2012:Shooter and Collector 01.15: Difference between revisions

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*Beater bar requirements <br><br>Fixed position inside the frame/ stationary position <br>1 speed forward, 1 speed reverse (not full speed?) <br>measurements (must stay inside the frame) <br>As close to frame perimeter as possible, preferably coincident with it <br>Material ideas: Wheel traction tread, drawer liner, surgical tubing wrapped about the bar <br>Sturdy and easily replaceable (under five minutes to replace it) <br>Inside the frame or deployable? MUST BE INSIDE SEE #1<br>Sensor feedback; <br>Ball sensor - know when one is entering the system -- possibly? Depends on how close we can get one for the conveyers<br>NO status of spinning depends on # of balls currently in feeder, and whether there is a ball in front of robot. (accuracy?)<br>DOESN'T MATTER AT THIS POINT Should beater bar spin constantly if there are less than 3 balls in robot, or only spin if &lt; 3 balls and there is a ball in front of robot?<br>&nbsp;  
*Beater bar requirements <br><br>Fixed position inside the frame/ stationary position <br>1 speed forward, 1 speed reverse (not full speed?) <br>measurements (must stay inside the frame) <br>As close to frame perimeter as possible, preferably coincident with it <br>Material ideas: Wheel traction tread, drawer liner, surgical tubing wrapped about the bar <br>Sturdy and easily replaceable (under five minutes to replace it) <br>Inside the frame or deployable? MUST BE INSIDE SEE #1<br>Sensor feedback; <br>Ball sensor - know when one is entering the system -- possibly? Depends on how close we can get one for the conveyers<br>NO status of spinning depends on # of balls currently in feeder, and whether there is a ball in front of robot. (accuracy?)<br>DOESN'T MATTER AT THIS POINT Should beater bar spin constantly if there are less than 3 balls in robot, or only spin if &lt; 3 balls and there is a ball in front of robot?<br>&nbsp;  
**Wings / bridge requirements <br>Are solid/straight from tip back to frame edge to prevent balls from getting trapped behind, and prevent outward bending <br>Starts within the frame perimeter, and deploys to outside the frame perimeter <br>Has no active gathering mechanism -- just simple wings <br>Enables to retreive balls from wall and corners - Guide the balls to the beater bar without moving <br>But CORNER is a big problem with wings down; coming in perpendicular to a wall is difficult as well<br>Able to lower a ramp from its balanced position to a position low enough for us to climb <br><br>Deploys and retracts in under 2 seconds (Motor / Pneumatic?) <br><br>Sturdy and easily replaceable (under five minutes to replace it) <br>Sensor feedback; <br>Could mount sensor for sensing ball in front of robot, only if beater bar should not spin constantly --- probably not necessary -- battery power drain will be limited on brush -- also very dangerous<br>/ If motor operated: Detecting if wings are all the way down (if (sensorOn == true) stop motor to lower wings)<br>(accuracy of sensors?)<br>Limit switches or similar for actuation limits (if not using pneumatics)<br>Position sensor on the actuation axel (get wing's angle of deployment, if driven by motor)<br>&nbsp;  
**Wings / bridge requirements <br>Are solid/straight from tip back to frame edge to prevent balls from getting trapped behind, and prevent outward bending <br>Starts within the frame perimeter, and deploys to outside the frame perimeter <br>Has no active gathering mechanism -- just simple wings <br>Enables to retreive balls from wall and corners - Guide the balls to the beater bar without moving <br>But CORNER is a big problem with wings down; coming in perpendicular to a wall is difficult as well<br>Able to lower a ramp from its balanced position to a position low enough for us to climb <br><br>Deploys and retracts in under 2 seconds (Motor / Pneumatic?) <br><br>Sturdy and easily replaceable (under five minutes to replace it) <br>Sensor feedback; <br>Could mount sensor for sensing ball in front of robot, only if beater bar should not spin constantly --- probably not necessary -- battery power drain will be limited on brush -- also very dangerous<br>/ If motor operated: Detecting if wings are all the way down (if (sensorOn == true) stop motor to lower wings)<br>(accuracy of sensors?)<br>Limit switches or similar for actuation limits (if not using pneumatics)<br>Position sensor on the actuation axel (get wing's angle of deployment, if driven by motor)<br>&nbsp;  
**Conveyor requirements
**Conveyor requirements  
**Work around the drivetrain components<br>contain no more than 3 balls<br>3 separate segments independantly controled<br>speeds at shooter must be very consistent<br>transport ball through conveyor for X amount of time + capability of reverse direction (?)<br>Sensor feedback; 1 on each conveyor belt + 1 at entrance to feeder to avoid accidents. (accuracy?)<br>&nbsp;
**Work around the drivetrain components<br>contain no more than 3 balls<br>3 separate segments independantly controled<br>speeds at shooter must be very consistent<br>transport ball through conveyor for X amount of time + capability of reverse direction (?)<br>Sensor feedback; 1 on each conveyor belt + 1 at entrance to feeder to avoid accidents. (accuracy?)<br>&nbsp;
*task
*Turret:<br>280° of rotation<br>+/- 1° precision<br>receive balls from conveyor<br>mechanical hardstops
 
