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It’s not the lumbar support that matters so much,
it’s shifting the hips and pelvis into the proper
position. |
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| Oregon
Aero seating rotates the pelvis forward, creating a smooth
lumbar curve and painless sitting. |
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| The
"upper body hinge" shifts to the middle of the
neck. |
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| Our
instinct says the more lumbar support the better, but
that’s not true. It’s shifting the hips and
pelvis. |
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| Variations
in cushion thickness are used only to accommodate a person’s
physical characteristics and the cockpit environment.
Comfort and impact protection are not affected. |
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| Visco-elastic
foam wedges are the building blocks for designing cushions with
compound curves, extruded from our proprietary "Wedge-o-Matic"
wedge machine. |
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| Materials
and cushion designs work together to create painless seating. |
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 |
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| This
portable, digital measuring arm helps Oregon Aero digitally
reverse engineer models used to design seat cushion systems.
Here it’s used on an F-4 Phantom ejection seat. |
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| The
trick is to get all the solutions to all the problems working
together. |
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| The
dramatically effective seat cushion systems come from Oregon
Aero’s extensive research, meticulous design and innovative
use of materials. |
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| What
Oregon Aero has learned is how to get all the solutions to all
the problems working successfully at the same time. |
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| Aerobatic
competitor Sean D. Tucker flies with an Oregon Aero custom seat
cushion system. |
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| Pain-Free
Flying, No Matter How Long the Flight! |
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 |
Seat
Cushions Systems: The VK
SmartCushion™ Upgrade |
 |
| |
The
Good, the Bad and Why Oregon Aero Seat Cushion
Systems
Are Painless:
The Story With Pictures |
"Sit
up straight!" It turns out your parents were right. Sitting
straight helps create a smooth lumbar curve, essential for seating
comfort. But it’s impossible to sit correctly in conventional
seating, which is why sitting is painful. Oregon Aero seat cushion
systems, on the other hand, provide pain-free sitting.
Here is the story in pictures. |
Oregon
Aero Painless Seating:
Proper Lumbar Curve and Pelvic Position |
| 1 |
 |
| • |
Painless
Sitting! |
| • |
Pelvis
rotated forward |
| • |
Smooth
lumbar curve |
|
| 2 |
 |
| • |
Pelvis
and lumbar in painless position |
| • |
Pelvis
rotated forward |
| • |
Ideal
angle between vertebrae |
| • |
See
x-ray |
|
| 3 |
 |
| • |
Closeup
of lumbar vertebra and disk in painless position |
| • |
Loose,
no strain or stress |
| • |
Ideal
relative surfaces of adjacent vertebrae |
| • |
Remember:
disks are naturally wedge-shaped |
| • |
See
x-ray |
|
| 4 |
 |
PAINLESS
SEATING WITH OREGON AERO CUSHIONS
| • |
Pelvis
is rotated forward |
| • |
Smooth
lumbar curve |
| • |
Shoulders
and head shift effortlessly into painless position |
| • |
Shown
with Portable Universal SoftSeat® Cushion, but same
painless seating occurs with all Oregon Aero seat cushion
systems. |
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| |
A
carefully placed pelvic rotator repositions the pelvis, which
restores the lumbar curve. A gentle lumbar cushion (not one
that pushes hard) stabilizes the lumbar curve. When this is
done, the head and shoulders move back to an effortless, painless,
upright position. No more slouch, no more pain! |
X-Ray
of Person Sitting In the Oregon Aero APECS® I Ejection
Seat Cushioning System |
| While
these x-rays and data compare ejection seats, the same improvements
will occur with any Oregon Aero seat cushion system,
compared to conventional seating. |
 |
This
x-ray should convince anybody who's still a skeptic! It shows
that what we illustrate with models and say with words IS TRUE.
The position shown in this x-ray is ideal for painless sitting.
