IR Remote Controlled Tracked Robot

On a previous blog I bread-boarded a PICAXE processor and worked out how to decode an IR hand-held remote control. In this blog, the circuitry has migrated to a toy tank platform so I can test out some ideas I have for a larger, outdoor robot on a much lower cost platform (this was built for less than $60). Most of the parts were purchased from Pololu and SparkFun (and Rat-Shack). Using an IR link costs very little compared to a RC system, so it was ideal for this project. I really enjoyed putting together all of the mechanical elements supplied by Tamiya.

A basic hobby motor turning at 12,300 RPM is basically useless without a good gearbox. Just touching the shaft will stall the motor. I obtained a Tamiya double gearbox kit for under $10, which through a series of gears provided a ratio of 114.7:1 at 115RPM. There were a lot of small parts in this kit; and it looks a little intimidating; but the pictorial instructions were more than adequate. The drive train for a tracked vehicle would require left-hand and right-hand gear-head motors; so having both sides together in one package is a real convience (one gearbox to mount instead of two).

This Tamiya kit will be used for the base and a parallel upper level. The angled pieces provide bearings for the wheel axles (there will be 5 axles and 10 wheels); which will attach to the bottom plate along with the double gearbox. The upper place will support the battery pack and the micro-controller circuit board.

This is the third and last Tamiya set (each under $10) that go together for a tank tracked platform. Note that there are several different lengths of tread (you will end up with 2 unused pieces 2 3/4" long).

The only wheels with sprockets are attached to the double gearbox hex shaft; all other wheels use the round shafts and are free turning (which will come in handy when the tank turns, and one track moves forward and the other in reverse).

Four each 4-40 hex standoffs are attached to the lower plate to support the upper plate. 2 layers of double-stick foam tape are placed on the gearbox to support the far end of the upper plate.

Circuit Diagram [Link]

PICAXE Basic Code [Link]

Parts List [Link]

Spec Sheet [Link]

At first I had installed the battery pack right above the double motor gearbox resulting in a lot of wobbly motion of the robot, and its front end trying to rise up in the air as it moved forward. When I rearranged the second plate and situated the batteries opposite of the motors, the robot became much more stable (and balanced).

The robot came came together at just over 1 pound (considered "Ant Weight" in competition circles)

Thanks for reading this blog and sharing the fun I had building this robot.

I have a few other blogs you might also enjoy:

Robot Links [Link]

My other interests (plant identification, kayaking, sea beans...) [Link]