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> > > keeping tension in the tread links is proving
> > > difficult. Any ideas on how to do that?
> >
> > If you need constant tension, one way to do it is tensioner. A third gear in
> > the chain, that can be moved in and out changing the shape (& therefore
> > length) of the triangular chain path. This doesn't have to be hand-tuned
> > either - use a idler gear on a small free-swingin arm that is held in tension
> > by a weight or rubber band.
>
> Heh, once again my over-engineering defeats me. I tried using two shock
> absorbers to push a gear into the hanging part of the chain, but they just
> torqued the gear so that the chain wouldn't move. I should always try the
> simplest approach from now on. Thanks for the tip.
I'm not exactly sure how many "teeth" = 1 stud, but I know it's not a whole number.
So, I've found if you can change the length by 1 or 2 studs, and add a few chain
links, you don't need to add a tensioner.
Steve
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In lugnet.robotics, Steve Hassenplug wrote:
> I'm not exactly sure how many "teeth" = 1 stud, but I know it's not a whole number.
It's exactly 2.5. 10 teeth on a gear rack, divided by 4.
Steve
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In lugnet.robotics, Steve Lane wrote:
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In lugnet.robotics, Steve Hassenplug wrote:
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Im not exactly sure how many teeth = 1 stud, but I know its not a whole
number.
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Its exactly 2.5. 10 teeth on a gear rack, divided by 4.
Steve
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Im using two upside-down 1x16 TECHNIC beams to straddle 24-tooth gears on each
end (see my great ASCII art below, top-down view, not to scale). I might not
even need tension in the chain at all; the tread links slide on the flat bottom
part of the beams, and that seems to work fine. I havent yet built a support
structure to test the chain for real.
*
[]*[]
[]*[]
[] []
[] []
[] []
[] []
[] []
[] []
[] []
[] []
[]*[]
[]*[]
*
My buckets are simple and work pretty well, even at steep angles. Every fourth
tread link has a 1x4 plate on it, and on each plate are two of those 2x2
right-angle plates making a squarish area for the ball to rest in. Again, some
beautiful ASCII art:
Step 1:
_______
|_______| <- that's a 1x4 plate
Step 2:
_ _
| |_ _| |
|___|___| <- those are right-angle plates
What other bucket designs do people have?
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> In lugnet.robotics, Steve Lane wrote:
> > In lugnet.robotics, Steve Hassenplug wrote:
> >
> > > I'm not exactly sure how many "teeth" = 1 stud, but I know it's not a whole
> > > number.
> >
> > It's exactly 2.5. 10 teeth on a gear rack, divided by 4.
> >
> > Steve
>
> I'm using two upside-down 1x16 TECHNIC beams to straddle 24-tooth gears on each
> end (see my great ASCII art below, top-down view, not to scale). I might not
> even need tension in the chain at all; the tread links slide on the flat bottom
> part of the beams, and that seems to work fine. I haven't yet built a support
> structure to test the chain for real.
Well, my lift for loading the train car uses both chain links, and tracks. Each
track has a 1x4 tile on it, and the balls roll up.
http://www.brickshelf.com/gallery/Hassenplug/GBC/GBC2/p1160046.jpg
That's close to what John did on his roller coaster:
http://www.brickshelf.com/gallery/Hassenplug/GBC/05johnrollercoaster.jpg
This red module: http://www.brickshelf.com/gallery/Hassenplug/GBC/10stevechainlift.jpg
uses a pair of axle joiners: http://www.peeron.com/inv/parts/6536 with some #3
axles. Brian came up with this, and it works very well.
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In lugnet.robotics, Jordan Bradford wrote:
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In lugnet.robotics, Steve Lane wrote:
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In lugnet.robotics, Steve Hassenplug wrote:
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Im not exactly sure how many teeth = 1 stud, but I know its not a whole
number.
|
Its exactly 2.5. 10 teeth on a gear rack, divided by 4.
|
Im using two upside-down 1x16 TECHNIC beams to straddle 24-tooth gears on
each end (see my great ASCII art below, top-down view, not to scale). I might
not even need tension in the chain at all; the tread links slide on the flat
bottom part of the beams, and that seems to work fine. I havent yet built a
support structure to test the chain for real.
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I have just placed wheels regularly spaced along my chain to support it.
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My buckets are simple and work pretty well, even at steep angles. Every
fourth tread link has a 1x4 plate on it, and on each plate are two of those
2x2 right-angle plates making a squarish area for the ball to rest in. Again,
some beautiful ASCII art:
Step 1:
_______
|_______| <- that's a 1x4 plate
Step 2:
_ _
| |_ _| |
|___|___| <- those are right-angle plates
What other bucket designs do people have?
|
Mine are similar, but use a 1x3 plate with a 1x1 plate with tooth on each end,
at a slight angle, and another 1x3 plate on top. I was finding that even with an
accurate feeder, they were occasionally bouncing over the side when I used 1x2
plates on each end.
ROSCO
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