“Speed bump”的意思、由来-开放百科全书

Speed bumps (or speed breakers) are the common name for a family of traffic calming devices that use vertical deflection to slow motor-vehicle traffic in order to improve safety conditions. Variations include the speed hump, speed cushion, and speed table.

The use of vertical deflection devices is widespread around the world, and they are most commonly found to enforce a low speed limit, under {{convert|40|km/h|mph|abbr=on}} or lower.

Although speed bumps are effective in keeping vehicle speeds down, their use is sometimes controversial—as they can increase traffic noise, may damage vehicles if traversed at too great a speed, and slow emergency vehicles. Poorly-designed speed bumps that stand too tall or with too-sharp an angle can be disruptive for drivers, and may be difficult to navigate for vehicles with low ground clearance, even at very low speeds. Many sports cars have this problem with such speed bumps. Speed bumps can also pose serious hazards to motorcyclists and bicyclists if they are not clearly visible, though in some cases a small cut across the bump allows those vehicles to traverse without impediment. Speed bumps cost $50–200 and may need replacement over time due to wear.^[1]

Composition

Each of these devices can be made from a variety of materials, including asphalt, concrete, recycled plastic, metal, or vulcanized rubber. Several trade-offs must be made when selecting the material for a new speed cushion. Traditionally most vertical deflection devices have been constructed of asphalt or concrete. Due to the rigidity and durability of these materials, they have more permanence and are more effective at slowing traffic. However, they can be difficult to shape and form into consistent forms and precise dimensions.

Rubber products are pre-shaped to standard sizes to meet industry standards. Preformed rubber products are typically bolted down, making them easier to install or remove. Temporary bolt-down installations can be ideal for planners in testing the use and positioning of speed bumps before implementing them in a larger project. Bolt-down products can also be removed or relocated during winter snow periods—where speed bumps are easily concealed and may be damaged by snowplows.

History

On June 7, 1906, The New York Times reported on an early implementation of what might be considered speed bumps in Chatham, New Jersey, which planned to raise its crosswalks five inches above the road level: "This scheme of stopping automobile speeding has been discussed by different municipalities, but Chatham is the first place to put it in practice".^[2] The average automobile's top speed at the time was around {{convert|30|mph|kph}}.{{citation needed|date=November 2013}}

The British Transport and Road Research Laboratory published a comprehensive report in 1973 examining vehicle behavior for a large variety of different bump geometries.^[4] At the time speed humps were not permitted on public roads but had been installed on private roads.

According to a publication by the Institute of Transportation Engineers, the first speed bump in Europe was built in 1970 in the city of Delft in the Netherlands.^[5]

Speed bumps

A speed bump is also known as a sleeping policeman in British English, Maltese English and Caribbean English, a judder bar in New Zealand English, and a lying-down policeman in Colombia, Croatia, Slovenia and Russia. A speed bump is a bump in a roadway with heights typically ranging between {{convert|3|and|4|in|cm}}. The traverse distance of a speed bump is typically less than or near to {{convert|1|ft|cm}}; contrasting with the wider speed humps, which typically have a traverse distance of {{convert|10|to|14|ft|m}}.^[6]^[7]

Speed bumps vary in length, but it is typical to leave space between the bump and either edge of an enclosed road (i.e. with curbs and gutters) to allow for drainage. Spaces on either side may also allow more expedient passage for emergency vehicles, though effectiveness will depend on the type of vehicle and specific road design.

Disadvantages

In 2003, the chairman of the London Ambulance Service, Sigurd Reinton claimed that delays caused by speed bumps were responsible for up to 500 avoidable deaths from cardiac arrest each year. He later denied the statement.^[11]

In Sweden, an evaluation of spinal stress in bus drivers against ISO 2631-5 required on health grounds that:^[12]

Dynamic speed bumps

Dynamic speed bumps differ from conventional speed bumps in that they only activate if a vehicle is traveling above a certain speed. Vehicles traveling below this speed will not experience the discomfort of a conventional speed bump. Dynamic speed bumps may allow the passage of emergency vehicles at higher speeds.

