MrParamount3
MrParamount3
  • 31
  • 189 424
A Wooden Regulator Long Wall Clock
This a Regulator type long wall clock made in wood with a number of interesting features.
It has a grasshopper escapement and automatic rewind with an electric motor and an innovative wooden chain.
The rewind mechanism has epicyclic maintaining power and so the escapement does not stop during winding.
Further details can be found at www.woodenclockspot.blogspot.com under the Regulator tab.
มุมมอง: 335

วีดีโอ

Resurrected Clocks
มุมมอง 65ปีที่แล้ว
French clock mechanisms found in a barn are brought back to life by having new cases made for them. See more at www.woodenclockspot.blogspot.com
A model of the remontoire action on John Harrisons longitude watch H4
มุมมอง 18K2 ปีที่แล้ว
John Harrisons 1759 longitude watch known as H4 contains an innovative mechanism to ensure the power supplied to the balance wheel is essentially of constant force. He used a spring driven remontoire. This model, made in wood, demonstrates the remarkable action of this remontoire which in conjunction with other innovations helped to make the watch as accurate as it proved. Further details can b...
A wooden clock with a grasshopper escapement
มุมมอง 1.4K2 ปีที่แล้ว
This is a simple table top, wooden, weight driven timepiece with a grasshopper escapement and an electric rewind. They don't come much simpler than this.
A Third Order Perpetual Calendar made in wood
มุมมอง 1.2K2 ปีที่แล้ว
This demonstration model of a mechanical perpetual calendar made almost entirely in wood computes and displays the date correctly using a 400 year cycle. Using a series of cams it accommodates the variable days in months, leap years and special non leap years that can arise at the end of centuries. I am indebted to Mark Frank (www.my-time-machines.net) whose original design I have interpreted i...
A Wood Model of an Earnshaw Detent Escapement
มุมมอง 15K2 ปีที่แล้ว
A detent escapement has been the heart of mechanical marine chronometers for many years. Thomas Earnshaw is credited with making improvements in 1783 to the existing chronometer escapements to make them more accurate and robust. This escapement survived in marine chronometers until the advent of quartz clocks. His mechanism is known as the Earnshaw spring detent escapement.
An Orrery Clock
มุมมอง 5303 ปีที่แล้ว
This is a large balance wheel lever escapement clock with moon phase surmounted by a simple orrery under a perspex dome. The orrery shows the correct motions of Mercury, Venus, Earth and Moon as they orbit the sun. The clock gear train is weight driven by a Wagner type motorised remontoire and has a lever escapement. The balance wheel is spring controlled and electrically impulsed and is regula...
A Congreve Clock in wood
มุมมอง 5803 ปีที่แล้ว
This is a Congreve clock that I made in 2015 but have remade better in 2021. It is made largely in wood, with wooden gears hand cut gears. The rolling ball is the time keeper, but a stepper motor physically tilts the table. Another motor advances the clock gear train every time the table tilts. The clock is designed to so that the ball takes 15seconds to cross the table, but many external facto...
Hampton Court Palace Astronomical Clock
มุมมอง 7403 ปีที่แล้ว
This is a table top model of the astronomical clock at Hampton Court Palace near London. The real clock overlooking the courtyard is 4.6 metres in diameter! It was designed and built in 1540 for Henry VIII at a time when it was believed the sun revolved around the earth. It shows time, date, phase of the moon and the time of high water at London Bridge. There are also some astrological displays...
A Wooden Classic Orrery of the Inner Planets
