๐ ๐ฆ๐๐ข๐ฅ๐ง ๐๐จ๐๐๐ ๐ง๐ข ๐๐ข๐ก๐ง๐ฅ๐ข๐ ๐ฆ๐จ๐ฅ๐๐๐๐๐ฆ
A SHORT GUIDE TO
CONTROL
SURFACES
Have you ever seen those weird rectangular surfaces on the top of the wing deploy after landing? They are spoilers, a type of control surfaces. What are control surfaces? Have you ever wondered about their functionality? Are
they essential on planes?
Well, you have come to the right blog for this!
Some of the control surfaces include ailerons,
elevators and a rudder, however, in delta-winged aircraft, the ailerons and
elevators are merged to form elevons. However, we must not rush, and cover each
of the topics slowly.
Letโs begin!
What are ailerons?
There is a pair of ailerons present on a plane,
usually located on the outward trailing edge of each wing. They are used to
control the roll of the aircraft- for example rolling to the left requires the
left aileron to tilt upwards, deflecting some air up from the left wing, thus
pushing the left wing downwards, while the right aileron is required to tilt
downwards, deflecting some air down from the right wing, effectively pushing the
right wing up.
Ailerons are required to maintain the roll control of
the aircraft. But why are they necessary? Let us take a plane without ailerons.
If a gust of wind hits the plane, it may alter the
roll of the plane by a little. But over time, the roll angle continues to
increase until the plane reaches the maximum bank angle, loses lift, stalls and
crashes. We can clearly see how important ailerons are in a plane.
Think it out-
Why donโt we want to lose ailerons, especially in a Sopwith Camel?
Hint: It has a rotary engine which rotated clockwise.
(Check the end for the answer, but donโt forget to
guess.)
What are elevators?
There is a pair of elevators on a plane, usually
located on the trailing edge of the Horizontal Stabilizer. The elevators
control the pitch of the aircraft. For example, to pitch the plane up, the
elevator tilts upwards, deflecting wind upwards and thus pitching the tail
down, resulting in the nose pitching up. To
pitch the plane down, the elevator tilts downwards, deflecting wind downwards
and thus pitching the tail up, resulting in the nose pitching down.
Thus, the elevators are essential for maintaining the
pitch control of the aircraft. The elevators are usually attached to each other,
and they cannot move independently, unlike ailerons. But why are they
necessary?
If a plane had no elevators, it wouldnโt be able to
climb at all. It would keep accelerating on the runway, overshoot it, and
crash. If a plane lost its elevators mid-flight, it would not be able to pitch
up or down. If its nose pitched up by any chance, it wouldnโt be able to level
off, and the pitch of the aircraft will continue to increase, until it stalls
out and crashes.
The rudder is located on the trailing edge of the Vertical
Stabilizer. It is responsible for the yaw control of the aircraft. To yaw the
plane left, the rudder tilts left, deflecting air to the left and thus yaws the
plane to the left. To yaw the plane right, the rudder tilts right, deflecting
air to the right and thus yaws the plane to the right.
Rudders are necessary for maintaining yaw control of
the aircraft. But why are they necessary?
If a plane had no rudder, the only way for it to turn
would be banking and pulling up. However, that is not an option during takeoff
or landing. If a plane encountered crosswinds during landing, it would not be
able to correct its heading. Since turning would require a bank, it could
suffer a wingstrike on the runway, which could have severe consequences.
We have completed all the main control surfaces, but
what about elevons?
Well, we will cover it now, and also go over some
intermediate surfaces.
Elevons are only present in delta-winged aircraft, and
there are a pair of them present. They are present on the trailing edge of the
delta wing. They perform the role of both ailerons and elevators, i.e., they
are responsible for both pitch and roll control of the aircraft. They provide
extra lift to a supersonic aircraft when they are in the downward position, but
they also pitch the nose downwards. They are usually present in delta-winged
combat aircraft, although the Concorde and Tupolev Tu-144 also had them.
Intermediate surfaces (If you read the above information,
you may not read this part since you already have a basic understanding of the
main control surfaces, this just provides some extra information)
What are flaps?
Flaps are present on the trailing edge of an aircraft
wing. They help to generate extra lift at low speeds and therefore are useful
during takeoff and landing. They are retracted during cruise and are deployed
during takeoff and landing.
What are slats?
Slats are similar to flaps, but they are present on
the leading edge of the wing. The slats help reducing the stall speed of the
aircraft, and is retracted during cruise. They are deployed during takeoff
landing.
What are flaperons?
Flaperons are a
combination of flaps and ailerons and they help provide roll control of the
aircraft at low speeds. The flaperons are present between the flaps and
ailerons on commercial planes.
What are spoilers?
Spoilers are present on the top of the wing. They
disrupt the airflow over the wing and thus reduces the lift. They are only
deployed during landing.
What are airbrakes?
Airbrakes can be present in various places in various
planes. For example, it is present at the back of the fuselage in the Avro RJ100.
It is used to slow down the aircraft after landing. In military aircraft, they
are used to achieve a higher descent rate if needed.
The Sopwith Camel was a World War 1 era biplane manufactured by Sopwith Aviation Company. According to Newtonโs Third Law of Motion, every motion has an opposite reaction. Therefore, as the engine rotated clockwise, the plane tended to roll anti-clockwise. Therefore, the pilot had to apply constant pressure on the stick to keep the plane level. The plane would start rolling and enter a spin if their ailerons were shot off. Therefore, the Sopwith Camel required skilled pilots to fly it. The ailerons were absolutely necessary on the Sopwith Camel.
Proof of Concept: -
This will be a new
section on some of my Blogs, I hope you enjoy it!
To support my opinions, I will show a few videos of a paper plane with rudders and elevons (since most paper planes are delta-winged).
Instructions - To add elevons on a paper plane, cut a slit about 1 cm from the spine on the trailing edge of each wing. Carefully fold it to form moveable rectangles on the outer trailing edge of each wing. Now, all you have to do is to adjust the angles of the elevons to get different results. To predict the outcomes, read the section about elevators and ailerons. Combine the knowledge to predict the outcomes of various elevon positions. When the elevons are angled upwards about 8ยฐ,the plane offers excellent low speed performance- Never angle it to more than 10ยฐ,as it may result in the plane stalling. Angling it downwards will probably cause it to nosedive in delta-winged paper planes, but if you find the golden number (different for each plane), you can cause them to work as flaps, however this works only when the plane has a parallel chord wing or close to that, as angling the elevons downwards will just cause the plane to nosedive and crash, at quite high speeds.
If you liked the style of this blog, please leave a comment.
Awesome my son๐!Keep blogging !
ReplyDeleteThank you very much for your kind feedback!
DeleteAwesome soumen...keep it up
ReplyDeleteThank you very much for your kind feedback Baibhav!
DeleteFantastic..very informative..keep shining โค
ReplyDeleteThank you very much for your kind feedback!
DeleteGreat
ReplyDeleteThank you for your kind feedback!
DeleteAwesome ๏ฟฝ๏ฟฝ
ReplyDeleteGreat work Laal. Very nice inception๐๐ป
ReplyDeleteVery nice and informative ..... keep it up.
ReplyDeleteAwesome bro
ReplyDeleteIncredible work man!
ReplyDeleteI appreciate your feedback very much! Thank you.
Delete