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Jeff Metz Jr.


From:
York, Pennsylvania, USA
Post  Posted 9 Feb 2016 5:58 pm    
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Hey guys,
I have studied changers up and down from what I could find and Some things just aren't getting across to me . Does anybody have a changer finger assembly that they could take a picture of and explain the raising and lowering. I have seen the steel guitar.com diagrams a thousand times and it never makes sense to me how the raise rod can pull the finger when the Rivet is located where it is on the drawing. What style fingers are modern builders using? Thanks
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Georg Sørtun


From:
Mandal, Agder, Norway
Post  Posted 9 Feb 2016 6:50 pm    
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Is it this that you find difficult to understand... ?


Think this is the most used configuration on All-Pull PSGs today - what's called "Wraparound Raise Finger" on the http://steelguitar.com/maps/changer.html page.

The raise-scissor uses the top of the lower-scissor to push the finger back for a raise against the string-tension.

This works because the raise- and lower-scissors are (loosely) riveted together where it shows on the drawing - acting as a "pull-point", and because the lower-scissor is held in place against the stop-plate at the bottom by the lower-return-spring during a raise - lower-scissor pivots against the edge on the stop-plate.

With string-tension in place it is a ballancing act between "length-of-scissors" above and below the rivet, and the tension on the lower-return spring.
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Ian Worley


From:
Sacramento, CA
Post  Posted 9 Feb 2016 6:55 pm    
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The images you mentioned illustrate the geometry and function pretty clearly:



http://steelguitar.com/maps/changer.html#

The changer is held in equilibrium by the opposing tension of the strings and the lower return springs. The scissor is a compound lever that isolates these two opposing forces. The changer axle is in a fixed position but the two rivets move in a compound motion with the action of the scissor so the scissor is pivoting in three different places simultaneously.

The most important part is the little rounded cam nub on the top end of the lowering scissor (just above the lowest rivet). This is what determines whether the finger is raising, lowering or resting in equilibrium. It is always in contact with the back of the finger, either pushing it like the first pic and resisting the tension of the strings (to raise pitch), relaxing it like the second pic, resisting the tension of the return springs to allow string tension to pull it back (to lower pitch), or just sitting in the middle "open" position where string and spring tension are in equilibrium.

EDIT - I see Georg slipped a reply in while I was typing, but a slightly different way of explaining it. The same concept applies to either style of finger, the point of contact between the lower scissor and the actual finger is where the action is
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J R Rose

 

From:
Keota, Oklahoma, USA
Post  Posted 9 Feb 2016 8:22 pm    
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Ian, That is the BEST EVER, J.R.
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Brint Hannay

 

From:
Maryland, USA
Post  Posted 9 Feb 2016 9:03 pm    
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Ian Worley wrote:
the point of contact between the lower scissor and the actual finger is where the action is

A potential Achilles heel of later model Sho-Buds is that the actual finger is made of relatively soft, porous pot metal, and therefore the rubbing at the contact point can, depending on the luck of the individual finger's composition, wear a substantial groove in the finger and make the lower function not work correctly.

Even without that added shortcoming, it would seem that minimizing friction at that point would be an optimal design goal.

Which makes me wonder why it isn't universal to put a roller bearing at that point. I know a few builders, either steel guitar companies or after-market ( I know John Coop made changer assemblies with such roller bearings ) do use them, or have used them.

Who else, other than Coop, uses the roller bearing at the critical contact point?
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Georg Sørtun


From:
Mandal, Agder, Norway
Post  Posted 9 Feb 2016 9:12 pm    
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Brint Hannay wrote:
Who else, other than Coop, uses the roller bearing at the critical contact point?

I think you'll find roller bearings there on the Infinity and the BenRom. Don't know about others.
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Jeff Metz Jr.


From:
York, Pennsylvania, USA
Post  Posted 10 Feb 2016 5:10 am    
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I guess the top pic is what confuses me. It seems like the raise finger wouldn't move forward if its being pushed below the rivet. Maybe im missing it.
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Georg Sørtun


From:
Mandal, Agder, Norway
Post  Posted 10 Feb 2016 7:09 am    
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The raise-scissor (raise-finger if you like) is - in the figure I used - "wrapped around" and rotates on the changer shaft, and it therefore doesn't matter where down along the length of the raise-scissor the pull-rod pulls on it since it will always pull below that shaft rotating point.
The "trick" is that it (the raise-scissor / raise-finger), when moving back, will pull on the lower-scissor (lower-finger) through the rivet point, thus make the top of the lower-scissor push the finger for a raise.

