I design, model, and document mechanical systems — from single components to full conveyor and automation assemblies — using Inventor, Fusion 360, SolidWorks, and AutoCAD. Every drawing ships ready for the shop floor.
From concept sketch to fabrication-ready drawing set, with the sourcing to back it.
Part and assembly design in Inventor, Fusion 360, and SolidWorks — built parametric from the start so revisions don't mean rebuilding.
Rule-driven design automation — auto-populated descriptions, BOM weight reporting, and custom Inventor add-ins for repetitive design tasks.
Shop-ready 2D drawings, GD&T, and BOM documentation in AutoCAD and native CAD formats, sized for fabrication and QC review.
Component sourcing and spec matching for conveyors and automation — rollers, gearmotors, sensors, and printers, matched to load and duty cycle.
Pallet and roller conveyor systems designed against real load cases — from gearmotor selection through frame layout.
Interactive Three.js model viewers for sharing CAD work with clients who don't have CAD software — section views, dimensions, and preset cameras.
Full mechanical design for a 500–1000 kg pallet conveyor line, including gearmotor selection and roller chain drive layout.
VB.NET / iLogic add-in generating live bill-of-materials weight reports for Inventor assemblies, with an editable grid interface.
Custom Inventor add-in that scans solid bodies and classifies geometry — box vs. cylinder — by face-area ratio, exporting directly to spec format.
Three.js-based viewer for sharing models with non-CAD clients: preset camera angles, clipping planes, and live dimension readouts.
Load cases, space envelope, budget, and standards are locked in before a single sketch.
Parametric CAD model built for change — revisions update the whole assembly, not just one part.
Fabrication drawings, BOM, and component sourcing delivered together, matched to real supplier specs.
Client review via interactive 3D viewer, revisions logged, final package handed off ready to build.