มุมมอง 4343 ปีที่แล้ว
This is a more complex orrery of the inner planets made in wood. The features include Mercury, Venus, rotating Earth, Moon and Sun. The moon demonstrates its 5.8 degree tilt from the ecliptic plane and can demonstrate why solar eclipses occur only occasionally. Hand driven it is delightful demonstration of the dance of the planets.
A simple wooden orrery of the inner planets
มุมมอง 1.2K3 ปีที่แล้ว
This is an extremely simple orrery made in wood which includes Mercury, Venus, Earth, Moon and Sun. It is about 150mm in diameter and hand powered. More details can be found at www.woodenclockspot.blogspot.com
A wooden Perpetual Calendar from a design by Dr.Ludwig Oechslin
มุมมอง 4.3K3 ปีที่แล้ว
This is my wooden interpretation of a Perpetual Calendar designed by Dr. Ludwig Oechslin of the ochs und junior watchmaking company in Switzerland. It is a non traditional design using gears rather than levers and ratchets that are employed by other watchmakers. It is simple and compact using only 9 additional parts to the base watch mechanism. This can be compared with many tens of parts in ot...
A Flying Tourbillon Clock
มุมมอง 1.9K4 ปีที่แล้ว
This is a complicated table clock made in wood with a flying tourbillon escapement, moon phase and perpetual calendar displays, and daisy wheel motion work.
A desktop perpetual calendar made in wood and perspex
มุมมอง 6K4 ปีที่แล้ว
This desktop perpetual calendar is operated manually once a day by moving a lever from right to left and back again. This advances the date and day and when necessary the month. It accounts for the differing days of the month and also leap years and will be accurate up until 2100 which is not a leap year. The design was inspired from an original by Clayton Boyer at www.lisboyer.com
Flying tourbillon. Single axis made in wood
มุมมอง 34K4 ปีที่แล้ว
This is a demonstration of a single axis flying tourbillon made in wood. It has a lever escapement and runs for 3 mins with a 150g weight. The hairspring is 3d printed plastic. Demountable weights on the balance wheel (5p coins) can demonstrate the relationship of frequency to oscillating mass. This is a good demonstration of the action of a lever escapement.
Astronomia. A three axis tourbillon clock made of wood
มุมมอง 20K4 ปีที่แล้ว
Astronomia. A three axis tourbillon clock made of wood
John Harrison's H1 chronometer. A wooden working replica
มุมมอง 16K5 ปีที่แล้ว
John Harrison's H1 chronometer. A wooden working replica
Briggs Rotary Pendulum Clock in Wood
มุมมอง 1.5K6 ปีที่แล้ว
Briggs Rotary Pendulum Clock in Wood
A Franklin Three Wheeler Clock in Wood
มุมมอง 16K6 ปีที่แล้ว
A Franklin Three Wheeler Clock in Wood
Large Balance Wheel Clock in Wood V2
มุมมอง 1.9K6 ปีที่แล้ว
Large Balance Wheel Clock in Wood V2
ignatz1
มุมมอง 1.2K6 ปีที่แล้ว
ignatz1
Epicyclic geared clock
มุมมอง 5K7 ปีที่แล้ว
Epicyclic geared clock
Murday Reason Clock
มุมมอง 1.6K7 ปีที่แล้ว
Murday Reason Clock
Cotehele clock replica
มุมมอง 9918 ปีที่แล้ว
Cotehele clock replica
tower
มุมมอง 3.5K8 ปีที่แล้ว
tower
Orrery 01
มุมมอง 6K9 ปีที่แล้ว
Orrery 01
Wooden Conical Pendulum Clock
มุมมอง 8K9 ปีที่แล้ว
Wooden Conical Pendulum Clock
A Sea Clock
มุมมอง 3.5K9 ปีที่แล้ว
A Sea Clock
Wood skeleton clock #2
มุมมอง 1K9 ปีที่แล้ว
Wood skeleton clock #2
Wooden Skeleton clock #1
มุมมอง 2.1K9 ปีที่แล้ว
Wooden Skeleton clock #1

ความคิดเห็น

  • @sealofthesea5233
    @sealofthesea5233 11 วันที่ผ่านมา

    how does the balance get power to oscillate? on a swiss lever escapement the opposite side of the pallet fork can give a push to the impulse jewel or pin, on the detent I only see the oscillator unlocking the escape wheel, not receiving power?

