V-280 & other current (non V-22) Tilt Rotor Aircraft

Jeff Head

General
Registered Member
Notice on the V-280 that only the forward portion of the engine nacell rotates...pretty much just the prop.

That IS HUGE because on the V-22 the entire engine ncell rotates.

Here's a great article

Please, Log in or Register to view URLs content!


0001 v280.jpg

Military Daily News said:
A top official from Bell Helicopter said the company's design for the
Please, Log in or Register to view URLs content!
's future tiltrotor fleet will be far different than the 30-year-old design of the
Please, Log in or Register to view URLs content!
.

The chopper, known as the V-280 Valor, is part of the Army's Joint Multi-Role Demonstrator program to develop the technology for the Pentagon's Future Vertical Lift program.

The concept aircraft advances the design of the V-22, the first tiltrotor aircraft flown by
Please, Log in or Register to view URLs content!
and
Please, Log in or Register to view URLs content!
, according to Vince Tobin, vice president of Advanced Tiltrotor Systems for Bell Helicopter.

"The V-22 has instructed on what tiltrotors can do, and that is great, but the V-280 is not a V-22," Tobin told an audience Thursday at an Army aviation symposium put on by the Association of the United States Army.

"We are going to do it better than we did on the V-22. The V-22 was designed in the 1980s ... and we have taken it under our imperatives to fix what wasn't perfect on the V-22 and get as close to perfect as we can on the V-280."

Bell, which is owned by Textron Inc., partnered with Lockheed to develop the V-280, which is scheduled to make its first demonstration flight next year.

The Army's development effort could lead to a potentially $100 billion Future Vertical Lift program to replace the service's fleets of
Please, Log in or Register to view URLs content!
utility helicopters made by Sikorsky and
Please, Log in or Register to view URLs content!
attack helicopters made by Boeing, though any aircraft probably wouldn't enter service until the 2030s.

"Back in 2011, one of the first things we wrestled with is do we want a ramp or do we want a ramp or do we want doors," Tobin said. "We ended up making the decision that the Army comes out of medium aircraft out of side doors. It was a bigger deal than you might think because if you know about a V-22, the entire cell rotates engine and all ... and everything that has to go between that has to go through that rotation point.

"We had fellow engineers that were pretty convinced that there was no way that you could not rotate the engines. It took us having to show a picture of the XV2 -- the very first tiltrotor ... that picture gave the engineers a little bit of a challenge that said the fellow engineers of the 1950s figured it out so we need to figure it out."

The resulting fixed-engine design opened the door for other improvements, Tobin said. In addition to allowing for side doors, the new design resulted in an improved wing design, he said.

Engineers originally thought that the wings on the V-22 had to be swept forward, Tobin said.

"The reason why V-22 wings are swept forward is because the engineers at the time didn't know how far the blades would flap in forward flight," Tobin said. "If you don't know how far the blades are going to flap, you better sweep the wings forward so the blades and the wings don't come in contact with each other.

"What we learned from over 300,000 hours now of V-22 flying is those blades don't flap in forward flight."

Selecting a straight wing design meant that that the mid-wing gear box was unneeded, Tobin said.

"Now we don't have to have a drive system coming into change the direction over top of the fuselage like on the V-22s ... that was a big deal -- no mid-wing gear box. We are down from five gear boxes on a V-22 to four."

The new wing design is now ready for the upcoming demonstration, Tobin said.

"We actually have a wing put together for the demonstrator -- the upper and lower surfaces are on the wing, all the hydraulics lines, all the electrical and all the test equipment is inside," Tobin said. "We are putting this airplane together, and we expect to fly it in the fall of 2017."

0002 V280.jpg

But, @TerraN_EmpirE ...I know where I would target that aircraft if I were shooting at it.

They need to protect that huge open area between the engine and the rotor on each nacelle somehow.

You land a 12.7mm round in there and your are going to cause some catastrophic damage me thinks...not to metronome an RPG.
 

TerraN_EmpirE

Tyrant King
Notice on the V-280 that only the forward portion of the engine nacell rotates...pretty much just the prop.

That IS HUGE because on the V-22 the entire engine ncell rotates.

Here's a great article

Please, Log in or Register to view URLs content!





View attachment 41972

But, @TerraN_EmpirE ...I know where I would target that aircraft if I were shooting at it.

They need to protect that huge open area between the engine and the rotor on each nacelle somehow.

You land a 12.7mm round in there and your are going to cause some catastrophic damage me thinks...not to metronome an RPG.
I have been thinking about just that Jeff. Like the Osprey if that was to happen I figure the pilot would push the oposet engine down throttle up and fly it like a twin engine turbo prop with a engine out.
 

