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{{Short description|American experimental helicopter}}
{{Use mdy dates|date=December 2022}}
{{Use American English|date=December 2022}}
<!-- This article is a part of [[Wikipedia:WikiProject Aircraft]]. Please see [[Wikipedia:WikiProject Aircraft/page content]] for recommended layout. -->
<!-- This article is a part of [[Wikipedia:WikiProject Aircraft]]. Please see [[Wikipedia:WikiProject Aircraft/page content]] for recommended layout. -->
{|{{Infobox Aircraft Begin
{|{{Infobox Aircraft Begin
| name=CL-475
|name= CL-475
| image=Lockheed CL-475.jpg
|image= File:Lockheed CL-475.jpg
| caption=CL-475 flight testing at Edwards AFB
|caption= CL-475 flight testing at [[Edwards Air Force Base]]
}}{{Infobox Aircraft Type
}}{{Infobox Aircraft Type
| type=Experimental helicopter
|type= Experimental helicopter
| national origin=United States
|national origin= United States
| manufacturer=[[Lockheed Corporation|Lockheed]]
|manufacturer= [[Lockheed Corporation]]
| designer=Irven Culver
|designer= [[Irv Culver]]
| first flight=2 November 1959
|first flight= 2 November 1959
| introduced=
|introduced=
| retired=
|retired=
| status=On display
|status= Retired
| primary user=
|primary user=
| number built=1
|number built= 1
| developed from=
|developed from=
| variants with their own articles=
|variants with their own articles=
}}
{{Infobox aircraft career
|other names = <!--Other names (nicknames, nose art names) this aircraft is known by-->
|type = <!--Type of aircraft-->
|manufacturer = <!-- may differ from the main/original manufacturer of this aircraft's type -->
|construction number = <!-- manufacturer's construction number -->
|construction date = <!-- either roll-out date or span of time for lengthy projects, whichever seems more appropriate -->
|civil registration = N6940C<ref name="Francillon 1987"/> <!-- any civil registrations carried by this aircraft -->
|military serial = <!-- any military serial numbers carried by this aircraft -->
|radio code = <!-- military radio codes where this is a commonly-used way of identifying this aircraft (eg. US, British, and German military aircraft of WWII -->
|first flight = <!-- date of first flight -->
|owners = <!-- owners or operators, whether private individuals, companies, or military services -->
|in service = <!-- time in military or revenue service, as a range of dates -->
|last flight = <!-- date of last flight -->
|flights = <!-- number of flights made by this aircraft, usually only relevant for an aircraft no longer flying -->
|total hours = <!-- total number of hours flown by this aircraft, usually only relevant for an aircraft no longer flying -->
|total distance = <!-- total distance flown by this aircraft, usually only relevant for an aircraft no longer flying -->
|status = <!-- status for an aircraft still in service -->
|aircraft carried = <!-- type of aircraft carried, usually only for mothership aircraft -->
|fate = In storage at [[United States Army Aviation Museum]]<!-- fate/disposition of this aircraft -->
|preservation = <!-- where this aircraft is currently preserved (if it is) -->
}}
}}
|}
|}


The '''Lockheed CL-475''' (registration N6940C)<ref name="Francillon 1987">Francillon 1987</ref> is a two-seat, single-engine, light helicopter developed by [[Lockheed Corporation|Lockheed]] to explore rigid rotor technology. The CL-475 has a three-bladed main rotor and a two-bladed tail rotor. Only one was built.<ref name="Lockheed" />
The '''Lockheed CL-475''' is a two-seat, single-engine light helicopter developed by [[Lockheed Corporation|Lockheed]] to explore rigid rotor technology. The CL-475 has a three-bladed main rotor and a two-bladed tail rotor. Only one was built.<ref name="Lockheed" />


