TRIBON系统在船舶电气生产设计中的应用

以某万吨级多用途重吊船电气生产设计力例,介绍了TRtBON系统在船舶电气生产设计中的应用针对电气生产设计的具体要求和船厂其体生产模式,总结了TRIBON几个模块的应用方法和技巧,并对TRIBON模型数据库进行了二次升发实现了电气设备及电气舾装件的TRIBON建模及生产图纸的绘制,提高了船舶生产设计的效率.     

TRIBON系统在船舶电气舾装设计中的应用

以某万吨级灵便型散货船电气生产设计为例,介绍了TRIBON系统在船舶电气生产设计中的应用。针对电气生产设计的具体要求和船厂具体生产模式,总结了TRIBON几个模式的应用方法和技巧,并对TRIBON模型数据库进行了二次开发,实现了电气设备及电气舾装件的TRIBON建模及生产图纸的绘制,提高了船舶生产设计的效率。     

浅谈船体完整性建模

在船舶的生产设计中,船体结构建模不但作为每条船舶正式启动的第一环节,而且船体模型还将作为机电专业和舾装专业的载体,为其提供工作平台。为了更好地完成船体建模的工作,船体建模的完整性问题尤为重要。船体建模的完整性主要包括结构完整性建模、精度完整性建模和装配完整性建模等三大方面。船体完整性建模要求所有船体构件的基本信息、焊接信息、精度信息完整地输入到系统中,完成的模型中必须包含各种生产制造所需要的产品信息以及建造过程中需要的工艺信息等。完整性建模是现代造船的基本条件,设计人员还需要关注现代造船的装配流程及焊接工艺等等,紧跟时代步伐,这样设计的模型不仅完整而且符合最新工艺要求。     

船舶外舾装三维建模及应用

本文介绍一个基于TRIBON系统下的船舶舾装3维建模，及在生产设计中的应用，它为我公司数字化、精细化造船提供了先进的技术平台。     

运用3D MAX改善TRIBON建模的方法研究

论述了对于TRIBON软件在建模过程中无法对一些曲面模型和设备的异形模型进行快速精细建模的情况下,如何运用3D MAX软件建模,并向TRIBON软件进行传递的方法。指出利用3D MAX中构建出精确模型并导入TRIBON-Components建立模型库,能帮助实现TRIBON快速完整地建模,从而提高船舶建模效率和完整性,便于船舶设计师和船东之间建立虚拟仿真平台,更好地满足船东对于船舶设计的要求。     

船电设计中的一体化设计解决方案

针对船电设计中信息无法可靠、高效地在项目各阶段和各专业之间传递以及共享所引起的项目费用和项目风险增加等问题,参照目前基于TRIBON系统的设计解决方案,以AVEVA工程与设计一体化解决方案为例,分析船舶电气设计环节的一体化解决方案。     

典型船舶舾装设备数值化建模应用研究

基于目前许多船舶企业虚拟生产建造现状,文章对某船实例进行舾装设备模型数值化建模研究应用,采用CADDS5虚拟仿真软件,通过对其参数化建模二次开发,构建专业的舾装设备模块,同时结合实船,考虑舾装件的独特特性,设计船舶舾装设备三维模型,并将其参数化,利用SYBASE数据库存放数值模型,实现舾装设计参数与设计研发CADDS5舾装功能模块匹配链接。为船舶设计人员舾装件的设计、选型研发提供依据,同时提高效率。     

基于CADDS5的典型船舶门窗盖设计应用研究

文章基于CADDS5软件对某船实例进行舾装设备门、窗、盖模型数值化建模研究应用,采用计算机编程技术,对CADDS5软件的二次开发功能进行研发,结合舾装建造件标准对其参数化建模,构建专业的舾装设备门、窗、盖模块,同时结合实船考虑舾装件的独特特性,设计船舶舾装设备三维模型,并将其参数化,利用SYBASE数据库存放数值模型,实现舾装设计参数与设计研发CADDS5舾装功能模块匹配链接,建立典型船舶门、窗、盖全模型数据库。     

TRIBON与SPAR数据接口技术研究

在船舶制造领域,船舶设计软件TRIBON系统和船舶生产管理软件SPAR系统使船舶的设计与管理都实现了信息化,但设计信息与管理信息的分离,造成了诸多信息孤岛必须进行数据交换接口的研究。为了研究船舶设计系统(TRIBON)与生产管理系统(SPAR)之间的数据接口技术,采用基于统一BOM的集成方法,主研发出TRIBON与SPAR系统之间的数据交互接口程序,实现了生产与管理的信息共享。     

基于多Agent技术的船舶舾装托盘数据信息挖掘研究

介绍了一种基于多Agent技术的船舶舾装托盘数据信息挖掘方法,利用该方法可以抽取TRIBON中的基本托盘信息,通过Control-Agent采用符号定向图SDG(Signed Directed Graph)方法,可以将舾装托盘的紧固件的标准件从五金件库中挖掘出来;采用分类方法,在SQL命令下进行数据之间的比较和处理,从中找到并重组上述两类托盘.     

基于约束理论的船舶管系加工进度计划系统研究

船舶管系生产是船舶建造的一个重要部分,管系生产的进度情况直接影响着全船的建造计划.该研究结合管加工工厂生产管理中的实际问题,通过引入约束管理理论(TOC),开发了适用于船舶管系生产的进度计划系统.该系统集成了管子制品模型、生产资源模型、生产作业模型以及加工数据库,实现了作业计划和生产进度计划编制的自动化.此外,该文评价了系统在应用中所取得的效果,认为系统在管子生产的进度管理、设备利用率和库存等方面均具有较传统方法更优的表现.     