    • @MrParamount3
      @MrParamount3 11 วันที่ผ่านมา

      Hi. Thanks for question. If you look at my blog www.woodenclockspot.blogspot.com you will find diagrams and a description of the workings of an Earnshaw escapement. Carried on the same arbor as the balance wheel is the release pallet and under this is the roller table which has a locking face and the impulse pallet. This gives one impulse per oscillation. I agree it is a little difficult to see in the video.

    • @sealofthesea5233
      @sealofthesea5233 11 วันที่ผ่านมา

      @@MrParamount3 going back and checking, yes I see the interaction now, genius system and well done making it from wood!

  • @raj.qwerty
    @raj.qwerty หลายเดือนก่อน

    Hi! This is increible! I am an engineering student, and our project this semester is to make a purely mechanical clock from scratch. Can you please tell me how you create your wooden gears? What type of wood is ideal? Any bit of advice would be much much appreciated. Thank you!

    • @MrParamount3
      @MrParamount3 29 วันที่ผ่านมา

      Hi Raj Thanks for getting in touch. I use a commercial program "Gear Generator" (there are others) to draw the wheels with the right number of teeth and pitch diameter I want. I then use a laser cutter to cut them out. Gears can also be cut by hand with a band saw after gluing an image of the gear on the wood. I usually use 3mm laser ply or veneered ply as it suits my laser cutter but sometimes I use MDF for prototypes. Better wood can be used if you want to afford it. Fine sanding of the teeth of the gears after cutting reduces friction considerably. Best of luck Nigel

  • @dantomandl6595
    @dantomandl6595 2 หลายเดือนก่อน

    Thanks for detail explanations of each part.

  • @boydsargeant7496
    @boydsargeant7496 2 หลายเดือนก่อน

    Well done dude!

  • @illusionmanager
    @illusionmanager 3 หลายเดือนก่อน

    cool. I like the inclined plane of the moon. Unfortunately that plane by itself needs to rotate once every18 years or so, but that is a challenge for your next orrery.

  • @SergeSheyko
    @SergeSheyko 5 หลายเดือนก่อน

    it is very complex, the same effect could be achived by simpler way. Moreover, on the precision has higher influence static friction in bearings, as non-constant pulse forces.

    • @theotherohlourdespadua1131
      @theotherohlourdespadua1131 หลายเดือนก่อน

      Did you ignore that this is a reproduction of a 1759 design by the same guy who eventually made the marine chronometer?

  • @kyleeames8229
    @kyleeames8229 10 หลายเดือนก่อน

    That’s really cool! But will it marine chronometer?

  • @ATomRileyA
    @ATomRileyA 10 หลายเดือนก่อน

    Amazing build, thanks for showing us.

  • @meealan
    @meealan 11 หลายเดือนก่อน

    Thanks for sharing

  • @patgeorge1
    @patgeorge1 ปีที่แล้ว

    This time piece back in its time improved navigation at sea and saved countless the lives of countless sailors.

  • @stevendebettencourt7651
    @stevendebettencourt7651 ปีที่แล้ว

    Just a note about the intro: The Board of Longitude did NOT actually say John Harrison won the award for solving the Longitude Problem, even though George III issued a royal decree saying as much. This was due, in large part, to a MASSIVE conflict of interest on the board. The head of the board was actually working on his own solution to the Longitude Problem involving declination of the sun, planets, moon, and stars to figure out how far west or east you were (don't ask me how it works, the dude couldn't get it to work either), and thus would not acknowledge Harrison's clocks as a clearly superior solution to the issue. However, Harrison's solutions were so promising, I believe the Board was compelled to award John multiple smaller grants to progress his efforts, totaling in close to the 20,000 Sterling grand reward.