A few PSGs have changers with "intermixed raise and lower holes for pull-rods" (Excel comes to mind), using the varying leverage and thereby varying "gear-action" up and down the raise- and lower-scissors for better balancing of raises, lowers and splits.
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Clark Doughty


From:
KANSAS
Post  Posted 10 Feb 2016 8:00 am     Changer Explanation
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Ian, best explanation and illustration I've ever seen of this. Thanks for posting.........cd
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John Swain


From:
Winchester, Va
Post  Posted 10 Feb 2016 8:45 am    
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Don Burrows was making ball bearing changers, check his website!
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Stuart Tindall


From:
England, UK
Post  Posted 10 Feb 2016 8:51 am    
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Jeff, the pics below might show how all of the fingers move together during raising and lowering



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Lane Gray


From:
Topeka, KS
Post  Posted 10 Feb 2016 12:03 pm    
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Jeff Metz Jr. wrote:
I guess the top pic is what confuses me. It seems like the raise finger wouldn't move forward if its being pushed below the rivet. Maybe im missing it.


The brain-bending bit is that, when you pull the raise scissor, the lowering scissor is held against the stop bar by the return spring, so pulling the raise scissor still invokes the pivot, but it still pulls it sharp.
Bruce showed it to me several times in his shop, but it never stayed with me until I rebuilt my first MSA.
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Jim Pitman

 

From:
Waterbury Ctr. VT 05677 USA
Post  Posted 10 Feb 2016 4:46 pm    
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Speaking of the wrap around raise scissor, it works OK but I tell you what, it's capable of generating alot aluminum dust which turns into a slurry after a few years if you properly lubricate your changer.
I just cleaned a changer from a 10 year old guitar. I put all the pieces in a 5 gallon bucket, then sprayed them with brake cleaner. I didn't get around to cleaning the bucket until a week later. The brake cleaner had evaporated (in my garage) leaving about a teaspoon of oily aluminium. Thats alot.
I respect the manufacturers wanting to keep things simple ($) and this maybe the reason not very many have gone to the bearing arrangement. However, I think another way that doesn't increase the cost much, slows down the contamination, and is simpler would be:
Simplify the shape of the aluminium finger so that the bottom is just cut off 90 degrees eliminating the slope. Mill a 1/16" slot in the bottom from the bottom edge up, 1/2" deep centered within the thickness going from front to back completely. Drive a 1/16" dia pin though the thickness of the finger 1/4" up from the bottom intersecting the slot midway on its way to the other side. Put a vertical slot in the the top of the raise scissor that will engage the pin in the raise finger.
In this manner the extreme string tesnion pressure is on two hard metal surfaces, a pin and the scissor, rather than on a softer aluminum surface and the hard scissor. Possibly the friction is reduced too.
Maybe this has already been done anyone?
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Don Griffiths


From:
Steelville, MO
Post  Posted 10 Feb 2016 5:15 pm     duplicate post
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Last edited by Don Griffiths on 10 Feb 2016 5:22 pm; edited 1 time in total
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Don Griffiths


From:
Steelville, MO
Post  Posted 10 Feb 2016 5:20 pm    
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Yeah, thanks for the explanation guys. I'm amazed every time a lower or raise returns to pitch.
I'm to trying to draw a picture of your finger design in my mind Jim. Idea Question
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Jim Pitman

 

From:
Waterbury Ctr. VT 05677 USA
Post  Posted 10 Feb 2016 6:39 pm    
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Indeed a picture says a thousand words.
Let's see I tried PDF - format not supported.
I took a picture of the drawing with my phone to create a jpg - too big apparently because it crashes the forum server.
I tried, but at this point, I give up.
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Lane Gray


From:
Topeka, KS
Post  Posted 10 Feb 2016 7:08 pm    
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Email the pics to my photobucket and I'll put them up here.
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Last edited by Lane Gray on 11 Feb 2016 3:53 am; edited 1 time in total
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Tony Prior


From:
Charlotte NC
Post  Posted 11 Feb 2016 1:38 am    
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Jeff Metz Jr. wrote:
I guess the top pic is what confuses me. It seems like the raise finger wouldn't move forward if its being pushed below the rivet. Maybe im missing it.


