CHEAP or EASY String Pots (source, or fabbed)

[AdamHeard]

Quote:

Originally Posted by kmcclary

The big problem seems to be fabbing a lanyard and drum rig that prevents string overlap. If an overlap occurs, you've completely lost data integrity and linearity.

I would say reduced instead of completely lost.

I recommend you try out the pot and lanyard reel and see how accurate it truly is.

What are you actually measuring, and what are you trying to determine based on these measurements? The magnitude of this inaccuracy may be rather insignificant compared to the magnitude of your final result.

I get in a similar mode where I'm so deadset in my view of the problem, that I am too quick to write off solutions that probably could work.

[Bob Steele]

How about using a spring tape measure and a simple photo resistor.
Paint the tape measure white...put your marks on it...use the photo resistor to "see the marks" ... count them.... process.
You will have to figure out how to tell the difference from going up and going down.... but that is doable too...

[kmcclary]

Quote:

Originally Posted by AdamHeard

I would say reduced instead of completely lost. [...and what are you actually measuring?]

True, but from an instrumentationalist's perspective, if it won't give me the same value every time I return to the same point, I can't use the solution.

What is our project? This is a Fall R&D project. We wish to gain the capacity to accurately servo control a 24" sliding joint to say ~7-8 bits (or better) position resolution over its length (~4-10+ steps/inch) , with a cheap, easily made, compact feedback device.

Rack and pinion pots won't easily fit there, and optical slides could get dirty. Without a rotational joint present, cheap pots won't work either.

Something equivalent to a 25" string pot (into our Analog Inputs) seems ideal, but it:
A) Needs to be CHEAP to make (no $100 commercial string pots!), and
B) Preferably can be assembled MOSTLY with COTS hardware store items, with as little machining as possible.

Ideally, the sensor should be made with Hand Tools only, HT + Dremel Only, or at least as few specialized machine tools as possible. That makes the solution available to ALL teams, regardless of budget, or machine tool capacity.

We've tried dissecting and hacking on some key chain retrievers to add a 10-turn pot, but that still requires machining several parts. The basic KCR drums allow string overlap too, making it unsuitable for reliably hovering an axis, or even returning it to the same position.

I was hoping that someone here already solved this generic problem with COTS hardware store items. (Has anyone???)

BTW: Custom PCBs and soldered on arrays of lots of VERY cheap sensors are still included as a candidate here, as long as the total cost for the entire sensor array device would be in the $25 or better range.

Now, I like the idea about turning a measuring tape into an incremental encoder! That's the kind of divergent thinking I'm seeking here! However it would be NICE not to be forced to run the axis to one end at boot-up just to home/sync the position counter. Not all applications may easily allow us to do that. Something that gives us an absolute position at bootup is preferred.

How about something like:
A) Having a pinch roller pair and a 10-turn pot watch a COTS tape measure go in and out? (Friction/slip may be a problem. Can that be overcome?)
B) Punching/drilling holes in a COTS tape measure, and have a crude drum sprocket and 10-turn pot follow it? (No slip, but requires more fab time to mod the tape, and make the pin drum.)

Some linear devices:
C) Use a Mylar CNC 8-channel punched tape, punch codes into it, lay it out, and watch it optically. (Not all teams could easily replicate this one.)
D) Laser Print an encoder strip with multichannel absolute Grey code, watch it optically. (Cheap and doable by all teams, but may have mounting issues in some instances.)

Both C & D require more space, and may have dirt issues (which is why we keep finding ourselves gravitating back to string pots techniques)...

Thoughts?

(Hey Al - do you know of a cheap printer head monitoring system, that'll do 25"??? It has to be COTS, so we could use it in a contest.)

- Keith

[AdamHeard]

Quote:

Originally Posted by kmcclary

What is our project? This is a Fall R&D project. We wish to gain the capacity to accurately servo control a 24" sliding joint to say ~7-8 bits (or better) position resolution over its length (~4-10+ steps/inch) , with a cheap, easily made, compact feedback device.

If this is a prototype for possible FIRST use, I would say that +/- 1.0 inches is sufficiently accurate. If your actual design during season requires more than that, it won't be very human friendly.

Now, purely for R&D it's a cool idea, but don't think that such accuracy is always required. Your manipulator should be designed to allow substantial amounts of inaccuracy.

