The importance of good quality torque plates

[John in CR]

Alan,

You'd probably consider your Greyborg to be well engineered, but guess what? Their thick dropouts wallowed out for at least one user. I've purchased quite a few used motors and every single one that came with some kind of torque arm had significant rounding in the flat areas. My early bikes with 1/2" of steel per side and tap in fits both wallowed out the dropouts within 2 years of use, no spin but they would have eventually. Add in the fact that we typically don't know the materials properties of the axle, and a detailed analysis becomes just a shot in the dark. I thought 1/2" was overkill at the time, but those kinds of dimensions didn't prove adequate until I came up with the idea of clamping dropouts, which has proven to be the only route to long-term reliability. The adequate thickness with clamping may very well be somewhere between 1/4" and 1/2", but without going to some kind of welded on the end bolt sleeves like Arlo1 did, you really need more thickness just to get a decent sized bolt through with enough material to clamp it down nice and tight. Too thin also risks deforming the axle with the clamp, and for wire through the axle motors it can collapse the axle on the wire side.

Justin's testing proved axle nuts play a primary role in preventing spin outs, because they spread the load over a lot of surface area in the threads and at a greater radius at the nut face. Tight nuts proved more important than the typical thickness dropouts and torque arms, I'm not one to do pre-ride inspections. Who really does? That means I can't rely on that typical system, especially with regen which has a propensity to loosen any nut, so my torque dropouts need to stand on their own. Call it overkill if you want, but once you consider the risks of that connection, the typical 3X safety margin means a detailed engineering analysis is bound to come up with an answer greater than 1/2" per side and I'm running speed, not high torque.

Doc's special steel torque arms are a bit thinner, and plenty strong I'm sure. I'd worry more about the axle deforming first, something I've already seen.

 

[MadRhino]

...I now know that the first thing that can break... is the axel :wink:

Not likely to happen, for the X5 axle wouldn't break unless a very fast crash.
I have one here from a 5304, that is bent AND twisted, yet doen't have a crack.

...I'm not one to do pre-ride inspections. Who really does?

I do, and if you start riding the mountain trails like you expressed intention, I suggest that you consider doing a routine daily inspection. I'd be dead by now if I didn't, and I've seen some dramatic crashes that could have been prevented by a 5 min inspection of the bike.

+1 on pinch dropouts, they are definitely the way to go. Axle nuts get loose everyday, even with Nord-Locks. I can imagine losing the rear wheel in a rough trail, and ripping my back end bones on a rock garden at 40 Mph. Ooch
For me, crashing is acceptable only when it is rider's fault, and I can laugh at it after the shock. Mechanical failures and intentional trail traps make me mad for a day, and frustrated for a month. Routinely inspecting the bike and trails, make sure I have fun, and age in serenity.

 

[Alan B]

Doc's torque plates are 3/8" thick and open ended, and a hard material. He has put something like 20KW on the big Xlytes on them without failure, though it is not clear how much torque was actually generated. It was a lot, but perhaps not as much as the later big hubmotors. He has twisted Xlyte axles though, so they can handle more torque than those axles themselves can handle.

Justin's torque plates are about 3/16" and closed and stainless (fairly hard). He found that 1/8" was insufficient. He found that a single 3/16" was sufficient for 9C at normal power levels.

I think the Greyborg Warp's dropouts are 1/4" (6mm) and open ended cromoly, and we have seen one 12mm Xlyte spin on them when it was not bottomed in the dropout, by spreading not deformation. The Cromotor was perhaps not planned for when the Greyborg Warp frame was designed, it came a bit later, so the dropouts may or may not be designed for that. I have not heard back on that question. The Greyborg dropouts may have been designed for the Xlytes.

Kiwi's torque plates for the Greyborg are 4mm, and on one side only, stainless and closed hole.

1/2" is pretty clearly adequate. But I don't think hillzofalp has room for that. Adding pinch bolts adds quite a bit of stiffness, hard to be sure if it is enough.

