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![Fifteen Years of Ask Aaron [Click Me]](pic2/Ten_2.gif)
Team Run Amok receives a lot of email about designing and building combat robots. In 2003 my son and team member Aaron Joerger (then 12 years old) asked for a question and answer page to document our responses.
Q: Hello, the battery pack i need for my Featherweight Bot, to drive the motors is a Turnigy nano-tech 1300mAh 4S 25~50C Lipo Pack, but cant find one available anywhere. Can you recommend a suitable replacement? Thanks
A: [Mark J.] I don't know how you determined that you 'need' that particular LiPo pack, but the 25~50C version has been replaced by an improved 'Turnigy nano-tech 1300mAh 4S 45~90C Lipo Pack' with superior discharge performance.
The 45~90C pack weighs 10 grams more and is a millimeter longer and wider than the 25~50C version, but can provide 80% greater current output if needed. It's widely available and will work well in any robot that used the older version.
Q: I'm having trouble relating the diagram of the 'Algos' drum [six posts down] to the outrunner motor before it was modified. Can you give me a sketch of the outrunner in the same format?
A: [Mark J.]
Sure. The only parts of the original outrunner that are used in the finished weapon are the motor stator and the rotor magnet ring.
The small ball bearings are removed from the stator, and the tube that held them is drilled out to accept the larger shoulder bolt dead shaft that will support the larger ball bearings for the drum weapon.
Q: Do you have any suggestions for funding? I am in a group currently working to design and build a combat robot, but we are all poor college students.
A: [Mark J.] Cinch up your Mae Wests and read Frequently Asked Questions #3. Read the rest of the FAQ while you're there.
If you're still up for it, start with a small 'bot -- learning from your beginner's mistakes will cost a whole lot less in a lighter weight class.
Q: Did Marc Thorpe invent robot combat in 1994? Were there any organized robot tournaments before then? [Arlington, Virginia]
A: [Mark J.] There were several robot combat competitions prior to Marc Thorpe organizing the 1994 Robot Wars competition in San Francisco, but we can credit him with commercializing the sport.
Q: I know that there's no way a bot with the kind of weapon I'm asking can ever be actually effective, but just for curiosity sake, has there ever been a combat robot that you know of with a jackhammer-esque weapon? As in like a pneumatic/electric powered sharp tip that fires extremely fast. [Tangerang, Indonesia]
A: [Mark J.] If the silicone rubber is coming off in 'chunks' you're putting it on too thick. Clean the foam tires vigorously and throughly -- I use lighter fluid and a rag. Allow to dry completely. Apply pure silicone sealant to the tire surface and squeegee the sticky goo around the circumference with a popcicle stick or knife blade, applying very firm pressure. The silicone layer should be no thicker than a coat of paint and the texture of the foam should show thru. Wipe any excess from the tire sidewalls with a rag. Allow to cure for several hours (or days) before use.
I prefer silicone rubber, but many builders use liquid latex 'skin paint'. The technique is to first coat the tire with craft rubber cement. When the rubber cement dries you apply a couple coats of the latex.
Q: Hi there, I'm currently trying to construct a circular arena for a Hobbyweight class competition in order to kickstart a robot combat scene here in Indonesia, do you have any specific pointers in order to make the arena safe? I want the arena to have big ring out zones like the kind of arenas you'd see in the UK in order to make flippers viable - and indirectly make ultra-high powered spinners worse because they run the risk of flinging themselves out of the arena. [Jakarta, Indonesia] A: [Mark J.] The information I have on safe arena construction can be found in Frequently Asked Questions #38. Q: I've been trying to figure out the cross-section drawing of the spinner weapon assembly on 'Algos' you linked in your introduction to Mike Jeffries' guest post in the Ask Aaron archives. Can you walk me thru that drawing?
A: [Mark J.]
