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Peterborough Lift Lock

January 01, 1970

The Peterborough Lift Lock is a boat lift located on the Trent Canal in the city of Peterborough, Ontario, Canada, and is Lock 21 on the Trent-Severn Waterway.

Peterborough Lift Lock
Front view of the Peterborough Lift Lock
44°18′27″N 78°18′03″W / 44.30750°N 78.30083°W / 44.30750; -78.30083
WaterwayTrent-Severn Waterway
CountryCanada
ProvinceSouthern Ontario
Maintained byParks Canada
OperationHydraulic
First built1904 (1904)
Latest built1980s
Length43 metres (141 ft)
Width10 metres (33 ft)
Fall19.8 metres (65 ft 0 in)
Designated1979
Peterborough Lift Lock HDR
Peterborough Lift Lock (side view)
Exhibition of historical lift models at the Peterborough Lift Lock

For many years, the lock's dual lifts were the highest hydraulic boat lifts in the world, raising boats 65 ft (20 m). This was a considerable accomplishment in the first years of the 20th century, when conventional locks usually only had a 7 ft (2.1 m) rise.

In the 1980s, a visitor centre was built beside the lock. It offers interactive simulations of going over the lift lock in a boat, and historical exhibits detailing the construction of the lift lock.

Residents and visitors skate on the canal below the lift lock in the winter.

The Peterborough Lift Lock was designated a National Historic Site in 1979,[1][2] and was named an Historic Mechanical Engineering Landmark by the American Society of Mechanical Engineers in 1987.[3]

The Trent-Severn has a similar hydraulic lift lock, the Kirkfield Lift Lock, at its summit near Kirkfield, with basins of the same dimensions, but which has a smaller vertical lift.

Description and operation edit

The lock has two identical bathtub-like ship caissons in which vessels ascend and descend. Both caissons are enclosed at each end by pivoting gates, and there are pivoting gates at the upper and lower reaches of the canal at the junctions with the caissons. The gates on the caissons fit into slots on the gates on the reaches, so that they open in unison.

Each caisson sits on a 7.5 ft (2.3 m) diameter ram, the shafts for which are sunk into the ground, are filled with water, and are connected with a pipe that has a crossover control valve. The caissons are guided up and down on either side by rails affixed to concrete towers.[4]

The caissons are 140 ft (43 m) long, 33 ft (10 m) wide, and 7 ft (2.1 m) deep and when filled with 228,093 imperial gallons (1,036.93 m3; 1,036,930 L) of water weigh 1,700 short tons (1,500 t).[5]

No external power is needed: the lift lock functions by gravity alone using the counterweight principle. One caisson always ascends and the other always descends during each locking cycle. When one caisson reaches the top position, it stops 12 inches (30 cm) below the water level of the upper reach, and the control valve is closed;[5] Siemens ultrasonic sensors are used to help determine the differential.[6] The upper reach and top caisson gates open, and water flows into the top caisson until the level equalizes. The weight of the extra foot of water is 144 short tons (131 t), making the total weight of the upper caisson 1,844 short tons (1,673 t).[5] Any vessels that just ascended in the top caisson exit into the upper reach, and any new vessels making a transit of the lock then enter the bottom or top caisson from the lower or upper reach respectively. Once the vessels are secured, all gates are closed and the crossover valve in the connecting pipe between the ram shafts is opened. Since the upper caisson weighs more than the lower caisson (1,844 vs 1,700 tons), it pushes down on its ram, forcing out water from its shaft via the connecting pipe into the shaft of the bottom caisson. The force pushes up on the bottom caisson's ram, raising the caisson up to the top position. When the gate of the newly descended top caisson and lower reach gates open at the bottom, the extra foot of water flows out and equalizes with the water level in the lower reach of the canal, and any descended vessels exit, allowing the cycle to start over again.[5]

History edit

The lift lock was designed by Richard Birdsall Rogers, a superintendent of the Trent Canal (part of the Trent-Severn Waterway). In 1896, he travelled to France, Belgium and England to see existing examples in operation.