The Actibump system, successfully used in Sweden, is based on powered equipment integrated into the road surface, which operates a platform that is lowered a few centimeters when a speeding vehicle approaches. Any vehicle approaching at or under the speed limit will pass on a level road. The system measures the speed of an oncoming vehicle by using radar.^[13]

In another design, a rubber housing is fitted with a pressure relief valve that determines the speed of a vehicle. If the vehicle is traveling below the set speed, the valve opens allowing the bump to deflate as the vehicle drives over it, but it remains closed if the vehicle is traveling too fast. The valve can also be set to allow heavy vehicles, such as fire trucks, ambulances, and buses to cross at higher speeds.^[14]^[15]

Speed humps

A speed hump (also called a road hump, or undulation,^[16] and speed ramp) is a rounded traffic calming device used to reduce vehicle speed and volume on residential streets. Humps are placed across the road to slow traffic and are often installed in a series of several humps to prevent cars from speeding before and after the hump. Common speed hump shapes are parabolic, circular, and sinusoidal.^[16]

Generally, speed humps have a traverse distance of about 12 to 14 feet (3.7 to 4.25 m) and span the width of the road. The height of each hump ranges from 3 to 4 inches (7.5 to 10 cm).^[16] The traverse distance and height of each hump determines the speed at which traffic will travel over the devices. Shorter traverse lengths and greater heights slow cars most drastically. When placed in a series 350–550 feet (100–170 m) apart, humps will reduce 85th percentile speeds by 8–10 mph (13–15 km/h).^[17]

Warning signs should be used to notify approaching motorists of upcoming humps. Humps generally have pavement markings to enhance visibility and a taper edge near the curb to allow a gap for drainage.^[16]

Speed humps are used in locations where low speeds are desired and suitable for the surrounding traffic environment.^[18] Speed humps are typically placed on residential roads and are not used on major roads, bus routes, or primary emergency response routes. Placement is generally mid-block between intersections.

Results

Speed humps typically limit vehicle speeds to about 15–20 mph (25–30 km/h) at the hump and 25–30 mph (40–50 km/h) at the midpoint between humps, depending on spacing. Studies show an average 18% reduction in traffic volume and an average 13% reduction in collisions.^[16]

Comparison to speed bumps

While similar to speed bumps, humps are less aggressive than speed bumps at low speeds. Humps are often used on streets, while bumps are used more in parking lots.^[19] While speed bumps generally slow cars to {{convert|5|-|10|mph|km/h|abbr=on}}, humps slow cars to {{convert|15|-|20|mph|km/h|abbr=on}}. The narrow traverse distance of speed bumps often allows vehicles to pass over them at high speed with only mild disturbance to the wheels and suspension, and hardly affecting the vehicle cab and its occupants. The relatively long slopes of speed humps are less disruptive at low–moderate speeds, but they create a greater, more sustained vertical deflection; at higher speeds, a more sustained deflection is less-absorbed by vehicle suspensions and has a greater effect on the vehicle as a whole.^[20]

Problems

One problematic aspect of speed humps is their effect on emergency vehicles. Response time is slowed by 3–5 seconds per hump for fire trucks and fire engines and up to 10 seconds for ambulances with patients on board.^[16] Speed humps are thus usually not placed on primary response routes. Speed cushions may be placed on these routes instead.

Occasionally, there is an increase in traffic noise from braking and acceleration of vehicles on streets with speed humps, particularly from buses and trucks. Other effects include increased fuel consumption and emissions as well as increased wear and tear on brakes, engine and suspension components.

Heavy sedans, trucks, and SUVs are less affected by speed humps, and may not have to slow down as dramatically.

Thin cuts are sometimes placed in the middle of a hump in order to allow bicycle traffic to pass through. However, forcing cyclists to take a particular line on the road compromises their ability to position themselves safely according to the other traffic on the road at the time.

Speed cushions

Wider, American-style ambulances might also be able to straddle speed cushions. However, in Europe and Australia, where vehicles like the Mercedes-Benz Sprinter are used most frequently as ambulances, there is no advantage. In these jurisdictions, narrower speed cushions are sometimes placed between lanes to allow ambulances to pass unobstructed while driving over the centre line during an emergency.

