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Mad Ax

6x6 Grand Hauler Tipper Truck

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OK, so yet another new project started during lockdown.  Perhaps if we have a 4th or 5th wave I might get them all done...

I started this one because it was something I could do while watching films with my toddler on Wednesdays.  At least until I had to start doing tricky custom stuff in the workshop.  My daughter returns to nursery for the first time tomorrow and I'm back at work full time, so no more Wednesday build days - that's good, because every Wednesday I'd end up with yet another cut body to paint, or new built chassis to find a body for, or, in this case, built truck chassis to mess around with.

Anyway, the plan here is to build an automated tipper using a Grand Hauler chassis and day cab, Lesu tipper and electric lift assembly connected to the MFU's 5th wheel / remote leg actuator channel.  Like all big rigs this will be a longer project, but it's been good to finally make a start - the box has been in my bedroom for a few years now.

I haven't bothered to take a million photos of the build or the box or anything like that, if you're in here you probably know what a rig build looks like and there's a million other build threads if you don't.  This is basically a journal of the ideas I've had, problems I've come up against, obstacles I've overcome, sidestepped, ignored or been defeated by, and stupid things that have happened along the way.  There will no doubt be many.

So, here we begin: with yet another stupid diff rebuild.

Those of you who have followed my lockdown builds will see that I've been here before a few times over the last few months - all my TLT axles were built to crawl, so they were all locked.  This one seems to have been locked with some kind of solidifying putty.  It might be an axle I acquired built from someone else.  Either way, I had to prize it apart with a scalpel blade.  Not the best use for a scalpel blade, admittedly, but nothing else would slide between the gap.  After destroying a scalpel blade and nearly losing an eye, I used a screwdriver to get it the rest of the way open and a lot of brute force to get the innards out.

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Now, as luck would have it (see previous threads on the subject), I already had some araldited diff internals sitting in a tub of IPA for around 2 months now.  They are finally dissolved enough to be cleaned by hand and reassembled.  These diff parts were damaged by a screwdriver tip while levering them out, but they're in the IPA cleaning themselves as we speak in case they can be repaired for another locked diff recovery later.

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Next trick to assembling a 6x6 is mounting the front axle.  Fortunately the TLT donor axle already has a flat section with two holes in it - technically the axle is mounted upside down (the servo mount is now underneath) but looking at the output from the transmission, this is the right way to mount it (the axle will turn the correct way when using the output shaft from the front of the transmission).

I used the standard leaf springs.  My wife bought me a top-quality set of cobalt drills for our anniversary earlier this year, which were what I needed to drill some mounting holes through the leafs.  Sprung steel isn't easy to drill at the best of times, worse when there are several layers of it, and in the end my attempts to get central holes with a somewhat elderly drill press resulted in things going a bit off-centre, so they had to be re-drilled at 3.5mm.  That doesn't leave a huge amount of meat left in the spring, but it feels strong enough nonetheless, so that's what I've gone with.  I didn't really fancy trying to cram a 3-link or 4-link setup between those chassis rails along with the transmission, steering and prop assemblies...

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The TLT axle is chunkier than a standard big rig front axle, so the front end sits higher.  I have seen other TLT-based 6x6 trucks that have got over this problem by ignoring it completely, but my tipper bed is all metal and very heavy, so the back end will need all the help it can get.  I don't want my headlights to be shining off the ceiling when it's got a full load.

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First trick was to make some axle blocks.  I measured the height difference to be around 9mm between front and rear, so I used some 10mm alu bar to make the blocks.  A little extra height at the rear won't go amiss as it will level out once the weight of the bed is on.

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It appears my camera did a brilliant job of completely not focussing on this shot, but here's the finished blocks mounted between the leaf springs and the axles.

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There is however one problem - the lower are now too short, and are pulling the axles together.  This means I either need to extend the links or drop the lower bracket.  I'd usually go for making new links, but the angles are a bit intense and might affect the geometry, so my plan is to make all new lower link brackets (those V-shaped thing that bolts onto the chassis rails), identical to the current ones but bringing the bottom mount down by 10mm.  It should be a fairly easy job.  Some 1mm alu sheet has been ordered so I can do that next week.

