Chief Delphi

Chief Delphi (http://www.chiefdelphi.com/forums/index.php)
-   Extra Discussion (http://www.chiefdelphi.com/forums/forumdisplay.php?f=68)
-   -   pic: Team 148 - 2011 - Raptor (http://www.chiefdelphi.com/forums/showthread.php?t=92368)

sdcantrell56 28-02-2011 12:47

Re: pic: Team 148 - 2011 - Raptor
 
Why did you decide to ditch the drop down perpendicular omni wheel this year? I would think strafing would be the only upside to this whole switching drivetrain

hurtzmyhead 28-02-2011 13:28

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by sdcantrell56 (Post 1032639)
Why did you decide to ditch the drop down perpendicular omni wheel this year? I would think strafing would be the only upside to this whole switching drivetrain

Im not sure that they did: Looks like they can go side to side

if im mistaken and it does not have a 5th omni to go side to side... here it shows the robot "auto magically" lining up to the pole.

tim-tim 28-02-2011 13:30

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by sdcantrell56 (Post 1032639)
Why did you decide to ditch the drop down perpendicular omni wheel this year? I would think strafing would be the only upside to this whole switching drivetrain

From the blog on the drive module, he states that there is a reduction through gears and another through chain. This essential provides a two speed transmission with two different driving characteristics. This will allow for a change of speed and torque. The omni-wheels still provide more degrees of freedom for the robot to move in, than IFI traction wheels.

There are plenty of advantages to this system. I really like this system and hope to develop something similar in the off-season.

-Tim

Chris is me 28-02-2011 13:57

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by tim-tim (Post 1032659)
From the blog on the drive module, he states that there is a reduction through gears and another through chain. This essential provides a two speed transmission with two different driving characteristics. This will allow for a change of speed and torque. The omni-wheels still provide more degrees of freedom for the robot to move in, than IFI traction wheels.

If there is no powered movement in the lateral direction, they don't. However, I'm tempted to believe that 148 did put in the "kicker drive". I just don't see why they would choose an articulating drive like this if they couldn't strafe controllably.

I really like how the traction wheels are geared differently than the omni wheels. Simpler than shifting indeed!

tim-tim 28-02-2011 14:01

Re: pic: Team 148 - 2011 - Raptor
 
@ Chris, you do bring bring up a valid point. However, the omni-wheels will allow for a more maneuverable robot. This is what I was trying to say. Thanks for catching that

Joe G. 28-02-2011 14:10

Re: pic: Team 148 - 2011 - Raptor
 
I can imagine that the all-omni wheel drivetrain would create a nice "drift" effect when turning around during high-speed motion, a maneuver that can be seen at about 1:44 in their video. I can imagine that this will come in handy, due to the "back and forth" nature of driving in this game, and that this may have actually been hampered by the kicker wheel.

CAD drawings that flash by all feature a kicker wheel, as well as many practice bot pictures. But all footage of the final robot seems to place the battery in the center of the robot, in place of the mass of sheet metal that (presumably) supported the sideways wheel.

Also, John mentions a major change to subsystem 1 (the drivetrain) here. Coincidence? Or iterative design?

JVN 28-02-2011 14:45

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by Joe G. (Post 1032683)
I can imagine that the all-omni wheel drivetrain would create a nice "drift" effect when turning around during high-speed motion, a maneuver that can be seen at about 1:44 in their video. I can imagine that this will come in handy, due to the "back and forth" nature of driving in this game, and that this may have actually been hampered by the kicker wheel.

CAD drawings that flash by all feature a kicker wheel, as well as many practice bot pictures. But all footage of the final robot seems to place the battery in the center of the robot, in place of the mass of sheet metal that (presumably) supported the sideways wheel.

Also, John mentions a major change to subsystem 1 (the drivetrain) here. Coincidence? Or iterative design?

You got it.
The original drivetrain was a full Nonadrive system, but we ended up removing the sideways wheels around Day 31 (see the blog post linked above). After a week of practice we decided it wasn't necessary. In my mind, all our work and testing since that point has confirmed we made the right decision.

When we removed the middle wheel our original plan was to swap out the 4 primary omni wheels with 6" traction wheels, however... well... we were impressed with what our driver Connor can do with it.

We call this configuration "Butterfly Drive." Which is a joke in reference to how this robot can be pushed sideways while on all omni wheels (obviously when we drop the traction wheels she stops floating like a butterfly and stings like a... you know.)

I don't think all of it's virtues are readily apparent. I assure you there are more reasons to do an articulating drive than moving sideways. Though I realize most other teams may not value the same things we do, and as such may not make the same tradeoffs we did.

