Okay, I've been building a bar for the front of my sierra to house a winch for what feels like forever now. The biggest issues I'm struggling with are what's available to work with on the front of a sierra chassis, how to package everything so it's compact, and design it in a safe and strong way but still keep it somewhat lightweight.
Gwagen's post in seanzook06's build thread has opened my eyes a bit to some issues I've potentially built into my bar (and a lot of bars I've seen) so this thread is basically just me showing what I've come up with, what I thinks wrong/right with it and Maybe it can help some people out, either by showing what to do, or what not to do, or just give some general ideas.
I've been researching various bars/winch mount designs for sierra's and there's very few I actually like - most seem to rely too heavily on the 4 bolts holes in the end of the chassis rail. Some even just use the inner 2, or something. I know of a car with a bar built like this that I wheel with quite often, and it genuinely worries me - every time the winch comes out I'm waaaaayy out of view. On the other hand, it doesn't seem like sierra's need a massively strong bar to be recovered successfully for majority of situations - even the ARB bar mounting system is a bit light on I think, just looking at it. that doesn't make me any less worried about it though.
Anyway, here's my attempt. Feel free to criticize the hell out of this thing
I'm all for any feedback - I won't get upset. Keep in mind it's still in progress, there's some small parts missing and hasn't been finish welded.
So, here's my main base I started with - the raised sections on the side sit on top of the chassis rail, and then the middle steps down to sit on the tube crossmember.
Here's the mounts to pick up the holes in the end of the chassis rail.
They fit like so. Note - there will be crush tubes in the chassis rail with a long bolt between both mounts. The separate bolts shown here are just for mock-up.
These then got welded into the main winch mount.
I wasn't happy with just these mounts, so I picked up the two factory holes on the side of the body mount with another brace - this ties into the front plate and the main winch plate, as well as the top plate when it gets installed, so they add quite a bit of strength I think.
Even with picking up the body mount, I was worried about the centre of the winch plate bending upwards as it's only 3mm to try keep weight down, so it got a plate from the middle of the main winch plate, then down onto the lower flange - this plate sits hard on the tube crossmember (front side) This stiffens everything, but I also decided I would bolt it through the tube crossmember and pick up on another bracket behind the crossmember that will bolt on after the bar has been slid onto the chassis.
(The red outline represents a plate that will be added to stiffen the winch plate)
those through bolts go through the crossmember, basically clamping onto it, like so:
The entire bracket on the backside of the crossmember bolts on after the bar has been slid onto the chassis. The two Allen head bolts will bolt through the bracket, the winch plate (so, a total of 6mm steel) and then into the winch itself, sandwiching the whole lot together.
There's the bolts for the bracket. Just imagine the two right ones bolt into the winch, and the left one will just bolt through as is. The two front winch holes also had some 3mm strips welded underneath to double them up too.
I didn't simply drill through the crossmember and bolt through it though - I added some crush tubes. I'm not really sure if it's recommended to add a crush tube into, well, a tube.. Or if I should've clamped around the crossmember with some U-bolts, or just welded a bracket to the crossmember that picks up the rear of the winch plate. I had been staring at the front of it for ages trying to figure something out and decided I just needed to do something, so I went the crush tube route.
So, drill through and add the tube:
weld them in:
and grind them down, so the bar can sit flush to the crossmember again. In hindsight, I shouldn't have ground them to follow the curve of the crossmember tube, I should've just ground them flat with the face of the tube.
Here's my artistic picture showing all mounting points: (you can see one of the crush tubes in the bottom left chassis rail - these will be added to all 4 points)
11 bolts in total - 3 in the crossmember, through crush tubes, 4 (two each side) through both sides of the chassis rail through crush tubes and 4 (2 each side) that tap into the side of each body mount.
Overall, I'm relying a lot on welds here, which isn't the best, because as you can see I'm not much of a welder. There is a lot of weld holding it together though (or will be). I'm also not thrilled with the crossmember mounting - a flat plate sitting against a round tube just doesn't sit right with me, there's not much surface area to clamp onto there.
Those flaws considered, I think it should still be quite strong. I don't think it's going to fail, or be a safety hazard. But if anyone thinks otherwise, I'm keen to hear your thoughts.
I feel quite good about weight - the use of various holes and cut-outs means we're currently at 13.2kg's, which I think is pretty reasonable - I have some small braces to make for behind the rear wings, but I will also add some holes behind the number plate etc.. so I don't think that number will move much once the bar is fully complete. The entire bar is 3mm sheet, If I was to do it again, I would use some 2mm sheet for various things to bring weight down more - some braces, the wings and top panel for example. for reference the factory bar and chassis outriggers weigh 8kg.
