Here's what I did-link-My 4 post story
https://r.tapatalk.com/shareLink?sh...m/forum/showthread.php?p=6434093&share_type=t
https://r.tapatalk.com/shareLink?sh...m/forum/showthread.php?p=6434093&share_type=t
Some pictures of the plans here. I'm not an engineer but the one Stuart recommended drew these up for me. I'm not really sure what this is going to look like exactly but it'll meet or exceed the requirement apparently.

I'm curious to know who did the engineering and how much they charged, I'll also be watching this to see how it turns out and how the construction quotes come in. Definitely keep us updated, send me a PM if you prefer.
Good luck!![]()
I'm not really sure what this is going to look like exactly but it'll meet or exceed the requirement apparently.
Edit: This thread was originally just a ceiling raise project. Thanks to this forum (damn you all!) the project has, well, morphed into a six month and counting project
I was inspired by a build found here on the journal, so am returning the favor for anyone looking to follow a similar path.
I have a rather pedestrian garage, at 16 x 24 which came with our house. Other than converting over to natural gas heat, I've done nothing to it. After reading some of the MaxJax lift posts I decided to order one, which is enroute. My problem, like many with a smaller shop, is the 8ft ceiling. The roof is stick framed, with the required truss ties in place. With high snow loads here, cutting these truss ties is a guaranteed collapsed roof (as they keep the walls from bulging out under load), and raising them to collar tie configurations will not pass code. Scissor trusses would have only got me to a useable 8ft six, unless I entirely replaced the roof. This might have been ok if I only lifted cars, but I have a 90 Westfalia that needs to work in the space. The shop is used for automotive work, wood work, and has also been a paint booth (auto) from time to time. It's in desperate need of a major clean up and re-organization to maximize usable space.
Enter the load bearing beam ridge design. After a few visits to Unitized manufacturing (local truss design/manufacture guys), we came up with a simple in place retrofit.
The roof is 5/12 slope. In case it helps, I've also included the beam specs.
September 2014 at the beginning of the renovation:
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October 2014:
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A sneak peak 5 months forward showing the shop at February 2015.
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November 2015:
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And now, back to the beginning with beam data..
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Here's the micro-lam delivered:
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The mess of improperly installed/ventilated insulation has to go, spray foam to come:
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About eight hours later, we got to this. I was able to do everything except the top beam by myself. For the top beam, my brother, a few beer and 2 hours did the trick. Although glue was not called for in the spec, I used PL Premium construction adhesive as well as the 6d ardox nails and laminated the beams in place. This made it a lot easier to lift them. I now have 10'2" of clearance across a "window" of 6ft x 16ft. This should allow approx. 40" of lift on the MaxJax for the Westfalia.
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Cheers,
Dennis.
Mine was a bit simpler...just 3 LVLs, installed in place. They were spec'd by the truss company supplying them..so free design workShop is 24x16. 16ft of ceiling ties were cut out. Two LVL beams going across the shop support the new ridge beam, which sits directly under (and strapped to) the original ridge board.
From what I can see, your engineer has proposed more or less the same solution, except adding two extra beams instead of reinforcing your roof stringers in place. That's a lot less work and gives you the room to raise a vehicle too. It looks like you are opening up a 10ft x 10ft lift window? I'd strongly suggest a 10x18ft raised area to give more flexibility with vans and trucks etc going forward on your lift. A 16ft long "slot" in my case works, but some rear hatch glass (like on our CRV) gets very close to the LVL cross beams while lifted on the hoist. Going 18' won't cost much more, but it will give a lot more flexibility on what you lift, and also which direction it sits on the hoist (front or back)
A copy/paste from page 1 of my thread:
I made some quick CAD models of your garage with various vehicles in the lifted position.
A couple questions came to mind:
- What type of lift, 2 post or 4 post?
A 4 post that does not require floor anchoring allows you to move the lift around to position the vehicle, for and aft, for optimal lift height, -vs- a conventional 2 post lift that is anchored to the floor.
[*]What kind of garage doors do you have?
As is often the case your garage door is going to play a role in vehicle lift height. Even a door that follows the contour of the roof will still be in play when lifting a vehicle
Vehicles shown are:
- 2015 Silverado Extended Cab
- 2002 Tacoma Extended Cab
- 2007 Jeep Wrangler
Today's trucks are just huge... I can remember when a 24 ft garage depth was plenty deep.
So there aren't doors on the sides of the building where the new high bay will be?
You drive the vehicle back to where the lift location is... and then how do you turn / position a long vehicle to get it under the new free span area?