==Design and development==
==Design and development==
In 1958 Irv Culver presented to the Lockheed management an idea for how to rigidly attach the rotor blades of a helicopter to the hub. In 1920, [[Juan de la Cierva]] had tried the same concept, but had trouble controlling the rotor, because of excessive gyroscopic moments. Culver's research led him to believe that there was a way to control the excessive pitch and roll moments by incorporating a feedback system into the rotor. Culver's solution to high control moments was a device known as the "compliance factor". It kept the blades forward less than a degree, which would apply a corrective feathering input to the opposite blade. This essentially was the moment feedback system. Before presenting his ideas, he had built a radio-controlled model that demonstrated the feasibility of the concept. Lockheed gave him use of part of a flight test hangar, a flight test engineer and two mechanics.<ref>Cefaratt, Gil, "Lockheed: The People Behind the Story", Turner Publishing Company, 2002, {{ISBN|978-1-56311-847-0}}.</ref>
In 1958, [[Irv Culver]] presented an idea for how to rigidly attach the rotor blades of a helicopter to the hub, to the Lockheed management. In 1920, [[Juan de la Cierva]] had tried the same concept, but had trouble controlling the rotor, because of excessive gyroscopic moments. Culver's research led him to believe that there was a way to control the excessive pitch and roll moments by incorporating a feedback system into the rotor. Culver's solution to high control moments was a device known as the "compliance factor". It kept the blades forward less than a degree, which would apply a corrective feathering input to the opposite blade. This essentially was the moment feedback system. Before presenting his ideas, he had built a radio-controlled model that demonstrated the feasibility of the concept. Lockheed gave him use of part of a flight test hangar, a flight test engineer and two mechanics.<ref>Cefaratt, Gil, "Lockheed: The People Behind the Story", Turner Publishing Company, 2002, {{ISBN|978-1-56311-847-0}}.</ref>


The CL-475 is a two-seat helicopter with a fabric-covered steel and aluminum structure. The glazed cockpit provides side-by-side seating for two occupants. The landing gear is designed in a tricycle configuration, with two large wheels mounted alongside the bottom of the fuselage, and a nosewheel mounted underneath the cockpit. The helicopter is powered by a 140&nbsp;hp (104&nbsp;kW), four-cylinder, air-cooled [[Lycoming O-360|Lycoming O-360-A1A]] piston engine. Designed to test a rigid-rotor concept, it originally utilized a two-bladed wooden rotor.<ref name="Lockheed" />
The CL-475 is a two-seat helicopter with a fabric-covered steel and aluminum structure. The glazed cockpit provides side-by-side seating for two occupants. The landing gear is designed in a tricycle configuration, with two large wheels mounted alongside the bottom of the fuselage, and a nosewheel mounted underneath the cockpit. The helicopter is powered by a 140&nbsp;hp (104&nbsp;kW), four-cylinder, air-cooled [[Lycoming O-360|Lycoming O-360-A1A]] piston engine. Designed to test a rigid-rotor concept, it originally utilized a two-bladed wooden rotor.<ref name="Lockheed" />


After completion at Burbank, the CL-475 was taken to [[Rosamond Lake]] on [[Edwards Air Force Base]] in the [[Mojave Desert]] for testing. It was first flown on 2 November 1959, but the pilot reported severe vibrations. For six months, Lockheed experimented with three and four-bladed wooden rotors, but stability was finally achieved by using metal blades in a three-blade configuration and the addition of a gyroscopic control ring connected directly to the swashplate.<ref name="Francillon 1987"/> In the mid-1960s, the helicopter was test flown by a number of government and military agencies and the military. The stability offered by the rigid rotor control system made the helicopter easy to fly,<ref name="Lockheed" /> and the lessons learned from the CL-475 rigid rotor were later used to develop the XH-51 and AH-56A Cheyenne.
After completion at Burbank, the CL-475 was taken to [[Rosamond Lake]] on [[Edwards Air Force Base]] in the [[Mojave Desert]] for testing. It was first flown on 2 November 1959, but the pilot reported severe vibrations. For six months, Lockheed experimented with three and four-bladed wooden rotors, but stability was finally achieved by using metal blades in a three-blade configuration and the addition of a gyroscopic control ring connected directly to the swashplate.<ref name="Francillon 1987">Francillon 1987</ref> In the mid-1960s, the helicopter was test flown by a number of government and military agencies, and also the military. The stability offered by the rigid rotor control system made the helicopter easy to fly,<ref name="Lockheed" /> and the lessons learned from the CL-475 rigid rotor were later used to develop the [[Lockheed XH-51]] and [[AH-56 Cheyenne]].


