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GyroplaneS Stability & Design

GyroplaneS Stability & Design. By: Timothy O’Connor. Overview…. The gyroplane or Autogyro was invented by Juan de la Cierva in 1919. Cierva wanted to build a flying machine that was safer than fixed wing aircraft and could not stall or spin.

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GyroplaneS Stability & Design

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  1. GyroplaneSStability & Design By: Timothy O’Connor

  2. Overview…. The gyroplane or Autogyro was invented by Juan de la Cierva in 1919. Cierva wanted to build a flying machine that was safer than fixed wing aircraft and could not stall or spin. Cierva succeeded and the safety record of his autogyros is unparalleled in aviation.

  3. Overview…. Ironically, Juan de la Ciervadiedwhenthefixedwingcommercialtransport in which he was a passengerstalled and crashedontakeoff. Desiring the short take off and landing abilities of the autogyro, plus the ability to hover, the helicopter was developed principally from Cierva’s patents. The remaining autogyro companies did not survive the great depression. Engineers continued to develop the helicopter and the autogyro was almost forgotten by industrial aviation.

  4. Overview…. Igor Bensen, an aerospace engineer working for General Electric was given the job of studying German WWII gyrokites used for target spotting by submarines. From this, Bensen designed and developed a kit-built, single person, pusher autogyro he called the ‘gyrocopter’. The gyrocopter plans were sold through catalogs and magazines. Essentially creating the homebuilt aircraft hobby.

  5. Overview…. As the homebuilt market developed and took off many companies copied Bensen’s gyrocopter and sold kits of their own. Thesecompanystriedto ‘improve’ thegyrocopterbyaddinglargerprops, new engines, better looks and new styles. UnlikeCierva’sautogyrosorBensen’sgyrocopterthese new machines werenotdesignedbyaeronauticalengineers. The new designs failed to take into account the ramifications larger engines and props would have on the aerodynamics of the gyroplane. Many of these designs were terribly dangerous and the resulting high fatality rate changed the autogyro from being the safest aircraft in the sky to the most dangerous.

  6. Overview…. As gyroplane fatalities grew a number of people started to look into the causes. What they found is the kit manufacturers that copied Bensen’s gyrocopter failed to take into account the importance of placing the center of gravity (CG) in the thrust-line of the propeller and the necessity of pitch stability. With these lessons learned, the current generation of gyroplane kits have now at last returned to Cierva’s dream of a safe aircraft that cannot stall or spin.

  7. Understanding the problem…Thrust-line offset

  8. What is a “Push-Over”? Effects What happens if you push on the back of grandma’s rocking chair near the top of the head rest?

  9. What is a “Push-Over”? Effects What happens if instead of pushing on the back of the headrest of grandma’s chair you push on the back of her butt?

  10. What is a “Push-Over”? Effects When you push on grandma’s seat your thrust is in-line with her center of gravity and she is pushed forward. When you push on grandma’s headrest she rotates around her center of gravity.

  11. What is a High Thrust Line and Center Line Thrust? When you push above grandma’s center of gravity (CG) your thrust line is high (HTL) When your push is centered on grandma’s CG you have Center Line Thrust (CLT) HTL CLT

  12. Applying what we havelearned to gyroplanes…

  13. What does HTL and CLT have to do with gyroplanes? As stated earlier the original autogyros and the Bensen gyrocopter were designed by people with aeronautical engineering experience. These machines were designed so that the thrust line from the engine passes through the center of gravity (CG). Cierva patented this design and Bensen documented it in his manuals. So all engineer-designed gyroplanes were CLT.

  14. What does HTL and CLT have to do with gyroplanes? When hobbyists got into the business of making gyroplane kits they made some changes… Larger engines… Larger props… 2-side-by-side seats… Enclosures… “sports car” styling But when they made these changes they did not hire aeronautical engineers to audit the designs.. The result: A flaw.. Gyroplanes that were unstable, HTL and thus…unsafe. PPO events are the leading killer of both low and high-time gyroplane pilots and passengers.

  15. Some Post-Bensen Design Changes.. Larger Engine Larger Prop Reduction Drive Lowered Gas Tank Side by Side Seating Enclosures Each change increases the thrust-line off-set and the speed and ease in which the gyro can pitch over. Result… a HTL gyroplane design.

