Yoke (aeronautics)

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Collection of control yokes at Boeing Future of Flight Museum: 747, 707, B-29, Trimotor. The former two yokes are W-shaped, while the latter two are circular. BoeingControlYokes.jpg
Collection of control yokes at Boeing Future of Flight Museum: 747, 707, B-29, Trimotor. The former two yokes are W-shaped, while the latter two are circular.
The cockpit of Concorde, which has an M-shaped yoke mounted on a control column ConcordeCockpitSinsheim.jpg
The cockpit of Concorde, which has an M-shaped yoke mounted on a control column
The cockpit of an Embraer ERJ with an M-shaped yoke Cabine do aviao R99.jpg
The cockpit of an Embraer ERJ with an M-shaped yoke
"W"/"U" style yoke in a Cessna 152 light aircraft, mounted on a horizontal tube protruding from the instrumental panel Pilotska kabina zrakoplova.JPG
"W"/"U" style yoke in a Cessna 152 light aircraft, mounted on a horizontal tube protruding from the instrumental panel
Circular, steering-wheel type yoke in a 1940s Lisunov Li-2 Li-2 HA-LIX Cockpit 01.jpg
Circular, steering-wheel type yoke in a 1940s Lisunov Li-2
Cirrus SR22 panel showing both side yokes SR22TN Perspective Cockpit.jpg
Cirrus SR22 panel showing both side yokes
Cessna 162 Skycatcher instrument panel Cessna 162 Skycatcher N5201K 0986 instrument panel.JPG
Cessna 162 Skycatcher instrument panel

A yoke, alternatively known as a control wheel or a control column, is a device used for piloting some fixed-wing aircraft. [1]

Contents

The pilot uses the yoke to control the attitude of the plane, usually in both pitch and roll. Rotating the control wheel controls the ailerons and the roll axis. Fore and aft movement of the control column controls the elevator and the pitch axis. [1] When the yoke is pulled back, the nose of the aircraft rises. When the yoke is pushed forward, the nose is lowered. When the yoke is turned left, the plane rolls to the left, and when it is turned to the right, the plane rolls to the right.

Small to medium-size aircraft, usually limited to propeller-driven, feature a mechanical system whereby the yoke is connected directly to the control surfaces with cables and rods. Human muscle power alone is not enough for larger and more powerful aircraft, so hydraulic systems are used, in which yoke movements control hydraulic valves and actuators. In more modern aircraft, inputs may first be sent to a fly-by-wire system, which then sends a corresponding signal to actuators attached to the aileron booster systems and control surfaces. Yokes may feature a stick shaker, which is designed to help indicate the onset of stall, or even a stick pusher, which physically pushes the yoke to prevent a stall.

Styles

Yokes come in a variety of shapes and sizes, the most common being of a "U" or "W" design. Some aircraft use a "ram's horn" style yoke, shaped like an "M", such as Embraer aircraft and the Concorde. There are some rarer exotic or archaic styles, such as circular or semi-circular designs, much like a steering wheel.

In larger aircraft they are usually on a post protruding vertically from the floor, referred to as a control column. In most other planes, they are pivot point mounted on a horizontal tube that comes out of the instrument panel.

In the case of the Cirrus SR20 and Cirrus SR22, although the control looks like a side stick, it works like a yoke handle (referred to in the industry as a "side yoke"). [2] [3] [4] The Cessna 162 uses a similar device. [5] [6]

Advantages and disadvantages

Side-sticks and centre-sticks are better for making rapid control inputs and dealing with high g-forces, hence their use in military, sport, and aerobatic aircraft. However, yokes are less sensitive (i.e., more precise) due to a larger range of motion and provide more visual feedback to the pilot. [7]

Most yokes are connected and will both move together, thus providing instant indication to the other pilot when one makes a control input. This is in contrast to some fly-by-wire control sticks that allow each pilot to send different, and sometimes greatly conflicting, inputs. Competing inputs are signaled on Airbus craft.

Yokes take up more room than side-sticks in the cockpit and may even obscure some instruments; by comparison, side-sticks have minimal cockpit intrusion, allowing the inclusion of retractable tray-tables and making it easier to enter/leave small cockpits. [8] [9]

A yoke, unlike a side-stick, may be used comfortably with either hand. This can be useful if one needs to write or manipulate other controls in the cockpit. This advantage is shared with the center-stick. [7]

Ancillary functions

The yoke often incorporates other key functions such as housing thumb or finger buttons to enable the radio microphone, disengage the autopilot, and trim the aircraft. In addition, there may be a clipboard, checklist, or chronometer located in the yoke's center. [10] [11] [12] [13]

Alternative control systems

Yokes are not used on all aircraft. Airships use a ship's wheel, helicopters use a cyclic, [14] and the majority of military fighter aircraft use a center or side-stick. Some light aircraft use a stick due to pilot preference. The latest Airbus family of passenger jets use a side-stick, similar to a joystick, to actuate control surfaces. [15] [16]

There are also computer input devices designed to simulate a yoke, intended for flight simulators.

See also

Related Research Articles

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Fly-by-wire (FBW) is a system that replaces the conventional manual flight controls of an aircraft with an electronic interface. The movements of flight controls are converted to electronic signals, and flight control computers determine how to move the actuators at each control surface to provide the ordered response. Implementations either use mechanical flight control backup systems or else are fully electronic.

<span class="mw-page-title-main">Cockpit</span> Room from which a pilot controls an aircraft or spacecraft

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<span class="mw-page-title-main">Stick shaker</span> Mechanical device in an aircraft cockpit to warn the pilot of an imminent stall

A stick shaker is a mechanical device designed to rapidly and noisily vibrate the control yoke of an aircraft, warning the flight crew that an imminent aerodynamic stall has been detected. It is typically present on the majority of large civil jet aircraft, as well as most large military planes.