 

[hillzofvalp]

What about dual pinch bolt on either side of the axle?

Wuld I have to tighten the nut before or after the pinch bolts? Think about the axle lip not being seated properly...

 

[John in CR]

...I'm not one to do pre-ride inspections. Who really does?

I do, and if you start riding the mountain trails like you expressed intention, I suggest that you consider doing a routine daily inspection. I'd be dead by now if I didn't, and I've seen some dramatic crashes that could have been prevented by a 5 min inspection of the bike.

True. Your kind of riding is as different from my errand riding as flying a plane is to driving. Mine is just hassle and maintenance free basic transportation. Yours is closer to flying extremely low relative to the ground. I'd inspect my plane properly for pre-flight, so I need to get used to the idea once I build some trail ebikes. Damn, I gotta get serious about losing 50-60lbs though or no bike is going to stand up. 40mph through a rock garden. I really need to get over and see the DH racing they do here. Like I'm sure your approach is, I'd love to come up bike for UH/DH racing. The ride back to the top has gotta suck.

 

[hillzofvalp]

To pinch or not to pinch, that is the jquestion

Pinch ok with 9c for sure at 3500W? But cromotor needs doc plates?

 

[MadRhino]

Both will hold more power that you can feed, pinch is safer because the axle can't slip out, even without any axle nuts. Doc's torque plates are much easier to build with though, and are a reliable solution for a good price.

 

[neptronix]

1/4" is only sufficient for European and Australian street legal status ebikes.

Lol, i don't think 200 watts even needs torque plates.

I ran a 250w rear geared motor without them for a while, would put out peaks of 500w. No problems.

LOL, it's just like with your precious little batteries. Just because you got away with something in the short term is irrelevant to the actual safety. Since you think they don't need anything, why don't you back it up and put a little geared hubbie on a set of aluminum forks and ride it on some cliff-side trails with no torque arms for a nice dose of watch what you recommend.

John

I don't know what to tell you John. The dropouts on that bike were fine ( cromo ) on 250w. Another bike we had early on was aluminum with a rear 250w motor, and it was designed without torque plates, never had a problem. My 1/4 in. steel plates are taking over 100ft-lb to them on an aluminum bike, and my lipos are still delivering 5 amp hours after a year and a half, with no swelling, and no problems so far.

I never told anyone to put a motor on the front of their bike, ever.

I would only recommend something to someone else if i thought it was rock solid. So far, i have had great results. You can mock me when i have a failure, or when someone else follows my advice has one.. until then, you're wasting your time attacking me, John.

 

[John in CR]

If you're recommending to anyone not to have torque arms on an aluminum bike no matter how strong you think it is leaves me speechless. I'm not attacking you at all, just your positions, so don't take it personally. Just because your wheel didn't spin out and fall off doesn't mean it was a solid enough install to recommend to others. Just because your lipos haven't caught on fire doesn't make them safe to recommend either. A sample size of 1 or a few proves nothing. I do plenty of stupid stuff that I get away with, but I don't go around recommending to others that it's safe.

 

[neptronix]

 

[hillzofvalp]

Both will hold more power that you can feed, pinch is safer because the axle can't slip out, even without any axle nuts. Doc's torque plates are much easier to build with though, and are a reliable solution for a good price.

But will 7-10kw definitely need something like docs stuff?

And for the record, everyone, I ran 2kw on this bike without torque plates with no issue... With regen too. A Least in the mere 200 miles I road it before tear down

 

[MadRhino]

John gave you the solution: Since your dropouts are steel, it is easy to solder some more steel on them to make them thicker.

 

[Alan B]

Are you suggesting soldering, or did you mean welding?

 

[MadRhino]

Welding, sorry, translation mistake. In french, welding sounds like soldering.

 

[The Mighty Volt]

Because i use a front motor in rear-BMX drops, I don't have much axle to play with.

