2020:Power Cell Intake

Overview:  Based on initial team brainstorming and sketching, as well as theinformation from Strategy Subteam, we determined to prototype:

• An over-the-bumper intake:
• A thru-the-bumper intake

This decision is critical as it affects Drive Base!

• Test using various componenets touching the balls:
  • Test brushes
  • Test wheels
  • Test "hot dog roll" - a material wrapped around a rod that grips the game piece well and will snag it.
  • Test mecanum wheels to direct the balls into the robot in a manner that can be counted or indexed.
  • Combinations

Observations:  We observed the following over the course of prototyping:

• It is not difficult to get the balls to go over the bumper. 

Decisions:

• Intake will pivot out of the front of the robot
• Intake will be full width (relatively) of the robot
• Larry, Tom C., and Kyle discussed the pros and cons of having the balls go over or through the bumpers. Pros for a design that takes the balls over the bumpers included a simpler design that has more integrity. Pros for a drive base frame cut for the balls include a funnel that would only allow for one ball to enter the robot at a time, vastly decreasing the chance that we intake more balls than we want. Drive base cut also makes sensor placement to count the balls better. After the discussion, we decided on making a cut in the drive base frame for the intake, and the cut will be 8-9 inches wide. 
• Working towards a design that will extend the intake mechanism out of the frame perimeter and put it back in. Four bar design similar to 971's 2019 intake.  That design would put us over the frame when the intake is stored.
• Intake deploy is currently motor-driven and rotates the intake mechanism 90 degrees around a pivot point just above the frame.
• Decided on the foam roller + mecanum redirect bar design.

Need to do:

• DECIDE OVER-THE-BUMPER OR THRU-THE-BUMPER!
  • If THRU, determine the size of opening needed in the Drive Base.
• Determine how the intake will interface with the Storage
  • Roller bar on top of the balls when the enter the robot from the intake, passive roller below said roller bar. Pushes balls into the helix.
• Test the interface
• Test mecanum wheels (on order)
  • Out of stock
• Test plastic mecanum wheels (being assembled)
  • 1/8/20: 4/8 have been assembled thanks to Nikko, Trevor, and Cynette. Thanks guys!
  • 1/9/20: Only one left that needs to be assembled.
• Summarize number (and type if possible) of motor(s) needed for a full robot check.
  • 1/9/20: One for deploy, one for the driving of the bars.
• Start to figure out what kind of sensors are needed to control the Intake and make sure we do not take in more than 5 balls.
  • 1/8/20: Beam break that is below the center of the balls. The balls rolling past it breaks the beam, counting the balls. 
• Do scaled, dimensioned, CAD sketches to confirm we wil be within our 12" frame extension limit
  • 1/9/20: With the help of Chris Sowden, basic CAD sketches of the two-bar intake system have been made. The current design has us behind the 12 limit. 

Design