 

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The next issue was that of the steering link.  The leaf spring interferes with the standard straight link, so I needed to make a cranked link.  I started with some M3 stainless thread and put a threaded link over the end to protected the thread, then 'it it wi'ammer

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The rod end wanted to hit the leaf spring when connected the normal way, so I crossed the cranked link to the other side, ducking under the gear servo.  There might be an interference issue here but the gear servo might have to change anyway - more on that later

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Now - the transmission.  Originally I had intended to use a transfer box built and kindly supplied by @MadInventor, but I discovered a slightly neater solution using an extended output shaft from a German supplier:

https://www.der-getriebedoktor.de/en/enlarged-shaft-for-tamiya-3-gear-box

This allows a second propshaft to be connected to the front of the gearbox, thus saving me a bit of space, and allowing me to use the transfer box for something much more interesting later on.  However, having assembled the whole cabundle, I discovered a slight problem.

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The standard gearbox location is far enough forwards that there ain't no UJ in the world will fit.  In fact it's almost close enough for a belt drive!  Actually a belt would be a neat solution, if it didn't need a tensioner assembly to take up the suspension movement.

The solution here is to move the gearbox backwards.  That's about as far as I got, because I ran out of time.

More updates sometime soon - although I'm not 100% sure when, because I am actually going racing next Sunday, so there will be no workshop day for me.  In fact I might be racing the following weekend too, pandemic notwithstanding, provided I can beat the rush and get booked in to the TORC Summer Series before the limited numbers are all used up.

Watch this space.

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On ‎6‎/‎29‎/‎2020 at 8:27 PM, Mad Ax said:

Now - the transmission.  Originally I had intended to use a transfer box built and kindly supplied by @MadInventor, but I discovered a slightly neater solution using an extended output shaft from a German supplier:

https://www.der-getriebedoktor.de/en/enlarged-shaft-for-tamiya-3-gear-box

This allows a second propshaft to be connected to the front of the gearbox, thus saving me a bit of space, and allowing me to use the transfer box for something much more interesting later on.  However, having assembled the whole cabundle, I discovered a slight problem.

P6280042.jpg

P6280040.jpg

The standard gearbox location is far enough forwards that there ain't no UJ in the world will fit.  In fact it's almost close enough for a belt drive!  Actually a belt would be a neat solution, if it didn't need a tensioner assembly to take up the suspension movement.

The solution here is to move the gearbox backwards.  That's about as far as I got, because I ran out of time.

More updates sometime soon - although I'm not 100% sure when, because I am actually going racing next Sunday, so there will be no workshop day for me.  In fact I might be racing the following weekend too, pandemic notwithstanding, provided I can beat the rush and get booked in to the TORC Summer Series before the limited numbers are all used up.

Watch this space.

Can I suggest having a look at this. It went in my showroom 7 years ago, it's a king hauler gearbox I modified for 4x4. it uses standard parts apart from a new backplate and a gearcover. The additional gears are standard pinions with a 5mm bore.

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I got this a little close to gear cover and had to mod it slightly to keep it sealed, but the basic idea is sound. perhaps  3D printing a plate and a gear cover is an option ?  I could help out with the 5mm steel shafts if needed.

 

Edit: Sorry, just re-read this and saw the bit about moving the gearbox backwards .........(facepalm)

 

 

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That's a very interesting setup @MadInventor, a very neat job.  So I suppose that new backplate is machined to fit and the output rotation is reversed, so the axles need to be flipped?

I like the idea and I can see how the propshaft will fit much easier, I'd be tempted to employ your services but I spent a fair bit of cash on those extended output shafts.  Postage from Germany cost as much as the shaft, so I actually ended up buying two of them for a possible later 6x6 project, before I realised how bad the prop angle would be.

