Revit® Turbocharger for Timber Frame Floors
Wood Framing Floor+ automates wood framing work with floors in Revit® projects. It's powerful, flexible and easy to use. It helps you make better decisions, move much faster and avoid errors at every BIM stage – from design and documentation to segment fabrication and construction.
Compatible with Autodesk® Revit® 2017, 2018, 2019
- Auto-generate detailed multilayer floor framing for your Revit model using predefined or custom rules and templates
- Frame multi-story houses 10 times faster than using standard Revit interface
- Easily control supporting structure, including battens and flooring; distribute details, service holes and more
- Automate sheathing layouts
- Freely revise your Revit model by easily selecting the elements and properties you want to modify
- Find structural and engineering clashes; cut and frame openings according to predefined rules
- Easily prepare shop drawings and cut lists, with all required views, where elements are dimensioned, sorted, tagged, scheduled, and mass calculated
- Optional export to any CNC machines and CAD/CAM production lines, such as WEINMANN, Randek, etc.
- Floor frames update and adapt according to any changes
- Perform structural analyses without leaving Revit, or export your wood frames to external analysis software at any stage of design process
Part of the AGACAD Wood Framing Floor, a dynamic set of solutions which leverage the full potential of Revit and the insights of global BIM experts. (Wood Framing Suite is also available for purchase — CONTACT US.)
Selected additional Wood Framing Floor+ features:
modeling of floor's wood framing members including joists, battens, bridging,
blockings, rims, noggings, and more.
• Fully scalable: from simple structures to complex multi-level buildings with irregular floor shapes.
• Easily transfer framing elements between same groups or identical floors in different levels of buildings by predefining which elements the building designer is going to affect: all floors from the same model group, from the instance model group, or selected floor should be unique in the building.
• Framing types easily linked with floor types; can be preset for bearing or non-bearing floors.
• Complex multi-layer floor framing: unlimited number of layers.
• Automated details (support clips, hangers, web stiffeners, service holes, etc.) on bridgings, blockings and rim joists.
• Alignment of joists across floor segments and between floors and walls.
• Floor frame can be modified any time and supplemented with additional members.
• Sheathing layouts can be easily generated and split by existing joists.
• Built-in clash detection between structural and
engineering objects; automated floor openings and flexible framing around it.
• Library with main types of floor framing can be edited and expanded.
• Automatic sorting, tagging, dimensioning, and scheduling (including mass) of all frames and sheathing layouts.
• Shop drawing views and schedules are added automatically to sheets according to user's predefined template.
• All templates and rules are fully customizable; framing sheathing and shop drawing configurations can be saved for future projects and shared between company team members.
• Easy setup, user-friendly interface with intuitive mouse-driven options.
• Optional CNC output (Hundegger, Randek, Weinmann, ...) to joinery machines and multi-panel production lines enables your model data to be automatically exported to manufacturing.
Developed in compliance with standards and guidelines:
Eurocode 5: Design of timber structures – Part 1-1: General – Common rules and rules for buildings (EN 1995-1-1:2004: E)
Standards Australia AS 1684.2-2010 Residential timber-framed construction
Standards Australia AS 1720.1-2010 Timber structures - Design methods
New Zealand Standard NZS 3604:2011 / Timber Framed Buildings
CWC (Canadian Wood Council) Wood Design Manual including CSA O86 Standard and CWC Commentary on CSA O86 (2010).
National Design Specification® (NDS®) for Wood Construction (NDS 2015). American Forest and Paper Association (AF&PA). American Wood Council, Washington DC, 2015.
The Encyclopedia of Trusses. Alpine Engineered Products, Inc., 2003.
Truss Design Procedures and Specifications for Light Metal Plate Connected Wood Trusses / TPIC – 2014. Truss Plate Institute of Canada (TPIC), 2014.
Using Narrow Pieces of Wood Structural Panel Sheathing in Wood Shear Walls. American Plywood Association (APA), The Engineered Wood Association, Tacoma, Washington, 2005