Part of the reason that the lift lock was built was political. At the time a federal election was taking place and in order to shore up local support the project was fast tracked. In 1896 construction was approved and contractors signed on prior to any real working drawings being ready. The government still fell, and Richard Rogers, who was concerned about his links to the former administration, only released portions of the working drawings bit by bit. It worked, allowing him to remain on the job as the main designer.

The final project included many engineering firsts. It was the first lock to be built out of concrete, and at the time was the largest structure ever built in the world with unreinforced concrete.[7]

Construction was by Corry and Laverdure of Peterborough, which excavated the site and built the concrete towers and lock, and Dominion Bridge Company of Montreal, which completed the metal work including rams, presses and large caissons, and was finished in 1904. The lift lock officially opened to the public to a crowd of thousands on 9 July 1904, and remains in full use today.

See also edit

References edit

  1. ^ "Peterborough Lift Lock National Historic Site of Canada". Directory of Federal Heritage Designations. Government of Canada. Retrieved 29 July 2018.
  2. ^ Peterborough Lift Lock. Canadian Register of Historic Places.
  3. ^ "Peterborough Hydraulic (Canal) Lift Lock (1904)". Landmarks. American Society of Mechanical Engineers. Retrieved 2009-01-19.
  4. ^ "Peterborough Hydraulic (Canal) Lift Lock". The American Society of Mechanical Engineers. Retrieved 29 July 2018.
  5. ^ a b c d . Industry Canada. Archived from the original on 2005-04-02. Retrieved 2009-09-21.
  6. ^ "Improved level measurement for historic lift lock". engineeringtalk. Pro-Talk. 2004-09-03. Retrieved 2009-09-21.
  7. ^ Angus, James T. A Respectable Ditch: A History of the Trent-Severn Waterway 1833-1920. McGill-Queens University Press, Montreal and Kingston, 1988.
  • Turner, Larry. . Industry Canada. Archived from the original on 2006-02-10. Retrieved 2009-09-21.

External links edit

 
Wikimedia Commons has media related to Peterborough lift locks.
  • Peterborough Lift Lock views
  • Lock 21 - Peterborough Lift Lock - Trent-Severn Waterway National Historic Site of Canada

