Your attention to detail impresses the hell out of me 








.... so I'm tempted to say "good enough" and use them as-is instead of building a set from scratch.
The panhard bar was next. I moved the axle down to ride height and measured 8-1/4" from the top of the axletube to the underside of the framerail. Splitting the height between the two puts the panhard at 4-1/8". Hoping that's the right two dimensions to use? (or was it axle centerline?)
-G
This almost sounds sacrilegious coming from you.
I was feeling a bit of "CDO anxiety" (That's OCD with the letters in alphabetical order....as it really should be) with the thought of not doing perfect Ackerman steering arms.Splitting the dimension is a good guess, but you really need to get your draglink installed before you can know what angle your panhard bar needs to be. But this looks good and is showing you your contact points and limitations. I'm glad you dropped it back to ride height to set the panhard angle.
Also, is it just me, or is tha axle end of the panhard further forward than the frame end? If possible you need the panhard to be parrallel in both planes. In other words, if the draglink is an axis, make 2 planes that intersect that axis, one vertical, and one horizontal, then try and make the panhard parallel in both of those planes.
Nice work as always.

For now, I suppose I could just install a vertical piece of tubing that represents the steering box and build a fake pitman arm, so that I can get a draglink across to that PS Unimog steering arm.





If possible you need the panhard to be parrallel in both planes. In other words, if the draglink is an axis, make 2 planes that intersect that axis, one vertical, and one horizontal, then try and make the panhard parallel in both of those planes.



I think I'm finally getting it....
If I'm understanding your comment, there are two "views" where parallelism is important (draglink vs panhard bar)
#1- Top View: As viewed from directly above, the panhard bar and draglink should be parallel to each other (and presumably parallel to the axletube as well)
#2 - Front View: the view from directly in front of the truck should have the two bars (panhard and draglink) parallel to each other....
- This can be hard to see in photos because they may be at the same z-height and angle, so only the bar in the foreground will be visible.
- It may also not be true that these bars are parallel to the ground. They may slope downward from the steering box (frame side) to the knuckle side (axle mount point)
There is a natural tendency for the draglink to slope downwards from the steering box towards the PS steering arm (traditional crossover steering setup)... So instead of fighting to make the draglink parallel to the ground, all I really need to do is make the panhard bar follow the same downward slope?![]()
I really hope this is correct. My mind is getting fried trying to reconcile all of these angles and dimensions.
-G

my 69 camaro is still in the same shop I started my business out of 9 years ago. My building is 3 blocks from his. I remember driving past and seeing the cars out side of there every day, man that guy can build. keep up the good work on the K5LOL!
Well.... I suppose if I had a crystal ball 5 years ago and could have anticipated every setback and detail in advance, I would have given it some thought.
Realistically, a stock UniMog 404 would still not offer the kind of suspension travel we're talking about here.... it would have 7.56 gears and would require me to use 20" wheels to clear the massive drum brakes. It would have the fragile mechanical lockers and no CTIS either. It also uses torsion tubes as part of the suspension... I'm not sure how I'd have made those work.
....I think when you enumerate all of the things that would still need attention, its clear that dropping a K5 body onto a UniMog chassis (and then swapping out the entire drivetrain) wouldn't really get me all the way there either...
Projects like this are great to watch from a distance. Once you see all the struggles and effort and the ideas that end up going nowhere (typical R&D type stuff that happens) you realize that the learning process is what burns up all the hours..... for sure, if I ever decided to build ANOTHER truck like this my process would be insanely fast compared to what is happening here. I'd know immediately how to cut up the body, how to prepare the frame for the suspension mods, and I wouldn't even bother buying complete 404 axles next time. I'd just buy the pieces I really need, since probably 90% ends up in the scrap heap anyway...
...and that's to say nothing of my own "personal development" during this process as well. Keep in mind, I'm no Steve Strope (PureVision Design) or Troy Trepanier (Rad Rides by Troy) with gobs of fabricating and car building experience to fall back on. This truck is my FIRST real automotive build, so every little thing that I need to know I'm learning as I go. It can be frustrating at times because I'm sure there are a million "little tricks" out there that could save me time, but my skill set is limited to what I figure out on my own, or stumble across on a message forum somewhere.
-G
I think I'm finally getting it....
If I'm understanding your comment, there are two "views" where parallelism is important (draglink vs panhard bar)
#1- Top View: As viewed from directly above, the panhard bar and draglink should be parallel to each other (and presumably parallel to the axletube as well)
#2 - Front View: the view from directly in front of the truck should have the two bars (panhard and draglink) parallel to each other....
There is a natural tendency for the draglink to slope downwards from the steering box towards the PS steering arm (traditional crossover steering setup)... So instead of fighting to make the draglink parallel to the ground, all I really need to do is make the panhard bar follow the same downward slope?
- This can be hard to see in photos because they may be at the same z-height and angle, so only the bar in the foreground will be visible.
- It may also not be true that these bars are parallel to the ground. They may slope downward from the steering box (frame side) to the knuckle side (axle mount point)
![]()
I really hope this is correct. My mind is getting fried trying to reconcile all of these angles and dimensions.
-G
Cool...
So how about something like this:
I moved the panhard behind the pumpkin, and let it angle down at around 7.5* toward the PS knuckle. The draglink ended up in front of the pumpkin but stayed parallel to the panhard both from the top view, as well as the front view (also slopes at around 7.5*)
Top view:
I'm not 100% sure the rear panhard will work without a bend in it, but structurally it seems MUCH easier to build. The draglink will require a custom set of steering arms, but I will also incorporate the tie rod in front of the axle (and as high as possible) to improve the clearance over that rear tierod setup in the last set of photos.
-G
