词条 | Roof flap |
释义 |
A roof flap is an aerodynamic feature on race cars, mainly stock cars, which functions as an emergency spoiler to prevent the vehicle from lifting off the ground. The flaps are stowed during normal vehicle operation; however, in certain situations, e.g., if the vehicle goes into a spin, particularly if it is facing backwards, the flaps deploy to disrupt the air flow over the roof and reduce the lift force on the vehicle. NASCAR mandates that cars in the Monster Energy and Xfinity series have two roof flaps positioned near the rear of the vehicle, with the left flap oriented perpendicular to the length of the car and the right flap angled 45° counter-clockwise (when looking downward) from the left flap.[1] Trucks in the Camping World Truck Series only have the angled flap, due to the smaller roof area of the pickup truck type greenhouse and lower overall lift potential of the body shape. Originally, the flaps each measured {{convert|12|in|cm}} wide by {{convert|8|in|cm}} tall.[1] Following several incidents where cars became airborne in Sprint Cup races in preceding years, NASCAR mandated new, larger flaps to increase their effectiveness, introduced with the "Car of Tomorrow" fifth generation body style in 2007. Flap specs were enlarged again for the "Generation 6" body styles which debuted in 2013. For the 2013 season, the flaps measured {{convert|10.25|in|cm}} tall by {{convert|24.7|in|cm}} tall on the left side, and {{convert|10.125|in|cm}} by {{convert|33.5|in|cm}} on the right.[2] The new flaps are designed to deploy more quickly than the previous design, and include canvas "parachutes" on their underside to further disrupt airflow when deployed.[3] A race car's body is designed to optimize downforce, but if that body is spun so air is flowing in reverse, lift is generated instead of countered.[1] The roof flaps' job is to disrupt that airflow and prevent lift.[4] The decision to implement a safety device to keep cars on the ground came after two crashes in 1993. In the first, Rusty Wallace barrel-rolled through the infield Talladega in 1993 after being tagged by Dale Earnhardt exiting the tri-oval. Wallace's car spun backwards, and lifted off the ground. The car landed in a grassy area of the track and his car tumbled violently down the frontstretch. In August of that same year, Johnny Benson spun off turn two at Michigan and flipped down the backstretch. NASCAR tested a restrictor plate at Charlotte that September but driver lobbying led to development of the roof flaps. "We developed them so NASCAR would not slow the cars down more," said the devices' primary engineer, Jack Roush. Following Matt Crafton's flip at Daytona in 2017, NASCAR developed flaps that are located on the decklid of the trucks, meant to keep the trucks from getting airborne due to their tendency to do so despite the angled flap on their roofs (most likely due to how much lighter the rears of the trucks are compared to Xfinity and Cup cars in combination with the much taller and wider spoiler than the higher tier series.). These flaps are designed to deploy as the truck goes around, venting the air through the decklid, which often acted as a parachute before. However, upon introduction at Talladega that fall, it was found that the center flap would often deploy on track as the trucks qualified or raced. This was likely due to the positioning of the flap, being close to the rear windshield on the trucks. The pocket of low pressure caused by turbulence of the air coming around the trucks' cabs is likely what caused it to deploy. This resulted in stunted qualifying runs and the inability to keep the trucks grouped in packs during racing as a result of how vastly it changed the flow of air around the trucks. They did prove effective in their purpose later in the race when Cody Coughlin wrecked with others during the Talladega race, when his truck threatened to go airborne upon turning backwards, but set back down, although ontop of another truck in the process. References1. ^1 2 {{cite book|last=Leslie-Pelecky|first=Diandra L.|title=The physics of NASCAR: how to make steel + gas + rubber|year=2008|publisher=Dutton|isbn=0-525-95053-2|pages=103–104|url=https://books.google.com/books?id=OAK3yFlHoTAC&pg=PA104&dq=%22roof+flaps%22&ei=biz_S_W4G4PgNZrr9NAP&cd=2#v=onepage&q=%22roof%20flaps%22&f=false}} {{NASCAR-stub}}2. ^{{Cite web|url=http://www.foxsports.com/nascar/story/roof-flap-alterations-no-penallties-31-teams-sprint-cup-nationwide-daytona-international-speedway-071013|title=NASCAR decides to not penalize 31 teams caught tampering with roof flaps at Daytona|last=Spencer|first=Lee|website=FOX Sports|access-date=2016-05-27}} 3. ^{{cite web|url=http://www.nascar.com/en_us/news-media/articles/2013/01/18/new-roof-flaps-help-nascar-keep-cars-grounded.html|title=New roof flaps help keep NASCAR cars grounded|last=Caraviello|first=David|publisher=NASCAR.com|date=January 18, 2013|accessdate=January 18, 2013}} 4. ^{{cite news|last=Ryan|first=Nate|title=NASCAR: Edwards' roof flaps worked properly at Talladega|url=https://www.usatoday.com/sports/motor/nascar/2009-04-27-talladega-follow_N.htm|accessdate=May 28, 2010|newspaper=USA Today|date=April 28, 2009}} 3 : Automotive technologies|Auto racing equipment|Motorsport terminology |
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