Yes, that's a very dense and 'busy' illustration that was pulled straight from a CAD cross-section view. I've taken a shot at stripping it down to the key elements:
Q: Personally, what are your thoughts on the viability of Mecanum wheels in combat robots in 2020? The traditional thought was that they just don't have enough grip compared to regular wheels, but has that changed in the recent years? [Banten, Indonesia]
A: [Mark J.] Can you name a Mecanum-wheeled combat robot with a winning record? The closest I can come is superheavyweight 'Alcoholic Stepfather' with a 5 win / 5 loss record. They managed to get pretty good traction, but their custom wheels cost $1000 each and were regularly destroyed in combat.
The problems associated with Mecanum wheels go far beyond traction. Here's what the Stepfather team had to say about them in a 2015 Reddit post:
Advantages: great orientation control (keeps our uberstrong front end pointing at the opponent). But the biggest advantage is they look really cool when you can get them to work well. That is really why we used them. Q: I'm looking to make a Beetle weight hammer/pick ax bot and saw you mention a pneumatic hammer system is the way to go. Would it be possible to fit into the US Beetle class weight limit if not what is the best substitute?
Q: A robot that has fascinated me and a design I can’t recall being repeated was that of 'LOLCano V' (as it’s called on BuildersDB). One thing that isn’t really explained, however, is how exactly they managed to get both the drivetrain and the weapon to move on the same axle. What are some ways to accomplish this, and what am I missing with these designs that I’m most likely overlooking?
I know this design is one that’s probably better suited to show off than to be competitive, but it’s one that I enjoy and would like to put my own spin on... whenever I get around to doing so. [Joliet, Illinois]
A: [Mark J.] 'LOLCano V' (fight video) is not a unique design. It's a eggbeater variant of a "full-body drum spinner" (FBDS) of which there are several well-known examples:
Q: In that "Actual" pic of "LOLcano" it looks like the wheels don't even touch the ground. Am I seeing that right? [Wellesley, Massachusetts] A: [Mark J.] No wheels are shown in either the 'Rendered' or 'Actual' pics of 'LOLcano V'. Large diameter wheels mount to the hexagonal section hubs you can see in the 'actual' pic, and square guards then mount to the shaft outside the wheeels. I've added a screen grab labeled 'Complete' that shows the whole robot. Q: In a recent post you mentioned that there are specific transmitter adjustments that could help with keeping a two-wheeled robot running straight instead of weaving or veering from the target. Are there things other than adding a gyro? Can you list some specific adjustments?
A: [Mark J.] I wasn't trying to be cryptic. I've covered specific transmitter tweeks that can help with straight tracking in assorted posts and radio articles and I assumed that I'd tied them all together in a single place. Apparently that is not the case, so I've created a new transmitter guide covering this topic:
Q: We're having no luck pairing our Turnigy T6A-V2 transmitter to an Endbots Lemon RX DESC. Do we have to use the Turinigy receiver/transmitter as a pair or is it possible to connect the new Endbots DESC to our transmitter? [The Aether]
A: [Mark J.] The Lemon receiver and your Turnigy transmitter operate in the same frequency range, but they speak different languages.
Q: I'm building a featherweight with RS-775 motors and banebots gearboxes. I'm looking for cheap brushed motor controllers rated for 130 amps and 36 volts. Can you help? 
Q: I've read posts where you recommend twin stick transmitters over pistol grip transmitters for "very good reasons". What are the very good reasons? I always thought it was more personal preference than one was actually better than the other. I initially used twin sticks but found it frustrating as I couldn't go exactly straight forward or backwards without turning a little bit when driving a two wheeled bot. [Denver, Colorado]
A: [Mark J.] Builders inexperienced with the full range of control options available on an aircraft radio may well believe that any radio that they can slap a steering/throttle mix onto is going to be just fine for their 'bot. In the heat of a fight with some adrenaline pumping, they find their 'bot quite difficult to control: start speed motor differences, over-correcting on steering, trouble carving a smooth turn, and (yes) weaving along a straight line. They start to think they aren't good drivers, when the problem actually lays in their equipment and setup.