<span class="mw-page-title-main">Autopilot</span> System to maintain vehicle trajectory in lieu of direct operator command

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<span class="mw-page-title-main">Glass cockpit</span> Aircraft instrumentation system consisting primarily of multi-function electronic displays

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<span class="mw-page-title-main">Elevon</span> Aircraft control surface used to control pitch and roll

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<span class="mw-page-title-main">Cirrus SR20</span> Single-engine general aviation aircraft

The Cirrus SR20 is an American piston-engined, four- or five-seat composite monoplane built since 1999 by Cirrus Aircraft of Duluth, Minnesota. The aircraft is the company's earliest type-certified model, earning certification in 1998.

<span class="mw-page-title-main">Cirrus SR22</span> Single engine general aviation aircraft

The Cirrus SR22 is a single-engine four- or five-seat composite aircraft built since 2001 by Cirrus Aircraft of Duluth, Minnesota, United States.

<span class="mw-page-title-main">Cessna 162 Skycatcher</span> American side-by-side two-seat light sport airplane

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<span class="mw-page-title-main">Centre stick</span>

A centre stick, or simply control stick, is an aircraft cockpit arrangement where the control column is located in the center of the cockpit either between the pilot's legs or between the pilots' positions. Since the throttle controls are typically located to the left of the pilot, the right hand is used for the stick, although left-hand or both-hands operation is possible if required.

<span class="mw-page-title-main">Side-stick</span> Aircraft control

A side-stick or sidestick controller is an aircraft control stick that is located on the side console of the pilot, usually on the righthand side, or outboard on a two-seat flightdeck. Typically this is found in aircraft that are equipped with fly-by-wire control systems.

<span class="mw-page-title-main">Flight envelope protection</span>

Flight envelope protection is a human machine interface extension of an aircraft's control system that prevents the pilot of an aircraft from making control commands that would force the aircraft to exceed its structural and aerodynamic operating limits. It is used in some form in all modern commercial fly-by-wire aircraft. The professed advantage of flight envelope protection systems is that they restrict a pilot's excessive control inputs, whether in surprise reaction to emergencies or otherwise, from translating into excessive flight control surface movements. Notionally, this allows pilots to react quickly to an emergency while blunting the effect of an excessive control input resulting from "startle," by electronically limiting excessive control surface movements that could over-stress the airframe and endanger the safety of the aircraft.

<span class="mw-page-title-main">Flight control modes</span> Aircraft control computer software

A flight control mode or flight control law is a computer software algorithm that transforms the movement of the yoke or joystick, made by an aircraft pilot, into movements of the aircraft control surfaces. The control surface movements depend on which of several modes the flight computer is in. In aircraft in which the flight control system is fly-by-wire, the movements the pilot makes to the yoke or joystick in the cockpit, to control the flight, are converted to electronic signals, which are transmitted to the flight control computers that determine how to move each control surface to provide the aircraft movement the pilot ordered.

Throughout a normal flight, a pilot controls an aircraft through the use of flight controls including maintaining straight and level flight, as well as turns, climbing, and descending. Some controls, such as a "yoke" or "stick" move and adjust the control surfaces which affects the aircraft's attitude in the three axes of pitch, roll, and yaw. Other controls include those for adjusting wing characteristics and those that control the power or thrust of the propulsion systems. The loss of primary control systems in any phase of flight is an emergency. Aircraft are not designed to be flown under such circumstances; however, some pilots faced with such an emergency have had limited success flying and landing aircraft with disabled controls.

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References

  1. 1 2 Crane, Dale: Dictionary of Aeronautical Terms, third edition, page 563. Aviation Supplies & Academics, 1997. ISBN   1-56027-287-2.
  2. "10 Ways that the SR22 Changed Flying". Flying . Retrieved 13 March 2018.
  3. "Detailed Comparison of the Cessna TTx and Cirrus SR22T G5 | High Performance Aviation, LLC". High Performance Aviation. Retrieved 13 March 2018.
  4. "Flight Test: G5 Cirrus SR22T". Pilot. Retrieved 13 March 2018.
  5. Larson, George C. "A Flight In A Skycatcher". Air & Space Magazine. Retrieved 19 May 2018.
  6. "Aircraft Spotlight: The Cessna 162 Skycatcher - A Modern, Cost Effective Trainer". www.aopa.org. 19 November 2017. Retrieved 19 May 2018.
  7. 1 2 Mc Clellan, J. Mac (May 2008). "New Gulfstream, p. 52". Flying Magazine. 135 (5): 52–57. Retrieved 7 July 2012. ... sidesticks don't provide visual feedback and actually don't move much at all as they respond to the pressure applied by the human pilot ... in the G650 when you grab the yoke and move it, the one on the other side will respond just as it does on a conventional airplane.
  8. "Learning To Fly In A Cirrus SR22". planeandpilotmag.com.
  9. "Gear Up: One Big Airplane Training in US Airways' newest A330 simulator". flyingmag.com.
  10. Picture of the Canadair CL-600-2B19 Regional Jet CRJ-200ER aircraft
  11. Picture of the Lockheed C-130H Hercules (L-382) aircraft
  12. Picture of the McDonnell Douglas DC-9-32 aircraft
  13. Picture of the Beech 58 Baron aircraft
  14. How Helicopters Work
  15. "Fly-by-wire - A CIVIL AVIATION FIRST". Airbus / Innovation / Proven concepts / In design / Fly-by-wire. Airbus . Retrieved 6 July 2012.
  16. Flying the Airbus side stick - the one with the fastest thumb wins!
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