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Proceedings of the 10 th International Manufacturing Conference in China (IMCC2002) Xiamen, China, Oct. 2002 PANEL2-048 Research on Digital Models for Product Design and Manufacture WANG Zhong-qing GUO Chun-liang (East China Jiaotong University, Nanchang, Jiangxi, 330013 , China) Abstract: CAD/CAM integrate technology has been drawn to much attention and becomes one of the focus of the international academic and commercial research, Through efforts nearly 10 years, remarkable progress has been made in the 3-dimension feature parametric modeling. UG、 SOLIDWORK and MDT apply these technology with respective features. However, no distinct development has been made in the digital models from geometric feature to manufacture feature. Product information expression and the basic model frame of data exchange have been proposed based on STEP standards, but it is quite difficult to some extent ensure the operability, due to the complexity in application. The models addressed in this paper divide the shared digital models (not data models) for product design and manufacture into five parts: Digital product 3D molding design; Digital product technology process design; Digital product assembly design; Digital product manufacture process design; Digital product management design. The resource model should not be included. And It should be a peripheral model in product design; which is the innovative viewpoint of this paper. The core of above -mentioned five models is to access the digital model from the solid unit feature. Product definition should be determined on the basis of solid unit, and solid unit should follow the rules of “generation of machining processing”, Therefore, the author also proposed the Constructing Cutting Geometry Method (CCG) in IMCC2000. In this way, the integration of “forming processing assembling machining management” can be obtained. This is the core originality of the paper. Key words: product digitization, solid unit technique, CAD, CAPP, CAM Biography: Wang Zhong-qing(1943-), male, Professor 1. Introduction Before discussing digital models on product design and manufacture, it is necessary to clarify what digital product design and product digitization technique is? For example, some people may think, “digital manufacture technique is to apply digital technique to support the whole life cycle of product manufacture activities and to optimize the operation of the enterprises; and digital products can be obtained by utilizing digital technique in industry products. And the combination of information technology and manufacture technique will make manufacture technique digitized step by step. This is a lopsided comprehension without understanding the innate character. Product digitization is much different from digital products. Product digitization:take the part digitization for example, includes class code feature of solid Unit、assemblage style feature of solid unit 、shape feature of solid unit、 physical feature of solid unit、 manufacture feature of solid unit、 description feature of part、 assemblage feature of part、 information feature of part drawing etc. The process of turning the digital information (such as the parameterized sizes) and the non-digital information (such as physical information: steel 45#) into digitizing information (including digitals, arithmetic operation signs and logical operation signs) through digital models is product digitization. Digital product design is to digitize the products and thus to make the products digitized. (Namely they will have digitized features such as body unit features, process technique features, manufacture features, interrelation features and code features). Mechanism design, optimum design, finite element analysis and simulation design, technique process and manufacture process design can be carried out through information technology etc. 2. Digital models on 3D Solid Unit The minimum unit of product has been disassembling as “Part” for a long period of time. Thus “Group Technique was proposed and product parameterization was studied. Therefore, a lot of CAD/ CAPP researches are based on the group technique now. However, CAD ideas must be changed in order to realize 3D basic element on which the modern CAD technique based. Now 3D basic unit, called solid unit, should be adopted. This article proposes 3-Dimension Solid Unit Digital Models (SUDM) for the very first time on the basis of these researches. These solid units must conform to the manufacture process regu parameter characteristics and the generalities of composing solid elements. 2.1 The sort and code of 3D solid unit: 3D basic solid units can constitute to compound entity (every kind of parts), for th can use compound parameter solid unit to construct. According to the m categorized into the flowing type of the basic solid unit : 1) Simple solid unit: 01Cylinder, 02 cone, 03 box, 04 sphere, 05 wedge, 0 09 trapezium ring, 10 triangle ring. 2) Function type solid unit: Such as the spring, flowers key, gear etc., o calculation method as function. 3) Feature parameter solid unit: They can be constructed by creating a standard parameter library to construct solid unit. Such as: Bolt, Nut, Spherical head key.etc. 4) The vertex fitting solid unit: Such as the stochastic shape shell, only by extracting random dot to fit to construct solid unit, but after the feature filtrating to get the parameter. 