Anyhoo - I'll either resolve this one by moving the transmission or employ that transfer case you gave me after all, but if I do another 6x6 I'll definitely consider the above idea :) 

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8 hours ago, Mad Ax said:

That's a very interesting setup @MadInventor, a very neat job.  So I suppose that new backplate is machined to fit and the output rotation is reversed, so the axles need to be flipped?

I like the idea and I can see how the propshaft will fit much easier, I'd be tempted to employ your services but I spent a fair bit of cash on those extended output shafts.  Postage from Germany cost as much as the shaft, so I actually ended up buying two of them for a possible later 6x6 project, before I realised how bad the prop angle would be.

Anyhoo - I'll either resolve this one by moving the transmission or employ that transfer case you gave me after all, but if I do another 6x6 I'll definitely consider the above idea :) 

I machined the backplate to fit, it also gets rid of the need to use the plastic inserts to hold the bearings. Axle rotation is the same, doesn't need to be reversed. I haven't pictures of it but I made an aluminium gearbox cover to keep dirt out of the gears, that's what the 2 extra holes in the backplate are for.

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Another quick update - there was a problem with my ebay order for alu sheet, so I haven't made the rear axle bracket yet, but I did have a spare day in the week when I managed to fit my tipper bed.

I managed to fit this without the Lesu tipper bed rails - the tipper pivot nicely fits into the last hole on the stock chassis.  Note that the rails have not been changed at all in this pic - this is a standard Grand Hauler length with a chopped day cab.

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Not sure when I'll have time to do any more work on this rig - I'm pretty busy with racing and prep over the next few weeks so I need to put this one away somewhere safe.  Fitting the tipper mechanism seems a little trickier than I first thought as there is no mounting point for it on the tipper bed...

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That's looks really nice, especially considering it's stock chassis rails and a stock rear bed. Have you given any thought to using either Hi lift or Juggernaut leaf springs for the rear end rather than axle blocks ? They are a taller spring giving more ride height and are much stiffer than the standard truck leaf springs (Should you decide to haul wet sand in the back). I have both springs, if your interested I can remove them off something and measure the lift they give......

 

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@MadInventor that is a good point.  Having fitted the bed to the back, it already looks to be sagging a little.

As I'm sure you know, the rear leafs are fitted "upside down" compared to a single-axle installation.  Do you know if the Jug / Hi-lift springs have same fitment, or would they need to be modified?

The lift measurement would be helpful - it might be that I would need a mix of lift blocks and stiffer leafs to get the correct height anyway :)

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20 hours ago, Mad Ax said:

@MadInventor that is a good point.  Having fitted the bed to the back, it already looks to be sagging a little.

As I'm sure you know, the rear leafs are fitted "upside down" compared to a single-axle installation.  Do you know if the Jug / Hi-lift springs have same fitment, or would they need to be modified?

The lift measurement would be helpful - it might be that I would need a mix of lift blocks and stiffer leafs to get the correct height anyway :)

When I finish work, I shall crack out the camera, screwdriver, and calipers. I'll let you know shortly (For me that's in the next couple of days). When I built my 6x6 truck as a log hauler, I had to add a TT-01 coil over to each side of the axle to help cope with the extra weight, and that used stock 1/14 truck springs.

 

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Thanks @MadInventor, that would be awesomely helpful :)

I'm also seriously considering going back to your transfer box, as relocating the transmission is going to be a bit of a pain (especially as I have to house a lifter mechanism under the bed and an MFU under the day cab (which is never easy).  I'm considering switching to a single-speed planetary reduction box, as I did on the Drag King project, to get a bit more space.  I don't really need a 3 speed box on this rig (the MFU-1 still gives the illusion of 3 speeds by restricting the power through the gears, as I discovered when testing it on my Globe Liner), and not having the terrible lash from the Tamiya transmission will be nice.

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Apologies in advance for all the pictures.............

So, Jugg springs first.

They fit perfectly in the rear spring block, give a bit more ground clearance, but will push the axle about 5mm further apart, actually in this photo it looks more like 10mm..

Jugg-spring-on-Globe-liner.jpg

Globe liner spring on the bottom, Jugg2 on the top.

