatic and sophisticated designIn recent years，research work on the parting surface and mold components automatically generation is one of the hotspots and difficulties in the injection molding CAD fieldand many researchers around the world have done remarkable works about this issueBut those prior works tend to express the geometry shape and its position relations of parting surface al1around by constructing some numerical models based on the essential analysis of the plastic parts shape L Due to the diversity and structure complexity of plastic parts，those methods have some kinds of shortcomings in practice With much experience and little theory for molding design the parting surface design method which introduces knowledge and casebased reasoning(CBR)into the computeraided design is presented by combining with the design process of iniection molding design，so that the molding parts can be generated automaticallyKnowledge and casebased reasoning means applying similarity judgment procedure and analogism to handle a new design task by constructing knowledgebrary and case library and respective reasoning rule on the basis of combining the knowledge and rule of parting surfacc design and the successful design cases and the successful experience of mold engineers organically【 thus the new design not only fits the principle of mold parting surface but also includes the successful experience of those forlTler casesAs a result，this approach is more convenient，quick and practical effective compared to analysis and solving the parting surface design by constructing numerical mode1Further more the description of parting surtace design experiences are easily expressed by the cases rather than the abstract design rules and expressionsSo the knowledge and case-based reasoning parting surface design method is very suitable for mold engineers thought fashion and manner Received May 26，2004；received in revised form August 17，2005；accepted August 30，2005 1 FRAMEWORK oF KNOWLEDGE AND CASE BASED REASoNING PARTING SURFIACE AUToMATIC DESIGN The general idea of knowledge and casebased reasoning parting surface design is to found a case library using SUCCESSful paning surface designs in term of molded partstypes and geometric characterThe main shape features of molded part are indexes of this libraryAtier searching the similar case with the parts main shape feature from the case library,the parting surface can be generated by judging from the similarity principle and the given reasoning strategYAt the same time，the correlative knowledge and principles of parting surface design and the designers experiences can be summarized into knowledge library which can be queried and consulted by designers as the assistant information of parting surface designThe case component of the method is used for the reasoning designwhile the knowledge one for the guidance of designers rational selection of parting surface The knowledge and casebased reasoning parting surfacc design mainly consists of the following：(1)Constructing know1 edge library，Aiming at the practice of injection molding design，a knowledge library of parting surface design rules is founded through concluding and integrating the related knowledge and rules of parting surface design and the designersexperiences Constructing case library of parting surface positionA case library of parting surface position is constructed based on the types of molded parts and the previous successful design cases， which consists of the description of cases and the structure of case libraryThe key of describing the position of parting surface is to sort and organize the shape features of case models and determine the corresponding position of parting surface according to the variant shape of molded partsBecause the parting surface position is mainly determined by the parts shape featurethe organization of case library should be propitious to the case searching in design processIdentification of molded parts shape featureThe shape features of original part should be identified before determining the position of parting surface Therefore，the main shape features index need to be founded aiming at the type of molded part structureThus the seamless ipint between modeng molded part and design module of mold Dartin窟 surflace can be realized As a result， the inheted chamcteristic of svstem is also improved0 Svstem reasonin空 and searchin空TT1ode1Searching and matching the simila爭(zhēng) ape 維普資訊 http:/ 6 10。 Yu Tongmin，et al：Design technology for injection mold parting surface based oi1 cases and knowledge feature of part model from the parting surface position cases is the primary task of the parting surface position cases searching courseHence building the shape feature indexed model is the core to realize exact case reasoning and quick searching Automatic generation of parting surfaceAfter performing design marching and adjusting about the selected parting surface position case which is similar to the shape feature of molded part，the needed mold parting surface can be generated automaticallyStorage of casesThe abundant case library of parting surface position is the important foundation to improve the design quality of mold parting surface and reasoning emciencyThe system provides storage iudgment and selection based on classification by case features about the finally result of each new design task The flowchart of knowledge and casebased reasoning parting surface designing is shown in Fig1 Fig1 Flow chart ofknowledge and casebased reasoning parting surface design 2 BUILDlNG OF KNOWLEDGE LIBRARY AND CASE LIBRARY The knowledge library is the important resource that can assist designer to select rational parting surfacc positionThe organization and description of knowledge in the library should fit for the practical mold design process and can be easily queried and consulted by designersTherefore。