Coaxial escapement

The coaxial escapement is a type of modern watch escapement mechanism invented by English watchmaker George Daniels in 1976 and patented in 1980. It is one of the few watch escapements to be invented in modern times and is used in most of the mechanical watch models currently produced by Omega SA.

Daniels' coaxial escapement

History

During the quartz crisis, English watchmaker George Daniels accepted a commission from American industrialist and watch collector Seth G. Atwood to create a timepiece that would fundamentally improve the performance of mechanical watches.[1] As a result, Daniels invented the coaxial escapement in 1974 and patented it in 1980.[2][3] The Atwood watch for Seth G. Atwood was completed in 1976.[4]

Influences

Charles Fasoldt

Charles Fasoldt, a German-American watch- and clockmaker, was instrumental in the development of the escapement mechanism. His patented escapement of 1865 introduced a novel duplex design with co-axially mounted twin escape wheels and a three-pallet lever. This design was aimed at reducing friction and enhancing the accuracy of timekeeping, which would later influence modern escapement designs. George Daniels' co-axial escapement, a significant advancement in the field of horology, drew from Fasoldt's concepts, refining them further for contemporary watchmaking.[5]

Abraham-Louis Breguet

Abraham-Louis Breguet's 'natural escapement' also significantly influenced Daniels. Breguet's design involved two detent-like escape wheels arranged in a mirrored layout. Daniels evolved this by removing the meshing gears between the twin escape wheels, thus creating two independent gear trains, enhancing the escapement's practicality for contemporary watchmaking.[6]

Technical overview

The coaxial escapement is a modification of the lever escapement with some features of the detent escapement. One of the few advances in escapement design which have been adopted since the invention of the lever escapement by Thomas Mudge in the 18th century, the coaxial escapement functions with a system of three pallets that separate the locking function from the impulse, avoiding the sliding friction of the lever escapement. This makes lubrication of the pallets theoretically unnecessary[7][8] and thereby minimizes one of the shortcomings of the traditional lever escapement. In practice, a small amount of lubrication is used on the locking and impulse surfaces of the pallet stones, reportedly to minimize impact corrosion.[9]

Critical virtue

The critical virtue of the Daniels escapement is the virtual elimination of the sliding friction component; i.e., the sliding of the pallet stones over the teeth of the escapement gear. What little sliding friction remains is due to the impossibility of maintaining an exact tangential geometry throughout the duration of an impulse.[10]

Radial friction vs. sliding friction

By utilizing radial friction instead of sliding friction at the impulse surfaces the coaxial escapement significantly reduces friction, theoretically resulting in longer service intervals (though many factors influence this including lubricant aging) and greater accuracy over time.

Commercialization

The escapement was commercialized in 1999 by Omega SA when it introduced the first mass-produced watch incorporating the technology.[11] It is the only escapement other than the Swiss lever escapement that is produced on an industrial scale. When it first came to the market as the Caliber 2500, it had an oscillation rate of 28,800 beats per hour (8 beats per second), considered a "hi-beat" movement. But the rate was reduced to 25,200 beats per hour (7 beats per second) in the Caliber 2500C. "While Daniels has recognized the advantages of higher beat movements, he has also noted that they aggravate the problem of sliding friction in the escapement (at the escape teeth and pallets). Higher beat movements produce increased speed and pressure at these critical surfaces."[12]

References

  1. ^ Ramsay, Rachel (2012-03-08). "Sale of a Master's Collection". The New York Times. ISSN 0362-4331. Retrieved 2019-02-17.
  2. ^ Daniels, George. "About George Daniels". Daniels London. Retrieved 2008-06-12.
  3. ^ Thompson, Curtis (2001). "Where George Daniels shopped the Co-Axial..." Chuck Maddox. Retrieved 2008-06-12. 17 June 2001 Addendum
  4. ^ Manousos, Nicholas (June 21, 2018). "Historical Perspectives: Rarely Seen Documentary Video Featuring George Daniels And Seth Atwood". Hodinkee. Retrieved 2019-02-18.
  5. ^ "Insight: Daniels' Co-Axial Escapement, an Evolution of the Fasoldt Chronometer". SJX Watches. SJX Watches. 2022-02-28. Retrieved 2023-11-22.
  6. ^ "Insight: Daniels' Co-Axial Escapement, an Evolution of the Fasoldt Chronometer". SJX Watches. SJX Watches. 2022-02-28. Retrieved 2023-11-22.
  7. ^ Nicolet, J.C. (1999). "Could you explain the mechanism of the coaxial watch?". Questions in Time. Europa star online. Archived from the original on 2010-04-21. Retrieved 2008-06-12.
  8. ^ Odets, Walt (1999). "The Omega Coaxial: An impressive achievement". The Horologium. TimeZone.com. Archived from the original on 2012-12-26. Retrieved 2008-06-12. Archived article pages 2, 3, and 4.
  9. ^ Archived at Ghostarchive and the Wayback Machine: The Development of a Practical Watch Escapement by Roger Smith. YouTube.
  10. ^ Woodward, P (August 2004). "Performance of the Daniels Coaxial Escapement" (PDF). Horological Journal: 283–285. Archived from the original (PDF) on 2004-08-07. (archived August 7, 2004)
  11. ^ Xavier Markl, The coaxial escapement, Monochrome-watches, Dec. 26, 2000, quoting Odets, W.
  12. ^ Zbinden, H., Zbinden, H., Of Larger Balances, High Beat and Important Oils, TZ Classics No. 1591, Timezone, Dec. 26, 2000, quoting Odets, W.

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