In 1975, Lockheed donated the CL-475 to the [[National Air and Space Museum]]. The helicopter was loaned to the [[United States Army Aviation Museum]] at Fort Rucker, Alabama,<ref name="Francillon 1987"/> but is currently in the museum's storage.<ref name="AAM">United States Army Aviation Museum. ''[http://www.armyavnmuseum.org/museum/collection/rw1.html Rotary Wing Collection] {{webarchive|url=https://web.archive.org/web/20090707100004/http://www.armyavnmuseum.org/museum/collection/rw1.html |date=2009-07-07 }}''. United States Army Aviation Museum Association. 2 January 2003. Accessed on 13 July 2009</ref>
In 1975, Lockheed donated the CL-475 to the [[National Air and Space Museum]]. The helicopter was loaned to the [[United States Army Aviation Museum]] at Fort Rucker, Alabama,<ref name="Francillon 1987"/> but is currently in the museum's storage.<ref name="AAM">United States Army Aviation Museum. ''[http://www.armyavnmuseum.org/museum/collection/rw1.html Rotary Wing Collection] {{webarchive|url=https://web.archive.org/web/20090707100004/http://www.armyavnmuseum.org/museum/collection/rw1.html |date=2009-07-07 }}''. United States Army Aviation Museum Association. 2 January 2003. Accessed on 13 July 2009</ref>


==Specifications==
==Specifications==
{{Aircraft specs
{{aerospecs
|ref=<ref name="Lockheed">Francillon 1982, pp. 414-415</ref>
|ref=<ref name="Lockheed">Francillon 1982, pp. 414-415</ref>
|prime units? = imp
|met or eng?=<!-- eng for US/UK aircraft, met for all others -->eng

|crew=2
|crew=2
|capacity=
|length m=
|length ft=
|length in=
|span m=
|span ft=
|span in=
|swept m=<!-- swing-wings -->
|swept ft=<!-- swing-wings -->
|swept in=<!-- swing-wings -->
|rot number=<!-- helicopters -->1
|rot number=<!-- helicopters -->1
|rot dia m=<!-- helicopters -->9.75
|rot dia m=<!-- helicopters -->9.75
|rot dia ft=<!-- helicopters -->32
|rot dia ft=<!-- helicopters -->32
|rot dia in=<!-- helicopters -->0
|rot dia in=<!-- helicopters -->0
|dia m=<!-- airships etc -->
|dia ft=<!-- airships etc -->
|dia in=<!-- airships etc -->
|width m=<!-- if applicable -->
|width ft=<!-- if applicable -->
|width in=<!-- if applicable -->
|height m=2.82
|height m=2.82
|height ft=9
|height ft=9
|height in=3
|height in=3
|wing area sqm=
|wing area sqft=
|swept area sqm=<!-- swing-wings -->
|swept area sqft=<!-- swing-wings -->
|rot area sqm=<!-- helicopters -->
|rot area sqft=<!-- helicopters -->
|volume m3=<!-- lighter-than-air -->
|volume ft3=<!-- lighter-than-air -->
|aspect ratio=<!-- sailplanes -->
|empty weight kg=737
|empty weight kg=737
|empty weight lb=1625
|empty weight lb=1625
|gross weight kg=907
|gross weight kg=907
|gross weight lb=2000
|gross weight lb=2000
|lift kg=<!-- lighter-than-air -->
|lift lb=<!-- lighter-than-air -->

