I've been involved in robot combat (BattleBots) for the past three years now. My first robot Shish-Kabot was extremely successful with one 2nd place and two 3rd place finishes but it had one weakness. Every time it fought a flipper robot called Upheaval, it would get tossed around and lose via knockout. (see 2nd image) After spending way too much time thinking about how to beat Upheaval with Shish-Kabot I decided to build a better flipper bot...
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I guess I should probably explain a few things about what I'm talking about.
Robot Combat is an sport often referred to as BattleBots, but that term is trademarked so I'm probably not supposed to say it. But the basic idea is two robots fight to the death in an enclosed bullet proof glass box for 3 minutes or until one can't move anymore, when a knockout is declared. There are basically three groups all robots can be categorized into. Spinners are probably the most prevalent. They have some spinning mass (think exposed lawnmower blade) and try to slice or blunt force the other robot into submission. Pushy bots are the simplest to build. They often have a wedge to get under the opponent. They win by dominating the flow of the fight. The third group is flippers or lifters. They are designed to get under the other robot and flip them over or chuck them across the arena and hope something breaks on impact. This is often done using pneumatic rams. Flippers are not very common anymore because the introduction of cheap imported Chinese brushless motors and the difficulties associated with pneumatics.
The design goals/constraints for Phoenix were
1. Powerful flipper weapon
2. Entertaining
3. Cost must be under $700 (I'm a high school student without a high paying job)
4. Must be under 30lb weight limit
Robot Combat is an sport often referred to as BattleBots, but that term is trademarked so I'm probably not supposed to say it. But the basic idea is two robots fight to the death in an enclosed bullet proof glass box for 3 minutes or until one can't move anymore, when a knockout is declared. There are basically three groups all robots can be categorized into. Spinners are probably the most prevalent. They have some spinning mass (think exposed lawnmower blade) and try to slice or blunt force the other robot into submission. Pushy bots are the simplest to build. They often have a wedge to get under the opponent. They win by dominating the flow of the fight. The third group is flippers or lifters. They are designed to get under the other robot and flip them over or chuck them across the arena and hope something breaks on impact. This is often done using pneumatic rams. Flippers are not very common anymore because the introduction of cheap imported Chinese brushless motors and the difficulties associated with pneumatics.
The design goals/constraints for Phoenix were
1. Powerful flipper weapon
2. Entertaining
3. Cost must be under $700 (I'm a high school student without a high paying job)
4. Must be under 30lb weight limit
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the one i use on phoenix is 2 1/2" bore 4" stroke
And I have one last question. Is the robot you mentioned(Nyx) called near chaos? And is it traversable?
Phoenix doesn't have enough room inside it to put in a tank of a usable size. I also ended up using the weight to make some modifications to increase the durability of the frame and keep it from getting stuck on its side. I'll probably add a bit of info to this instructable about the modifications.
"Is the robot you mentioned(Nyx) called near chaos? And is it traversable?"
The other robot mentioned at the end of this instructable is called "Nyx" it was created by the team Near Chaos Robotics.
You can find all of Phoenix's fights on youtube by searching for "Phoenix" "Motorama" "Nerc"
Also you can read about my other bots on my blog which is linked somewhere near the top of the page.
Also quick tip, Amazon carries almost every type of structural metal, all the aluminum I got for my robot was less then half the price at Home Depot, you also get free shipping on almost all of it.
I use Kitbots.com's drillmotor hubs and colson wheels.The wheels press fit onto the hubs which screw right onto the output shaft of the drill gearbox.
Force= Pressure * ((1/2 Bore)^2 x Pi)
a 1" bore ram generates ~78.5 lbs of force at 100 psi
a 2" bore ram generates ~ 78.5 lbs of force at 25 psi.
You can run whatever pressure you want if your ram is large enough to achieve the force necessary to launch the other robot.
There aren't any pneumatic bots below 12lbs. The available necessary components are too heavy to make it work.
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"I then think 300 PSI could be plenty for a beetle weight robot"
Were did that totally arbitrary number come from? Most pneumatic components are rated for 200(ish) psi maximum.
Do not exceed manufacturer recommended pressure ratings on pneumatic components.
Always be careful when testing pneumatics and take proper safety precautions such as testing with the robot behind a lexan shield and everything in the robot secured.
Now if you do that keep in mind you won't have anything to hold back the Co2 so you will have to add a ball valve or something to regulate the flow.