Advantages

Speed cushions have several distinct advantages over similar traffic calming devices. Many municipalities are challenged by opposition to speed humps and speed tables since they slow down emergency vehicles. Speed cushions address this problem by allowing larger vehicles to straddle the cushion without slowing down. This is also an advantage for buses, as lower floor vehicles can sometimes ground out on traditional humps.

Speed cushions are often less costly than speed humps or tables, and most cities report them to be just as effective. In some jurisdictions, narrower speed cushions are placed at more frequent intervals to allow ambulances to pass while driving over the centre line. Large trucks are also not slowed down.

Use in North America and Europe

Development of speed cushions has focused primarily on the European context. Consumer vehicles in Europe are typically smaller than American vehicles. This is to accommodate smaller demand for passengers{{huh|date=August 2017}} and to better suit narrower road widths. European vehicles typically have a narrower track width than American vehicles, meaning their left and right wheels are closer together. Emergency vehicles still feature a wide track width, and the difference between them makes speed cushions more applicable.

In North America, however, consumer vehicles have a track width of {{convert|50|-|59|in|cm|0}}. Many emergency vehicles are also equipped with dual tires on their rear axles. The additional tires limits track width to as narrow as {{convert|48|in|cm|0}}, meaning speed cushions may not be suitable for their intended use.

Speed tables

A speed table (or flat top hump or raised pedestrian crossing) is designed as a long speed hump with a flat section in the middle. Speed tables are generally long enough for the entire wheelbase of a passenger car to rest on top.^[23] The long, flat design allows cars to pass without slowing as significantly as with speed humps or cushions.^[24] Because they slow cars less than similar devices, speed tables are often used on roads with typical residential speed limits.

Speed tables can also be signed as pedestrian crossings, namely zebra crossings. A raised zebra crossing is referred to as a wombat crossing in Australia.^[25] Other road features may be included, such as junctions, or even mini-roundabouts. Speed tables are used with zebra crossings repeatedly in Leighton Buzzard.

Results

Typical speeds resulting from {{convert|22|ft|m|0}} speed tables are {{convert|20|-|30|mph|km/h}}. One sample of 8 sites found a 45% decrease in accidents per year with the use of speed tables.^[24] Wombat crossings may reduce casualties by 63%.^[25]

Advantages

Speed tables are effective in calming traffic on streets where the speed limit needs to be maintained rather than slowing cars more significantly. Traffic speed, volumes, and accidents have been shown to decrease with the use of tables. Although not as responsive to emergency vehicles as speed cushions, speed tables cause less of a delay than humps and are typically preferred by fire departments over speed humps.^[23]

In the United Kingdom

In the UK, vertical deflection in highways for the purpose of traffic calming typically takes one of the following forms:

The Department for Transport defines the regulations for the design and use of road humps.^[26]

Opposition

Speed bumps in some areas have been removed after protests by local residents. Such protests cite the lack of any consultation as one factor.^[27] For example, complaints from Derby residents, prompted the removal of 146 speed bumps from streets at a cost of £460,000. Similar incidents have been reported elsewhere in the UK.^[28] UK news sources reported a cyclist being killed in a crash while attempting to avoid a speed bump.^[29]