It's two separate pieces, the raise PULL is the same piece as the round bridge where the string lives, the lower finger is a separate piece and free wheels when the raise is pulled, the lowering rod is not effected. If you literally removed the lowering finger/scissor from the rivet ,you would only be able to RAISE the pitch of the string. Picture the assy without the lowering finger. The raise has nothing to do with the rivet, it is pulling the entire finger assy via the CHANGER AXLE.
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Jim Pitman

 

From:
Waterbury Ctr. VT 05677 USA
Post  Posted 11 Feb 2016 3:30 am    
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Tx for the offer Lane.
I have a photobucket account - I'll try it.
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Jim Pitman

 

From:
Waterbury Ctr. VT 05677 USA
Post  Posted 11 Feb 2016 4:08 am    
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Alot of hoops to jump through but I managed. This is drawn as though you can see through the finger. If you coyuld look at this from the back of the guitar you would see the slot in teh bottom of the finger. Hope you get it.

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Jim Pitman

 

From:
Waterbury Ctr. VT 05677 USA
Post  Posted 11 Feb 2016 4:28 am    
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I wish...just one...only one...pedal steel player was a mechanical engineer with the program "Solid Works" and its' add-on "Finite Analysis".
Within an hour, he/she could draw, put in motion, and simulate a changer design and tell you:
1. travel required to raise or lower to pitch for each string.
2. Friction
3. Force

"Where are you"?.. he said desperately.

Unfortunately, the program costs about 11k$/year.
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Jerry Jones


From:
Franklin, Tenn.
Post  Posted 11 Feb 2016 6:35 am    
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Jim, you really wouldn't need a slot in the lowering finger because the constant string tension on the main finger would force the pin against only the back side of that slot.

Zum steels have a great changer design that minimizes the sliding friction between main and the lowering finger. I may have a drawing somewhere?

I wish it was easier to pop a DXF drawing on the net, but it always seems a jump thru too many hoops..... Nice drawing.
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Georg Sørtun


From:
Mandal, Agder, Norway
Post  Posted 11 Feb 2016 7:33 am    
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Jerry Jones wrote:
Jim, you really wouldn't need a slot in the lowering finger because the constant string tension on the main finger would force the pin against only the back side of that slot.

Also, having a slit there will prevent the s.c. "split screw" (lowest lower screw) from working as intended, as the lower-scissor must lose contact with the finger once the finger lands on the screw - otherwise something in the lower-pull-train will break.
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Ian Worley


From:
Sacramento, CA
Post  Posted 11 Feb 2016 10:49 am    
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Tony Prior wrote:
...the raise PULL is the same piece as the round bridge where the string lives, the lower finger is a separate piece and free wheels when the raise is pulled, the lowering rod is not effected. If you literally removed the lowering finger/scissor from the rivet ,you would only be able to RAISE the pitch of the string. Picture the assy without the lowering finger. The raise has nothing to do with the rivet, it is pulling the entire finger assy via the CHANGER AXLE.

This is incorrect. There is still a separate raise scissor arm in the drawing that Georg posted (it's actually a Carter finger). Instead a pivoting on a rivet just below the changer axle like the other (Sho-Bud style) diagram, it pivots directly on the axle, but they function the same, the raise scissor arm's motion is separate and different from the finger itself. This design has less mechanical advantage (leverage) on the raises than the compound scissor design in the other diagram, but it pulls faster. The bottom line is that the contact between the upper edge lowering scissor and the finger determine which direction the string moves. A two-piece assembly as you describe could work to raise and lower, but you would not be able to split a raise and a lower together like a modern all-pull changer. The raise would dominate, but would not negate the lower like on a push-pull so you would likely end up with some odd note in the middle.
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Jim Pitman

 

From:
Waterbury Ctr. VT 05677 USA
Post  Posted 11 Feb 2016 1:58 pm    
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Good points Jerry and George. - knock off the front of that lower scissor so the split tuners work without putting undue stress on the pull train.
Another idea to reduce wear would be to glue a hard metal flat on the finger where it contacts the lower scissor.
I kinda like the idea though of increasing the mass of the finger by milling just a slot and using the pin - may have a positive affect on sustain.
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