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This chart is for reference only; any truss design must be approved by an engineer before it should be built.

Floor Spans

One of the biggest advantages of floor trusses is that they can span further than conventional framing (i.e. 2X10’s or 2X12’s) or I-joists. Here is a chart that we use for quick reference to match floor truss height and spacing with any given span. Bear in mind that this span chart shows the absolute maximum span for a truss with no HVAC chase.

Floor Loading

Our typical floor truss loading is 40-10-0-10.  Translated, that is:
• Top Chord Live Load: 40 pounds per square foot
• Top Chord Dead Load: 10 pounds per square foot
• Bottom Chord Live Load: 0 pounds per square foot
• Bottom Chord Dead Load: 10 pounds per square foot

There's more info about what these numbers mean on our FAQ page

Modifying Floor Trusses

Sometimes things just don’t fit the way they are supposed to. Perhaps a foundation wall was not in the right spot, or changes were made to the plan after the trusses were manufactured. Occasionally, even truss manufacturers make mistakes. No matter what the reason, there is one thing you need to remember if changes have to be made to existing trusses: never modify trusses without prior engineering approval.

Truss repairs can be costly and time consuming. Modifying trusses before you have a clear engineered solution to the issue will likely lead to more work later. In the event of a problem, we will help you look at all your options to determine the best solution. Any fix must be approved and sealed by the engineer in order to pass inspection approval. It usually takes about 24 hours for the engineers to get a repair designed.


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Strong Back Bracing

We recommend Strong-back braces at no less than 10′ on center. The first brace should be no further than 10′ from the bearing point, and braces should then be placed at regular intervals of no more than 10′ until the next bearing point is reached.
Strong-back braces are simply a 2X4 or 2X6 brace, placed on a vertical web, and is oriented perpendicular to the trusses. The purpose of Strong-back bracing is to create more stability in the floor. The way Strong-back bracing accomplishes that is by tying the trusses together so that they  accept loads as a unit, instead of each truss deflecting individually as a load moves across the floor. While Strong-back braces are not required by the engineers, they greatly enhance the “feel” of the floor. If a floor feels as though it has too much “give”, add more braces to improve the stability.
When installing top chord bearing floor trusses, it is wise to plan ahead and insert the bracing material into the trusses as they are installed. You may find it difficult or even impossible to insert the braces after all the trusses are installed.


HVAC Chase

HVAC Chases

HVAC Chases, or duct runs, may be designed into floor trusses to allow for plumbing and/or heating and air conditioning ducts to be installed in the floor.

HVAC Chases are typically 24″ wide, and as tall as the height between the top and bottom chords will allow. You can usually assume that the height of a HVAC Chase is 3″ less than the overall height of the floor truss, however, when the truss is near its maximum span distance it may require double top or bottom chords, which further reduce the HVAC Chase height. It’s always best to verify the HVAC Chase’s height, width, and location with the one who will install the duct work and/or plumbing.

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