    • @MrParamount3
      @MrParamount3 ปีที่แล้ว

      Hi Steven, I agree that John Harrison was not awarded the prize as such, and you are right in saying that it was a very complicated situation with Maskelyne and his competing lunar system. In my defence, for simplicity, I reiterated the commonly held view that he did win the prize. Over the years he did receive monies from the Board to pursue his work but it took a petition to the King for the board to benevolently grant him a final payment that brought his total take up to the £20,000 mark. The actual prize has never been won. As regards Masklylene and his lunar system it did work and tables for the computation of longitude were published and used annually from 1766 to 1906. It was a viable but more complicated and time consuming method for determining longitude. The complete story of the trials, tribulation and success of John Harrisons life , against a background of skulduggery, personal feuds and machinations are admirably recorded in Dava Sobel's book Longitude.

    • @stevendebettencourt7651
      @stevendebettencourt7651 ปีที่แล้ว

      @@MrParamount3 Then someone needs to explain this moon thing to me cause I don’t see how it can work.

    • @MrParamount3
      @MrParamount3 ปีที่แล้ว

      In simple terms you measure the angular distance between the moon and a star or the sun and then use pre calculated tables of the moon's position to find the time at Greenwich. You then need to make a further observation to find local time. The difference between the two times gives you longitude. Wikipedia gives a good account of the process. Search lunar distance(navigation)@@stevendebettencourt7651

  • @matthewperkins288
    @matthewperkins288 ปีที่แล้ว

    so great. i was looking to see the workings of the H4 and this is awesome

  • @richardrea7146
    @richardrea7146 ปีที่แล้ว

    What a superb project. I hope to make this in Meccano. The feedback system to keep time will be interesting. Thank you for the post.

  • @MagnusNemo-xc5nx
    @MagnusNemo-xc5nx ปีที่แล้ว

    Beauty! Which laser cutter do you recommend? Also, do you have any thoughts in regard to using wood vs 3d printed parts?

  • @MagnusNemo-xc5nx
    @MagnusNemo-xc5nx ปีที่แล้ว

    How does a spring compare to a pendalum in regard to accuracy?

  • @Everfalling
    @Everfalling ปีที่แล้ว

    So one thing I know about escapements is that the pendulum or balance wheel is only able to continue oscillating because it receives some energy from the escapement wheel after or during each click. I’m not sure how that’s happening here though. If anything it looks like the escapement is stealing energy from the balance wheel by causing it to push the arm out of the way. I’d love to know where the arm is able to actually impart energy back onto the balance wheel.

    • @MrParamount3
      @MrParamount3 ปีที่แล้ว

      Hi. Thanks for question. If you look at my blog www.woodenclockspot.blogspot.com you will find diagrams and a description of the workings of an Earnshaw escapement. Suffice it to say here that some energy is taken from the balance wheel during unlocking but this and more is put back as the escape wheel impulses the balance wheel. This energy comes from the driving train and mainspring. The balance wheel apart from being a constant oscillator is also an oscillating mass and thus an energy store for difficult times when it has to do some work such as unlocking. I hope this helps.

    • @Everfalling
      @Everfalling ปีที่แล้ว

      @@MrParamount3 ah ha! i didn't see the impulse pallet on the roller table. that makes a ton more sense. without that part i imagined that it would stop pretty quickly. thanks!

    • @Mars-zgblbl
      @Mars-zgblbl ปีที่แล้ว

      I can confidently say that’s the only wooden hairspring I’ve seen with a Breguet overcoil

    • @dbaider9467
      @dbaider9467 3 หลายเดือนก่อน

      @@Mars-zgblbl Ha!

  • @mggsoft
    @mggsoft ปีที่แล้ว

    Como me gustaría que diera los pdf yo tengo laser cnc y me gustaría replicar este sistema saludos desde mexico

  • @YooProjects
    @YooProjects ปีที่แล้ว

    Amazing man! Do you design it?