January 01, 1970
peterborough, lift, lock, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, a. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Peterborough Lift Lock news newspapers books scholar JSTOR April 2022 Learn how and when to remove this message The Peterborough Lift Lock is a boat lift located on the Trent Canal in the city of Peterborough Ontario Canada and is Lock 21 on the Trent Severn Waterway Peterborough Lift LockFront view of the Peterborough Lift Lock44 18 27 N 78 18 03 W 44 30750 N 78 30083 W 44 30750 78 30083WaterwayTrent Severn WaterwayCountryCanadaProvinceSouthern OntarioMaintained byParks CanadaOperationHydraulicFirst built1904 1904 Latest built1980sLength43 metres 141 ft Width10 metres 33 ft Fall19 8 metres 65 ft 0 in National Historic Site of CanadaDesignated1979 Peterborough Lift Lock HDR Peterborough Lift Lock side view Exhibition of historical lift models at the Peterborough Lift Lock For many years the lock s dual lifts were the highest hydraulic boat lifts in the world raising boats 65 ft 20 m This was a considerable accomplishment in the first years of the 20th century when conventional locks usually only had a 7 ft 2 1 m rise In the 1980s a visitor centre was built beside the lock It offers interactive simulations of going over the lift lock in a boat and historical exhibits detailing the construction of the lift lock Residents and visitors skate on the canal below the lift lock in the winter The Peterborough Lift Lock was designated a National Historic Site in 1979 1 2 and was named an Historic Mechanical Engineering Landmark by the American Society of Mechanical Engineers in 1987 3 The Trent Severn has a similar hydraulic lift lock the Kirkfield Lift Lock at its summit near Kirkfield with basins of the same dimensions but which has a smaller vertical lift Contents 1 Description and operation 2 History 3 See also 4 References 5 External linksDescription and operation editThe lock has two identical bathtub like ship caissons in which vessels ascend and descend Both caissons are enclosed at each end by pivoting gates and there are pivoting gates at the upper and lower reaches of the canal at the junctions with the caissons The gates on the caissons fit into slots on the gates on the reaches so that they open in unison Each caisson sits on a 7 5 ft 2 3 m diameter ram the shafts for which are sunk into the ground are filled with water and are connected with a pipe that has a crossover control valve The caissons are guided up and down on either side by rails affixed to concrete towers 4 The caissons are 140 ft 43 m long 33 ft 10 m wide and 7 ft 2 1 m deep and when filled with 228 093 imperial gallons 1 036 93 m3 1 036 930 L of water weigh 1 700 short tons 1 500 t 5 No external power is needed the lift lock functions by gravity alone using the counterweight principle One caisson always ascends and the other always descends during each locking cycle When one caisson reaches the top position it stops 12 inches 30 cm below the water level of the upper reach and the control valve is closed 5 Siemens ultrasonic sensors are used to help determine the differential 6 The upper reach and top caisson gates open and water flows into the top caisson until the level equalizes The weight of the extra foot of water is 144 short tons 131 t making the total weight of the upper caisson 1 844 short tons 1 673 t 5 Any vessels that just ascended in the top caisson exit into the upper reach and any new vessels making a transit of the lock then enter the bottom or top caisson from the lower or upper reach respectively Once the vessels are secured all gates are closed and the crossover valve in the connecting pipe between the ram shafts is opened Since the upper caisson weighs more than the lower caisson 1 844 vs 1 700 tons it pushes down on its ram forcing out water from its shaft via the connecting pipe into the shaft of the bottom caisson The force pushes up on the bottom caisson s ram raising the caisson up to the top position When the gate of the newly descended top caisson and lower reach gates open at the bottom the extra foot of water flows out and equalizes with the water level in the lower reach of the canal and any descended vessels exit allowing the cycle to start over again 5 History editThe lift lock was designed by Richard Birdsall Rogers a superintendent of the Trent Canal part of the Trent Severn Waterway In 1896 he travelled to France Belgium and England to see existing examples in operation Part of the reason that the lift lock was built was political At the time a federal election was taking place and in order to shore up local support the project was fast tracked In 1896 construction was approved and contractors signed on prior to any real working drawings being ready The government still fell and Richard Rogers who was concerned about his links to the former administration only released portions of the working drawings bit by bit It worked allowing him to remain on the job as the main designer The final project included many engineering firsts It was the first lock to be built out of concrete and at the time was the largest structure ever built in the world with unreinforced concrete 7 Construction was by Corry and Laverdure of Peterborough which excavated the site and built the concrete towers and lock and Dominion Bridge Company of Montreal which completed the metal work including rams presses and large caissons and was finished in 1904 The lift lock officially opened to the public to a crowd of thousands on 9 July 1904 and remains in full use today See also editList of boat lifts Canal lockReferences edit Peterborough Lift Lock National Historic Site of Canada Directory of Federal Heritage Designations Government of Canada Retrieved 29 July 2018 Peterborough Lift Lock Canadian Register of Historic Places Peterborough Hydraulic Canal Lift Lock 1904 Landmarks American Society of Mechanical Engineers Retrieved 2009 01 19 Peterborough Hydraulic Canal Lift Lock The American Society of Mechanical Engineers Retrieved 29 July 2018 a b c d Peterborough Lift Lock Industry Canada Archived from the original on 2005 04 02 Retrieved 2009 09 21 Improved level measurement for historic lift lock engineeringtalk Pro Talk 2004 09 03 Retrieved 2009 09 21 Angus James T A Respectable Ditch A History of the Trent Severn Waterway 1833 1920 McGill Queens University Press Montreal and Kingston 1988 Turner Larry Peterborough Lift Lock Industry Canada Archived from the original on 2006 02 10 Retrieved 2009 09 21 External links edit nbsp Wikimedia Commons has media related to Peterborough lift locks Site for the lift lock s 100th anniversary Peterborough Lift Lock views Lock 21 Peterborough Lift Lock Trent Severn Waterway National Historic Site of Canada Retrieved from https en wikipedia org w index php title Peterborough Lift Lock amp oldid 1194632732, wikipedia, wiki, book, books, library,

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