Roof Truss With Energy Heel

More importantly the raised heel provides the opportunity to increase energy efficiency to meet new energy code requirements.

Roof truss with energy heel.

The option 1 figure to the right shows a raised energy heel. Using the select objects tool select the roof truss and then use the open object edit button. Combined with a properly designed attic ventilation system and some well placed air sealing a roof framed with raised heel aka high heel or energy trusses reduces the temperature and pressure differences between the conditioned living space below and the unconditioned attic area thereby reducing thermal transfer or heat loss between those spaces. To build the energy heel truss click build framing roof truss from the menu.

The solution for roofs framed with trusses is something called the raised heel truss also called an energy heel truss or energy truss. Truss heel height the vertical depth of the truss at the outside face of the bearing. Standard heel typical truss heel height is about 4. The extra height of a raised heel truss roof provides additional space for uncompressed attic insulation and the full depth of insulation to be extended right to the outside of the top plate.

Framing with raised heel trusses and continuously sheathing exterior walls improves structural and energy performance and offers many savings that benefit both the builder and the homeowner. Click and drag to draw a roof truss. But be sure to see the name i propose below the diagram below comes from a paper by apa the engineered wood association titled raised heel trusses for efficient cost effective comfortable homes. Better insulation drier walls lower hers scores and labor savings raised heel trusses also known as energy heel trusses deliver cost effective energy performance especially when used with continuous plywood or osb sheathing.

Related videos roof framing. There are a couple of options for designing energy heels. To create a truss with an energy heel a vertical member is added over the supporting wall and the bottom chord stops there rather than extending into the overhang. Most standard residential trusses can achieve r values r value referring to a rating that represents the insulation s capacity to resist heat transference from heated to non heated areas and vice versa of 11 or 13 near the sidewall.

Raised heel trusses also known as energy heel trusses deliver cost effective energy performance especially when used with continuous plywood or osb sheathing. Raised energy heel typical truss heel height is about 12 but may be designed to most any height per the building designer specification. Energy trusses are designed to allow greater insulation depths at the heel. This is created by designing the truss with a heel height tall enough to meet the r value requirements.