N S Kuvshinov scite author profile

The article discusses the use of the Russian editor nanoCAD, replacing foreign editors AutoCAD and Autodesk Invenor, for computer-aided design of bolted connections in building structures. It is shown that there are various means for computer-aided design. These include the Mechanics tab and the Bolted Joint tool from the “Design” group, which after calling and specifying the starting and ending points of the connection, opens the “Fastening Details” dialog box. The latest lists bolts, made according to USDD (Unified system of design documentation) standards. Changing the diameter of the bolt metric thread, the type of washer and nut, the authors carry out a preliminary automated selection of the connection, based on the dimensions of the parts to be joined in building structures. If there are no necessary connection components in the “Fastening details” dialog box, they are selected from the Editor’s Element Base in the “Part selection” dialog box. Optimization and refinement of the parameters of pre-designed connections is carried out on the Tab Table parameters of the dialog box “GOST 7796–70 Isp. 1, 3, 4”. For the final check, the Calculation tab and one of the options, the design schemes that are opened in it, are used.

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Possibilities of computer-aided design of flange connections in pipe fittings based on the nanoCAD Mechanics graphic editor

Kuvshinov

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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The article discusses the possibilities of using the nanoCAD Mechanics editor, developed by the Russian company Nanosoft JSC (www.nanocad.ru), for the automated design of pipeline sections with threaded flange connections. It is shown that for solving the problems in computer-aided design, there are various tools presented in the ribbon interface of the program. Such tools include the Standard command from the Standard group on the Mechanics tab, which opens the Select Parts dialog box. In the Select Parts dialog box, a functional panel of the Element Base is built-in, including: folders Pipeline fittings and Welded pipelines; dropdown catalogs Flanges, Gaskets and Pipes with element sizes that comply with ESKD standards. On the “Mechanics” tab, the Bolt connection tool from the Design group with the Mounting Details dialog box included in it is used, after calling it and specifying the start and end points of the connection, the Mounting Details dialog box opens. The last lists show bolts made according to ESKD standards. Insertion of flanges, gaskets, bends, pipes and bolt joints and their automated selection are carried out by left-clicking and selecting parameters in the corresponding dialog boxes.

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Computer Technology of Implementation of Schemes Electrical Schematic on the Basis of Russian State Standard of Unified System of Design Documentation

Kuvshinov¹

2016

CTAC&R

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Введение Схема-конструкторский документ (ГОСТ 2.701-2008 ЕСКД) [1], на котором составные части изделия и связи между ними показывают в виде условных графических изображений или обозначений (УГО). Элемент схемы-неделимая составная часть, выполняющая определенную функцию в изделии и имеющая самостоятельное назначение. Схема электрическая принципиальная-графический конструкторский документ, отображающий составные части изделия электротехнического назначения и связи между ними. Правила выполнения схем электрических принципиальных определены ГОСТ 2.701-2008 ЕСКД [1] и ГОСТ 2.702-2011 ЕСКД [2]. Данный вид схем имеет код классификации Э3. Буква Э-вид схемы (электрическая), цифра 3 (три)-тип схемы (принципиальная). Схемы электрические принципиальные чаще всего выполняют на листах формата А3 (рис. 1)-ГОСТ 2.301-68 ЕСКД [3] с основной надписью формы «1» (рис. 2)-ГОСТ 2.104-2006 ЕСКД [4]. Состав схемы электрической принципиальной определяет перечень элементов-ГОСТ 2.701-2008 ЕСКД [1]. Для данного вида схем перечень элементов имеет код классификации ПЭ3. Буква П-наименование текстового документа (перечень), буква Э-вид схемы (электрическая), а цифра 3 (три)-тип схемы (принципиальная). Заглавный лист перечня элементов выполняют на листах формата А4 (рис. 3)-ГОСТ 2.701-2008 ЕСКД [1] с основной надписью формы «2» (рис. 4)-ГОСТ 2.104-2006 ЕСКД [4]. Все последующие за заглавным листы перечня элементов выполняют также на листах формата А4 (рис. 4)-ГОСТ 2.701-2008 ЕСКД [1], но уже с основной надписью формы «2а» (рис. 5)-ГОСТ 2.104-2006 ЕСКД [4]. Следует отметить, что черчение на ватмане [5, 6] морально устарело, а для выполнения схем целесообразно использовать передовые компьютерные технологии и современные графические пакеты.

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Study of possibilities of editor NanoCAD for design of building elements

Kuvshinov

2018

IOP Conf. Ser.: Mater. Sci. Eng.

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N S Kuvshinov

Study of possibilities of editor NanoCAD for design of building elements

Investigation of possibilities of automated design of bolted connections in nanoCAD editor for building structures

Possibilities of computer-aided design of flange connections in pipe fittings based on the nanoCAD Mechanics graphic editor

Computer Technology of Implementation of Schemes Electrical Schematic on the Basis of Russian State Standard of Unified System of Design Documentation

Study of possibilities of editor NanoCAD for design of building elements

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