• Welcome to the new and improved Building Code Forum. We appreciate you being here and hope that you are getting the information that you need concerning all codes of the building trades. This is a free forum to the public due to the generosity of the Sawhorses, Corporate Supporters and Supporters who have upgraded their accounts. If you would like to have improved access to the forum please upgrade to Sawhorse by first logging in then clicking here: Upgrades

truss question

ICE

Oh Well
Joined
Jun 23, 2011
Messages
12,857
Location
California
The bearing point is shown on the plans as being directly beneath the vertical member and here we are offset. The trusses are approx. 35' long.

Do you think that the offset is too much? Does it matter at all? There are three bearing points for these trusses; at each end and this one about 6' from the end.

 
What is the reaction at that bearing point? I would guess several hundred pounds on a 2x4--

It needs to go back to the truss design engineer for review and suggested repair if needed
 
The design has moments of movement that cause the stresses to be distributed in the members of the truss so that loads can be carried. Change anything in the design, without the design engineer's written OK, can cause failure. Is the difference in the bearing point OK? It's up to the designer.
 
The framing is passable but still hack to me. In just this picture I see nail tails, short studs and trimmers, plate splices a foot apart, shims over a header....and look at those 16s at the king to header.
 
Last edited by a moderator:
I agree with Frank and Pyrguy, stop everything until the design engineer makes repair requirements or tells them to tear it out. I don't like these plate connected truss' anyway; and if not installed properly the home owner is out of luck. What I'd really like is for the truss design company to have to do the inspections and sign off on it (taking responsibility for the installation). Uncle Bob
 
ICE said:
The bearing point is shown on the plans as being directly beneath the vertical member and here we are offset. The trusses are approx. 35' long.Do you think that the offset is too much? Does it matter at all? There are three bearing points for these trusses; at each end and this one about 6' from the end.

Tiger,

Not Approved install per engineering.

It will not work the trusses will sag.

I have seen it.
 
Rider Rick said:
Tiger,Not Approved install per engineering.

It will not work the trusses will sag.

I have seen it.
I sent them back to engineering. I will post the result when it happens.
 
Good call. They need to bear where designed to bear or back for engineering like Frank, Uncle Bob and others have said. Good call. That gets missed a lot. Someone should post a truss engineering sheet pic showing what the bearing point spec looks like for those who don't know.
 
Daddy-0- said:
Good call. They need to bear where designed to bear or back for engineering like Frank, Uncle Bob and others have said. Good call. That gets missed a lot. Someone should post a truss engineering sheet pic showing what the bearing point spec looks like for those who don't know.
Daddy-o,

That a great idea.

We can also go over the truss bracing.

Which is not per engineering most of the time out in the field.
 
As a former truss designer, you can usually get by with an offset the width of the bearing. Even with a 3.5" offset, I would still ask for a new truss drawing showing the current bearing location and make sure none of the plates change. I doubt this will pass without a repair of some type. Might want to check the girder nailing pattern as well. Nails look too far apart unless it's nailed on the other side as well.
 
Uncle Bob said:
I agree with Frank and Pyrguy, stop everything until the design engineer makes repair requirements or tells them to tear it out. I don't like these plate connected truss' anyway; and if not installed properly the home owner is out of luck. What I'd really like is for the truss design company to have to do the inspections and sign off on it (taking responsibility for the installation). Uncle Bob
It should be checked by the truss engineer and it's very, very likely the truss engineer isn't going to make them tear it out. You can see on the photo that the whole area there is beefed up and the truss engineer will probably be okay with it being the distance it is away from where it should be.

Regarding the not liking plate connected trusses what's not to like? Through the use of pressed plate truss technology affordable large span openings have been made possible as well as a lower cost of delivery of the framing package and with the number (millions upon millions) of these roofs performing for decades with minimal problems they have been proven to perform very well indeed.
 
Rio said:
It should be checked by the truss engineer and it's very, very likely the truss engineer isn't going to make them tear it out. You can see on the photo that the whole area there is beefed up and the truss engineer will probably be okay with it being the distance it is away from where it should be. Regarding the not liking plate connected trusses what's not to like? Through the use of pressed plate truss technology affordable large span openings have been made possible as well as a lower cost of delivery of the framing package and with the number (millions upon millions) of these roofs performing for decades with minimal problems they have been proven to perform very well indeed.
Rio,

It's when there is a fire and the fire fighter is on the roof.

That's when roof trusses fail.
 
Rider Rick said:
Rio,It's when there is a fire and the fire fighter is on the roof.

That's when roof trusses fail.
In a fire all sorts of building systems can and do fail and unfortunately sometimes fire fighters do die as a result. What that has to do with this current issue is beyond me, especially as I specifically said 'CONSULT WITH THE TRUSS ENGINEER'.
 
Rio,

Through the use of pressed plate truss technology affordable large span openings have been made possible as well as a lower cost of delivery of the framing package and with the number (millions upon millions) of these roofs performing for decades with minimal problems they have been proven to perform very well indeed.

There is a big problem with pressed plate truss technology.

It fails in a fire.
 
Rider Rick said:
Rio,Through the use of pressed plate truss technology affordable large span openings have been made possible as well as a lower cost of delivery of the framing package and with the number (millions upon millions) of these roofs performing for decades with minimal problems they have been proven to perform very well indeed.

There is a big problem with pressed plate truss technology.

It fails in a fire.
That's a valid criticism however I'm sure that fire fighters are well aware of the limitations and have been trained to deal with them accordingly. The same criticism could probably be made regarding engineered floor joist systems as well as engineered roof joist systems and platform framing in general.
 
Rio,

I think you took what I said wrong.

I didn't mean to criticize you at all.

I do think any kind of truss system floor or roof is not safe for the fire fighter.

But old fashion platform framing with solid wood beams would be the safest in a fire for the fire fighter.
 
Rider Rick said:
Rio,I think you took what I said wrong.

I didn't mean to criticize you at all.

I do think any kind of truss system floor or roof is not safe for the fire fighter.

But old fashion platform framing with solid wood beams would be the safest in a fire for the fire fighter.
Thanks Rider, I appreciate the heads up and this is an interesting discussion. I would say that as the technology of building advances, if that's the right word for it, there's pluses and minuses that come along with it. I guess the ideal home from a fire safety aspect would be a concrete one with treated furniture fully sprinklered inside and out; of course that would also be very expensive.

As it is just the requirement for putting sprinklers in houses has cost us work as many people are on very tight budgets and as chunks of the budget get taken up by more and more requirements the ability to build gets reduced more and more. I'm sure that a roof conventionally framed under the current codes, would be more resistant to collapse than a truss framed house, how much more I'm not sure. It would also cost more and be another chunk taken out of the construction budget, pushing towards a greater inability for the house to be built or the addition to be done.
 
Top