5) The self-definition of the solid unit: The main cross section is self-definition and provided with the parameters, this shaping can be formed by extruding. The disassembled solid units of above-mentioned by the identified technology of the parameter feature in favor of the behavior modeling, the realization of intelligence design of construction product according to the function, and the realization of 3D shaping design by the object drive, and self-adaptive graphics control. The solid unit codes include three aspect contents: extracting Part num network code of the Part integration. For example, a trapezium bolt is show This part (part number :06) is composed of five simple solid units(see Figure 1): lations, and must have the apparent e phantasmagoria shaping type, achining forming principle, it can be 6 ring body, 07 torus, 08 rectangle ring, nly the solid unit can be acquired by the Figure 1 Code of 3D solid unit 0610101 0610802 0610103 0610104 0610305 ber from Part code, solid unit code, n below: Cylinder 0610101 Rectangle 0610802 Cylinder 0610103 Cylinder 0610104 Box cube 0610305 The front two bits are Part numbers, the middle three bits are solid unit codes, and the last two bits are for gathering the order number, thus network code of the Part integration is formed. A part is constructed by the Boolean operation among these units. 2.2 Feature model of 3D solid unit: Part feature model must create on the solid unit feature model, the feature models of solid unit are based on the solid unit feature design and identification. the method of shape feature design for solid unit has been discussed in section(See Figure 2) Figure 2 2.3.The part-orientation feature modeling: We can think, the product feature is composed of features of some solid units, and the feature of each kind of solid unit geometry (SUG) is attached to the database, which belong to the features, offering the data for input in the modeling. The feature model is product-orientation design and production process. The following example shows the construction of data model related to feature parameter (the journal with the key slot). Solid unit classification principle and feature extraction technique are adopted. Entity should be created on this solid modeling, but 3D CCG should comply with the machining rule. Table 1: Feature model Feature SU_name Feature_ID D L Property C C N N M a in Feature parameter Value 10101cylinder 01 50 72 Feature surface name precision roughness Control_PT property C C C L M achining Feature value 0101cylinder IT7 1.6 T Feature Surface name redundancy Heat treatment Work material rigidity remark Path property C N C C C C C T echnique Feature value 0101cylinder 2 TZ 40Cr HB210 parallel Feature Surface name batch Machining Tool_material speed depth feed property C N C C N N N M a in B ody data T echniqu e Feature value 0101cylinder 1 finish 120 1 0.15 Feature SU_name Child_unit Feature_ID C H L1 L2 Property C C C N N N N Function Feature value 10101cylinder 30402 round_Key 0102 14 44.5 5 63 Feature SU_name AU_name Feature-ID N A Property C C C N N Surface D a ta Assistant Feature value 10101cylinder Chamfer 0101 2 45 In the table, the main solid unit is namely on embryo of solid unit and a function solid unit (son unit) is the envelop body developed by the tool during the machining (such as slotting, punching), the transition solid unit (assistant unit) is formed in assistant machining (such as: chamfer, filleting), by this way shaping conforms to the concept of process molding. Because CAD and CAPP differ in their application emphasis and purpose, they must have the correspondence and correlation relation on the feature extracting. Feature modeling must expediently edit the feature parameters according to craft shaping principle (delete, modify, inherit, search, substitute etc). For this reason product feature is the combination geometry solid unit embodied some technique attribute with manufacture feature, it is correlation between manufacture feature and design feature. 2. 4 Parameter database model of 3D Solid Unit Parameter database model of 3D SU is according to principle of the Construction Cutting Geometry method (CCG). 1) Basic database model (GDBM): such as technique requirement, title bar, drawing frame etc. 2) Feature parameter database model (FDBM): The description of the bodys basic geometrical feature, self-adaptive feature (such as: size restriction, shape analysis, cutting simulation, flow-process design, function optimization etc.) 3) Construction product database model (CDBM): The relative coordinate system、 coordinates、 movement attribute、 relation attribute and construction method of the assembled construction product shaped by a solid unit. 4) Technique attribute database model (TDBM): The attribute attached to an appertained solid unit, such as the material、 accuracy、 machining type、 fitting property etc. 5) Solid unit function database model (UDBM): Function parameters adapted to the need of an engineering, namely the primitive data of product design. Database models Above, can be a relation type、 table type、 text type and description type, or the synthesizing among them. 3. Digital Model of 3D Solid Units technical planning The technical planning design is primarily composed of information of the surface on solid unit digital model. Actually, It is to create a model composed by description information of part + feature information of machining surface on the solid unit + feature information of no-machining surface on the solid unit which is called technical model. Figure 3 The macro-construction of a technical model CAPP system products-orientation requests to create a criterion technical model on solid unit, and make design system of the computer technical planning, from which the information can be read, realize the automatic building of a technical planning. The model shown in figure 3 is the macro-construction of a technical model: The whole model adopts some sub-models, which are quoted mutually, completely combining the shape information with the machining information requested by the solid unit, and then organically forms the bases of solid unit code system. 