Jeff Head

General
Registered Member
I have been thinking about just that Jeff. Like the Osprey if that was to happen I figure the pilot would push the oposet engine down throttle up and fly it like a twin engine turbo prop with a engine out.
A lot of his ability to do that will depend on what position and attitude and condition the one engine is locked into when hit.

I am hoping that they have some defaults built in for catostophic damage that causes the engine to automatically go into a condition that will allow just for that...but the linkages are very complex...more so than rotating the entire nacell (which rotation point can be hidden and protected more easily).

I have to think that they have thought of all of this and have answers...but I see a HUGE oening right there and am hoping that it does not allow for too much to come in. It syre looks like it could at this point...but w are still a long way from a finished product too.
 

TerraN_EmpirE

Tyrant King
V-280 Completes Low Power Ground Run; Program Ahead of FVL Pace
By S.L. Fuller | October 3, 2017

Please, Log in or Register to view URLs content!
,
Please, Log in or Register to view URLs content!
,
Please, Log in or Register to view URLs content!
,
Please, Log in or Register to view URLs content!
,
Please, Log in or Register to view URLs content!


Bell Helicopter’s V-280 Valor tiltrotor (above video courtesy of Bell Helicopter) is being developed under the U.S. Army-led Future Vertical Lift (FVL) Joint Multi-Role Technology Demonstrator (JMR-TD) program to fulfill the Capability Set 3 requirement for a medium-lift aircraft. But the company thinks that, should long-talked-about defense acquisition reform come to fruition, that future could be closer than anticipated.
Please, Log in or Register to view URLs content!
was announced at the beginning of September. Bell said the aircraft completed its first low power ground run Sept. 29. First hover flight is scheduled for November, with first conventional flight scheduled for the following month. Bell’s timeline has the V-280 able to enter the Engineering and Manufacturing Development (EMD) phase in 2019 or 2020.
Please, Log in or Register to view URLs content!
 

TerraN_EmpirE

Tyrant King
Army, Bell Test New "Stealthy" Helicopter for 2030
Bell Helicopter engineers and weapons developers and looking at innovative ways to reduce the radar signature of their new, next-generation V-280 Valor tilt-rotor
  • Please, Log in or Register to view URLs content!
    - 75 minutes ago
    6_7853557.jpg
(Photo: Bell Helicopter)



Bell Helicopter engineers and weapons developers and looking at innovative ways to reduce the radar signature of their new, next-generation V-280 Valor tilt-rotor aircraft slated to be operational by the 2030s.

While developers stop short of calling the new project a “stealth” helicopter, they do acknowledge they are engineering “stealthy” characteristics -- such as infrared (IR) heat suppressing systems and various fuselage contour constructions as a specific way to make the new aircraft less targetable by enemies.

By Kris Osborn

“We will definitely employ some passive measures in terms of how we shape the aircraft, to make it invisible. The key is not to be able to target it and reduce the signature passively so radar sweeps do not see anything. In the end, you do not want to get detected or engaged,”Vince Tobin, vice president of advanced tiltrotor systems, Bell Helicopter, told Scout Warrior in an interview.

While, quite naturally, many of the specifics regarding stealth technology are not available, there are a few broad parameters followed closely by developers of low-observability aircraft. They include reducing the heat signature coming from engines or exhaust along with efforts to shape the exterior of the aircraft to be less detectable to “pings” or return signals to enemy radar.

Radar sends electromagnetic signals, pulses or “pings” traveling at the speed of light – bounces them off of an object – and analyzes the return signal to determine the shape, size and speed of an enemy target. For this reason, electronic “jamming” is another tactic used to thwart or throw off enemy radar systems.

Recognizing the importance of lowering the helicopters heat signature, Tobin explained that Bell is now investigating cutting-edge engine technologies specifically designed to reduce the heat they emit.

“We are looking for opportunities to reduce that heat signature. A lot of new technologies that the engine companies are looking for include seeking the best ways to ensure maximum performance of the engine while using an IR suppressor,” Tobin explained.

A key strategy, Tobin explained, is to use IR suppressor to reduce the signature so that less “jamming” is needed to confuse enemy radar.

Advancing Tiltrotor Technology

Bell intends to build upon and advance existing tiltrotor technology such as that which is currently operation in the Bell-Boeing V-22 Osprey aircraft. The Osprey continues to perform well in a wide range of missions and has recently been selected by the Navy to perform the Carrier On-board Delivery or COD mission transporting troops, equipment and weapons on-and-off surface ships.

The V-280 Valor is designed to be slightly bigger than an existing Black Hawk helicopter and use 24-inch seats to carry 11 passengers with gear, Tobin said.

Bell is taking its historical V-22 aircraft and applying them to this next-generation tilt-rotor, yet it uses a straight wing versus a V-22 which is not straight, Army developers said. Bell is also building additional flapping into the rotor system and individual controls that should allow for increased low-speed maneuverability, Army and Bell developers added.

