Foghorn Explained

A foghorn or fog signal is a device that uses sound to warn vehicles of navigational hazards such as rocky coastlines, or boats of the presence of other vessels, in foggy conditions. The term is most often used in relation to marine transport. When visual navigation aids such as lighthouses are obscured, foghorns provide an audible warning of rock outcrops, shoals, headlands, or other dangers to shipping.

Description

All foghorns use a vibrating column of air to create an audible tone, but the method of setting up this vibration differs. Some horns, such as the Daboll trumpet, used vibrating plates or metal reeds, a similar principle to a modern electric car horn. Others used air forced through holes in a rotating cylinder or disk, in the same manner as a siren. Semi-automatic operation of foghorns was achieved by using a clockwork mechanism (or "coder") to sequentially open the valves admitting air to the horns; each horn was given its own timing characteristics to help mariners identify them.[1]

History

Early fog signals

Audible fog signals have been used in one form or another for hundreds of years, initially simply seashell horns, fog bells or gongs struck manually.

At some lighthouses, a small cannon was let off periodically to warn away ships, but this was labor-intensive and dangerous.[2] In the United States, whistles were also used where a source of steam power was available, though Trinity House, the British lighthouse authority, did not employ them, preferring an explosive signal.

Throughout the 19th century efforts were made to automate the signalling process. Trinity House eventually developed a system (the "Signal, Fog, Mk I") for firing a gun-cotton charge electrically. However, the charge had to be manually replaced after each signal. At Portland Bill, for example, which had a five-minute interval between fog-signals, this meant the horns had to be lowered, the two new charges inserted, and the horns raised again every five minutes during foggy periods.

Clockwork systems were also developed for striking bells.[3] Stricken bells were developed throughout the 1800s with the use of a governor, including the use of a giant triangle of 4 ft long sides in Maine in 1837. Ships were required to carry bells, with an exemption for Turkish ships because Islam forbade the use of bells.[4]

Captain James William Newton claimed to have been the inventor of the fog signalling technique using loud and low notes.[5]

Mechanization

The first automated steam-powered foghorn was invented by Robert Foulis, a Scotsman who emigrated to Saint John, New Brunswick, Canada. Foulis is said to have heard his daughter playing the piano in the distance on a foggy night, and noticed the low notes were more audible than the higher notes: he then designed a device to produce a low-frequency sound, as well as a code system for use with it. Foulis repeatedly presented his concept to the Commissioners of Light Houses for the Bay of Fundy for installation on Partridge Island. While the Commissioners initially rejected Foulis's plan, one commissioner eventually encouraged Foulis to submit detailed plans to the Commission. For reasons unknown, the plans were given to another Canadian engineer, T. T. Vernon Smith, who officially submitted them to the Commissioners as his own. The foghorn was constructed at Partridge Island in 1859 as the Vernon-Smith horn. After protest by Foulis and a legislative inquiry, Foulis was credited as the true inventor, but he never patented or profited from his invention.[6]

The development of fog signal technology continued apace at the end of the 19th century.[7] During the same period an inventor, Celadon Leeds Daboll, developed a coal-powered foghorn called the Daboll trumpet for the American lighthouse service, though it was not universally adopted.[8] A few Daboll trumpets remained in use until the mid-20th century.

In the United Kingdom, experiments to develop more effective foghorns were carried out by John Tyndall and Lord Rayleigh, amongst others. The latter's ongoing research for Trinity House culminated in a design for a siren with a large trumpet designed to achieve maximum sound propagation (see reference for details of the Trials of Fog Signals[9]), installed in Trevose Head Lighthouse, Cornwall in 1913. One reporter, after hearing a Brown steam-powered siren for the first time, described it as having "a screech like an army of panthers, weird and prolonged, gradually lowering in note until after half a minute it becomes the roar of a thousand mad bulls, with intermediate voices suggestive of the wail of a lost soul, the moan of a bottomless pit and the groan of a disabled elevator."

One of the first automated fog bells was the Stevens Automatic Bell Striker.[10]

Some later fog bells were placed under water, particularly in especially dangerous areas, so that their sound (which would be a predictable code, such as the number "23") would be carried further and reverberate through the ship's hull. For example, this technique was used at White Shoal Light (Michigan).[11] [12] This was an earlier precursor to RACON.

Diaphone

See main article: Diaphone. From the early 20th century an improved device called the diaphone, originally invented as an organ stop by Robert Hope-Jones,[9] and developed as a fog signal by John Northey of Toronto, became the standard foghorn apparatus for new installations. Diaphones were powered by compressed air and could emit extremely powerful low-frequency notes.

