Assembly - Front View
OrthographicPrimary view showing overall arm length (501.5 mm), hand width, and vertical stacking of major segments (hand, wrist, forearm, upper arm). Essential for understanding overall proportions and assembly sequence.
AI Drawing Analysis
The cards below explain how the generated drawing outputs and assets connect to the final technical sheets.
Primary view showing overall arm length (501.5 mm), hand width, and vertical stacking of major segments (hand, wrist, forearm, upper arm). Essential for understanding overall proportions and assembly sequence.
Displays side profile of arm segments, actuator mounting locations, and internal mechanical linkages visible in profile. Shows depth of forearm and upper arm sections.
Vertical section through wrist/hand assembly at Z=126.84 mm reveals internal bore structure (diameter ~98.5 mm outer, ~71.4 mm inner), wall thickness, and concentric cylindrical features for joint rotation and actuator mounting.
Horizontal section through mid-forearm at Z=250.7 mm shows internal cable routing channels, actuator bore diameters (~8 mm), and wall structure for 3D printing support planning.
Vertical section through wrist/hand assembly at Z=126.84 mm reveals internal bore structure (diameter ~98.5 mm outer, ~71.4 mm inner), wall thickness, and concentric cylindrical features for joint rotation and actuator mounting.
Horizontal section through mid-forearm at Z=250.7 mm shows internal cable routing channels, actuator bore diameters (~8 mm), and wall structure for 3D printing support planning.
Magnifies finger actuator bore pattern showing 10 small holes (diameter ~3 mm) arranged in two rows for tendon routing and actuator mounting—critical for assembly and functional accuracy.
Magnifies wrist joint showing concentric bore structure (outer ~98.5 mm, inner ~71.4 mm) and mounting flange geometry essential for understanding rotation mechanism and bearing placement.
Downloads
Each sheet available in PDF, SVG, and DXF. Click a format badge to download.
AI Transparency
The Marathon 3D→2D pipeline rendered 4 views of the 3D CAD model and passed them through our AI analysis engine.
The AI reasoned about the geometry, selected view candidates, and planned 2 section cuts to expose critical internal features. It also selected detail-view anchor points for local manufacturing-critical regions. The final drawing configuration was then generated automatically for sheet outputs in SVG, DXF, and PDF.
0 dimension references were mapped across sheets, with per-sheet labels, views, and extracted edge geometry.
These are 2D engineering drawings, not 3D files. Dimensions are extracted from the 3D geometry and should be verified against the source model before use in manufacturing.
Run Metadata
A lightweight, online tool to convert 3D file formats—anytime, anywhere, without installing any software.
Drag & drop your 3D files
Supported formats: STEP (.step, .stp), IGES (.igs, .iges), STL (.stl), PLY (.ply), OFF (.off), BREP (.brp, .brep)
Open CAD files instantly in your browser.No software needed.Private uploads.Automatically deleted after 24hrs.Upload files up to 300 MB
The CAD marketplace for modern teamsEverything you need to design faster, smarter, and with more impact.
Everything you need to design faster, smarter, and with more impact.
