Atmos is the brand name of a mechanical torsion pendulum clock manufactured by Jaeger-LeCoultre in Switzerland. The clock gets the energy it needs to run from temperature changes in the environment and does not need to be wound manually. It can run for years without human intervention.
The mechanism is driven by a mainspring, which is wound by the expansion and contraction of liquid and gaseous ethyl chloride in an internal hermetically sealed metal bellows. The ethyl chloride vaporises into an expansion chamber as the temperature rises, compressing a spiral spring; with a fall in temperature the gas condenses and the spiral spring expands, winding the mainspring.[1][2] This motion constantly winds the mainspring. A temperature variation of only one degree in the range between 15 C and 30 C, or a pressure variation of 3 mmHg, was calculated to provide energy for two days' operation for an early prototype,[3] while for a more recent Atmos 540 model the corresponding value has been computed as 4.3 days per °C.[4]
To run the clock on this small amount of energy, everything in the Atmos must be as friction-free as possible. For timekeeping it uses a torsion pendulum, which consumes less energy than an ordinary pendulum. The torsion pendulum has a period of precisely one minute; thirty seconds to rotate in one direction and thirty seconds to return to the starting position. This is thirty times slower than the 0.994 m (39.1 in) seconds pendulum typically found in a longcase clock, where each swing (or half-period) takes one second.
History
The first clock powered by changes in atmospheric pressure and temperature was invented by Cornelis Drebbel in the early 17th century. Drebbel built as many as 18 of these, the two most notable being for King James VI & I of Britain, and Rudolf II of Bohemia. The King James clock was known as the Eltham Perpetuum, and was famous throughout Europe. It is mentioned in two works of Ben Jonson.
Clocks powered by atmospheric pressure and temperature changes were subsequently developed by Pierre de Rivaz in 1740,[3] and by James Cox and John Joseph Merlin (Cox's timepiece) in the 1760s. The Beverly Clock in Dunedin, New Zealand, is still running despite never having been manually wound since its construction in 1864.
The first Atmos clock was designed by Jean-Léon Reutter, an engineer in Neuchâtel, Switzerland, in 1928.[5] This noncommercial prototype, which predated the Atmos name but is now known unofficially as Atmos 0, was driven by a mercury-in-glass expansion device. The mechanism operated on temperature changes alone.[6]
See also
- Atomic Clock
- Beverly Clock
- Clock of the Long Now
- Cox's timepiece
- List of clock types
External links
References
- Adam Michael Sacks. The Atmos Clock Page atmosadam.com, 22 April 2007, retrieved 2007-12-08^
- Jack Forster. The Value Proposition: The Amazing, Incredible, And Semi-Affordable Atmos Clock From Jaeger-LeCoultre Hodinkee, 11 June 2015, retrieved 2024-11-15^
- Edgar H. Callaway. Wireless Sensor Networks: Architectures and Protocols CRC Press, 2003