flight controls - ftpcabair · pdf fileflying controls •there are 4 methods of actuating...
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![Page 1: FLIGHT CONTROLS - ftpcabair · PDF fileFLYING CONTROLS •There are 4 methods of actuating flying controls. These are: - Manual - Electric - Pneumatic - Hydraulic •In addition, the](https://reader034.vdocument.in/reader034/viewer/2022051600/5a9e0c307f8b9a420a8ce594/html5/thumbnails/1.jpg)
FLIGHT CONTROLS
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AXES OF CONTROL
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CONTROL SURFACES
Elevator
Rudder
Ailerons
Trailing Edge
Flaps
Leading Edge
Flaps
Spoilers
Flaperons
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FLYING CONTROLS• There are 4 methods of actuating flying controls. These are:
- Manual- Electric- Pneumatic- Hydraulic
• In addition, the non-manual systems can be sub-classified as eitherPower operated or Power assisted
• On large transport aircraft, both control surfaces and operating systems are duplicated (at least) to provide redundancy
• Effectiveness depends on:- Distance from aircraft CG- Control surface area- Degree of deflection- Dynamic pressure (IAS)
• Controls are said to be reversible if aerodynamic loads provide feedback (feel) to the pilot; they are irreversible if no such feedback is provided. Such systems need artificial feel
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Basic Principle ofFully Manual Control System
A manual flight control system uses a collection of mechanical parts such as:
pushrods, tension cables, pulleys, counterweights, sometimes chains
to transmit the forces applied to the cockpit controls directly to the control surfaces.
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Fly-by-Wire Systems
A fly-by-wire (FBW) system replaces manual flight control of an aircraft with an electronic interface.
Flight control movements are converted to electronic signals transmitted by wires (fly-by-wire term), and flight control computers determine how to move the actuators at each control surface to provide the expected response.
Computer commands are also input without the pilot's knowledge to stabilize the aircraft, perform other tasks and provide flight envelop protection.
Reduces weight and pilot workload
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Control
column
Control lever
Pressure fluidPilot valve
Servo unit
Power Assisted
Movement of the control
column will move both the
flying control and the pilot
valve
Reversible controls
Power Operated
Movement of the control
column only moves the
pilot valve
Irreversible controls
Pivot point
Pivot point
POWER ASSISTED & POWER OPERATED
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CONTROL LOCKS
• Aircraft controls are normally locked on the ground to prevent damage caused by wind movement. In light aircraft these can be fitted either externally at the control surfaces or in the cockpit to prevent movement of the cockpit controls
• In larger aircraft, with electro-hydraulic systems, the controls lock automatically when power is removed. Other types of locks on larger aircraft consist of mechanical, lever and cable operated bolts or pins, that are engaged from within the aircraft
CONTROL STOPS
• Manually operated controls are fitted with stops to limit their range of movement. These are classified in 2 ways:
- Primary stops are fitted to the control surfaces- Secondary stops are fitted to the cockpit controls
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GROUND LOCKS
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ARTIFICIAL FEEL (Q-FEEL)
• Artificial feel systems are designed to increase control column/rudder pedal forces to reflect increases in:
- IAS (q) by sensing dynamic pressure- Control deflectionin order to reduce the chance of overstressing the aircraft
• Normally duplicated and fitted in parallel with the control runs
Hydraulic
Actuator
Servo
Feel unit
Feel unit
Control
Column
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ARTIFICIAL FEEL (Q-FEEL)
‘q’ PotStatic pressure
Hydraulic
pressure
Pitot pressure
Diaphragm
Metering
valve
Feel piston
Control
spring
To control
run
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TAKE-OFF CONFIGURATION WARNING SYSTEM (TOCWS)
• Gives a warning on the ground prior to take-off if the aircraft is incorrectly configured and the throttles are advanced• Required inputs could include:
- Control locks removed- All powered flying controls operative- Feel simulators operative- Flap settings correct- Slat settings correct- Trim within limits- ‘Aileron upset’ armed but not applied- Speedbrakes/spoilers in- Doors locked
* ‘Aileron Upset’ is a system that biases ailerons up in order to move the wing centre of pressure inwards and reduce wing bending stresses
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CONTROL POSITION INDICATIONS
• In addition to TOCWS, most large aircraft have control position indicators. A typical, non-EFIS system is shown below:
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SPEED BRAKE INDICATION
SPEED BRAKE DO NOT ARM illuminates with an amber coloured light when there is an abnormal condition
SPEED BRAKE ARMED illuminates green when the automatic system is operating correctly
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SPEED BRAKE INDICATION
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TRIM TABS