That's why I got a Frontier. It fit in my garage.Today's trucks are just huge... I can remember when a 24 ft garage depth was plenty deep.
but I can see where it would be very useful.That's why I got a Frontier. It fit in my garage.
At least with that lift you can just raise it a few inches, move, then fully raise it. That said, you should definitely be sorting a few jack stands and use them religiously with the relatively narrow footprint. In your position, I'd really try and sort the roof raise in line with your door. It will save a ton of hassle and also make a 2 or 4 post lift doable.
How do you lower a vehicle if say you've dropped the engine? The imbalance means you need the jack stands in..but if you were to drop the engine, removing the jack stands means a potential scary imbalance/tipping situation. Raising and lowering a vehicle with bits missing is something I do a lot.
Have you considered a four post? That would be mobile as well, you just can't move it with a car on it.
You could also consider a fixed one-poster. That said, there might be a way to hold the pallet jack lift still that would make it a lot safer. I would certainly use a lot of jack stands if I was going to do any hard wrench pulling (which is where a lift is so handy).
BendPak four posts are moveable (with caster kits) and they have several that lift high enough to walk under. Other brands do as well.I haven't really seen mobile ones that'll lift high enough to walk under but I'd consider it. Got any suggestions? There's also scissor lifts too. Lots of options but I guess the pallet jack lift just stuck out because it allows the most flexibility with least modifications to the garage from what I've seen so far. I'm still open to ideas though.
The contractor got back to me. He estimated it at $5,300 to build it out. $1,563 for the LVL's alone and $3,250 for the carpentry.
Looks great to me. For some reason, the photos show up fine when using Tapatalk on my phone, but they don't show up at all when on the computer.
Nice. That should get you where you wanted to be.
Is the cut out in the top wall plate from the modifications?
Regardless, make sure you splice and reinforce that area.
Do these pictures work better?
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Since you have a double top plate, it's not as big of a deal (unless the lower 2x4 has a splice really close to the cut out.
I'd still follow through and close it up with a heavy duty splice plate on the top and inside wall face, using some 1-1/2" structural Simpson screws.
Home Depot carries various versions of the plates.
http://www.uspconnectors.com/us/products/connectors/general-hardware/plates/NP
Looks good! So, were you satisfied with the structural engineer I put you on to? I've always had good relations with him, hopefully he provided everything you needed.
The hurricane straps they used on the posts are probably not rated for that use...The structural engineer you recommended was able to provide a plan that met the minimum requirements. All of the necessary measurements were made in one trip and were accurate as far as I can tell. The accounting was detailed, communication was good and there was a high level of professionalism. The firm charged me for 21 hours of labor total. I have a hard time believing it took that much labor however. This was spread across 4 people and the engineer himself spent less than an hour on it total.
The construction company I used did a sloppy rush job in my opinion. The communication was poor, the accounting is sketchy. They were unprofessional and made excuses. Pushed the data back a couple times, didn't show up on time etc.
You can see in this picture that the LVL furthest from the point of view is crooked. It isn't in line with the roof boards:
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The blue line is the line of the roof boards. The red line is the beveled 2x4 on the top of the LVL. If you look at the red circled area, you'll see that the LVL isn't even straight up and down. The top leans towards the outside of the garage by a substantial amount, enough to see in the picture. As a consequence, the 2x4's on either end that bear the weight on the main LVL's aren't equal lengths. One side is higher than the other. It actually doesn't look very strong, like it would fold in and buckle if enough weight were put on it. The weight isn't evenly distributed and it isn't going straight down.
They were also supposed to replace the 1x6 roof boards they cut out with the same ones but instead they used plywood. The carpenter claims its the same thickness, but I can see the roof is sunken in where they made holes to insert the LVL's. The contractor said its just a visual phenomenon but if I put a flat board across the top, I'm pretty sure that the middle wouldn't touch. There also wasn't supposed to be a stack of 2x4's sandwiched between the existing trusses and the LVL's. The list goes on and on.
Overall, I think I didn't get my money's worth. Some people would say I'm a perfectionist, these things don't matter, they're just details. I paid a lot of money for them to do this in my opinion so I expect a lot.
TLDR: The structural engineer met my expectations but didn't exceed them, especially considering how much he charged. The construction company didn't meet my expectations in any way although they got the job done.
In summary, this entire experience was kind of unpleasant and if I had to do it again, I might even consider a 'home brew' solution using steel beams. Sometimes if you want something done right, you have to do it yourself.
