Difference between revisions of "DEWBOT VI"
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:DEWBOT VI uses pneumatics to cock the Kicker and to release (fire) it. | :DEWBOT VI uses pneumatics to cock the Kicker and to release (fire) it. | ||
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:The robot has an on-board compressor and (4) Clippard compressed air storage cylinders. | :The robot has an on-board compressor and (4) Clippard compressed air storage cylinders. | ||
− | + | :There are (2) solenoids: one to cock the Kicker (pushing back the Kicker thereby tensioning the elastic "springs") and the second to latch the Kicker in or release the Kicker from this tensioned ("armed") state. | |
− | :The cocking cylinder | + | :The cocking cylinder is a 2" bore x 4" stroke Bimba cylinder. It also has a 3/4" bore "helper" on the same air circuit. |
+ | :The latching cylinders are 3/4" bore x 1/2" stroke. | ||
===Autonomous Mode=== | ===Autonomous Mode=== |
Revision as of 12:58, 17 February 2010
DEWBOT VI is designed to meet the specific challenges of the 2010 FRC game, BREAKAWAY.Contents
Documentation
Breakaway documentation page - you can get individual sections here
DEWBOT VI Build
The build season lasts 45 days, starting with a cold January morning and ending up in the middle of an even colder February night. The chronicles of the DEWBOT VI Build season make interesting reading of how we all band together to perform an almost impossible task of designing, building and testing a robot in such a short time frame. Associated with each weeks build are pictures showing happy (and towards the end, tired) roboteers and mentors hard at work.
Design Details
The links below will take you to details about the robot components.Drive Train
- DEWBOT VI utilizes a multi-mode, 4-wheel pivot drive-train. Each wheel is independently driven and steered. If we do this well (from both a mechanical and programming perspective), we should have an extraordinarily maneuverable robot and one well-suited to 2010's BREAKAWAY competition. Pivot Drive was selected for:
- Its superior maneuverability. This should be especially valuable in aligning with soccer balls and with the goal.
- Safety while crossing the bump. A 6wd robot would tilt over further during the climb and would also experience two tipping points. The second of these (coming off the flat top of the bump) will put the robot at a considerable tipping risk unless center of mass (CoM) is very low.
- DEWBOT VI is able to safely cross the bump and also drive through the tunnel. For both of these actions, the robot will need to drive in its long (x) axis direction. Chassis orientation is important for us in BREAKAWAY.
Mechanical / Scoring
- DEWBOT VI’s scoring strategy is focused on scoring soccer balls. Towards this, we should be able to:
- Herd up to 3 soccer balls and push these into the goal if playing in the alliance zone
- Herd balls with the robot side as well and also push into the goal using the side.
- Kick the ball towards the goal. We expect to be able to reliably score from Mid-field and to at least be able to reliably move balls from the opposing zone to the alliance zone with a single kick over both bumps. Bonus if we can reliably score from the opposing zone.
- Clear soccer balls from the tunnels
- DEWBOT VI has not provisions to Elevate or Suspend.
Tactical
Programming
Electrical
Pneumatics
- DEWBOT VI uses pneumatics to cock the Kicker and to release (fire) it.
- The robot has an on-board compressor and (4) Clippard compressed air storage cylinders.
- There are (2) solenoids: one to cock the Kicker (pushing back the Kicker thereby tensioning the elastic "springs") and the second to latch the Kicker in or release the Kicker from this tensioned ("armed") state.
- The cocking cylinder is a 2" bore x 4" stroke Bimba cylinder. It also has a 3/4" bore "helper" on the same air circuit.
- The latching cylinders are 3/4" bore x 1/2" stroke.
Autonomous Mode
Weight
Bumpers
Events
- Second Bay at DEC
- Downingtown Area Robotics expanded into a 2nd bay at DEC. The new bay will be used for FRC and VEX storage. The original (larger) bay will house our power tools and will remain a work area.
- Pancake Breakfast - 6-December-2009
- Downingtown Area Robotics All-you-can-eat Pancake Breakfast at Exton Applebee's was a great success. Both the 8 AM and 9AM seatings were almost full. We had great service from our robotic waitstaff (students not robots). Applebee's donated the full cost of the food. With the gift basket raffle we collected over $1000. Everyone had a great time and we look forward to doing it next year!
Website
Outreach
Programs
Sub-Teams
- Steering Committee
- Design Team Page
- Drive Train Team Page
- Mechanical Team Page
- Field Team Page
- Programming Team Page
- Electrical Team Page
- Media Team Page
- Game Elements & Carpentry Team Page
- Competition Team Page
People
There are a large number of people that were involved with the success of DEWBOT V from students to mentors but especially our sponsors.
See our other robots at FRC Team 1640