The requirements for precise control of a differential-steer robot are much closer to the requirements for control of a fixed-wing aircraft than those needed for a car or boat. Just having sticks instead of a knob/trigger won't make you a better driver, but the suite of settings that come with a good twin-stick aircraft transmitter certainly can -- if you're willing to learn what they do and how to apply them. You'll also have a much larger pool of users to help with any difficulties you encounter, and a greater selection of transmitters and receivers. You'll also pay less for equivalent quality equipment.
If you're having trouble getting a twin-stick transmitter set-up to your liking, I'll be pleased to help.
Transmitter Functions Quiz
There are features available on your transmitter that will make your robot respond better to the commands you give and make you more comfortable at the controls. Chances are that you're overlooking at least a couple tweeks that could make you a better driver. Let's see how much you know about transmitter functions.
Q: I'm using a fingertech tinyMixer in my beetleweight for its invert function 'cause my flysky i6 can't be programmed for a transmitter invert. I have the tinymixer plugged into receiver ports 1 and 2 for right stick control, but I'm having trouble getting the mixing to work correctly. The troubleshooting plan you have in the 'transmitter-side' channel mixing doesn't seem to work with on-board mixing. Can you step me through setting up the tinyMixer? [Robot Forum]
A: [Mark J.] You're correct, the transmitter mix troubleshooting protocol likely won't sort out your tinyMixer without causing invert function problems. This alternate protocol will do the trick with your tinyMixer:
Throttle Test Power up the transmitter and robot, then push the throttle stick forward a little.
Q: I'm flying to my first combat tournament as a competitor in a couple weeks. How do I pack my beetle and tools to pass security and get onto the plane? Checked baggage? Carry on? Do I need some sort of permit? [Columbus, Ohio]
A: [Mark J.] It's not terribly difficult to fly in the US with a small 'bot. No special permit is needed. The items you'll travel with fall into three categories:
Q: Hi there I’m currently making fan made fan robot wars series. For YouTube do you know I find pictures of competitors robots what competed in robot wars 1997 [London, England]
A: [Mark J.] A London fanboy... You'll be after pics from the 1997 UK Robot Wars -- 'cause London fanboys refuse to acknowledge that there ever was a 1997 US Robot Wars (video).
The archived Tectonic Robot Wars site has a complete set of competitor photos from the 97 UK series. Click the show number links to get to the photos.
Please Note 'Ask Aaron' does not generally answer questions about UK Robot Wars (reason). I've made an exception in this case to encourage interest in the early history of robot combat.
New! Run Amok 4-Bar Lifter Spreadsheet
The T.i. Combat Robotics 4-Bar Simulator was an awesome design tool... until Windows abandoned its version of Visual Basic and it stopped working. There was no joy in Mudville.
I grew tired of this situation and started development of a replacement tool in a format that isn't likely to lose support: an Excel spreadsheet. Several months and a couple of beta versions later it's ready for a full release. The new Run Amok 4-Bar Lifter spreadsheet calculates and graphically displays the range of motion and torque requirements for front-bar and rear-bar torque-powered 4-bar lifter designs. The user interface will be familiar to users of the T.i. simulator, and the graphic outputs are directly comparable.
Q: How to customise the starter motor of 3000 cc car? [Uttar Pradesh, India] A: [Mark J.] I'd chrome it and add some pin stripes. मैं भारत के लड़ाकू रोबोटों के बारे में पूछे गए सवालों के जवाब नहीं देता. Q: Hey Guys: With tip speed limits being imposed on the higher classes and at times the lower ones I feel like super high speed robots that go fast for the purpose of going fast are very rare. What is the fastest weapon tip speed that has been hit in combat robotics, I assume that it would be an insect weight robot. Has anyone ever hit Mach 1? There would be no point in going this fast other than for the show and an impact with anything at this speed would certainly be robot suicide but damned if I dont want to hit a sonic boom.
