Dribbler
Possible Solenoid
model S-20-100-21H:
http://www.solenoidcity.com/solenoid/tubular/s-20-100hp2.htm
http://www.solenoidcity.com/solenoid/tubular/s-20-100hp1.htm
http://www.electromechanicsonline.com/products/SOTUH025051.asp
70 Durometer Sorbothane Statistics (10-26-06)
http://www.matweb.com/search/SpecificMaterial.asp?bassnum=PSORB2
-Pat
Update
Apparently, angled dribblers have been BANNED (as of 2003)
-Pat
Dribbler Rules: (from: [1])
5.6. Ball Movement.
5.6.1. A robot cannot "hold" a ball. Hint: Holding a ball means taking a full control of the ball by removing all of its degrees of freedom. For example, this would mean fixing a ball to the robot's body, surrounding a ball using the robot's body to prevent access by others, encircling the ball or somehow trapping the ball with any part of the robot's body. If a ball stops rolling while a robot is moving ,or a ball does not rebound when rolled into a robot, it is a good indication that the ball is trapped.
5.6.2. The ball cannot be held underneath a robot.
5.6.3. The ball must be visible at all times.
5.6.4. Other players must be able to access the ball.
5.6.5 The only exception to rule 5.6.1 is the use of a rotating drum that imparts dynamic back spin on the ball to keep the ball on its surface. This is called a "dribbler".
5.6.6. A dribbler must comply with Rule 2.7 Ball Capturing Zones; i.e., the ball cannot penetrate under the dribbler for more than 2cm. The 2cm is measured from the contact point of the dribbler on the ball.
Good Dribbler Reference Pages:
1) [2]
Detailed design of Cornell's 2003 Bots. Dribbler and Kicker stuff on pg 35-76.
2) [3]
Summary of the dribbler mechanisms. It's short.
3) [4]
Description of Cornell's 2005 bot. Brief mention of dribbler on pg 2-3.
By: Pat (10-12-06)