I use ONE pinch plate made from mild-steel, and the other plate is just a piece of milled-steel- very hard, cut just too narrow for the axle, so that I have to tap it into place with a hammer. The motor is rolled into the existing drops, then the torque arms are tapped onto the axles, then bolted down, then pinched where applicable.


The drops are lined up with the arms, and the arms complement the existing drops, which are fat BMX drops. I feel pretty safe, and the removal of the wheel recently for a re-fit/re-think did not reveal any signs or erosion or bending. System is an X5305 in a 20" wheel, 72v 65A nominal.

 

[John in CR]

MightyVolt,

It looks like I need to show you the axle end shields I made. They're just a U shapes made from 1/4" leaf spring steel (a cheap source of nice steel from any junkyard). One side has slots cut to fit the axle to act as extra torque arm, and the other side covers the end of axle to protect it from mishaps. The wiring harness is so tight on these motors I never want to need new wiring, and the other axle end has the rod for series/parallel switching that ends somewhere in the middle of the stator, so I don't want to discover a repair. Since you're axle length limited you'd just need a different shape. I don't envy fixing that harness. No video of the incident?

 

[hillzofvalp]

I've got some 46C .5" (12.5mm) thick stainless.. i don't know how hard that is. But I also have some lightly rusted .5" carbon steel that seems harder from the scratch test. Plan is to make an extension and weld it on.. dril and tap the end for pinch bolts.

I want to mill off .25" on one end so that I have a seamless dropout (.25" 4130 already is on the frame!). .5" thick carbon steel will hang off and will receive the pinch bolt. I will try to fill in the remaining material and then file it off so it's even with the new material (water jetted).

I'll let you guys know how it turns out. Money is a factor so I'm just using what I've got. I think for 3500W this is overkill anyways... this may handle the cromotor just fine with .5" of steel (with tight fit to start) and a pinch bolt..

Agree? Support? Weld material will filll in all gaps I hope.

 

[hillzofvalp]

 

[The Mighty Volt]

MightyVolt,

It looks like I need to show you the axle end shields I made. They're just a U shapes made from 1/4" leaf spring steel (a cheap source of nice steel from any junkyard). One side has slots cut to fit the axle to act as extra torque arm, and the other side covers the end of axle to protect it from mishaps. The wiring harness is so tight on these motors I never want to need new wiring, and the other axle end has the rod for series/parallel switching that ends somewhere in the middle of the stator, so I don't want to discover a repair. Since you're axle length limited you'd just need a different shape. I don't envy fixing that harness. No video of the incident?

Ha, no, there was no incident, thats an old motor I was using as a guide while I was waiting for my X5 to arrive from Texas.

Its an old 8X8 from when I popped my cherry on ebikes- Cammy sold it to me, with frayed phase wires, I didn't know any better, rode it, it popped two mosfets. I cut it out of its spokes and hung it up on the wall.

I never ever had any accident with those arms once they were installed on the X5.

 

[hillzofvalp]

Guys, what do you think about my proposed modifications?

 

[MadRhino]

Yep, half inch steel dropouts both sides with pinch bolts, is enough to hold the Cro-motor with much more power than you plan to feed.

 

[hillzofvalp]

Will I be able to do 10kw?

 

[MadRhino]

Yep, NP.

 

[cassschr1]

My opinion... your half way there. Now run that paper down to the brake bosses in your photo and also tap for accesorie hardware mounting. Also make it have a bolt for pinching the drop out tighter. Now make one for the other side. You are one lucky dog to have water jet cutting at your beckon call. Cass

 

[hillzofvalp]

Here's what I'm working with now. I'm welding this all on... machining off 1/4" from one end to mate it with the existing 1/4" thick frame. I reworked the slot but messed up and overshot one a little bit. I think the pinch bolt will remedy a mere .1-.2mm. My 9C flats are 9.9mm.

I do have access to a water jet, but if I choose to use it I have to compensate the lab and take off a number of hours . $20/hour to operate plus a lot for garnet.. which I used like 18lbs.