基于ITOC的船舶管系生产进度控制系统研究(英文)

Manufacturing of ship piping systems is one of the major production activities in shipbuilding. The schedule of pipe production has an important impact on the master schedule of shipbuilding. In this research, the ITOC concept was introduced to solve the scheduling problems of a piping factory, and an intelligent scheduling system was developed. The system, in which a product model, an operation model, a factory model, and a knowledge database of piping production were integrated, automated the planning process and production scheduling. Details of the above points were discussed. Moreover, an application of the system in a piping factory, which achieved a higher level of performance as measured by tardiness, lead time, and inventory, was demonstrated.     

Development of a shipyard simulator based on Petri nets

There are many restrictions on production in the factory. The most efficient production schedule should be planned taking these restrictions into account. Professional skill is necessary to plan the best schedule. A schedule planner has to deal with so much information during production planning that it is difficult to plan the best production schedule with a consideration of so many restrictions. In this study we introduced the use of Petri nets to support such production planning with a computer. Petri nets have been widely used to simulate production because of their capability of modeling concurrency, synchronization, and sequencing in discrete-event systems. This paper reports on implementing a simulation system for the shipyard. We had already implemented a production planning support system for a shipyard that is a part of the computer integrated manufacturing (CIM) system in shipbuilding. Based on this system, we implemented a shipyard simulator that can simulate the production activity in the shipyard. We therefore have defined a shipyard model. The production conditions can be changed, and the efficiency of a schedule can be evaluated. This paper discusses the effectiveness of using a factory simulator. Received for publication on Oct. 5, 1998; accepted on May 12, 1999     

BIM技术在重力式方块码头工程设计施工中的应用

针对北方某重力式方块码头工程设计及施工过程中存在的构件碰撞、工程量计算精度低、技术交底效率低等问题,进行BIM技术在重力式方块码头工程设计施工中的应用研究.通过创建三维信息模型进行碰撞检查、工程算量、进度模拟以及可视化工艺技术交底,有效解决了以上问题,得出如下结论:BIM技术可视化降低了沟通成本,为工程精细化管理提供了技术手段;利用BIM技术在设计阶段解决碰撞问题,降低施工时的返工风险;基于BIM模型的工程算量更加直观,具有完整、快捷、精确等特点;利用BIM技术对施工进度计划进行可视化预演,可辅助施工技术人员对施工方案进行优化.     

舰炮故障本体建模技术研究

论文根据舰炮及其故障的特点,研究了舰炮故障本体设计方法,提出将本体技术应用到舰炮故障描述中,运用本体工具Protégé和插件研制了一个工具,建立了相应的本体模型,最后运用OntoClean评价方法对建立的舰炮故障本体模型进行了评价,解决了舰炮维修过程中的故障描述信息不准确、不全面而导致的维修效率低下的问题。     

采用RBAC模型的邮船生产设计权限管理

针对国内Tribon生产设计系统无法满足邮船生产设计权限管理需求的现状,选取Smart 3D为生产设计系统,采用RBAC模型,通过对Smart 3D的用户、角色组及权限进行分析,分别从生产设计系统功能模块的操作权限控制和生产设计模型及图纸的操作权限控制这两方面构建邮船生产设计权限控制体系,可降低邮船生产设计过程的误操作概率,提高邮船生产设计进度。     

舰船重量重心控制系统设计

分析舰船重量重心设计中的流程和关键要素,以关系模型为基础,按照规范化理论要求进行了系统设计,利用最新的信息集成技术和数据库技术,实现舰船重量重心设计中的信息集成和智能化控制。     

Research on integrated naval ship design model and its intelligent algorithm

Pointing at naval ship projects creation and evaluation at stage of naval ship concept design,in the mechanism of integrated design based on naval ship synthesis model,ship projects creation and intelligent fuzzy evaluation method is researched,thus the applicability of each algorithm is obtained.Firstly,the naval ship synthesis model is introduced to design process,value and application status of synthesis model in integrated design is then exposed.Then the applicability of single target and multi targets SA algorithm is improved,and the quick generation of naval ship projects is done.After that,multiple projects evaluation method based on Vague fuzzy set is introduced to established the intelligent evaluation model,which can integrate effectively the quantitative and qualitative indexes.At last,the analysis of results comparison shows the advancement and rationality of each method.The example shows the integrated design process researched in this paper can be a great orientation of naval ship project design,and can also be used in other parts of naval ship development.     

在船舶管系设计中的一种简易精度控制的方法

在船舶管路系统设计中，弯管数量占管子总数的一半以上，管系的设计和加工直接影响到造船的进度和产量。采用矢量代数理论建立了完整的管子设计模型和计算公式，并就轮机专业工程师在TRIBON系统中进行管路放样给出了一种简易的三角函数方法和计算机电子表格程序。     

Research on integrated naval ship design model and its intelligent algorithm

Pointing at naval ship projects creation and evaluation at stage of naval ship concept design,in the mechanism of integrated design based on naval ship synthesis model, ship projects creation and intelligent fuzzy evaluation method is researched, thus the applicability of each algorithm is obtained. Firstly,the naval ship synthesis model is introduced to design process, value and application status of synthesis model in integrated design is then exposed. Then the applicability of single target and multi targets SA algorithm is improved, and the quick generation of naval ship projects is done. After that, multiple projects evaluation method based on Vague fuzzy set is introduced to established the intelligent evaluation model, which can integrate effectively the quantitative and qualitative indexes. At last, the analysis of results comparison shows the advancement and rationality of each method. The example shows the integrated design process researched in this paper can be a great orientation of naval ship project design, and can also be used in other parts of naval ship development.