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| United States Patent Application |
20060108473
|
| Kind Code
|
A1
|
|
Phanumphai; Polchai
|
May 25, 2006
|
EMERGENCY LANDING SYSTEM - FIXED WING AIRPLANE
Abstract
The purpose of this invention is to prevent and/or reduce the loss of life
during an emergency landing of an airplane away from an airport
environment. This is possible by eliminating one of its wings and using
the other wing to perform in the same manner as the rotor of a
helicopter. Thus, the whole airplane will spin because of its momentum
imbalance, and a transferring linear momentum into angular momentum. The
airplane will in effect be in a controlled auto-rotation and the altitude
and ground approach velocity will be greatly reduced to a near zero speed
upon touchdown. The result can be achieved by placing controlled
explosive devices coupled with a rocket or jet inside one of the wing
structures. The explosives devices and the rocket/jet engine, with the
direction of thrust to the front, will cause the wing to separate from
the fuselage and provide a very strong lateral impulse or spin on a
horizontal plane. This lateral spin with one wing remaining will provide
the centrifugal force required to maintain auto-rotation and the
remaining wing will provide the control surface to maintain lift
necessary to maintain the horizontal attitude of the airplane until it
reaches the ground.
| Inventors: |
Phanumphai; Polchai; (Bangkok, TH)
|
| Correspondence Name and Address:
|
RACHASAK PHANUMPHAI
9417 E. ARIZONA PLACE
DENVER
CO
80247
US
|
| Assignee Name and Adress: |
Phanumphai; Polchai
483 Soi Viphavadee 42 Viphavadee Rd., Jatujak
Bangkok
TH
|
| Serial No.:
|
904675 |
| Series Code:
|
10
|
| Filed:
|
November 23, 2004 |
| U.S. Current Class: |
244/110A |
| U.S. Class at Publication: |
244/110.00A |
| Intern'l Class: |
B64C 25/54 20060101 B64C025/54 |
Claims
1. Any means of eliminating one of the airplane wings in a rearward
direction by using an explosive or retro-rockets.
2. Any method of reducing airplane forward speed, and transferring linear
momentum into angular momentum. Transfer of forward velocity to create
spin around the center of gravity.
3. Any method that will result in the fixed wing airplane being able to
auto-rotate by transferring it's linear momentum to angular momentum and
use the fuselage and remaining wing to produce lift, the same as a
helicopter in auto-rotation. This system is designed to work even when
forward velocity is lower than stall speed.
4. Any means to reduce the horizontal velocity of the airplane. Rotate the
fuselage and use the side of the fuselage and the vertical stabilizer as
an air brake.
5. Any means to slow the descent of the airplane by utilizing
retro-rockets or jets under the fuselage. The downward thrust of the
retro-jets will soften the landing.
6. The emergency landing system for a fixed wing airplane as in claim 1-5,
where the said system is capable of being operated remotely from ground
or interceptor airplane.
Description
[0001] Currently, there are no emergency landing systems for fixed wing
airplane that adequately protect passengers while performing an emergency
landing at a distance from an airport facility.
[0002] As we all know, airplane accidents can create great cost in
casualties in the air and on the ground, as well as great property
losses. Upon analysis, it can be said that the greatest number of
casualties are not a result of high altitude, but because of the high
velocity impact and incorrect airplane approach attitude on the
horizontal plane. The purpose of this invention is to provide a means to
correct and control the approach attitude and to reduce the horizontal
speed to near zero velocity when the airplane touches down. This will
result in greatly reduced numbers of casualties and reduce the numbers
and severity of major injuries.
[0003] FIG. 1--View from underneath the airplane of this invention
[0004] An airplane, in immediate risk of crash landing, equipped with the
emergency landing system needs to perform an emergency landing away from
an airport environment. The scenario using the system is as follows:
[0005] The pilot activates the emergency landing system (in case of a
terrorist threat, the system is designed so that it may also be activated
remotely from the ground or another airplane). Upon activation the plane
will still be flying (based on the conditions of the existing emergency),
and the pilot(s), even in a no power situation, will be then able to
decrease altitude. At the predetermined altitude (depending upon types of
airplane), a signal from the altimeter will detonate the explosive
charges, with the thrust forward 1, causing a controlled separation of
the wing, and the thrust needed to cause a very strong force in the
rearward direction of this wing. The explosive devices will provide
enough to break the wing from the airplane at the fuselage 2. This force
will then, make the whole airplane spin on a horizontal plane and in the
direction of the missing wing 3. This spin will cause the following:
[0006] (1) The spin will cause centrifugal force between the wing that
remains intact and the fuselage. Thus maintaining the horizontal plane of
the airplane while in a spiral spin. [0007] (2) The spin will cause the
intact wing to work in the same manner as the rotor of the helicopter,
producing lift, so that the airplane slowly decreases altitude, instead
of a free fall descent. [0008] (3) During the rotation spin, the
fuselage and vertical stabilizer will help in decreasing speed, because
of friction with the air. [0009] (4) The airplane will decrease altitude
at a much slower rate. If the emergency landing occurs in a forested
area, the peaks of the trees will provide a cushion to help absorb
rotation/impact energy. [0010] (5) If the emergency landing occurs on
open land or over water, the ground effect which will be present
increases the lift efficiency of the wing by about 25%, increasing the
"soft" landing effect.
[0011] When the airplane achieves a close proximity to the ground, a set
of rockets or jets mounted under the fuselage 4 will ignite, with a
downward thrust. This downward thrust will further slow the descent of
the airplane and thus give a softer landing.
[0012] An additional advantage of this invention is that it can be used as
terrorist deterrent. In case of hijacking, the remote control
capabilities from ground or interceptor airplane may be employed to bring
the airplane to ground prior to it being used as an airborne weapon, far
from the anticipated target, and in an area that can be controlled to
reduce the loss of life from such an event as was seen on 9/11.
[0013] In conclusion, to reduce the number of fatalities in most airplane
crashes, it is necessary to lower the air speed and descent rate of the
airplane in a controlled manner.
[0014] Through utilization of all aspects of this emergency landing
system, initiated from within the at risk airplane or remotely, both the
air speed and rate of descent can be reduced to controlled and
sustainable speed/rate, thus providing a greater possibility of reducing
the loss of life to a minimum.
* * * * *
