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    • 1. 发明公开
    • 해양구조물 서포트용 천공부 모델링 방법
    • 在船舶中建立支撑孔渗透的方法
    • KR1020130005058A
    • 2013-01-15
    • KR1020110066411
    • 2011-07-05
    • 현대중공업 주식회사
    • 유방준전신섭
    • G06F17/50G06Q50/08B63B9/00
    • G06Q50/08B63B2009/005
    • PURPOSE: A punch station modeling method for a marine structure support is provided to easily perform transformation to 2D drawing by automatically modeling a support penetration part according to support location. CONSTITUTION: A part in which a punch part is applied for support installation of a marine structure is classified by site, zone, structure(STRU), framework(FRMW) and panel(PANE). A storage path of the punch part corresponding to the classified framework layer is designated. A gap of the designated punch part is determined(2). A punch part object is designated to plating or grating(3). A support requiring the punch part is selected in the designated plating or grating. According to predetermined conditions, the support and the punch part are modeled on the plating or the grating.
    • 目的:提供一种用于海洋结构支撑的冲孔台建模方法,以便根据支撑位置自动建模支撑穿透部分,轻松实现2D绘图的转换。 规定:根据现场,区域,结构(STRU),框架(FRMW)和面板(PANE)对冲压部件应用于海洋结构的支撑部件进行分类。 指定与分类框架层相对应的冲压部的存储路径。 确定指定冲头部分的间隙(2)。 打孔零件对象被指定为电镀或光栅(3)。 在指定的电镀或光栅中选择需要冲压部件的支撑件。 根据预定条件,支撑和冲压部分在电镀或光栅上建模。
    • 2. 发明公开
    • 해양구조물 보강재 모델링 방법
    • 海洋结构强度模拟方法
    • KR1020130005063A
    • 2013-01-15
    • KR1020110066416
    • 2011-07-05
    • 현대중공업 주식회사
    • 유방준전신섭
    • G06F17/50G06Q50/08B63B9/00
    • B63B9/02
    • PURPOSE: A marine structure stiffener modeling method is provided to automatically model a stiffener corresponding to a location of a support or a pipe installed in a marine structure, thereby easily conversion work to a 2D drawing. CONSTITUTION: A part with a stiffener for marine structure support installation is classified into each class of a layer, a space, a structure and a framework. A storage route of the stiffener corresponding to a structure layer is designated. The designated stiffener is selected as a structure. A support installation type is selected. The stiffener is modeled in the selected type of support. A wing plate or a protruded part is deleted from the support.
    • 目的:提供海洋结构加强件建模方法,以自动建模对应于安装在海洋结构中的支撑件或管道的位置的加强件,从而容易地将工作转换为2D图纸。 构成:具有用于海洋结构支撑安装的加强件的部件分为每层,空间,结构和框架。 指定对应于结构层的加强件的存储路径。 选择指定的加强筋作为结构。 选择支持安装类型。 加强筋在所选择的支撑类型中进行建模。 翼板或突出部分从支架上被删除。
    • 3. 发明公开
    • 해양구조물 배관 서포트 부재 자동 모델링 방법
    • 用于自动建立管道支撑构件的方法
    • KR1020130005059A
    • 2013-01-15
    • KR1020110066412
    • 2011-07-05
    • 현대중공업 주식회사
    • 유방준전신섭
    • G06F17/50G06Q50/08B63B9/00
    • G06Q50/08B63B2009/005
    • PURPOSE: An automatic modeling method of a marine structure pipe supporting member is provided to automatically model a support, a horizontal bracing, a diagonal bracing and a pipe span corresponding to a setting condition. CONSTITUTION: A support object is generated by selecting one of registered marine structure pipe support types. A secondary member object for supporting the support object is designated. A report file for the support object and the secondary member object is generated. A pipe span applied to the support object is inspected. The support object is generated based on a distance of a beam and a column and a type and a load of the secondary member object. A horizontal bracing and a diagonal bracing are added to the support object corresponding to necessity. [Reference numerals] (AA) Generating a pipe by moving the pipe according to an inputted distance value
    • 目的:提供一种海洋结构管支撑构件的自动建模方法,以自动建模支架,水平支撑,对角支撑和对应于设定条件的管跨。 构成:通过选择一种注册的船用结构管道支撑类型来生成支撑物体。 指定用于支撑支撑物体的辅助构件对象。 生成支持对象和辅助成员对象的报告文件。 检查应用于支撑物体的管道跨距。 基于梁和列的距离以及次要构件对象的类型和载荷来生成支撑对象。 根据需要,将水平支撑和对角支撑添加到支撑物体上。 (附图标记)(AA)通过根据输入的距离值移动管道来产生管道
    • 4. 发明公开
    • 해양구조물 배관 인슐레이션 자재산출방법
    • 采用海上结构管道绝缘材料的方法
    • KR1020130005062A
    • 2013-01-15
    • KR1020110066415
    • 2011-07-05
    • 현대중공업 주식회사
    • 유방준전신섭
    • G06F19/00
    • G06Q10/087
    • PURPOSE: A calculation method of a marine structure pipe insulation material is provided to minimize data update work for a repetitive supply accumulation of an insulator installed in a pipe through recycling of insulation input data, thereby easily implementing statistics work of a used supply. CONSTITUTION: An output file of only insulated ISO is generated. A different thing is reported by comparing with an insulation type recorded in the output file. MTO(Material take-off) that an existed thing is replaced with the insulation type recorded in the output file is outputted. When thickness of the insulation type is two in the ISO, the MTO is divided.