We love "traction mode" and it's virtues in autonomous and driver control. We love the simplicity and modularity of this module design. We love how the drivetrain performs on all omni-wheels (super efficient geartrain + 4 omni wheels = smooth like butter). We're very happy with what we ended up with...

-John

sanddrag 28-02-2011 15:13

Re: pic: Team 148 - 2011 - Raptor
 
I remember way back to 2003, team 980 had a similar drive system in which they raised or lowered two different sets of wheels to essentially have two different final drive speeds/ratios.

Manoel 28-02-2011 15:16

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by sanddrag (Post 1032709)
I remember way back to 2003, team 980 had a similar drive system in which they raised or lowered two different sets of wheels to essentially have two different final drive speeds/ratios.

Team 810 did the same thing in 2002, from what I remember.

sdcantrell56 28-02-2011 17:26

Re: pic: Team 148 - 2011 - Raptor
 
While I think its cool shifting wheels instead of shifting gears, I don't really see how it is simpler at all. A transmission is quite compact and requires a small amount of force to shift versus needing enough force to lift the robot to drop down the traction wheels. The only potential benefit I see of this system without the perpendicular omni wheel is the ability to change the center of rotation although the benefit of that wouldn't necessarily be worth the added weight of the system.

JVN given that you ended up taking out the 5th omni wheel would you stick with this drive if you could do it over or go with a more conventional 6 or 8wd with shifting transmission?

AdamHeard 28-02-2011 17:32

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by sdcantrell56 (Post 1032795)
While I think its cool shifting wheels instead of shifting gears, I don't really see how it is simpler at all. A transmission is quite compact and requires a small amount of force to shift versus needing enough force to lift the robot to drop down the traction wheels. The only potential benefit I see of this system without the perpendicular omni wheel is the ability to change the center of rotation although the benefit of that wouldn't necessarily be worth the added weight of the system.

JVN given that you ended up taking out the 5th omni wheel would you stick with this drive if you could do it over or go with a more conventional 6 or 8wd with shifting transmission?

From a fabrication standpoint for a team with limited resources, it is far easier. Having worked through the "fun" of getting the speeds right for multiple gearboxes, it is also nice in that it is easier to change the difference between high and low gear.

Utlizing COTS gearboxes and wheels, a team with a drill press (or even a hand drill), could make such a drivetrain.

Chris is me 28-02-2011 17:37

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by AdamHeard (Post 1032798)
Utlizing COTS gearboxes and wheels, a team with a drill press (or even a hand drill), could make such a drivetrain.

While it can be done with less resources, I'd be worried about these low resource teams trying this, mainly because wheel pod side loading is a pretty big concern with this style of drivetrain.

By the way, the above blog post refers to large performance gains with the removal of the 5th wheel. What are those gains?

Andrew Schreiber 28-02-2011 18:53

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by Chris is me (Post 1032800)
While it can be done with less resources, I'd be worried about these low resource teams trying this, mainly because wheel pod side loading is a pretty big concern with this style of drivetrain.

By the way, the above blog post refers to large performance gains with the removal of the 5th wheel. What are those gains?

Depends on the way you place your wheels. Obviously if you use omni wheels as your dropped wheels you will slide rather than break the pods. If you use traction wheels the problem becomes more significant.

Chris is me 28-02-2011 18:57

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by Andrew Schreiber (Post 1032831)
Depends on the way you place your wheels. Obviously if you use omni wheels as your dropped wheels you will slide rather than break the pods. If you use traction wheels the problem becomes more significant.

Yes, but the system is designed around giving the traction wheels a higher reduction, so they aren't the natural choice to be directly driven / the pivot point.

Unless, of course, you've put the CIM on the module... like 148 does...

JVN 28-02-2011 18:58

Re: pic: Team 148 - 2011 - Raptor
 
Quote:

Originally Posted by Andrew Schreiber (Post 1032831)
Depends on the way you place your wheels. Obviously if you use omni wheels as your dropped wheels you will slide rather than break the pods. If you use traction wheels the problem becomes more significant.

This was something we learned last year, which is why the Generation 3 & 4 drivetrains have stationary traction wheels and actuated omni wheels. When we're in traction mode if we take a hit, all the load gets transferred straight into the chassis.

This layout comes with its own set of challenges and constraints, but we like it a lot more.

-John


All times are GMT -5. The time now is 04:18.

Powered by vBulletin® Version 3.6.4
Copyright ©2000 - 2017, Jelsoft Enterprises Ltd.
Copyright © Chief Delphi