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 I hope that all of our new members are as helpful as the one above. We will be in for an amazing season if that is the case. - Greg Needel [more] |
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I looks like we will be able to go sideways on the bump and over it with ease. We have a video on u-tube of our test bot going up the bump.
Discussion
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15-01-2010 16:35
scottydoh
Re: pic: Our design on the bump
Looks like mecanum wheels? If so, I hope you have a differential on that center omni wheel, because that chain setup won't work.
And whats the link to the Youtube video? I'd like to see it. 
15-01-2010 16:46
Madison
Re: pic: Our design on the bump
To provide scale, can you share what diameter the omniwheels are in this sketch? They look to be 8" wheels, and if that's the case, it also appears that the bumpers are a bit too high.
15-01-2010 16:48
Greg Needel
Re: pic: Our design on the bump
http://www.chiefdelphi.com/media/photos/32175
I would also like to remind you to consider R25 (copied below). I am not passing judgment either way as I do not know your team/process/details of your design and I am a firm believer that each team needs to figure out their own interpretations and decisions. Please Carefully read the rules and make sure you feel you are not in violation with your design.
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<R25> Prior to the Kick-off: Before the formal start of the Robot Build Season, teams are encouraged to think as much as they please about their ROBOTS. They may develop prototypes, create proof-of-concept models, and conduct design exercises. Teams may gather all the raw stock materials and COTS COMPONENTS they want. But absolutely no final design, fabrication, or assembly of any elements intended for the final ROBOT is permitted prior to the Kick-off presentation. Example: A TEAM designs and builds a two-speed shifting transmission during the fall as a training exercise. When designing their competition ROBOT, they utilize all the design principles they learned. To optimize the transmission design for their ROBOT, they improve the transmission gear ratios and reduce the size, and build two new transmissions, and place them on the ROBOT. All parts of this process are permitted activities. Example: The same TEAM realizes that the transmission designed and built in the fall perfectly fits their need for a transmission to drive the ROBOT arm. They build an exact copy of the transmission from the original design plans, and bolt it to the ROBOT. This would be prohibited, as the transmission – although fabricated during the competition season – was built from detailed designs developed prior to kick-off. Example: A TEAM developed an omni-directional drive system for the 2008 competition. Over the summer of 2009 they refined and improved the control software (written in C) to add more precision and capabilities. They decided to use a similar system for the 2010 competition. They copied large sections of unmodified code over into the control software of the new ROBOT (also written in C). This would be a violation of the schedule constraint, and would not be allowed. Example: The same TEAM decides to use the LabView as their software environment for 2010. Following kickoff, they use the previously-developed C code as a reference for the algorithms and calculations required to implement their omni-directional control solution. Because they developed new LabView code as they ported over their algorithms, this would be permitted. Example: A different team develops a similar solution during the fall, and plans to use the developed software on their competition ROBOT. After completing the software, they post it in a generally accessible public forum and make the code available to all teams. Because they have made their software generally available, under the terms of Rule <R67> it is considered COTS software and they can use it on their ROBOT. |
15-01-2010 21:02
joeweber
Re: pic: Our design on the bump
U-tube video of our test bot on the bump http://www.youtube.com/watch?v=jQMcw4QNCLI
We are installing new 8 inch wheels.
Per rule <25> All items are new, The orignal test bot used 2005 controller (not the ame code) The new test bot uses the default code and does not go sideways yet. 
How do we make thease pictures smaller when posted?
15-01-2010 21:18
Jamie Kalb
Re: pic: Our design on the bump
Do I see a pneumatic kicker in your frame? And is that a 12" stroke piston?
Thanks for sharing these pictures!
15-01-2010 22:00
joeweber
Re: pic: Our design on the bump
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Originally Posted by David Dawson
Huge image is huge.
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15-01-2010 22:01
DanDon
Re: pic: Our design on the bump
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Originally Posted by joeweber
I know.... How do I make them smaller????
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16-01-2010 18:29
Lil' Lavery
Re: pic: Our design on the bump
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Originally Posted by DanDon
Post them to CD-Media.
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16-01-2010 22:06
whytheheckme
Re: pic: Our design on the bump
Whats the feeling about <R11> with this type of frame?
16-01-2010 22:35
joeweber
Re: pic: Our design on the bump
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Originally Posted by whytheheckme
Whats the feeling about <R11> with this type of frame?
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The frame behind the bumper follows all the rules of <R11>. We are using the kit frame, the only difference is the drives are attached where the wheels would. Only the suspension articulates. When on level ground The bumper falls with in the 10 to 16 inch height requirments.
16-01-2010 22:45
Mr_D_Mentor
Re: pic: Our design on the bump
Nice picture, but if all the joints are pinned and the struts are rigidly attached to the frame, you are missing a degree of freedom. You may have to include a hinge joint between one strut and the frame.
16-01-2010 23:14
joeweber
Re: pic: Our design on the bump
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Originally Posted by Mr_D_Mentor
Nice picture, but if all the joints are pinned and the struts are rigidly attached to the frame, you are missing a degree of freedom. You may have to include a hinge joint between one strut and the frame.
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