Jugg-V-Globe-Liner.jpg

Downside is the Jugg2 springs have the same number of leafs as the standard 1/14 springs and look to be no stiffer.

Also, comparing 2 new ones I had versus 4 I took off my Jugg2 recently, the used ones had sagged a bit the use and age.

Old-v-new-Jugg-2.jpg

Hi Lift springs.
These have 5 leafs and are held together with a 2mm screw and nut rather than a rivet.

Globe-V-high-lift.jpg

They give the same lift improvement as the Jugg2 springs (The new Jugg2 springs are near enough an identical shape to my lightly used hi Lift springs)

The hi-lift springs will fit in the globe liner spring block but only just in stock form. The lower plastic retainer needs to be drilled out slightly to accommodate the 2mm nut in order to enable the whole assembly to be tightened, and even then it might be touch and go whether you can get onto the nyloc portion of the 3mm nuts.

Hi-Lift-in-Spring-block.jpg

Comparison between all three springs:
Globe-V-Jugg-V-Hi-Lift.jpg

Measurements from springs.

Spring-Drawings.jpg

Hope this helps. The jugg springs will give a good lift but on increase in stiffness, the Hi lift springs should be stiffer but a minor bit of modding required to fit. Both springs will push the axles slightly further apart. 

As an aside, I cannot imagine what possessed Tamiya to think that the Hi-Lift would require stiffer springs than the Juggernaut 2... I suppose the chassis is heavier, but then the hi-lift has only got one motor...........

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Nice project. This is something I would like to build by myself. Will follow this.

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@MadInventor you are a legend :)

So it looks like Hi Lift springs would be perfect - I will see if I can track down a set.  Making the axles further apart is no big deal, I can make new lower links or I can make my new drop bracket with the link mounts spaced out.  Either way is good.

Actually I do have a set of leafs (not Tamiya, probably from one of the scaler companies) that I bought to finish off a leaf-sprung scaler project that I never bothered to do anything with.  Originally I was going to use those for the front end, as they already had holes in for mounting to the axles, but they were too long.  I guess they are the same measurements as Hi Lift springs.  They might not be as stiff, though - IIRC my intention was to make a slightly softer truck.  (That project has TLT axles.  As the world has moved on a long way since I first planned it out, my brain is now telling me I should build it into a classic leaf-sprung monster truck.  For some reason I'm really loving monster trucks this year...)

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As November is the Month of Lockdown 2.0 here in England, I've spent my days of blasting through some projects and getting stuff finished.  So it was that I found myself waiting for the paint to dry on something else and wondering how to pass the rest of the afternoon.  The answer was: grab the tipper down off the storage shelf and remember where I'd got to.

Answer: here:

PB190021.jpg

First thing I wanted to do was get the transmission in.  Originally I was going to use MadInventor's transfer case, then I was going to use a front output on the 3-speed, then I was going to use the transfer case, and now I'm back to using the front output again.  I figured it made perfect sense to move the transmission back a little.  It will be visible out the back of the cab, but that's OK, this is supposed to replicate a custom 6x6 hauler so you'd expect some extra gubbins rearward of the cab.  The interior should still work with some modification.

This prop angle is about as steep as it gets.

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Rear is a bit more acceptabubble:

PB190023.jpg

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Now, although these photos are posted several days after the event, you're still getting them in the sequence in which I took them.  That means you get a little bit of insight into the way in which I work (or, in this case, don't work).  Because here I remembered I hadn't sorted out the rear axles properly.  I had no dampers and the bottom links were too short, putting the axles at a silly angle.

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So I aborted my transmission installation and jacked up the chassis so it was level

PB190025.jpg

I played around with the idea of making some new lower links for a while, before deciding it was way too hard to get any of my rod ends into that tiny space.  So instead I'd have to make a new rear axle hanger.  Here's some photos of the construction process:

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PB190031.jpg

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PB190033.jpg

PB190034.jpg

prototype fits and functions

PB190035.jpg

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PB190036.jpg

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Concept proved, I cleaned up the brackets with a file and polished the edges

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Fitted

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