Planswift Earthwork Pro V3 Direct
Digitizing entire areas or lines that represent existing contours or proposed grading limits. 2. Triangulation and Topography Modeling
The v3 update specifically improved the . Previous versions required tedious point-by-point entry for complex curves. The updated "Trace" tool allows estimators to drag a line along a contour, and the software intelligently interpolates the points, capturing the curve of a road or a retention pond in seconds rather than minutes.
: For utility contractors, the Trench Tools allow you to calculate backfill and bedding materials for pipes with surgical accuracy. planswift earthwork pro v3
: Estimators can trace existing and proposed contour lines. The software then calculates the differential to determine how much dirt needs to be moved. Integrated Workflow : Once installed, the tool lives directly on the PlanSwift Home Tab
One of the standout features of Earthwork Pro v3 is its handling of soil strata. Dirt is rarely uniform. You might have six inches of topsoil, followed by clay, followed by rock. Digitizing entire areas or lines that represent existing
If existing concrete structures or foundations need removal, calculate them as separate structural layers to keep soil numbers clean. Conclusion
Earthwork Pro v3 bridges this gap. It allows estimators to input existing and proposed elevation data directly from 2D PDF blueprints. The plugin then generates precise cut and fill volumes, topsoil stripping depths, and subgrade material requirements. By automating these calculations, it eliminates manual grid-method calculations and cross-section drafting. Key Features of Version 3 : Estimators can trace existing and proposed contour lines
Always input accurate Swell and Shrink percentages. Dirt expands when excavated (bank yards to loose yards) and compresses when compacted.
The software automatically converts bank cubic yards (BCY) to loose cubic yards (LCY) to compacted cubic yards (CCY), ensuring your trucking and compaction costs are accurate.
The plugin creates a 3D mesh model of the site. This allows users to visualize the proposed earthwork, helping identify potential issues or inaccuracies in the contours [2].