  16. What is wrong with a HTL design?.. HTL gyroplanes can be very safe and reliable. However, let’s first talk about potential safety issues with HTL designs… The problem with HTL designs is that they have the potential to pitch over. A gyroplane pitch over is called a Power Push Over (PPO). Rotor-Thrust Engine Thrust If the rotorblades stop producing thrust (such as in a near-zero G event) then the power from the engine can pitch the gyro over (PPO). This event is unrecoverable and almost always fatal. A Center Line Thrust (CLT) gyroplane can not PPO. Therefore it is immune to this problem.

  17. What can cause a near-zero G event? 1. PIO – Pilot induced oscillation Strong turbulence 3. Steep Climb and Push-over 4. Strong down drafts

  18. Solving these problems…

  19. What can reduce the causes of near-zero G events? PIO – Pilot induced oscillation • Training • Flying a Stable Gyro 2. Strong turbulence 1. Training 2. Weather Awareness 3. Flight Planning 4. Good Decision Making 5. Flying a Stable Gyro • 3. Strong down drafts • 1. Training • 2. Weather Awareness • 3. Flight Planning • 4. Good Decision Making • 5. Flying a Stable Gyro • 4. Steep Climb and Push-over • Training • Flying a Stable Gyro

  20. What can reduce the susceptibility of gyroplanes to Power Push Overs (PPOs)? Fly a stable gyroplane Adding a horizontal stabilizer will GREATLY reduce the risk of PIO, the leading cause of PPOs. Horizontal stabilizers are more effective when placed on a long moment arm (like an extended keel) or in the prop-wash. • Lower the Thrust Line Offset • If the thrust-line of your gyroplane is more then 2-3 inches higher then the CG you can reduce the susceptibility of PPOs by lowering the thrust-line. • Any HTL gyroplane can PPO, however the larger the offset the faster the PPO will happen and the less warning you will have before the event (if any).

  21. Can Power Push Overs (PPOs) be eliminated by TRAINING? • Almost. (HTL, Stable) • If your gyroplane is very stable throughout its flight envelope, has a large horizontal stabilizer and the thrust-line of your gyroplane is only a few inches (1-4) you are ‘near center-line thrust’. PPO avoidance training can reduce your chance of PPO greatly. No. (HTL, Unstable) If the gyroplane has a very high thrust-line offset and no horizontal stabilizer, there is no amount of training or experience that can make you PPO-proof. Many well trained, experienced pilots and CFI’s have died in PPO accidents in gyroplanes like these. No Very High Thrust-line+Unstable Moderate Thrust-line + Stable Almost

  22. How to Eliminate PPOs Completely! • Effective Horizontal Stabilizer. • A large properly designed Horizontal Stabilizer in the propeller wash can keep a gyroplane from PPO-ing. Center Line Thrust! CLT gyroplanes can not PPO. Many gyroplane designs use CLT to eliminate PPO events.

  23. What is the best placement for Horizontal Stabilizers? Good Better • Size • Moment Arm • (as far back as possible) • Prop Stream The more effective the Horizontal Stabilizer the better it reduces PIO/PPO events. However to eliminate PPO at all airspeeds it almost has to be immersed in the prop stream

  24. Mitigating and fixing design flaws in legacy gyroplanes.. Flawed Mitigated Fixed HTL & Unstable Prone to PIO/PPO HTL & Stable Resistant to PIO/PPO CLT & Stable Unable to PPO Resistant to PIO CLT & Stable Unable to PPO Resistant to PIO Hstab Added Large Hstab on Extended Keel Dropped keel lowers Engine and thrust line Brings stab into wash HTL & Unstable

  25. Resources and Credits…

  26. Learn more… www.pra.org www.rotaryforum.com http://gyrowiki.com www.prachapter34.com www.gyronation.com www.TheGyroBee.com GREAT video.. http://video.google.com/videoplay?docid=3094889465571781052 (or search for Basics of gyroplane stability on google video..)

  27. Thanks! Chuck Beaty Greg Gremminger Doug Riley Michael GuardJohn Stahl And everyone at… The Rotary Forum

  28. Wake UP!!The presentation is over!

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