See also

References

1. ^{{cite web|title=Catalog: Speed Bumps & Humps |url=http://www.speedbumpsandhumps.com/|publisher=Speed Bumps and Humps|access-date=29 March 2012}}
2. ^{{cite news|title=Democratic Rate Plan Favored by Roosevelt [and other news]|publisher=New York Times|date=1906-03-07|page=3}}
3. ^{{cite web|title=Original Traffic control sketch made by Compton in 1953|url=http://library.wustl.edu/units/spec/archives/facts/images/traffic_control_sketch_1953.pdf|archive-url=https://web.archive.org/web/20100615162332/http://library.wustl.edu/units/spec/archives/facts/images/traffic_control_sketch_1953.pdf|dead-url=yes|archive-date=2010-06-15|publisher=Washington University Libraries|accessdate=2014-03-14}}
4. ^Road humps for the control of vehicle speeds by G.R. Watts, TRRL Laboratory Report 597,1973
5. ^{{cite web|author=Klaus Schlabbach|title=Traffic Calming in Europe|url=http://www.ite.org/traffic/documents/JGA97A38.pdf|publisher=Institute of Transportation Engineers|accessdate=2014-03-14|archive-url=https://web.archive.org/web/20120829110759/http://www.ite.org/traffic/documents/JGA97A38.pdf|archive-date=2012-08-29|dead-url=yes|df=}}
6. ^{{cite web |author = ITE |title = Traffic Calming Measures |url = http://www.ite.org/traffic/hump.asp |publisher = Institute of Transportation Engineers |access-date = 2014-09-09 |archive-url = https://web.archive.org/web/20170729064350/http://www.ite.org/traffic/hump.asp |archive-date = 2017-07-29 |dead-url = yes |df = }}
7. ^{{cite web |author=TrafficCalming.org |title=Speed Humps (Road Humps, Undulations) |url=http://trafficcalming.org/speedhumps.html |archive-url=https://web.archive.org/web/20010219114026/http://www.trafficcalming.org/SPEEDHUMPS.html |dead-url=yes |archive-date=2001-02-19 |publisher=Fehr & Peers |df= }}
8. ^{{cite web|title=Speed Hump Fact Sheet |url=http://www.modestogov.com/ced/pdf/traffic/speedhump.pdf |archive-url=https://web.archive.org/web/20140327051147/http://www.modestogov.com/ced/pdf/traffic/speedhump.pdf |dead-url=yes |archive-date=2014-03-27 |publisher=City of Modesto |accessdate=2014-03-14 |df= }}
9. ^{{cite web|title=Speed Limits and Reduction: Speed Humps |url=http://www.eastleigh.gov.uk/ebc-3053#humps |publisher=Eastleigh Borough Council |deadurl=yes |archiveurl=https://web.archive.org/web/20060927075215/http://www.eastleigh.gov.uk/ebc-3053 |archivedate=September 27, 2006 }}
10. ^{{cite news|url=http://news.bbc.co.uk/2/hi/uk_news/magazine/3084331.stm|publisher=BBC|title=Like it or lump it: Is the speed hump here to stay?| date=July 22, 2003 | accessdate=January 4, 2010}}
11. ^{{cite web|title=Transport Committee Minutes 11/12/2003|url=http://www.london.gov.uk/moderngov/CeListDocuments.aspx?CommitteeId=173&MeetingId=3967&DF=11%2f12%2f2003&Ver=2|publisher=London Assembly|accessdate=2014-03-14}}
12. ^{{cite web|url=http://www.dynamicmeasurementsolutions.com/Articles/imacXXVI230__BRA.pdf|publisher=Society for Experimental Mechanics, IMAC XXVI Conference and Exposition on Structural Dynamics|title=Bus Drivers' Exposure To Mechanical Shocks Due To Speed Bumps|author=Dr Anders Brandt & MSc Johan Granlund, Swedish Road Administration|year=2008|accessdate=June 2, 2010|deadurl=yes|archiveurl=https://web.archive.org/web/20110710160659/http://www.dynamicmeasurementsolutions.com/Articles/imacXXVI230__BRA.pdf|archivedate=July 10, 2011|df=}}
13. ^{{cite web|title=Actibump|url=http://www.actibump.com|publisher=Edeva|accessdate=2016-12-01}}
14. ^{{cite journal|url=https://www.newscientist.com/article.ns?id=dn1178 |journal=New Scientist |title=Smart speed bumps reward safe drivers |deadurl=yes |archiveurl=https://web.archive.org/web/20070326103037/http://www.newscientist.com/article.ns?id=dn1178 |archivedate=March 26, 2007 }}