[Alan Anderson]

Quote:

Originally Posted by kmcclary

Rack and pinion pots won't easily fit there, and optical slides could get dirty. Without a rotational joint present, cheap pots won't work either.

Something equivalent to a 25" string pot (into our Analog Inputs) seems ideal, but it:
A) Needs to be CHEAP to make (no $100 commercial string pots!), and
B) Preferably can be assembled MOSTLY with COTS hardware store items, with as little machining as possible.

Try a "chain pot". Instead of string, use a length of #25 chain. Think of a flexible rack & pinion connected to the end of your slide, with the chain bending around a pot-equipped sprocket and having a tensioning spring at the far end.

With a large enough sprocket, you might even be able to get away with a single-turn pot (or a magnetic absolute position sensor).

What are you using to move the slide? If it's a chain, you're most of the way there already.

[kmcclary]

Quote:

Originally Posted by AdamHeard

If this is a prototype for possible FIRST use, I would say that +/- 1.0 inches is sufficiently accurate.

I think you are missing the point here. This is not to solve a SPECIFIC design problem, it is For The Toolkit, as a Challenge... You can always DROP resolution for simpler needs, but it is much tougher task to INCREASE it.

Quote:

Originally Posted by Alan Anderson

Try a "chain pot". Instead of string, use a length of #25 chain. Think of a flexible rack & pinion [...] What are you using to move the slide? If it's a chain, you're most of the way there already.

Oooooohhh... Now THAT is an excellent idea, with potential! We'll have to look at that one! (See... I have faith in creativity of this community!)

BTW... What moves the slide, and the load are both irrelevant at this time. The challenge goal, as stated, is to make/develop/find a CHEAP and SIMPLE way to SENSE POSITION of a servo controlled 24" slide, and if at all possible, with the above spec'd resolution (or the best we can do, for the given $20-$25 budget). We can choose the app and a specific actuator later.

Because: A closed loop system is first off limited by the resolution of the feedback sensor/system. That is why we are shooting for what some here seem to feel is "excessive resolution". Given a "decent" resolution sensor, we can do ANYTHING. Once one knows where the slide is, LATER experiments can then test how EITHER cylinders OR motors actually perform, to move it around. (Which works better may well depend on the final app, load, and mounting orientation.)

Heck, if we can't REACH 0.1" resolution with the sensor that may be fine, but that is not a reason to never even TRY for it. Who knows? If can only hit 1" resolution for $20 per axis we are still WAY better off than before we tried, and we STILL have a new trick up our sleeve. (But I would bet if the team tries, it CAN do better than 1" resolution for $20 in sensing cost [discounting labor of course]...)

Any more cool ideas on making a cheap and simple feedback sensor, for 2' slide joints, for about $20, and using primarily COTS hardware store hardware??

- Keith

[NickE]

If you try the "chain pot" idea and the chain is not driven, you might consider using VEX Chain. It is extremely light and has a tiny bend radius.

[Jim Zondag]

We have bought string pots from Unimeasure in the past. They were very good quality and you can get them in a variety of different pull lengths.

http://www.unimeasure.com/

[kmcclary]

Quote:

Originally Posted by Jim Zondag

We have bought string pots from Unimeasure in the past. They were very good quality and you can get them in a variety of different pull lengths. http://www.unimeasure.com/

Hey Jim!

A quick look shows it to be a mfg generic site. No sales tray, suggested prices, nor distributors listed. Digging around, the few Unimeasure items I could find via Google were hundreds of dollars apiece, which as stated is not what we wish to pay. From the spec sheets, their LX-PA-25 looks -about- right, but searching and Google Shopping returns NO sales hits for it whatsoever.

Where can you buy them (esp at surplus prices, if possible)? <edit> What did you get, and what did you pay for yours? </edit>

Do you know: Does Unimeasure (or another maker) make a unit that fits the spec of this discussion, or are we back to trying to make something that approximates it, to reduce cost? ( 25" cable, 0.1" resolution [IOW repeatable to about that error band], don't care about linearity, ~$20-25 each ballpark...)

- Keith

[gburlison]

Has anyone been able to find price on these:
http://www.celesco.com/sp/index.htm