Difference between revisions of "Baseball"
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===Pitcher=== |
===Pitcher=== |
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To actuate the ball up to a position to be "pitched" a motor and scooping arm were used. Once activated the arm turns upwards until hitting a static |
To actuate the ball up to a position to be "pitched" a motor and scooping arm were used. Once activated the arm turns upwards until hitting a static bar. The momentum of the ball would shoot it out of the scoop where a curved ramp would project it onto the play field. The motor is attached to a simple push button so another player can pitch creating a more interactive game. |
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==Electrical Design== |
==Electrical Design== |
Revision as of 18:16, 19 March 2008
Team Members
Ming Lee Chow: Biomedical Engineering Class of 2009
Jeremy Klem: Mechanical Engineering Class of 2008
Overview
Mechanical Design
Bat
The Bat was fashioned out of wood on the band saw and sanded to a finish. Two holes were drilled: one to act as an anchoring pivot point and the other to be attached to an actuator. A solenoid, run on the two rechargeable batteries in each kit, was used with a compression spring to actuate the bat. The user interface was a simple push button usually stocked in the lab. This button was located on the right side of the game similar to where pinball buttons are located.
In order to make the game more like baseball we set up a system to only allow the user to swing during a pitched ball. To learn more about this look below to Bat Relay.
Pitcher
To actuate the ball up to a position to be "pitched" a motor and scooping arm were used. Once activated the arm turns upwards until hitting a static bar. The momentum of the ball would shoot it out of the scoop where a curved ramp would project it onto the play field. The motor is attached to a simple push button so another player can pitch creating a more interactive game.