*<br>Shooter:<br>impart backspin<br>2 independent wheels
= Tasks to Complete =
*<br>Camera:<br>location for camera on turret for targeting<br>Tasks to Complete  
 
*task  
*task  
**sub-task  
**sub-task  

Revision as of 10:42, 15 January 2012

Attendance

Start time:

End time:

Members present:

Members Attending Next Meeting:

Tasks Completed

  • task
    • sub-task
    • sub-task
  • task

Tasks In Progress

  • Beater bar requirements

    Fixed position inside the frame/ stationary position
    1 speed forward, 1 speed reverse (not full speed?)
    measurements (must stay inside the frame)
    As close to frame perimeter as possible, preferably coincident with it
    Material ideas: Wheel traction tread, drawer liner, surgical tubing wrapped about the bar
    Sturdy and easily replaceable (under five minutes to replace it)
    Inside the frame or deployable? MUST BE INSIDE SEE #1
    Sensor feedback;
    Ball sensor - know when one is entering the system -- possibly? Depends on how close we can get one for the conveyers
    NO status of spinning depends on # of balls currently in feeder, and whether there is a ball in front of robot. (accuracy?)
    DOESN'T MATTER AT THIS POINT Should beater bar spin constantly if there are less than 3 balls in robot, or only spin if < 3 balls and there is a ball in front of robot?
     
    • Wings / bridge requirements
      Are solid/straight from tip back to frame edge to prevent balls from getting trapped behind, and prevent outward bending
      Starts within the frame perimeter, and deploys to outside the frame perimeter
      Has no active gathering mechanism -- just simple wings
      Enables to retreive balls from wall and corners - Guide the balls to the beater bar without moving
      But CORNER is a big problem with wings down; coming in perpendicular to a wall is difficult as well
      Able to lower a ramp from its balanced position to a position low enough for us to climb

      Deploys and retracts in under 2 seconds (Motor / Pneumatic?)

      Sturdy and easily replaceable (under five minutes to replace it)
      Sensor feedback;
      Could mount sensor for sensing ball in front of robot, only if beater bar should not spin constantly --- probably not necessary -- battery power drain will be limited on brush -- also very dangerous
      / If motor operated: Detecting if wings are all the way down (if (sensorOn == true) stop motor to lower wings)
      (accuracy of sensors?)
      Limit switches or similar for actuation limits (if not using pneumatics)
      Position sensor on the actuation axel (get wing's angle of deployment, if driven by motor)
       
    • Conveyor requirements
    • Work around the drivetrain components
      contain no more than 3 balls
      3 separate segments independantly controled
      speeds at shooter must be very consistent
      transport ball through conveyor for X amount of time + capability of reverse direction (?)
      Sensor feedback; 1 on each conveyor belt + 1 at entrance to feeder to avoid accidents. (accuracy?)
       
  • Turret:
    280° of rotation
    +/- 1° precision
    receive balls from conveyor
    mechanical hardstops

  • Shooter:
    impart backspin
    2 independent wheels

  • Camera:
    location for camera on turret for targeting
    Tasks to Complete
  • task
    • sub-task
    • sub-task
  • task

Materials Needed

  • task
    • sub-task
    • sub-task
  • task