15. ^{{cite news|url=http://www.timesonline.co.uk/article/0,,2-1867157,00.html |publisher=The Times |title=Smart' road hump will smooth the way for safe drivers |location=London |first=Shirley |last=English |date=November 11, 2005 |accessdate=May 23, 2010 |deadurl=yes |archiveurl=https://web.archive.org/web/20060113164245/http://www.timesonline.co.uk/article/0%2C%2C2-1867157%2C00.html |archivedate=January 13, 2006 |df= }}
16. ^¹²³⁴⁵{{cite web|author=ITE |title=Traffic Calming Measures – Speed Hump |url=http://www.ite.org/traffic/hump.htm |publisher=Institute of Transportation Engineers |deadurl=yes |archiveurl=https://web.archive.org/web/20070320152041/http://www.ite.org/traffic/hump.htm |archivedate=March 20, 2007 }}
17. ^{{cite web|author=Peter Partington|title=Speed Humps|url=http://www.trafficcalming.net/speed_humps.htm|publisher=Trafficcalming.net|accessdate=2014-03-14}}
18. ^{{cite web |author=trafficcalming.org |title=Speed Humps |url=http://trafficcalming.org/speedhumps.html |archive-url=https://web.archive.org/web/20010219114026/http://www.trafficcalming.org/SPEEDHUMPS.html |dead-url=yes |archive-date=2001-02-19 |publisher=Fehr and Peers |df= }}
19. ^{{cite web|title=SPEED BUMPS AND SPEED HUMPS|url=http://www.cga.ct.gov/2006/rpt/2006-r-0567.htm|publisher=www.cga.ct.gov|accessdate=9 June 2013}}
20. ^{{cite web|title=Speed Humps vs. Speed Bumps|url=http://www.maine.gov/mdot/csd/mlrc/technical/shsb.htm|publisher=www.maine.gov|accessdate=9 June 2013}}
21. ^{{cite web|url=http://nacto.org/docs/usdg/study_speed_humps_speed_slots_and_speed_cushions_johnson.pdf|title=A Comparative Study of Speed Humps, Speed Slots and Speed Cushions|last=|first=|date=|website=|publisher=|access-date=}}
22. ^{{cite web|url=http://nacto.org/docs/usdg/speed_cushions_grossepoint.pdf|title="SPEED CUSHIONS" A TRAFFIC CALMING TECHNIQUE|last=|first=|date=|website=|publisher=|access-date=}}
23. ^¹{{cite web|author=ITE |title=Traffic Calming Measures |url=http://www.ite.org/traffic/table.htm |publisher=Institute of Transportation Engineers |deadurl=yes |archiveurl=https://web.archive.org/web/20080414214406/http://www.ite.org/traffic/table.htm |archivedate=April 14, 2008 }}
24. ^¹{{cite web |author=trafficcalming.org|title=Speed Tables|url=http://trafficcalming.org/measures/speed-tables/ |publisher=Fehr and Peers |accessdate=2014-03-14}}
25. ^¹{{Cite web|url=https://www.smh.com.au/national/wombat-crossings-reduce-pedestrian-casualties-by-63-per-cent-says-new-study-20170516-gw5w2k.html|title='Wombat crossings' reduce pedestrian casualties by 63 per cent says new study|last=Power|first=Julie|date=May 16, 2017|website=Sydney Morning Herald|archive-url=|archive-date=|dead-url=|access-date=March 25, 2019}}
26. ^{{cite web|publisher=UK Department of Transport|url=http://www.opsi.gov.uk/si/si1999/uksi_19991025_en.pdf|title=Highways (Road Humps) Regulations 1999 (replacing the 1996 regulations)}}
27. ^{{cite news|url=http://www.autoexpress.co.uk/news/autoexpressnews/67775/speed_humps_dumped_after_protest.html|publisher=Auto Express|title=Speed humps dumped after protest}}
28. ^{{cite news|url=http://driving.timesonline.co.uk/tol/life_and_style/driving/article994719.ece|publisher=The Times|title=Bumps: Britain gets the hump| location=London| date=October 19, 2003| accessdate=May 23, 2010}}
29. ^{{cite news|url=http://www.strathspey-herald.co.uk/news/fullstory.php/aid/2691/Crash_victim_s_family_may_file_civil_action.html |publisher=Strathspey & Badenoch Herald |title=Crash victim's family may file civil action }}{{Dead link|date=May 2016|bot=medic}}{{cbignore|bot=medic}}

Composition

History

Speed bumps

Disadvantages

Dynamic speed bumps

Speed humps

Results

Comparison to speed bumps

Problems

Speed cushions

Advantages

Use in North America and Europe

Speed tables

Results

Advantages

In the United Kingdom

Opposition

See also

References

External links