Rotary snowplow

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A rotary snowplow (American English) or rotary snowplough is a piece of railroad snow removal equipment with a large circular set of blades on its front end that rotate to cut through the snow on the track ahead of it. The precursor to the rotary snowplow was the wedge snowplow.

Operational rotary snowplow Xrotd 9213 on the Rhaetian Railway in Switzerland

History

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Example of rotary snowplow train
 
A rotary snowplow from the Oregon Short Line on display at the Mid Continent Railway Museum in North Freedom, WI

The rotary was invented in Toronto, Canada, by dentist J.W. Elliot in 1869. He never built a working model or prototype.[1] Orange Jull of Orangeville, Ontario, expanded on Elliot's design, building working models he tested with sand. During the winter of 1883–84, Jull contracted with the Leslie Brothers of Toronto to build a full-size prototype that proved successful. Jull later sold his design rights to Leslie Brothers, who formed the Rotary Steam Shovel Manufacturing Company in Paterson, New Jersey. Leslie Brothers contracted with Cooke Locomotive & Machine Works in Paterson to do the actual construction.[2]

Another inventor is said to be Colonel Lewis P. Campbell.[3] He is listed in US patent 1848554 (filed in 1929).[4]

Operation

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Wedge snowplows were the traditional mechanized method of clearing snow from railroad tracks. These pushed snow off the tracks, deflecting it to the side. Deeper drifts cannot easily be cleared by this method; there is simply too much snow to be moved. For this purpose, the rotary snowplow was devised.

 
A steam powered rotary snowplow at work in New Ulm, Minnesota

Rotary plows are often deployed when snow is too deep or hard-packed for traditional plows. The ability to operate slowly, as there is no requirement for train momentum to break up the snow, is often an advantage in mountainous regions, where a high speed derailment could be disastrous. Many rotary plows are not self-propelled, so one or more locomotives are coupled behind it to push the plow along the line. An engine within the plow's carbody rotates the large circular assembly at the front of the plow. The blades on this wheel cut through the snow and force it through a channel just behind the disk to an output chute above the blade assembly.

The chute can be adjusted to throw the snow to either the left or the right side of the tracks. An operator sits in a cab above and behind the blade assembly to control the speed of the blades and the direction of output from the chute. With the increasing prevalence of diesel locomotives, multiple-unit train controls have been added to the cabs, so that the pushing locomotives can be controlled from the plow.

In areas of particularly deep snowfall, such as California's Donner Pass, railroads sometimes created a train consisting of a rotary snowplow at each end, with the blade ends pointing away from each other, and two or three locomotives coupled between them. With a plow on each end, the train was able to return to its starting location even if the snow covered the tracks it had just passed over. Such a train would also be able to clear multiple track mainlines efficiently as it could make a pass in one direction on one track, then reverse direction and clear the next track. This practice became standard for the Southern Pacific Railroad on Donner Pass following the January 1952 stranding of the City of San Francisco train; during attempts to clear the avalanches that had trapped the train, two rotary plows were trapped by subsequent avalanches, and the crew of a third was killed when their plow was hit by an avalanche.

Rotary snowplows are expensive because of their high maintenance costs, which the railroad incurs regardless of whether they are needed in a given year. As a result, most railroads have eliminated their rotaries, preferring to use a variety of types of fixed-blade plows that have significantly lower maintenance costs, in conjunction with bulldozers, which can be used year-round on maintenance-of-way projects. In addition, because rotaries leave an open-cut in the snowbank that fixed-blade plows cannot push snow past, once rotaries have been used, they must be used for all further significant snowfalls until the snowpack has melted. Since rotaries, which need energy to power the blades, also cost more to operate than fixed-blade plows, they are now generally considered to be a tool of last resort for the railroads that own them.

The few remaining rotary plows in North America are either owned by museum railroads or are kept in reserve for areas with poor road access and routine severe snowfall conditions. The largest remaining fleet of rotaries consists of Union Pacific Railroad's six plows reserved for Donner Pass. Japan sees widespread use of rotary snowplows in its many mountain passes.

Power

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Early rotaries had steam engines inside their car bodies to power the blades; a few are still in working order, and in particular one on the White Pass and Yukon Route in Alaska performs annual demonstration runs through thick snow for the benefit of photographers and railway enthusiasts. Rotaries of newer construction are either diesel- or electric-powered. Many steam plows were converted to electricity. Some electric plows can take their power from a locomotive, while others are semi-permanently coupled to power units, generally old locomotives with their traction motors removed; these are colloquially called snails. (This is derived from the fact that engineless but motored units that take their power from another locomotive are slugs; thus the opposite, with engine but no motors, is a snail.)

Hall of Fame induction

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In 2001, the rotary snowplow was inducted into the North America Railway Hall of Fame.[5] The hall of fame recognizes and establishes an enduring tribute to the people and things that have made significant contribution relating to the railway industry in North America. The rotary snowplow was inducted in the "Technical Innovations" category with "National" significance.

Preservation

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See also

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References

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  1. ^ "ARCHIVED - The Rotary Snowplow - A Canadian Invention! - Yikes! - The Kid's Site of Canadian Trains - Library and Archives Canada".
  2. ^ "The Leslie Brothers and Their Giant Snowblower" author Paul Swanson, January 1987 Trains Magazine
  3. ^ "Obituary "Snow Plow Inventor Dies"".
  4. ^ "Rotary smtowplow".
  5. ^ Rotary Snowplow North America Railway Hall of Fame.
  6. ^ "Jewels of The Alaska State Park System - Anchorage Area". Alaska Department of Natural Resources Division of Parks & Outdoor Recreation. Retrieved 15 February 2015.
  7. ^ Combs, John. "Snowfighting on the Alaska Railroad". Retrieved 15 February 2015.
  8. ^ "C&S Rotary Snow Plow No. 99201" (PDF). Colorado Railroad Museum. Retrieved 14 October 2020.
  9. ^ "DRGW.Net | Narrow Gauge Work Equipment". www.drgw.net. Retrieved 2020-11-06.
  10. ^ "2020 to Feature Several Extraordinary Events to Mark 50th Anniversary of Cumbres & Toltec Scenic Railroad's Operation". Cumbres & Toltec Scenic Railroad. 2019-04-24. Retrieved 2020-11-06.
  11. ^ "#257 Northern Pacific Rotary Snow Plow #2". ASME. Retrieved 14 October 2020.
  12. ^ "Collection: Northern Pacific Railway Steam Rotary Snowplow #10". Northwest Railway Museum. Retrieved 14 October 2020.
  13. ^ "Oregon Short Line #762". Mid-Continent Railway Museum. Retrieved 14 October 2020.
  14. ^ "Rotary Snowplow "B"". Nevada Northern Railway Archives. Retrieved 2024-10-06.
  15. ^ "Historic 1920s Rotary Snowplow from Railroad Museum's Collection on Public Display". California State Railroad Museum. Retrieved 14 October 2020.
  16. ^ "Train Mountain Museum". Train Mountain Museum. Retrieved 21 November 2021.
  17. ^ "SPMW 208 & SPMW 8221". Western Pacific Railroad Museum. Retrieved 14 October 2020.
  18. ^ "Rotary Snow Plow Delivered". Truckee Donner Railroad Society. Retrieved 14 October 2020.
  19. ^ "Roster of Equipment: Union Pacific Railroad 900075". Illinois Railway Museum. Retrieved 14 October 2020.
  20. ^ "Union Pacific #900081 Rotary Snow Plow". The National Museum of Transportation. Retrieved 14 October 2020.

Further reading

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