the common used knowledge and principles in parting surfacc design and the designerssuccessful experiences were concluded and integrated Some pieces of design rules knowledge which forlYl the knowledge library of parting surface design，were established and were identified by simple sentencesA1l of the design rules in library were described and expressed in detail by figure and letter And the clue is also given in“recommended”and“not recommended”ways in the figure component of design rules which can help the designers make the rational selection based on particular design case Fig2 shows the parting surface position description given by the system after choosing one of the design rules Recommended style Fig 2 Demonstration ofthe knowledge library ofparting surface design The parting surface design mainly has relation to the main shape feature of molded partand the identification of the main shape feature also plays a leading role in case searchingIn this regard，the structure of case 1ibrary should be organized according to the shape feature of partand the hierarchical feature tree of molded part should be constructedby which the part cases can be classified storedClassifving the shape fcaturcs of parts by their different characters，the common factors of part model can be extracted as the parent nodeThe child node can inherit all of attributes from the parent nodeand contain more features than the parent oneAs far as a single case is concerned，along with the inherited relation going through layer by layerthe number of feature attributes will increase The feature attributes are more apt to describing concretely and by instanceand the complex degree of their relations is also increasedThis classified approach can help to search the case library indexed by shape features and to solve the molded Dart with complex shape 3 CASE DESCIUPTIoNS AND SEARCHING 31 Cllse descriptions The case description is the foundation to perform a knowledgebased reasoning，which turns to describe an existed successful design case as the data information that can be identified and processed by computerThe content and the descriptive ways have relation with the quality and emciency of solving similar questions The case description may be expressed in the following mode+ case of the molded part=the index information po sition information of parting surfacewhere the index information is the shape feature of the partNamely the shape feature of part as an index can search the similar case with the main shape featureand the respective parting surface position is also given in this case Thus the cases in parting surface position case library are some typical part shape and the corresponding parting surface position on the part mode1The numerical description is case(F, case(ffi， ， )，(s1， 2，sm) where F-=( ， ， )，f is the child shape feature in the injection molding case，i=1，2，n， is the number of child featuresinthe case，S=01， 2，sm)，s，isthe solving scheme，ic the parting surface position_ 1，2，m，m is the number of available parting surface position of one case mode1 A hierarchical case library,which is shown in Fig3Call be formed according to the number of the shape features in cases And the next layer contains one more shape feature than the rormcr oneIt develops the shape information of case model on the basis of inheriting the former layers shape featuresFig4 shows the organizing scheme of complex casesThe scheme is consistent with the model process of molded partthus it is convenient to performing case searching indexed by the shape featurc 32 Hierarchical searching based on the product rule Case searching is an important component in reasoning mechanismThe essential of searching is the process of searching and matchingSo the process of constructing inference mechan 維普資訊 http:/ CHINESE JOURNAL OF MECHANICAL ENGINEERING ism is also the process of constructing the searching strategies and matching the similarities The strategies have a great effect on the reasoning efficiency and the resultThe purDose of the searching of the parting surface position case is to search the case which has the similar main shape feature with the plastic mode1Thus the method is proposed on the basis of product rule according to the organizationa1 structure of case 1ibraryThe hierarchica1 searching means that the case library is searched in rum from the head 1ayer to the end in the searching procedurebut which embranchment would bc followed should be iudged from the product rule 1 Molded parts l 一 B。ard-l ke pansI l c。latoned pans J l Spl erical parts lcurvea su ce l 暈回 、 Conifore Il Colnifbnn ll Mixed 1 、 I Is。mctric radi -s l J Ladder 1 、 、 、一 l 1 J Solid l I Fig3 Organization structure ofthe parting surface position case library Case n 、 Q童Fe ature m) Fig+4 Organization structure ofthe complicated case Fig5 shows a type of 1adder 1ike molded parts with the 1adder hole feature，which can be obtained by performing Boolean subtraction between two 1adder shaft features，and a filleted comer as the assistant featureThe reasoning searching process is，firstly performing the first iudgment，if feature 1 is the 1adder shaft，then the case 1 with 1adder shaft is obtained；then performing the second iudgmentif the feature 2 with 1adder shaft performs Boolean subtraction with case 2and the position of its center line is at the same 1ocation with the former onesthen the 1adder shaft case with 1adder hole feature is obtained Applying this reasoning method can acquire high efficiency， because searching along one embranchment need not traverse al1 of case in the 1ibraryIf the reasoning rules and cases are mature， the similar case with the shape feature of the molded part can be quickly obtained by applying hierarchica1 searching method based on the product ruleFurthermore，during the process of casebased parting surface automatic design，the case mode1 need not resemble the part model entirelyIt only needs that their main shape features are similar and the parting surface positions relative to one of main shape features of the two models are similarThe similarity solution mode1 of parting surface automatic generating is proposed here Two ladder Boolean Center line FiI】eted comer shaft features subtraction superposition tbatures Fig5 Forward-reasoning based on