We had a great time hosting the first Maker Station Massacre yesterday.
Missed the action? Want to get another look at what happened? Good news, the event video’s located here: https://youtu.be/76QBCtAFj5k
Category: Events
High Steaks Deep Dive
Have you ever thought of a terrible pun? Has that terrible pun resulted in dozens of hours of work to transform it into a tangible object?
Big wheeled bots aren’t new. Bots like Huge, Gabriel, Starchild, and plenty of others have been out there fighting for years and are inspiring new designs all the time. While thinking about the pros and cons of this style of bot the thought came up: What would happen if Team Food Fight built a big wheel style bot? While I can’t say what the bot would look like, a name immediately came to mind.
With that pun, the CAD effort began and Hotkoin was contacted for the logo you see above.
So, what are the goals of High Steaks?
- Re-use the hubmotor and electronics from M-80
- Test viability of PLA+ for semi-protected structural elements in a 3lb bot
- Test segmented cleats as a means of increasing grip and adding structural stability to UHMW wheels
- Lean hard into the theme
With those goals the parts list and profile started taking shape. High Steaks would recycle the drive and weapon esc’s from M-80 along with the hubmotor. Some left over FingerTech Mega Sparks would be the drive solution with an extra 2:1 reduction to the wheels.
If you’re gonna go all in on a steak theme, you can’t be generic on your weapon disk. This lead to the question of just how steak-like a disk can be made to look. After some digging around I settled on two base colors and the Montana Cans white marble effect paint.
With the electronics pulled mostly from an existing bot the wiring process was fast with the main challenge being routing wires between the two halves of the chassis. The rear channel was snug, but it wasn’t too difficult to pull the wires through with the assistance of some forceps and a bit of patience.
Thanks go out to SendCutSend for making the weapon disks, steel chassis components, and spring steel cleats.
With all the pre-event goals met that leaves the final question: How did it do?
Overall I’m very happy with the performance. The one serious design issue that popped up didn’t really impact the results, but with the width of the tips on the side forks it would require the axle to be removed to replace a wheel, which isn’t ideal if there’s a time crunch. Because of that some new side forks have been designed that keep the aesthetic while allowing the hex bore on the wheels to slip over them for easy replacement. Beyond that, some extra UHMW wheels and cleats have been made to ensure enough spares are on hand and that there’s a heavier duty wheel option for bots where wheel damage is particularly likely.
Outlier Deep Dive
Outlier is the teams newest 1lb bot and is the end result of trying out a bunch of new stuff and new ideas.
Going into the design the core goals were:
1. Build a 1lb electric lifter that’s competitive
2. All brushless (this goal came in after initial concepts used some brushed parts)
3. Run 4s lipo effectively
4. Test viability of TPU lifter arms
5. Try new wheel construction methods
CAD from the early concept stages through the design that was made
Over the course of a few design revisions and a few product releases the bot went from a semi-direct brushless drive, brushed lifter with all of the components integrated into a single chassis to an all brushless lifter with replaceable weapon modules and indirect brushless drive.
Key components in Outlier:
Drive/Lifter: Repeat Robotics Repeat Mini Mk3’s (prototype HR gearbox for the lifter)
ESCs: Repeat Brushless Drive ESC for drive, Repeat AM32 Drive ESC for the lifter
Battery: 2x 2s 250mAh lipos from Palm Beach Bots
Power Switch: FingerTech Mini Power Switch
Weapon Module Structure: Custom Printed by Team Malice
BEC: iFLIGHT 3S to 6S Micro 5V 3A BEC
In addition to the above, the chassis, forks, and plow on outlier were made from 0.050″ laser cut 4130 steel from SendCutSend, the baseplate was 1mm carbon fiber, and there were a lot of PLA+ and TPU parts printed in house.
Assorted photos from the build including test fits and some adhesive testing
Test install of the drive wheels & weapon module
With that done and the event rapidly approaching a lot of things happened off camera with the end result being a working 1lb robot.
Outlier is a pretty dense little bot and was probably one of the more challenging wiring jobs I’ve done.
So, how’d the event go?
The good:
The drive power was insane, even with the fairly grippy silicone it was easy to spin the tires.
The chassis and drive mounting held up great, even with some major hits repairs were easy.
The TPU lifter arms took crazy hits without any trouble.
The PLA+ – TPU – Silicone wheel combo held together well even when taking some nasty hits
The bad:
The D shaft I was using had a very small flat, so between the Delrin gear and printed TPU adapter it was struggling to transfer torque, so the lifter often struggled to lift.
Changing configurations took longer than I’d like which meant I ran a config that wasn’t well suited to my opponent and took some massive damage to the weapon module & plow during the fight
After a few fights in close succession the printed PLA+ motor guards deformed, jamming the drive motors in the final, luckily late enough that it didn’t cost Outlier the match.
So, what’s next?
1. New homemade titanium D shaft for the lifter module
2. Modified, lighter, 1095 steel plow design that will allow weight for wheel guards so changeover time is reduced between configs
3. Explore additional wheel configurations
4. Connectorized weapon motor to allow easy swapping of entire weapon module
I’ve Made a Huge Mis-Steak
When it comes to robots trying new things can be scary, but it can also be rewarding. So, was High Steaks a success? Was it a Huge mis-steak?
Find out for yourself:
Robot Battles 71
Video from Robot Battles 71