Part 2 – Virtual Build
Firstly, thank you to everyone for your advice and support. Apologies if I haven’t directly responded to each one of your messages, however they are all very useful and very welcome.
Before continuing with the physical build, I thought I would confirm some of the build details. I produced basic outline drawings to submit for planning permission but hadn’t drawn up much detail apart from a few rough sketches.
I was fairly clear around the build up for the walls, but the roof was concerning me, so I thought it best to draw a 3D model to experiment with the roof build and come back to ask for advice.
Here's the virtual build in progress; My partner said the man accurately reflected what I tend to do a lot. Stand around thinking about what needs to be done!
I’m planning a warm roof. The maximum span from front to back is 3975mm. Looking at the span tables this would require a minimum timber of C24, 2x7 (47 x 170mm) based on an imposed load 0.75 kN/m2 and a dead load 0.5 – 0.75 kN/m2 and spaced at 400mm.
If I add 18mm for the bottom deck, vapour barrier, 100mm insulation, 11mm top deck and epdm (circa 130mm) this brings the total roof thickness to 300mm. All fine. Not overly large.
The problem I have is, in my wisdom I’ve decided to construct the walls all level – no raked walls. This decision was made to make it simpler to construct the walls without having to cut down board and cladding, etc. at an angle and I thought it would be easier to just slope the roof joists.
The roof with overhangs measures 5m from front to back. Based on typical flat roof falls I have planned for a 1:50 fall (I know typically this would be 1:40), achieving a finished fall of 1:80. This however requires a fall of 100mm over the length of the roof. If I add in 100mm fall to the roof build up, I’ll end up with a 400mm thick roof at the front of the building sloping back to 300mm at the rear. 300mm seems about right, however 400mm seems like it would look overly large and out of proportion with the rest of the build and probably require firring strips. Additionally, it would at considerably more weight. (See Option 1 below).
A thought I had was to incorporate a beam that would be partially supported by an internal wall and hung at the other end using a joist hanger (if this is appropriate).
Incorporating an internal beam, would reduce the maximum span of the roof joist to 2234mm which would allow me to then reduce my timber to C24, 2x5 (47 x 120mm). Adding in the fall required of 100mm would require a timber of 2 x 9 (47 x 220mm) which could be cut down to create the slope. Additionally, with the other materials added, the overall thickness would be 350mm at the front sloping to 220mm at the rear. (See Option 2 below)
Here's a section of the two options;
Hopefully this all makes sense, and the images help to explain what I’m talking about. What do you think? How would I calculate the size of beam required? I assume I can’t use span tables to calculate this beam as it’s standalone. Any other suggestions as to how I can reduce the overall thickness of the roof, whilst maintaining the fall and required timber thickness based on the maximum spans?
Thanks in Advance. ps. Have order materials to start walls and will post up progress photo's soon.