the product rule 4 SIMILARITY S0LUT10N M0DEL 0F PARTING SURFACE The parting surface of a case has the special position relation relative to a certain feature，And these relations represent always on a certain surface，a certain section or passing through a certain point of the feature etcThese position relations can be expressed as a 2Dvector,thatis P= ，l1 where產(chǎn)一Specia1 position relation X一Vector symbo1 口Point ofthe feature which the parting surface passes ，lNorlTla1 vector of parting surface In other wordsthe parting surface is represented by a norma1 vector n and a special point P of the featureFor cach parting surface of a case model，vector X is unchangeableAs far as a board1ike part case modeliS concemedif the parting surface is determined on the top face，then point P is the center point of this face，and nisthe normalvector, Firstly,find the position relation P of the parting surface relative to the case model，and then substitute the position relation into the part mode1 to determine its parting surface positionThe solving process can be expressed by the following expression ( 。(P) )c-c 一( (P) )r- j where Paning surface Cm。_-Case model 尸T Part mode1 ， 一一Feature located in Cm and Pm respectively The 1eft item represents the particular position of parting surface relative to a certain feature in the case model，while the right one represents this relation in the part mode1Using their similarity we can determine the parting surface of part mode1 According to the complexity of the structure of the molded parts，the parting surface design may inelude severa1 aspects as follows f 1 1 The parting surface is planeFor those parts whose main feature face is plane，one can find directly point P and vector n Substituting them into the vector expression ，1)，the parting surface position of the part mold can be determined For the part shown in Fig6the top face is selected as the parting surface according to the cases in the 1ibrary，Thus point P is the top face center point of the cubica1 part mode1while n is the norma1 vector ofthis surface，and these two values can be found from the feature data，so the position ofparting surface carl be solved conveniently Parting Fig6 Plane paing surface (2)Ladder parting surfaceThe ladder parting face feature is commonly used in some molded partsFor the part shown in Fig7 維普資訊 http:/ 6 1 2 Yu Fongmin，et al：Design technology for injection mold parting surface based on cases and knowledge one need firstly find the vectors ，X2，墨ofeach ladder face， then the ladder parting surface can be obtained by performing Boolean union operation with the parting surfaces controlled by these vectors Fig7 Ladder parting surface f31 The parting surce is curved faceThe solving process is complicated when the parting face is curved faceTake the part shown in Fig8 as an example，the key feature parameters，such as the radius arcthe position of center line and its distribution，sho uld be found according to the shape of the curved faceThen the solving model carl be constructedAtier substituting these param eters into the solving mode1the parting line can be generatedand then the parting surface also Call be obtainedIf the parting surface is freeform surfacethe solving model will be more complicated Fig8 Curved paging surface f41 Molded parts with complicated structureThe more complicated part model is the one that its similar case does not exist in the case library of parting surface positionand the case model resulted from the reasoning procedure also has a significant di舵renceThis kind of case model should be solved directly at this timefor the general structure of the part is complicated，but the position of parting line may be similar nll(e the part shown in Fig9 as an examplewhich consists of several structure factorsthere is not the similar case in the case libraryBut its parting face also can be designed using the case shown in Fig6and the top face ofthe part would be chosen as the parting surface because their positions of parting surface are similarIf the similarity solution procedure does not work，the human-computer interaction will be chosen to determine the partiI】g surface and the result will be stored，thus the case library ofthe parting surface position will be enriched Fig9 Paging surface ofcomplicated part 5 DESIGN EXAMPLE Our algorithm has been realized by programming with Visual C+on the platform of AutoCAD 2000ObjectARX serves as the developing toolkit because of its great efficiencyFig7 is used as the test part model，and the result of the determination of parting surface is shown in the figureIt is a kind of typical ladder parting surface1n the process of the parting surface selectingthe knowledge librarythe cases library,and the forward-reasoning method are usedThe similarity solution method and Boolean unite operation among the child parting surfaces are used to generate the final parting surNceFig10 is the 2D illustration of parting surce of this part mode1 Mold core Fig10 Final parting surface ofthe test part model 6 CoNCLUSIoNS The knowledge and casebased reasoning design of mold parting surface is to reason the similar case with the original part indexed by the shape fcature of the part and to determine the position of the mold parting surface employing the similarity solution methodThis approach has high design e伍ciency and reliability on the basis of the abundant knowledge library and case libraryIt also has several characteristics as follows： fl 1 The hierarchical case library of parting surface position is constructed based on the number of the features in the case，which makes the searching more convenient (21 Indexed by the shape feature，a hierarchical searching method is employed based on the product ruleIt has high e伍ciency and can quickly reason out the case model which main shape feature is similar to the molded part f31 Using the similarity of the shape features between the case model and the part mode1the similarity solution model of parting surface is foundedwhich can determine the position of the mold parting surface quickly and exactlyAs a result，