Engineered Roof Trusses Load Bearing Walls
We built our own home and it is about 33 wide.
Engineered roof trusses load bearing walls. Factors that affect truss pricing and cost. The span in short is the length of the bottom of the truss. Engineered roof truss systems may be designed to eliminate the need for load bearing walls or change where the bearing walls are located. This is the distance of the bottom chord of the truss from outside overhang of bearing wall to outside of the other bearing wall.
That is the beauty of trusses. Load bearing walls support the weight of a floor or roof structure above and are so named because they bear a load. Technically the interior partition walls shouldn t even be touching the truss bottom cord during rough in but they usually are. Trusses unless a special girder truss which accepts the loads of attached trusses have no interior load bearing walls.
Some spans have a lower rate per foot than others. These are structurally engineered not only to bear the weight and stress of a home but also to resist earthquakes heavy winds and other weather related events. Load bearing interior wall under truss roof. For example a gable end truss may be designed with support members that transmit the roof weight load outward to the side walls allowing the end wall directly below it to have breaks or openings in it that would otherwise be impossible.
The roof trusses span the whole distance. The first and second floors have 13 5 9 and 9 5 spans add the 6 per bearing wall and each exterior wall you get 33. Johnson got it right. By contrast a non load bearing wall sometimes called a partition wall is responsible only for holding up itself.
I would think that any wall with a truss over it is not likely to be load bearing. If there is a column that supports the truss found in the wall the wall still would not be load bearing because the column is taking the load. Stick built roofs tend to only span about the same distance as floor joists and would require load bearing interior walls to support them. Usually load bearing interior walls support the structure above directly by the components of the wall.
They are the walls that carry the weight of the home.