This position also produces the greatest resistance by the spine
to injury from a vertical acceleration in the straight-up "Z"
axis of the spine. |
| Click
on photo above to enlarge. |
| Line
A: |
Horizontal datum (point from which other data is measured). |
| Line
B: |
Angle
of the pelvis relative to the Line A. Angular difference from
the horizontal datum (Line A) is +13°. Ideal position. |
| Arc
XX : |
Radius
of the lumbar spine, 24.5 cm. Ideal position. |
| Line
C-1: |
Surface
of the vertebra relative to Line D-1, the surface of the adjacent
vertebra (i.e., angular measurement of the vertebrae relative
to each other). Angular difference is 9°. Ideal position.
|
| Line
C-2: |
Surface
of the vertebra relative to Line D-2, the surface of the adjacent
vertebra (i.e. angular measurement of the vertebrae relative
to each other). Angular difference is 7°. Ideal position.
|
| Why
Are Conventional Seats Painful? |
| 1 |
 |
•
Our body
weight lands on the pelvis’ ischial tuberosity (the "sits
bones") but the center of gravity of the upper body is
behind the sits bones — SO |
| 2 |
 |
•
The pelvis
is rotated back, down and around the sits bones. This flattens
the lumbar spine and compresses the anterior (front) of the
disks at the lumbar spine (see two closeup photos), causing
pain. |
| 3 |
 |
| • |
Anterior
surfaces of wedge-shaped lumbar disk compressed to parallel
position by pelvic rotation back and down |
| • |
Undesirable, painful position |
| • |
Produces
low back strain, pain |
| • |
Remember:
disks are naturally wedge-shaped |
| • |
See
x-ray of conventional/stock
cushion |
|
| 4 |
 |
| • |
Using
cushion to push on the lumbar doesn’t overcome gravity! |
| • |
Pelvis
tipped back and down |
| • |
Anterior
surfaces of wedge-shaped lumbar disk compressed to parallel
position |
| • |
Undesirable
relative surfaces of adjacent vertebrae |
| • |
Painful
position |
| • |
Produces
low back strain, pain |
| • |
See
x-ray of conventional/stock
cushion |
|
| 5 |
 |
Our
instinctive response is to try and place pressure under the
pelvis by slouching or using some kind of lumbar support, but
this results in a complete curvature of the spine, compressing
all of the disks up to the neck. Look closely at the spine photo
and at Mike slouched in his office chair. Look (and feel) familiar?
Note the top of the spine is rotated forward.
This is felt as a tendency for the head and chest to fall forward
and compress the diaphragm area of the upper abdomen. So —
with great effort — we try to sit straight and pull our
shoulders back. All of this is our clue that the pelvis is rotated
back and down and that our back will hurt eventually, no matter
what we do with lumbar cushions! |
| 6 |
 |
| Oregon
Aero designs all our cushion products in order to provide a
gentle rotation of the pelvis. This rotation restores the lumbar
curve and removes the compression strain from the spinal disks
(see spine photos with Oregon Aero seating). |
X-Ray
of Person Sitting In a Stock Ejection Seat |
| While
these x-rays and data compare ejection seats, the same improvements
will occur with any Oregon Aero seat cushion system,
compared to conventional seating. |
 |
The
position shown in this x-ray produces low back strain and pain.
This position also diminishes by 50% the spine's ability to
withstand a vertical acceleration in the straight-up "Z"
axis of the spine. |
| Click
on photo above to enlarge. |
| Line
A: |
Horizontal datum (point from which other data is measured). |
| Line
B: |
Angle
of the pelvis relative to the Line A. Angular difference from
the horizontal datum (Line A) is -6.5°. Undesirable, painful
position. |
| Arc
XX : |
Radius
of the lumbar spine, 76 cm. Undesirable, painful position. |
| Line
C-1: |
Surface
of the vertebra relative to Line D-1, the surface of the adjacent
vertebra (i.e., angular measurement of the vertebrae relative
to each other). Angular difference is <1°, not even measurable.
Disks are compressed. Painful position. |
| Line
C-2: |
Surface
of the vertebra relative to Line D-2, the surface of the adjacent
vertebra (i.e. angular measurement of the vertebrae relative
to each other). Angular difference is <1°, not even measurable.
Disks are compressed. Painful position. |
Comparative
Data:
Oregon Aero X-Ray Vs. Conventional Seating X-Ray |
| While
these x-rays and data compare ejection seats, the same improvements
will occur with any Oregon Aero seat cushion system,
compared to conventional seating. |
| Data |
Number
Considered Ideal for Painless Sitting & Injury Resistance |
Oregon
Aero Seat Cushion System |
Conventional/
Stock Seat |
| Pelvic
Angle |
12°
- 13° |
+13° |
-6.5° |
| Lumbar
Radius |
24 - 25
cm |
24.5
cm |
76
cm |
| Relationship
of adjacent lumbar vertebrae |
7°
- 9° |
7°
- 9° |
<1° |
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|
