Coaxial-rotor aircraft: Difference between revisions

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Revision as of 15:37, 14 February 2023 edit ElectronicsForDogs (talk \| contribs) Extended confirmed users 984 edits m Added link for context Tag: 2017 wikitext editor ← Previous edit		Latest revision as of 16:42, 27 December 2023 edit undo John of Reading (talk \| contribs) Autopatrolled, Extended confirmed users, Pending changes reviewers 761,891 edits m →Coaxial multirotors: Typo fixing, replaced: an quad → a quad Tag: AWB
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Line 1: {{Short description\|~~Position~~Helicopter ofwith ~~helicopter~~two sets of rotor blades placed on top of ~~eachother~~each other}} {{tooshort\|date=July 2023}} ~~[[File:KamowK32A.jpg\|thumb\|right\|300px\|[[Kamov Ka-27\|Kamov Ka-32A-12]]]]~~ [[File:Ukrainian Ka-27PS on USS Taylor (cropped).jpg\|thumb\|right\|300px\|A Ukrainian Navy [[Kamov Ka-27]]]] ~~'''Coaxial~~A ~~rotors~~'''coaxial-rotor or aircraft'''~~coax~~ ~~rotors'''~~is ~~are~~an a[[aircraft]] ~~pair of~~whose [[helicopter rotor\|rotors]]s are mounted one above the other on [[Concentric objects\|concentric]] shafts, with the same axis of rotation, but turning in opposite directions ([[contra-rotating]]). This rotor configuration is a feature of helicopters produced by the [[Russia]]n [[Kamov]] helicopter [[design bureau]]. == History == Line 15 ⟶ 18: == Design considerations == [[File:Gyrodyne QH-50 ~~DD-692 1967~~(cropped).jpg\|thumb\|A [[Gyrodyne QH-50 DASH\|QH-50]] on board the USS ''Allen M. Sumner'' during a deployment to Vietnam, 1967]] Having two coaxial sets of rotors provides symmetry of forces around the central axis for lifting the vehicle and laterally when flying in any direction. Because of the mechanical complexity, many helicopter designs use ~~alternate~~alternative configurations to avoid problems that arise when only one main rotor is used. Common alternatives are single-rotor helicopters or [[Tandem rotors\|tandem rotor]] arrangements. === Torque === Line 44 ⟶ 47: == Coaxial multirotors == [[File:OnyxStar HYDRA-12.jpeg\|thumb\|Coaxial hexacopter -– OnyxStar HYDRA-12 from [[AltiGator]]]] [[Multirotor]] type [[unmanned aerial vehicle]]s exist in numerous configurations including duocopter,<ref>{{Cite web\|title=DuoCopter, the perfect drone\|url=https://www.research-drone.com/en/DuoCopter.html\|access-date=2021-11-13\|website=www.research-drone.com}}</ref> tricopter, [[quadcopter]], hexacopter and octocopter. All of them can be upgraded to coaxial configuration in order to bring more stability and flight time while allowing carrying much more payload without gaining too much weight. Indeed, coaxial [[multirotor]]s are made by having each arm carrying two motors facing in opposite directions (one up and one down). Therefore, it is possible to have ana quad-axis, octorotor ~~looking like a quadcopter~~airframe thanks to coaxial configuration. ~~Special~~ Duocopters are characterised by two motors aligned in a vertical axis. The control is performed by the appropriate acceleration of a single rotor blade for targeted thrust generation during revolution. Having more lifting power for a greater payload explains why coaxial multirotors are preferred for nearly all ~~professional~~large-payload commercial ~~application~~applications of [[Unmanned aerial vehicle\|UAS]].<ref>{{cite web\|url=http://www.coptercraft.com/multirotor-frame-configurations/\|title=Multirotor Frame Configurations\|work=Coptercraft\|access-date=23 December 2015}}</ref> == Reduced hazards of flight == Line 73 ⟶ 76: * [[Bréguet-Dorand Gyroplane Laboratoire]] (1936) * [[Cierva CR Twin]] (1969) * [[Cranfield Vertigo\|Cranfield ''Vertigo'']] (1987) * [[Eagle's Perch]] (1998) * [[EDM Aerotec CoAX 2D/2R]] * [[Gyrodyne QH-50 DASH]] * [[Hiller XH-44]] (1944) * [[Kamov Ka-108]] (1947) * [[Kamov Ka-1510]] (1949) * [[Kamov Ka-1815]] (1953) * [[Kamov Ka-2518]] (1955) * [[Kamov Ka-2625]] (1963) * [[Kamov Ka-2726]] (1965) * [[Kamov Ka-5227]] (1974) * [[Kamov Ka-50]] (1982 and 1997 for Ka-52) * [[Kamov Ka-92]] * [[Kamov Ka-126]] (1988) * [[Kamov Ka-226]] (1997) * [[Manzolini Libellula]] (1952) * [[Phoenix Skyblazer]] (2011) Line 94 ⟶ 99: * [[Sikorsky/Boeing SB-1 Defiant]] * [[Wagner Aerocar]] * [[Ingenuity (helicopter)\|Mars helicopter ''Ingenuity'']] (2021) == See also ==