3.1 Machining surface coding principle on product-orientation 3D_CAPP The Construction model describes information of a part and their correlation, which can be expressed by the multi_trees construction, or hierarchy. A parts shape is described with its solid unit feature, according to the cutting path of the machining surface and their shaping character, their interrelation and affiliation to construct the feature construction of a parts cutting surface. The whole information and the size chain of the part can be formed by the macro-construction of part code system about technical model . Stipulated code: feature marking of Solid Unit, SU_ ID=0199; Main Feature Surface marking, MFS_ ID=0199, marking from left to right, 0199 is the marking sequence of main face; Machining Surface marking, MS _ ID= XX01XX 99, XX among them is the sequence values of SU_ ID, 0099 is the sequence of Machining Surface. Processing method is superior to sequence code in three- bit code. The description of machining surface feature is performed according to firstly the outside and secondly the inside sequence, The outside shape feature description is performed then according to the sequence from left to right, while the inner shape feature is according to the sequence from outside to inside. Figure 4 Technical Model 3.2 Research principle of the technical model on product-orientation 3D_CAPP The sub-models in the Technical Model can be expressed by relation model, at the same time they can create correlation relation mutually, the following chart shows the construction of the Technical Model : The key of each sub- model design is the design of the data construction, which must be to reflect technical feature, and be beneficially analyzed by expert system; In each models, Not only the coupling degree should be small, and the polymerization should be higher, but also the feature digital must be realized at the same time. 3.3 Research theory of the technical document on model product-orientation 3D-CAPP The traditional generative method CAPP is a very complicated problem, However CAPP become simple after the adoption of 3D-CAPP generative method of solid unit technique , so called 3D_CAPP. The product model of 3D_CAPP technologic document is a system model, constituted by some sub- models, the system frame is shown in the following (Figure 5). Technology experience base, technology knowledge base, the choice of procession project, the decision-making base selection of The technology project (machining chain), the intelligent base of Technology plan is generated, and decision-making base about the arrangement of assistant technology (including: The fixing and clamping of part, the arrangement of heat treatment etc.), all are handled in the regulation of digital code on solid unit, all the craft decision adopt the database to drive combination with the decision of the intelligent logic, making the workload of the editing of the procedure turn down to minimum, thus numbers of the database (or Tables) also become minimum, and the data construction Figure 5 become compact and reasonable , Because it thoroughly gets rid of the restriction of technique GT , after adopting the solid unit integration and the craft technique, the solid unit is digitalized, urging the product digitalized, and realizing the design of digital product. .PDM designed in this foundation can interactively manage and maintain for production digital connected with shared databases、 process、 resources , for control and management on the generation of technologic document .A complete 3D_CAPP planning should contain the following process: Part_3D_CAD CAPP CAM (preposition)T ool Path design (CNI) CAM (postposition)N umerical Control document( NC) Remote control( DNC) On-line machining 4. Conclusion The construction method of 3D_CAD/ CAPP/ CAM/ DNC product design and manufacture model is making shape design in the principle of “the product of manufacture craft”. Its main content is the technological design of NC processing, in the core of the design of the tool path, by the method of selecting technological data automatically. It can realize the normalization of solid unit, property of solid unit and design of the tool path. Moreover, it can realize generative CAPP for technique digit of solid unit with creative thought, the digital function system with the integration of CAD/CAM/DNC. Reference 1 Wang Zhongqing Research on Forming Theory of 3-Dimension Cutters Body by Constructing Cutting Proceeding of the Ninth International Manufacturing Conference in China IMCC2000 VOL.1 pp307-308 2 Wang Zhongqing, Intelligent Design of NC Indexable Turing Tool, Machinery, 2001 No.8 pp9-11 3 Wang Zhongqing, Research of Formative Principle of Machining Method of 3_Dimensional Bodies, Machinery, 2001 No.12 pp33-34 4 Wang Zhongqing, Development of the Coding System for Tool Information Management, Machining, 1998 No.5 pp10-12
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