中国舰船研究
中國艦船研究
중국함선연구
CHINESE JOURNAL OF SHIP RESEARCH
2013年
1期
90-97
,共8页
船舶%螺旋桨%模型关联%模板技术%水动力%结构强度
船舶%螺鏇槳%模型關聯%模闆技術%水動力%結構彊度
선박%라선장%모형관련%모판기술%수동력%결구강도
ship%propeller%correlation model%template technique%hydrodynamics%structure strength
模板是提取设计过程中可重复的设计、建模、分析操作过程并进行封装,从而形成的模块化组件.运用模板技术构建统一关联模型,集螺旋桨理论设计、螺旋桨快速建模、螺旋桨水动力性能分析及螺旋桨结构强度分析于一体,形成基于流程和知识驱动的螺旋桨集成设计与分析一体化应用平台.平台以知识封装(单元模板)、流程自动化(组合模板)和数据管理(模板库和 PDM)为内容对螺旋桨的设计进行集成化,集成化后的分析结果与手动处理结果一致.经初步应用,系统有效验证了螺旋桨集成设计与分析的可行性和高效性,可简化工作,缩短设计周期并提高工作效率,从而引导与促进船舶综合集成设计平台的创建.
模闆是提取設計過程中可重複的設計、建模、分析操作過程併進行封裝,從而形成的模塊化組件.運用模闆技術構建統一關聯模型,集螺鏇槳理論設計、螺鏇槳快速建模、螺鏇槳水動力性能分析及螺鏇槳結構彊度分析于一體,形成基于流程和知識驅動的螺鏇槳集成設計與分析一體化應用平檯.平檯以知識封裝(單元模闆)、流程自動化(組閤模闆)和數據管理(模闆庫和 PDM)為內容對螺鏇槳的設計進行集成化,集成化後的分析結果與手動處理結果一緻.經初步應用,繫統有效驗證瞭螺鏇槳集成設計與分析的可行性和高效性,可簡化工作,縮短設計週期併提高工作效率,從而引導與促進船舶綜閤集成設計平檯的創建.
모판시제취설계과정중가중복적설계、건모、분석조작과정병진행봉장,종이형성적모괴화조건.운용모판기술구건통일관련모형,집라선장이론설계、라선장쾌속건모、라선장수동력성능분석급라선장결구강도분석우일체,형성기우류정화지식구동적라선장집성설계여분석일체화응용평태.평태이지식봉장(단원모판)、류정자동화(조합모판)화수거관리(모판고화 PDM)위내용대라선장적설계진행집성화,집성화후적분석결과여수동처리결과일치.경초보응용,계통유효험증료라선장집성설계여분석적가행성화고효성,가간화공작,축단설계주기병제고공작효솔,종이인도여촉진선박종합집성설계평태적창건.
A template is a modular component constructed by extracting the repeatable operation steps in design,modeling and analyzing processes. In this paper,a ship propeller design platform is presented on the basis of a unified correlation model created by template techniques. Specifically,the template integra?tion involves knowledge encapsulation,work flow automatization and data management. In this way,the platform offers access to propeller design,propeller automatic modeling,propeller hydrodynamics analysis and structural strength analysis,and serves to be an application platform both process oriented and knowl?edge based. Through initial application,the design result at the output was shown to be consistent with manual analysis,and the feasibility and efficiency of integrated design and analysis was also validated. In brief,the advantages brought by this platform,such as reduced workload,shortened design period and im?proved working efficiency,would promote the creation of a more complete integrated ship design platform.