Interested to hear your take.
About Sonic Booms - A 'sonic boom' is not a noise made by an object when it 'breaks' the sound barrier. Any object travelling thru air faster than the speed of sound creates a pressure wave in front of itself that travels along with that object. As the object passes your loction that pressure wave and the low pressure zone immediately behind it strike you, creating the 'boom'. If you could achieve a weapon tip rotating at the speed of sound it would strike you with a small pressure wave on every rotation, resulting in a loud 'sonic siren' -- not a boom.
Q: I audibly went "ooooo" when I read the words "sonic siren", its too bad I can't seem to find a good video of a similar stationary sonic boom effect. I feel that losses at supersonic speed would be massive. I'm certain there is very little information on the kinda effects a 3ibs supersonic spinner would face however in your professional guess is there a ball park efficiency loss I should aim for? Does the AskAaron spinner calculator factor in for any efficiency losses already?
I've calculated that with a 60% efficiency loss I should be able to hit 767mph if I run a fat brush less motor at a 0.5:1 overdrive. The idea would be to use a disengagable brushed motor to get the spinner up to a speed before the brush less motor can take over.
The robot would be startlingly noncompetitive I'm sure but I gotta see what this sonic siren sounds like now! Hopefully it won't kill itself until after it hits the magic speed.
You provide a ridiculously large service to people in the combat community and I really do appreciate that. Cheers
A: I do admire enthusiasm, but as part of my 'service to the combat community' I am required to throw a few roadblocks in your path.
200 MPH = 800 watts
400 MPH = 6400 watts
800 MPH = 51,200 watts
Response: See if you can talk an event organizer into some special arena conditions. If you can pump the air pressure down to the equivalent of 60,000 feet and reduce the temperature to 216 Kelvin, air resistance is greatly reduced and Mach 1 drops to 573 knots -- but I suspect this only works with spherical chickens.
The 'Ask Aaron' project was important to Aaron, and I continue the site in his memory.
Thank you for the many kind messages of sympathy and support that have found their way to me.
Aaron's obituary
Q: how can robots help us deal better with hurricanes and why? [Ontario, California]
A: [Aaron] Few people in Nebraska are threatened by hurricanes, so send a swarm of killer robots into low Atlantic and gulf coastal areas to drive the puny human inhabitants toward Nebraska. Problem solved.
Robot haiku:
Type your question in the box, attach files if needed, then click: 'Send'
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Even small combat robots can be dangerous! Learn proper construction and safety techniques before attempting to build and operate a combat robot. Do not operate combat robots without proper safeguards.
Anyone interested in the early history of robot combat should obtain a copy of '
A: [Mark J.] Ineffective reciprocating 'spears' have been surprisingly popular at UK Robot Wars. A few that I remember:
A: [Mark J.] Did I really say that? A pneumatic system can deliver a great deal more speed and power to a hammer or lifter weapon than a direct-acting electric system -- but they are also a great deal more complex and dangerous. Whether they are 'the way to go' depends on your experience in building combat robots, expertise in metalworking, access to a machine shop, and expectations of performance.
In a more common FBDS design layout as used by 'Daffodil' (
A: [Mark J.] Tip speed limits are all based on 'theoretical' calculated values that do not account for aerodynamic drag. At low speeds these calculated estimates aren't too far off, but as speeds rise they become increasingly optimistic.
Comment: Well I'm kind of sad to learn there wont be a sonic siren even if I can hit 767mph. I appreciate you bringing these up as they are important considerations. While it sounds like hitting a super sonic siren is out of the question the engineering challenge of designing a supersonic spinner is still very tantalizing. I'll look into using the most aerodynamically efficient blade I can and see if I can hook up 2 massive brushless motors plus a kick starting disengagable brushed to the weapon to overcome the massive cubed losses. Can't wait to find out what kind of physics gyro BS happens at massively high speeds. Time to talk to some overhead builders :P . Thanks for the advice guys!