  • @mggsoft
    @mggsoft ปีที่แล้ว

    Wow como me gustaría reproducirlo, en verdad , me facinaria que compartieras los archivos de corte para cnc

  • @mggsoft
    @mggsoft ปีที่แล้ว

    Wow que bellezas de trabajos mis respetos, una joya

  • @mggsoft
    @mggsoft ปีที่แล้ว

    Wow esta genial, me encantaría hacer uno así , lo hiciste con corte láser, podrías compartir los archivos de diseño para yo cortarlo en mi cnc, dalidos desde mexico, esta muy bonito tu sistema yo estoy haciendo uno en plástico jejeje puedes verlo en mi canal ya casi lo termino

  • @melody3741
    @melody3741 ปีที่แล้ว

    As in it's not glued to day disc, its glued to the base?

  • @melody3741
    @melody3741 ปีที่แล้ว

    So the fixed tooth rotates relative to the day disc? This causes the months to change over like 30,31,29,28?

  • @jeanraymond2
    @jeanraymond2 ปีที่แล้ว

    how do you set it in time ?

    • @Jake-bt3fc
      @Jake-bt3fc ปีที่แล้ว

      It's not a clock, it's an escapement.

  • @Rhainee
    @Rhainee 2 ปีที่แล้ว

    Amazing work, Should drop your blog in the description for our ease :) Thanks for this, helps a bunch in my own journey into building wooden escapement mechanisms

  • @diegogarciamedina6363
    @diegogarciamedina6363 2 ปีที่แล้ว

    Hi, did you measured accuracy in a month? thanks great job

  • @asapfilms2519
    @asapfilms2519 2 ปีที่แล้ว

    Amazing

  • @MarkFrankclocks
    @MarkFrankclocks 2 ปีที่แล้ว

    I liked this very much. I will send the link to my clockmaker. BTW, the clock was successfully delivered in June. I will be making an update to the website soon.

  • @stevenbest6408
    @stevenbest6408 2 ปีที่แล้ว

    Totally cool. Might sound odd, but I could sit and watch this for hours. Escapements just mesmerize me. Thanks for posting!

  • @filippopaganini6915
    @filippopaganini6915 2 ปีที่แล้ว

    Will you release the details of this mechanism? Like some drawings?

  • @mirrormill
    @mirrormill 2 ปีที่แล้ว

    I am currently obsessed with this mechanism. It strikes me as how a mechanical calendar computer should be, the sort of thing Babbage or Turin would lean towards, rather than cams, ratchets and levers. Am i wrong?

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Hi. You are absolutely right. It is such an elegant solution. It is interesting to note that some of the rules for meshing gears are bent, but it works.

    • @mirrormill
      @mirrormill 2 ปีที่แล้ว

      @@MrParamount3 Thanks! Yeah its brilliant.. I have questions.. any books or the like (web sites etc) you could recommend for (wooden) clock making? fairly new to horology, came to it from interest in sundials and astronomy.. considering getting into wooden clock making, particularly interested in perpetual calendar.. I notice from your blog you don't really have plans to share (would love to see plans for this mechanism.. what are the 'rules' and which were bent)?

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      @@mirrormill Hi. I get all my inspiration from searching the web and reverse engineering to suit wood from photographs. You could try 'Brian Laws wooden clocks' or 'Clayton Boyer' who have comprehensive designs. I don't distribute plans because my drawings are an absolute mess and would require far too much effort to make them sensible to other people. Normally clock gears are made to quite tight tolerances on fixed centres. In this instance he employs one of the pinions driving two wheels, one of which varies its distance from the pinion, but he gets away with it. As regarding building one There is more information on my blog than I started out with when I first built it. You should be able to reverse engineer it from the photographs and description.

    • @mirrormill
      @mirrormill 2 ปีที่แล้ว

      @@MrParamount3 Ah i get what you mean about the eccentric 29 Feb wheel. I can see how that would not be a regular solution.. too eccentric and it wouldn't mesh.. what a Maverick! Was thinking about starting on one of Boyer's starter clocks.. I have to get euip first thoough.. before that I have an idea for a mobile variation on a Bifilar sundial which can be adjusted to correct for EoT and DST.. cab be made from card and paper.. will explain if curious..