|eng1 number=1
|eng1 number=1
|eng1 type=[[Lycoming O-360|Lycoming VO-360-A1A]] four-cylinder air-cooled piston engine
|eng1 name=[[Lycoming O-360|Lycoming VO-360-A1A]] four-cylinder air-cooled piston engine
|eng1 kw=<!-- prop engines -->104
|eng1 kw=<!-- prop engines -->104
|eng1 hp=<!-- prop engines -->140
|eng1 hp=<!-- prop engines -->140
|eng1 kn=<!-- jet/rocket engines -->
|eng1 lbf=<!-- jet/rocket engines -->
|eng1 kn-ab=<!-- afterburners -->
|eng1 lbf-ab=<!-- afterburners -->
|eng2 number=
|eng2 type=
|eng2 kw=<!-- prop engines -->
|eng2 hp=<!-- prop engines -->
|eng2 kn=<!-- jet/rocket engines -->
|eng2 lbf=<!-- jet/rocket engines -->
|eng2 kn-ab=<!-- afterburners -->
|eng2 lbf-ab=<!-- afterburners -->

|max speed kmh=145
|max speed kmh=145
|max speed mph=90
|max speed mph=90
|max speed mach=<!-- supersonic aircraft -->
|cruise speed kmh=<!-- if max speed unknown -->
|cruise speed mph=<!-- if max speed unknown -->
|range km=120
|range km=120
|range miles=75
|range miles=75
|endurance h=<!-- if range unknown -->
|endurance min=<!-- if range unknown -->
|ceiling m=610
|ceiling m=610
|ceiling ft=2,000
|ceiling ft=2,000
|glide ratio=<!-- sailplanes -->
|climb rate ms=
|climb rate ftmin=
|sink rate ms=<!-- sailplanes -->
|sink rate ftmin=<!-- sailplanes -->

|armament1=
|armament2=
|armament3=
|armament4=
|armament5=
|armament6=
}}
}}


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|see also=
|see also=

|related=<!-- related developments -->
|related=<!-- related developments -->
* [[Lockheed XH-51]]
* [[Lockheed XH-51]]

|similar aircraft=<!-- similar or comparable aircraft -->
|similar aircraft=<!-- similar or comparable aircraft -->

|lists=<!-- related lists -->
|lists=<!-- related lists -->
* [[List of rotorcraft]]
* [[List of rotorcraft]]
Line 133: Line 95:


==References==
==References==
;Notes
===Notes===
{{reflist}}
{{reflist}}


;Bibliography
===Bibliography===
{{commons category|Lockheed CL-475}}
{{commons category|Lockheed CL-475}}
{{refbegin}}
{{refbegin}}
* {{cite book |last= Francillon |first= René J. |title=:Lockheed Aircraft since 1913 |year=1982 |publisher=Putnam & Company |location=London |pages= |isbn=0-370-30329-6}}
* {{cite book |last= Francillon |first= René J. |title=Lockheed Aircraft since 1913 |year=1982 |publisher=Putnam & Company |location=London |isbn=0-370-30329-6}}
* Francillon, René J. ''Lockheed Aircraft Since 1913''. Annapolis, Md: Naval Institute Press, 1987. {{ISBN|978-0-85177-805-1}}
* Francillon, René J. ''Lockheed Aircraft Since 1913''. Annapolis, Md: Naval Institute Press, 1987. {{ISBN|978-0-85177-805-1}}
{{refend}}
{{refend}}
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[[Category:Lockheed aircraft|CL-0475]]
[[Category:Lockheed aircraft|CL-0475]]
[[Category:United States experimental aircraft 1950–1959]]
[[Category:1950s United States experimental aircraft]]
[[Category:United States helicopters 1950–1959]]
[[Category:1950s United States helicopters]]
[[Category:Single-engined piston helicopters]]
[[Category:Single-engined piston helicopters]]
[[Category:Rigid rotor helicopters]]
[[Category:Rigid rotor helicopters]]

Latest revision as of 08:10, 13 October 2023

CL-475
CL-475 flight testing at Edwards Air Force Base
Role Experimental helicopter
National origin United States
Manufacturer Lockheed Corporation
Designer Irv Culver
First flight 2 November 1959
Status Retired
Number built 1
Career
Registration N6940C[1]
Fate In storage at United States Army Aviation Museum