In 1982, the Dutch broadcaster VPRO aired a live foghorn concert on national radio composed by Marnie Bjornson, relaying the sound of the foghorns in Emden, Calais, Nieuwpoort, Scheveningen, Den Helder, Lelystad, Urk, Marken and Kornwerderzand, mixed with studio music by sound artist Alvin Curran.[13]

Obsolescence

Since automation of lighthouses became common in the 1960s and 1970s, most older foghorn installations have been removed to avoid the need to run the complex machinery associated with them, and have been replaced with electrically powered diaphragm or compressed air horns. Activation is completely automated: a laser or photo beam is shot out to sea, and if the beam reflects back to the source (i.e. the laser beam is visible due to the fog), the sensor sends a signal to activate the foghorn. In many cases, modern navigational aids, including GPS, have rendered large, long-range foghorns completely unnecessary, according to the International Association of Lighthouse Authorities.[14]

Railway fog signals

See main article: Detonator (railway). Fog signals have also been used on railway lines since the middle of the 19th century to indicate to warn of disabled trains, work parties, or other hazards on the line ahead. Small explosive detonators or torpedoes are placed on the track, and detonated by the pressure of the wheels of the oncoming train.

Study of foghorns

British writer Jennifer Lucy Allan was awarded a PhD by the University of the Arts London in 2019 for her thesis on Fog tropes : a social and cultural history of the foghorn[15] and subsequently published a book: The Foghorn's Lament: the Disappearing Music of the Coast.[16]

See also

Further reading

External links

Notes and References

  1. See for example Fox, F. Siren, Point of Ayre Lighthouse, accessed 08-09-2008
  2. Book: Oke, Robert . 15 May 1863. Letter to J. H. Warren Esq. Chairman, Board of Works (St. John's); Letters by Robert Oke (1794-1870) . PANL GN 1/3/A file 1/1864 . The Rooms Archives (St. John's, NL) .
  3. Pepper, T. Stevens Fog Bell Apparatus , Seeing the Light
  4. Web site: Wheeler . Wayne . The History of Fog Signals . uslhs.org . United States Lighthouse Society . 17 October 2021 . 17 October 2021 . https://web.archive.org/web/20211017014053/https://uslhs.org/history-fog-signals . dead .
  5. Web site: . James William Newton . Captain Newton also claimed to be the inventor of fog signalling by the interchange and repetition [sic] of loud and low notes..
  6. http://www.glasgowguide.co.uk/info-fame_Robert_Foulis_Jr.html Famous Glaswegians - Robert Foulis, JR
  7. Web site: Terry Pepper, Seeing the Light, "Diaphones". . 2009-08-26 . 2009-10-09 . https://web.archive.org/web/20091009215649/http://www.terrypepper.com/lights/closeups/fogsignal/diaphone/diaphone.htm . live .
  8. Holland, F. R. America's Lighthouses, Dover, 1988,, p. 204
  9. Book: Renton, Alan. Lost Sounds: The Story of Coast Fog Signals. 2001. Whittles Publishing. 978-1870325837.
  10. Web site: Terry Pepper, Seeing the Light, Stevens Automated Bell Striker. . 2008-09-05 . 2008-05-10 . https://web.archive.org/web/20080510154101/http://terrypepper.com/lights/closeups/fogsignal/stevens/stevens.htm . live .
  11. Putnam . George R. . January 1913 . Beacons of the Seas: Lighting the Coasts of the United States . National Geographic Magazine . XXIV . 1 . 19 . June 8, 2009 .
  12. Web site: Terry Pepper, Seeing The Light, White Shoal Light. . 2009-08-26 . 2008-05-29 . https://web.archive.org/web/20080529054057/http://www.terrypepper.com/Lights/michigan/whiteshoal/whiteshoal.htm . live .
  13. http://weblogs.vpro.nl/radioarchief/2010/07/22/ovt-serie-gouden-jaren-afl-4-bijzondere-experimenten/#more-4146
  14. Noble, D. L. Lighthouses and Keepers, Naval Institute Press, 2004,, p.169
  15. Web site: Allan . Jennifer . Fog tropes : a social and cultural history of the foghorn . University of the Arts London . 30 July 2021 . 2019. (Catalogue record)
  16. News: Liptrot . Amy . The Foghorn's Lament by Jennifer Lucy Allan review – a whole world in a sound . 30 July 2021 . The Guardian . 28 April 2021 . en.