  • @parthvaghela3029
    @parthvaghela3029 2 ปีที่แล้ว

    Pdf file please.

  • @filippopaganini6915
    @filippopaganini6915 2 ปีที่แล้ว

    wonderful and elegant mechanism!!!

  • @bighead6106
    @bighead6106 2 ปีที่แล้ว

    What material is the balance spring made of?

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Laser cut 3mm plywood

  • @parthvaghela3029
    @parthvaghela3029 2 ปีที่แล้ว

    Pdf file please

  • @lexpee
    @lexpee 2 ปีที่แล้ว

    Hmmmm why an replica from wood and not from metal, copper, brass or bronze.

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Because I am not trained in fine engineering, haven't got the equipment, but I can use a saw

    • @lexpee
      @lexpee 2 ปีที่แล้ว

      Now this is not noting, This a lot off work to make.

  • @dscott1524
    @dscott1524 2 ปีที่แล้ว

    For those of us not familiar with clock mechanisms, what is the purpose of all this extra mechanism? cheers.

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Hi. The answer to your question is complicated, but here goes. The aim is to keep the balance wheel, which is the timing part of the watch, swinging regularly and invariably which will give accuracy and good timekeeping.. Remember this was the 18th century and they didn't have the modern materials we had. They were groping towards solutions. The big mainspring has a lot of power when fully wound and much less when it is wound down. The balance wheel would see variable force which is not ideal. In this remontoire a small spring is wound by the mainspring every 7.5 seconds and it is this spring that powers the balance giving regular and almost constant torque. As long as the mainspring can wind the remontoire spring the watch will work with constant force. My blog www.woodenclockspot.blogspot.com has a little more detail on this point.

    • @dscott1524
      @dscott1524 2 ปีที่แล้ว

      @@MrParamount3 Thanks so much for that explanation. That was actually very clever. We moderns tend to look down at the past, (atomic clocks, quartz, etc) but early achievements like this should be recognized and celebrated. Cheers.

    • @ungala
      @ungala 2 ปีที่แล้ว

      @@MrParamount3 Thank you, brilliant design

  • @zalyborneo7106
    @zalyborneo7106 2 ปีที่แล้ว

    Nice job 🙏

  • @nathonbrown3596
    @nathonbrown3596 2 ปีที่แล้ว

    beautiful work

  • @TommyJobson
    @TommyJobson 2 ปีที่แล้ว

    great stuff. thank younger posting this and congratulations on the model.

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Thank you Tommy, prise indeed. I guess you have seen my H1 model video

  • @joseph6750
    @joseph6750 2 ปีที่แล้ว

    I've been trying to understand that particular remontoire for ages. Thank you. Out of interest, if the mainspring winds all the way down, so that the remontoire isn't wound fully when triggered, does the claw jam the remontoire wheel and stop the escapement and balance?

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Hi Joseph You are correct, mine does just that when the motive power is removed. Harrison recognised that and added a lever operated by the fusee that applied a brake to the balance wheel rim half an hour before the main spring ran out. Thus the remontoire spring was left in a fully wound state. It should never get that far when wound regularly and would have been a skilled job to pre tension the remontoire spring if it did run down. My model has has not got that sophistication but has got a manual brake on the balance wheel. My remontoire spring needs 3 eights of a turn which equals 3 full rotations of the 5 th wheel to pretension it. Hope this helps.

    • @joseph6750
      @joseph6750 2 ปีที่แล้ว

      @@MrParamount3 Thank you for that. I was curious to see if Harrison had come up with a different solution. It sounds like both he and Daniels (who made a couple of watches with a remontoire) used effectively the same solution.

    • @poolmonkey
      @poolmonkey 26 วันที่ผ่านมา

      Some of the best horological geekout material in these two comments. I wish I understood the content better though.

