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The application of 3D modeling in engineering design has gradually become a new trend, and PDMS, as a widely used 3D modeling and design software, has brought many conveniences to engineering design. However, the advantages of PDMS in engineering design are obvious compared to the traditional AutoCAD 2D design mode.
In the traditional design mode, most domestic engineering design companies still use AutoCAD for two-dimensional engineering design. AutoCAD's ease of operation and ease of use make it popular with engineers. However, it falls short in some key areas. First of all, AutoCAD cannot realize the automatic counting function of the engineering quantity table, and engineering designers often need to make tedious manual totals in AutoCAD. Secondly, AutoCAD's form processing function is relatively weak, resulting in designers needing to manually draw forms and fill in the text manually, which is inefficient and difficult to accurately control the position and layout of the text. In addition, it is difficult to share process data between disciplines in real time, resulting in relative independence and lack of correlation among disciplines. Therefore, in the traditional mode, engineering design often has the problem of professional cooperation errors and data entry errors.
In contrast, the PDMS design pattern has obvious advantages in engineering design. First of all, PDMS can simulate the field environment at full scale, make the layout of equipment and devices more intuitive, vividly show the specific situation of the model, and provide great help for engineering designers. Secondly, PDMS supports real-time collaborative design of all disciplines, and each professional group can build models on the same design platform at the same time and share design resources in real time, avoiding independence and lack of correlation between disciplines. In the actual design process, PDMS can perform real-time 3D collision check to automatically check whether collisions occur between components to ensure the accuracy of design results. In addition, the PDMS comes with a drawing module that converts 3D models into floor plans and installation drawings, which greatly reduces the workload of designers and improves work efficiency. PDMS can also automatically generate reports such as equipment tables, material tables, cable tables, etc., eliminating the need to manually draw tables and text typesetting, further improving the quality and efficiency of engineering design.
In addition, PDMS has good compatibility and can be connected with the two-dimensional software AutoCAD to generate drawings in CAD format and comply with relevant design specifications. PDMS also supports many data exchange formats, which can be exchanged with other software to ensure data consistency. In addition, PDMS can realize remote collaborative design through the network, dynamically update design drawings in real time, ensure data synchronization, and reduce the risk of missing information and inconsistent information. In short, as a powerful 3D design software, PDMS brings a lot of convenience to engineering design, improving design quality and efficiency.
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