![]() Correspondingly, 2D drawings can grow massively with significant complexity, especially when collaborating on a team or working remotely. Project scopes often expand as businesses grow. You can also seamlessly integrate with other Dassault Systèmes and SOLIDWORKS solutions to easily manage your DWG file designs. It’s the ability to effortlessly go from 2D drafting to 3D modeling and back again to optimize and maximize designs. If you need to create or reuse 2D drawings to communicate ideas quickly, edit drawings to run manufacturing or prototyping, or effectively manage legacy drawings from clients, suppliers, and others, then you should consider DraftSight.Ībsolute design freedom is letting you work the way you want to work. We can very quickly and easily translate what is possible between these two applications if we need to jump from one to another.”Įffectively managing both 2D and 3D files is still a business reality. There are times you need a hammer and times you need a screwdriver. Tyler Thompson, says “DraftSight is an indispensable tool in our tool belt. ![]() VP of Operations for Young Industries, J. Because DraftSight is so intuitive and similar to AutoCAD, engineers can learn it in a day or two. This accessibility helps accelerate proposal development, which saves both time and money. Minor modifications can take about 15 minutes in DraftSight versus days of work remodeling an old 2D drawing in SOLIDWORKS.ĭraftSight also enables Young Industries to manage its collection of 2D legacy data and library of 2D drawings more effectively. For example, a customer’s DWG/DXF file is much easier to manipulate in DraftSight Enterprise, a Dassault Systèmes product. However, specific tasks, such as modifying legacy drawings, creating simple layouts, and developing piping and instrumentation diagrams (P&IDs), are better addressed with 2D design tools.Įliminating the translation from 2D to 3D saves Young Industries’ engineers time and effort. The majority of Young Industries’ design and engineering work, including all new designs, is done in 3D using SOLIDWORKS® software. has manufactured conveying systems and related components since 1947 and holds many patents for problem-solving equipment for handling dry bulk materials in the chemical, petrochemical, ceramics, and coatings industries. Plus, on the many occasions where hard copies are preferred-such as a remote construction site and a dusty shop floor-low-cost and printer-friendly 2D drawings still come in very handy. While not as intuitive as 3D models, 2D drawings distill rich 3D models into a simplified perspective where selected key information, such as dimensions and tolerances, are presented concisely for important decisions. Where does 2D fit into the product development process in 2021? The reason is pretty simple, yet fundamental to our human cognition. In today’s world of 3D parts and assemblies, many companies typically use 2D drawings to improve user understanding of design details-a reference document, if you will. In the 1990s, 2D drawings were still the primary method of communicating with manufacturing, but in the past two decades, the richness of 3D models is changing how much 2D is needed. Orthographic projection and descriptive geometry were used in the 1700s.ĭrafting by hand ruled the day until computer-based AutoCAD 2D came out in the 1980s, soon followed by various 3D CAD solutions. Linear perspective drawings, a system of creating an illusion of depth on a flat surface, was used back in the 1400s. 2D drawings have been the sole reference for conveying design information for many years.
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