  • @olafzijnbuis
    @olafzijnbuis 2 ปีที่แล้ว

    Nice work! Please put the link to the website ALSO in the description.

  • @villepoikela343
    @villepoikela343 2 ปีที่แล้ว

    I have no idea why this is on my recommended page but you made a really cool clock

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Thank you for looking at it

  • @cpcallen
    @cpcallen 2 ปีที่แล้ว

    Fascinating. It seems like it must waste a lot of the available energy, though. I wonder how it compares to alternative mechanisms-this can't be the best solution to the problem of providing constant force, even if it was evidently good enough!

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      The answer is that technology moved on very rapidly. Within a few tens of years they developed better escapements for chronometers, see Earnshaw spring detent escapement, and worked out how to manage balance hairsprings so that the differences in frequency between large and small swings of the balance were much reduced. The remontoire was thus banished to history for chronometers. The fusee was still retained. Together with temperature compensation at the balance the chronometer then stayed essentially unchanged for 200 years until quartz took over. Harrison's work was effectively a magnificent dead end, the important bit being that he proved a chronometer could keep accurate time at sea and that he inspired others to produce chronometers better and cheaper, leading to mass adoption.

    • @thanhlengoc3805
      @thanhlengoc3805 2 ปีที่แล้ว

      ofc this is not the best solution by today's standard. This was made in 1759.

    • @felixarbable
      @felixarbable 2 ปีที่แล้ว

      Remontoirs are actually very effective especially when you are constrained with space in watches and cant use a fusee or where you have a escapement with larger lift angles like any lever escapement (swiss lever etc like the one shown). There isnt much “wasted” energy in a modern remontoir and that isnt really an issue you are concerned with as the gear trains only job now is to charge that spring. There were some very acurate competition watches made with remontoirs and derek pratt made some of the most stunning toubillon remontoirs that are really worth checking out

    • @readrepairs
      @readrepairs 11 หลายเดือนก่อน

      Great answer and lovely to Derek's name being mentioned. @@felixarbable

    • @readrepairs
      @readrepairs 11 หลายเดือนก่อน

      It doesn't matter that energy is 'wasted'. All the mainspring has to do is re-wind the remontoire. Again it doesn't matter that the remointoire may not be the best means of achieving constant force, what is worth considering here is the spring that drives the escapement is re-wound every 7 1/2 seconds so escapement error effectively becomes invisible. Once you have Arnold's terminal curves on the balance spring and isochronism is approached, the remontoire can be done away with.

  • @blynkers1411
    @blynkers1411 2 ปีที่แล้ว

    Mind. Blown! Thank you for the vid!

  • @mmawad100
    @mmawad100 2 ปีที่แล้ว

    At 0:47 I notice that you said "5 long teeth for 30 day months" while There is only 4 in a year, Can you please explain ?

    • @MrParamount3
      @MrParamount3 2 ปีที่แล้ว

      Hi Mahmoud, Thanks for spotting the error. The answer is that I explained it poorly. I should have said the 5 long teeth are for those months with less than 31 days which is four + February. I go into greater detail in my blog at www.woodenclockspot.blogspot.com. I still find it a confusing device to bend my head round. Thanks again.

    • @mmawad100
      @mmawad100 2 ปีที่แล้ว

      @@MrParamount3 Ok thank you

    • @mmawad100
      @mmawad100 2 ปีที่แล้ว

      @@MrParamount3 WOW a Fantastic blog you got there.

  • @rjemsofiane532
    @rjemsofiane532 2 ปีที่แล้ว

    amazing great job i reallylike it .i made my first wooden clock in 2020 but now i want to lean how to make this one the mechanism is wonderful

  • @harleygoff1960
    @harleygoff1960 2 ปีที่แล้ว

    Dat look nice

  • @ClubBlau
    @ClubBlau 2 ปีที่แล้ว

    Amazing! Thank you for sharing!

  • @patadia
    @patadia 2 ปีที่แล้ว

    This is beautiful! thank you for sharing