DEWBOT VIII Drive Train

What drive train to use for Rebound Rumble? The key drive-train requirements for the game were assessed to be:

• Ability to cross the mid-field line via either the Bridge or going over the Barrier (Need)
• The ability to drive in the wide orientation in order to fit three robots on a Bridge (Need)
• The ability to drive in the wide orientation to facilitate ball pick-up from the playing field (Need)
• Avoid blocking robots, especially between Key & Bridge (Desired)
• Ability to lock wheels on the Bridge to avoid rolling off when power is cut (Desired)

While not a specific strategic requirement, it was perceived that the ability to drive in the narrow orientation would make crossing over the Barrier safer & easier.

Furthermore, if pivot drive was used, it was decided that the shooter would be aimed my rotating the robot, rather than via a rotating turret (not applicable if tank drive was selected). The logic was that pivot drive enabled the entire robot to become a turret, so we should exploit this and avoid a redundant turret.

Team 1640's signature Pivot drive-train seemed to meet some of the game's requirements very well (especially driving in either wide or narrow orientations), but how would be get over the Barrier? 1640's pivots had always used 4" wheels in the past. No way they're going over a 4" Barrier, right?

Reflection

Crossing the Barrier is a Need? Really? Yes, it is certainly do-able, but this capability is likely to be expensive in terms of mass, cost and compromises made to other (perhaps more critical) capabilities.

Concepts

Initial concepts included:

1. A 6wd wide chassis (like DEWBOT V) with 8" Pneumatic wheels (or larger)
2. 8" Pneumatic wheels (or larger) in-line with pivots, either outside or inside between, either undriven or driven
3. A ramp and skid-plate in-line with pivots and between them
4. Redisign pivot drive for 8" Pneumatic wheels (or larger)

It was decided to pursue ooptions 1-3 via prototyping and testing. Option 4 was discarded due to mechanical considerations and limitations in design resources.

Prototypes

6wd Wide Tank with 8" Pneumatic Wheels

Unfinished prototype

The DEWBOT V chassis was allocated to test this concept. Unfortunately, work did not proceed at a sufficient rate and this concept was not tested before a decision needed to be made (and therefore never tested). Too bad.

8" wheels in line with Pivots

Based on the geometric understanding that (a) large-diameter wheel(s) in-line with and either outside (safer) or inside (more practical) the two pivots on a short side of the robot would protect the pivota and raise the robot up to the barrier top and lower it (safely?) back down.

Testing used the DEWBOT VI chassis. Initial testing used unpowered 8" KitBot wheels outboard of the Pivots. This configuration failed to clear the Barrier. A second version utilized a powered 8" pneumatic wheel between the pivots.

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  Unpowered 8" KitBot wheels on DEWBOT VI

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  Powered 8" pneumatic wheel (with too much wood)

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  DEWBOT VI faces its nemesis...

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  ...and overcomes it!

This worked and became the basis of DEWBOT VIII's drive-train design.

Skid-plate in line with Pivots

We

Polypropylene Skid Plates

tested polypropylene skid plates in lieu of the 8" pneumatic wheel. This works if the angle of attack is low enough. Unfortunately, the necessary angle of attack does not leave enough space for anything else.

Decision

Specific drive modes were developed for Rebound Rumble. These are:

1. Fat Snake - Primary drive mode - snake drive with a wide chassis orientation.
2. Skinny Snake - Used primarily for crossing the Barrier - Pneumatic wheels are automatically driven in the direction of travel.
3. Aiming mode - Orients wheels on a circle and rotates chassis about center. For shooting and chassis reorientation. Unlike previous DEWBOTS, this mode remains on until specifically turned off.
4. Crab mode - Primarily for evasion

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