    • 目的:提供海洋结构管道绝缘材料的计算方法,通过回收绝缘输入数据,最大限度地减少安装在管道中的绝缘子的重复供电积聚的数据更新工作,从而轻松实现二手电源的统计工作。 构成:仅生成绝缘ISO的输出文件。 通过与输出文件中记录的绝缘类型进行比较来报告不同的事情。 输出用输出文件中记录的绝缘类型替换现有物体的MTO(物料起飞)。 当ISO中绝缘类型的厚度为2时,MTO被分割。
    • 5. 发明公开
    • 그라운드 서포트 기초부 모델링 방법
    • 用于建模支持地基的方法
    • KR1020130005060A
    • 2013-01-15
    • KR1020110066413
    • 2011-07-05
    • 현대중공업 주식회사
    • 유방준전신섭
    • G06F17/50G06Q50/08B63B9/00
    • G06Q50/08B63B9/003
    • PURPOSE: A ground support base part modeling method is provided to perform convenient and automatic modeling for a base to fix a support to a ground with a support. CONSTITUTION: A part in which a support base of a ground is applied is classified by layers such as site, zone, and equipment. A storage path of the support base part corresponds to the classified zone layer. A type of the support base part corresponding to the equipment is determined. Material for a panel or box and support modeling the ground is selected. The selected panel or box and material are applied to the predetermined type of the support base part.
    • 目的:提供地面支撑基础部件建模方法,以便为基座执行方便和自动的建模,以将支撑固定在支撑的地面上。 构成:应用地面支撑基座的部分按地层,区域和设备等层次分类。 支撑基部的存储路径对应于分类区域层。 确定与设备对应的支撑基部的一种类型。 选择面板或盒子的材料,并支持对地面进行建模。 所选择的面板或盒子和材料被施加到预定类型的支撑基部。
    • 6. 发明公开
    • 볼트 설치 및 제거공간 확인방법
    • 检查方法螺栓的安装和拆卸
    • KR1020140047414A
    • 2014-04-22
    • KR1020120113686
    • 2012-10-12
    • 현대중공업 주식회사
    • 유방준
    • G06Q50/04G06F19/00
    • Y02P90/30G06F19/00G06Q50/04
    • The present invention relates to a method for checking a space for installing or removing a bolt. The method includes: an installation space data input step of inputting data about a part to or from which a bolt or flange is to be installed or removed such as pipes, connection holes, etc.; a flange data input step of inputting data about a flange to be installed into the installation space after the installation space data input step; a bolt data input step of inputting data about a bolt to be installed onto the flange after the flange data input step; a calculation step of selecting installable bolts and flanges by applying the installation space data, flange data, and bolt data after the bolt data input step; and a modeling step of checking if installation is available by modeling the selected bolts and flanges after the calculation step. According to the present invention, it is possible to check if installation of a bolt or flange into the installation space is available using data about the bolt or flange to be installed onto a connection part of a valve and data about the installation space and reduce necessary working time and costs. [Reference numerals] (S100) Installation space data input step; (S200) Flange data input step; (S300) Bolt data input step; (S400) Calculation step; (S500) Modeling step
