Project Conclusion

During our last team meeting before the Design Expo, we worked to finalize the code to run the motors and the IR sensor. We were unable to create a code that would make the motors that run the drivetrain move. From the research that we did, the most likely reason for the motors not functioning was that it is difficult to make stepper motors step at the same time, because stepping is considered a "blocking function".

Though the motors weren't going to function properly, we did move forward with modifications to the body of the tank to allow for the motors to fit into the central compartment. After acquiring the 3D printed drive shafts from Professor Sullivan and the gears we needed from K'nex, we could move forward on the final construction of the drivetrain.


When I had the acrylic bulkheads laser cut, I had been unsure what motors we would end up being able to use. for this reason I didn't laser cut the mounting holes for the motors. When I was ready to drill the holes for the motors I went to the machine shop to ask for help drilling the holes, but upon arrival i was informed that the shop was closed all day and the machinists all had meetings so there would be no machining done today. Being stuck without mounting holes on the day before the Design Expo, I decided to take a chance and see if the maintenance shop would be able to help me. I explained what I was doing, and that the machine shops were all closed, and they were willing to help me. It wasn't until I was almost entirely done with the construction of the drivetrain, that I realized that the motors would not be able to be attached because the holes were slightly off from where they were supposed to be. I knew there was a chance the holes wouldn't end up lining up because the tolerances of the holes on the motor are so low, and the drill bit we needed to use was so small, it would flex due to the rotation of the chuck.

Given the opportunity, I would avoid making the drive shafts out of 3D print material in the future. Instead I would look into milling out the shape of the axle and built in gears on a lathe and then using a drill press and a circular vice to mill out the teeth on the gears. Then I would drill out the hole for the motor shaft to be press fit into the drive shafts. I would make this change because one of the 3D print shafts slip in half during drivetrain construction, before we were able to put any force from the motor onto it.

Tough this has only been one prototype project, I feel like we have gone through six or seven prototypes in order to get to where we have now.