The Lockheed CL-475 is a two-seat, single-engine light helicopter developed by Lockheed to explore rigid rotor technology. The CL-475 has a three-bladed main rotor and a two-bladed tail rotor. Only one was built.[2]

Design and development[edit]

In 1958, Irv Culver presented an idea for how to rigidly attach the rotor blades of a helicopter to the hub, to the Lockheed management. In 1920, Juan de la Cierva had tried the same concept, but had trouble controlling the rotor, because of excessive gyroscopic moments. Culver's research led him to believe that there was a way to control the excessive pitch and roll moments by incorporating a feedback system into the rotor. Culver's solution to high control moments was a device known as the "compliance factor". It kept the blades forward less than a degree, which would apply a corrective feathering input to the opposite blade. This essentially was the moment feedback system. Before presenting his ideas, he had built a radio-controlled model that demonstrated the feasibility of the concept. Lockheed gave him use of part of a flight test hangar, a flight test engineer and two mechanics.[3]

The CL-475 is a two-seat helicopter with a fabric-covered steel and aluminum structure. The glazed cockpit provides side-by-side seating for two occupants. The landing gear is designed in a tricycle configuration, with two large wheels mounted alongside the bottom of the fuselage, and a nosewheel mounted underneath the cockpit. The helicopter is powered by a 140 hp (104 kW), four-cylinder, air-cooled Lycoming O-360-A1A piston engine. Designed to test a rigid-rotor concept, it originally utilized a two-bladed wooden rotor.[2]

After completion at Burbank, the CL-475 was taken to Rosamond Lake on Edwards Air Force Base in the Mojave Desert for testing. It was first flown on 2 November 1959, but the pilot reported severe vibrations. For six months, Lockheed experimented with three and four-bladed wooden rotors, but stability was finally achieved by using metal blades in a three-blade configuration and the addition of a gyroscopic control ring connected directly to the swashplate.[1] In the mid-1960s, the helicopter was test flown by a number of government and military agencies, and also the military. The stability offered by the rigid rotor control system made the helicopter easy to fly,[2] and the lessons learned from the CL-475 rigid rotor were later used to develop the Lockheed XH-51 and AH-56 Cheyenne.

In 1975, Lockheed donated the CL-475 to the National Air and Space Museum. The helicopter was loaned to the United States Army Aviation Museum at Fort Rucker, Alabama,[1] but is currently in the museum's storage.[4]

Specifications[edit]

Data from [2]

General characteristics

  • Crew: 2
  • Height: 9 ft 3 in (2.82 m)
  • Empty weight: 1,625 lb (737 kg)
  • Gross weight: 2,000 lb (907 kg)
  • Powerplant: 1 × Lycoming VO-360-A1A four-cylinder air-cooled piston engine , 140 hp (104 kW)
  • Main rotor diameter: 32 ft 0 in (9.75 m)

Performance

  • Maximum speed: 90 mph (145 km/h, 78 kn)
  • Range: 75 mi (120 km, 65 nmi)
  • Service ceiling: 2,000 ft (610 m)

See also[edit]

Related development

Related lists

References[edit]

Notes[edit]

  1. ^ a b c Francillon 1987
  2. ^ a b c d Francillon 1982, pp. 414-415
  3. ^ Cefaratt, Gil, "Lockheed: The People Behind the Story", Turner Publishing Company, 2002, ISBN 978-1-56311-847-0.
  4. ^ United States Army Aviation Museum. Rotary Wing Collection Archived 2009-07-07 at the Wayback Machine. United States Army Aviation Museum Association. 2 January 2003. Accessed on 13 July 2009

Bibliography[edit]

Wikimedia Commons has media related to Lockheed CL-475.
  • Francillon, René J. (1982). Lockheed Aircraft since 1913. London: Putnam & Company. ISBN 0-370-30329-6.
  • Francillon, René J. Lockheed Aircraft Since 1913. Annapolis, Md: Naval Institute Press, 1987. ISBN 978-0-85177-805-1
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