    • 本发明涉及一种用于检查用于安装或拆卸螺栓的空间的方法。 该方法包括:安装空间数据输入步骤,用于输入关于要被安装或移除的螺栓或凸缘的部件的数据,例如管道,连接孔等; 法兰数据输入步骤,在安装空间数据输入步骤之后输入关于要安装的法兰的数据; 螺栓数据输入步骤,在所述凸缘数据输入步骤之后输入关于要安装到所述凸缘上的螺栓的数据; 在螺栓数据输入步骤之后应用安装空间数据,法兰数据和螺栓数据来选择可安装螺栓和法兰的计算步骤; 以及在计算步骤之后通过对所选择的螺栓和凸缘进行建模来检查是否可以安装的建模步骤。 根据本发明,可以使用关于要安装在阀的连接部分上的螺栓或凸缘的数据以及关于安装空间的数据和减少必要的数据来检查螺栓或凸缘到安装空间中的安装是否可用 工作时间和成本。 (附图标记)(S100)安装空间数据输入步骤; (S200)法兰数据输入步骤; (S300)螺栓数据输入步骤; (S400)计算步骤; (S500)建模步骤
    • 7. 发明公开
    • 배관 물량 정산 방법 및 시스템
    • 计算管道数量的方法和系统
    • KR1020130082802A
    • 2013-07-22
    • KR1020110137712
    • 2011-12-19
    • 현대중공업 주식회사
    • 나병호유방준
    • G06Q50/04
    • Y02P90/30G06Q30/04G06Q10/0631G06Q10/10G06Q50/08
    • PURPOSE: An automatic pipe quantity calculation method and a system thereof are provided to shorten the work time and increase the accuracy by reducing errors when the quantity of pipe materials is calculated by digitizing a pipe drawing. CONSTITUTION: An information input unit (11) inputs a set of information for a pipe drawing and quantity calculation. A quantity calculation unit (12) automatically displays a file by accessing to a database (14). The quantity calculation unit completes the quantity calculation by using the information, which is inputted through the information input unit, and the information, which is stored in the database, and outputs the quantity calculation to a result output unit (13). [Reference numerals] (AA) Database of a 3D dedicated design program; (BB) Database of a Gorgon system
    • 目的:提供一种自动管道数量计算方法及其系统,通过数字化管道图来计算管材数量时,通过减少误差来缩短工作时间并提高精度。 构成:信息输入单元(11)输入管道绘图和数量计算的一组信息。 数量计算单元(12)通过访问数据库(14)自动显示文件。 数量计算单元通过使用通过信息输入单元输入的信息和存储在数据库中的信息来完成量计算,并将数量计算输出到结果输出单元(13)。 (附图标记)(AA)3D专用设计程序的数据库; (BB)Gorgon系统的数据库
    • 8. 发明公开
    • 해양구조물 배관 서포트 설치용 칼링 모델링 방법
    • 用于建模在海洋结构中管道支撑的方法
    • KR1020130005061A
    • 2013-01-15
    • KR1020110066414
    • 2011-07-05
    • 현대중공업 주식회사
    • 유방준전신섭
    • G06F17/50G06Q50/08B63B9/00
    • B63B9/002
    • PURPOSE: A carling modeling method for marine structure pipe support installation is provided to easily perform transformation to a 2D drawing by automatically modeling carling according to a support supporting a marine structure support or pipe location of the same. CONSTITUTION: A part in which installation of a pipe support of a marine structure is applied is classified by layers such as site, zone, structure(STRU), framework(FRMW) and section. A storage path of the carling corresponding to the classified framework layer is designated. A carling application criterion is set up(2). A carling size is input(3). In case of setting up a standard in which a carling from section to section is applied, a distance between carlings is input(4). A corresponding carling is modeled on the pipe support according to the set reference.
    • 目的:提供海洋结构管支撑安装的卡尔式建模方法,通过根据支撑船舶结构支撑或管道位置的支撑自动建模卡具,轻松实现2D图形的转换。 规定:应用船舶结构的管道支架的安装部分按照场地,区域,结构(STRU),框架(FRMW)和部分等层次进行分类。 指定与分类的框架层相对应的加密的存储路径。 (2)建立了一个紧密的应用标准。 输入一个大小(3)。 如果设置了一个标准,其中应用了一个章节,则输入一个距离(4)。 根据设定的参考,在管道支架上对相应的配件进行建模。