Purpose is to zero control column/rudder pedal loads
a
b
F1
F2
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TRIM CONTROLS
Elevator
Trim
Rudder
Trim
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BALANCE TABS
• Purpose is to provide aerodynamic balance and make it easier for the pilot to move the controls. There are a number of different types
• Simple balance tab:
As the elevator is moved this automatically moves the trim tab
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Servo Tab
Spring Tab
Control lever free to pivot
against spring pressure
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ANTI-BALANCE TAB
• The anti-balance tab makes it more difficult to move the controls
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VARIABLE INCIDENCE TAILPLANE
• Control is effected by normal elevators, with trimming being accomplished by changing the position of the tailplane using a trim jack
Trim jack with input
from trim control
Mechanical lock prevents
flutter and creep
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MASS BALANCING
The purpose of mass balancing is to prevent flutter
This is accomplished by fitting weights ahead of the control hinge line to move its centre of gravity onto or ahead of the hinge line
Aircraft with powered, irreversible controls do not suffer from flutter
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AERODYNAMIC BALANCING
Aerodynamic forces assist the pilot in moving the controls
Airflow
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Aerodynamic balancing may also be assisted by use of an internal balance or balance panel (horn balances and inset hinge lines may also be utilised)
AERODYNAMIC BALANCING
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Tabs & Balancing
Horizontal Stabiliser
Elevator
Trim Tab Servo TabAerodynamic
Balance
BAe 146
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AILERONSAilerons are primary control surfaces mounted on the trailing edge of the wing, near the wing tip.
Some aircraft have a second set of ‘inboard ailerons’ mounted closer to the fuselage - these ailerons are used in high-speed flight instead of the normal ailerons to overcome the problems associated with wing twist due to the forces generated by the normal ailerons at the wing tip.
Aileron
Inboard Aileron
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ADVERSE AILERON YAW
When ailerons are deflected, the downgoing aileron (on the upgoingwing) produces more drag than the upgoing aileron
This will yaw the aircraft in the opposite direction from the roll (and intended direction of turn). This is undesirable and inefficient
The following design features are incorporated to reduce or eliminate this adverse aileron yaw:
- Frise ailerons- Differential ailerons- Aileron/rudder coupling- Spoilers for roll control
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Frise Ailerons
Frise ailerons have an asymmetric leading edge
The up-going aileron protrudes below the surface of the wing, causing high drag
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ELEVONS
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RUDDERVATORS
V-tail with Ruddervators
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TAILERONS/ALL-MOVING TAILPLANE/STABILATOR
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CANARDS
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Fowler Flap
HIGH LIFT DEVICES (TRAILING-EDGE)• All aircraft employ high-lift devices. Some typical trailing-edge devices are as follows:
Plain FlapSplit Flap
Zap Flap Double Slotted Flap
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TYPICAL TRAILING-EDGE FLAP CONTROL
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Flap retracted
Flap extended
Flap retracted
Flap lowered
HIGH LIFT DEVICES (LEADING-EDGE)• Typical leading-edge high lift devices are:
• Flaps are fitted to the inboard section of the leading edge; slats with slots are fitted to the outboard sections
Leading edge flap
Kreuger flap
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KREUGER FLAP
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HIGH LIFT DEVICES (LEADING-EDGE)
Slat with slot
Slat retracted
Slat extended
Slot
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BOEING 777 CONTROL SURFACESPitch control is provided by 2 elevators and a movable horizontal stabiliser. Roll control is provided by 2 flaperons, 2 ailerons and 14 spoilers.
In the normal mode the flaperons are used for roll control with the flaps either retracted or extended. For increased lift, they move down and aft in proportion to trailing edge flap extension.
For increased lift, the ailerons move down for flaps 5, 15, and 20, to improve takeoff performance.In the normal mode, the ailerons and spoilers 5 and 10 are locked out during high-speed flight; the flaperons and remaining spoilers provide sufficient roll control. During low speed flight, these panels augment roll control.
A single rudder provides yaw control. The lower portion of the rudder has a hinged section that deflects twice as far as the main rudder surface to provide additional yaw control authority.
Flaps and slats provide high lift for takeoff, approach, and landing.
Asymmetric spoilers assist in roll control. Symmetric spoilers are used as speedbrakes.
A 2-position Krueger flap provides a seal between the inboard slat and engine nacelle.