Building Bernard Tekippe’s Precision Regulator

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Building Bernard Tekippe’s Precision Regulator

This topic has 78 replies, 12 voices, and was last updated 9 May 2025 at 00:44 by Chris Raynerd 2.

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7 May 2025 at 10:19 #796767
John Haine
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@johnhaine32865
Given the limited choice that Chris has, I refer to my answer above.
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7 May 2025 at 19:13 #796832
gerry madden
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@gerrymadden53711
Thanks for the information Gerry. Can I ask what you mean when you say to watch the corner radius? You also mention, “Secondly the shaft must be accurately square with the outer rings. Therefore machine the two housing together”

Hi Chris, re corner radius I mean this feature shown in the snip below. The corner radii on small bearings can be very small. Typically on a bearing with a 3mm bore size, it may be in the order of 0.1mm.

The radius on your shaft (between the abutment face and cylindrical seat) MUST be smaller than the one on the bearing. If it’s not, then when you press/tap the bearing up against the abutment it will simply sit cock-eyed. This will not be detectable without some good metrology but the bearing’s friction/smoothness will definitely be compromised.

If you can’t be confident of getting the required small radius, a small undercut will be acceptable provided it doesn’t eat in too much to the cylindrical seating area or the abutment face. Oversized radii are an easy mistake to make. Industry frequently gets it wrong!

Regarding housing alignment, this is what I’m referring to.

Obviously the permissable lateral displacement depends on how far the housing are apart and can be calculated by simple geometry.

In practical terms, Im not sure how you might achieve it because I haven’t yet studied the clock design! 🙂 I will try to do that shortly and come back you.

Finally, I keep seeing people suggesting running the bearings dry. You really don’t want to do this, especially if the bearings have pressed metal cages. These will wear and make steel dust in not a great deal of clock lifetime. If you are able to completely eradicate the initial grease charge, (which I tend to doubt :)) then relubricate the bearing with a tiny quantity of very low viscosity, long-life oil. Excess can be easily drained out if required by lying the bearing flat on some dust-free paper for a while. Oil will never give create the same kind of friction levels as grease, but will stop wear and oxidation in the following years.

Gerry
8 May 2025 at 16:13 #796925
gerry madden
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@gerrymadden53711
Chris, I understand your challenge. I think my answer would be do it by good spigoting on your pillars.

Make all the relevant holes with the small support plate glued or clamped to the back plate. (Don’t space the two parts and tram your mill first.) Ream the holes for good diameter and roundness.

Then turn your pillar faces and spigot diameters between centres to ensure everything is as square and concentric as it can be. Make your spigots good snug fit with the reamed holes in your plates. Clearances make position errors.

Confirming you have achieved the required alignment between the two bearing housings in the finished assembly is a challenge for another day!

Gerry
9 May 2025 at 00:44 #796982
Chris Raynerd 2
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@chrisraynerd2
Gerry, I really appreciate your comments and diagrams -very helpful, and they make a lot of sense. Thank you for taking the time to reply.

I had a bit of fun tonight with an idea that was suggested, purely as a concept, not tested -by a clockmaker I visited over the weekend. He told me about the BHI course he took many years ago, where he learnt a little about jewelling movements. He admitted he wasn’t particularly successful at it, but all the discussion I’ve been having on here and with him recently got him thinking about jewels again.

During the course, he had a lump of synthetic ruby and mentioned the idea that you might be able to use commercially available round-cut stones to make clock jewels.

As I say, it was a very experimental discussion – no thoughts about mounting, tolerances, or finishing – but I came home and immediately ordered some. Here’s a short video I filmed tonight. What does it show? Essentially just me drilling a ruby! But discovering it can be done – something I didn’t think was even possible in my workshop – has got me wondering whether there’s mileage in it.

I’m not sure whether the hole would need further cleaning, and the question of mounting would definitely need more thought.

Will I be using it straight away in the Tekippe clock? No, probably not. But I had some fun, learnt something new, and I just wonder if this idea has some potential.

So here are a couple of questions:

How would or could you mount something like this?

And how might you polish or clean up the bore more accurately?
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