The tiltrotors were engineered into the aircraft last year, Tobin added.

“We will get the gear boxes and transmission in before we get those blades on,” Tobin explained.

Depending upon ultimate requirement established by the Army and DoD, Bell expects to engineer an attack variant of the aircraft with a slightly different fuselage configuration.

“An armed attack version will have a gun, 2.75in folding-fin rockets and some type of point-to-point missile - hellfire or some later generation missile that would guide off of a laser or IR. We are being open ended in that we are not designing any specific requirement,” Tobin explained.
 

TerraN_EmpirE

Tyrant King
V-280 Valor Uses F-35 Sensor

The V-280 Valor next-generation tiltrotor aircraft for the 2030s includes the integration of a high-tech 360-degree sensor suite quite similar to the one used on the F-35 Joint Strike Fighter called a Distributed Aperture Systems, or DAS, developers explained.

“Instead of having sensors mounted to the turret, you have sensors that are mounted to the aircraft – so essentially you have sensors staring in 360-degrees around the aircraft at any given time. Those images are stitched together so it appears as one continuous image to the pilot. Both pilots can make use of the same system,” Tobin said.

This technology will also allow troops riding in the back of the aircraft to wear goggles or a helmet giving them a view of the surrounding sensor feeds as they transit to a mission, Tobin added.

The Northrop Grumman-built DAS system will also form the basis of a small-arms enemy fire detection technology which will search for and locate the signature of incoming enemy attacks. The sensors will be able to discern the location and heat signature coming from enemy small arms fire, giving the aircraft and opportunity to quickly attack with its weapons – lowering risk of injury to the pilots, crew and passengers.

Army Future Vertical Lift - 2030s

The new Bell tiltrotor, called the V-280 Valor, is part of the Army’s Joint Multi-Role Technology Demonstrator program aimed at establishing requirements and paving the way toward a new Future Vertical Lift aircraft designed to meet a wide range of new requirements.

The concept behind the Army’s joint Future Vertical Lift program is to engineer a forward-looking, future aircraft able to reach airplane speeds and yet retain and ability to hover and maneuver like a helicopter.

“The aircraft will have an ability to come to a hover in challenging conditions and then, while at a hover, operate at low speeds with maneuvering capability to roll and yaw. We want it to have the handling perspective to make the aircraft able to do what it is able to do,” Tobin added.

The V-280 Valor will also have yet-to-be-determined Degraded Visual Environment technology that allows sensors to see through obscurants such as brown-out conditions, bad weather and other impediments to navigation. Part of this will also include a system called Controlled Flight into Terrain wherein an aircraft has an ability to quickly re-route itself it is approaching a dangerous obstacle such as a mountain, rock wall or building structure.

The new attack variant is expected to use a modernized or next-generation of existing Apache sensors and targeting systems called the Modernized Target Acquisition Designation Sight/Pilot Night Vision Sensor, or MTADS/PVS.

When it comes to sensors and mission equipment, Bell engineers are building a tiltrotor aircraft with what is called “open architecture,” meaning software and hardware able to quickly integrate new technologies as they emerge. The concept is to construct a helicopter that is not intended to operate today but rather advance technology well into the 2030s and beyond. Therefore, it will need to anticipate the weapons, sensors, computer processors and avionics likely to emerge by the 2030s.

This will likely draw upon a semi-autonomous navigation technology built into the aircraft known as “fly-by-wire.” Bell Helicopter developed the initial algorithms for this technology, which is also now on the V-22 Osprey.

Another survivability technology potentially slated for the aircraft is a system known as Common Infrared Countermeasure, or CIRCM; CIRCM is a lighter weight variant of an existing technology which uses a laser-jammer to throw incoming enemy missiles off course – therefore protecting the aircraft.

6_7853584.jpg



"We are looking to the DoD customer to see what they want. Either way we can get that on the airplane,” Tobin explained.

Bell helicopter has now attached the wing to the fuselage of the new tiltrotor aircraft engineered to reach speeds of 280 knots, fly for 800 kilometers on one tank of fuel, hover and maneuver in “high-hot” conditions and function as both a utility and attack helicopter platform.

The intention is to build an advanced, high-tech tiltrotor demonstrator aircraft to take flight in November of 2017 as part of an effort to ultimate build a future aircraft able to begin operations in the 2030s.

“There is one long wing. We attach the middle of the wing to the fuselage - the entire wing is one piece bolted to the fuselage of the airplane. One wing covers both sides. The wing is attached with aircraft grade structural fasteners. There are enough aircraft fasteners to provide sufficient strength to hold the aircraft together,” Tobin said.

As of January earlier this year, Bell engineers were 81-percent complete with the aircraft; the wing is attached and the wiring is put in, Tobin said. In the next few months, Bell engineers will begin installation of the gear boxes and the fuel tanks.

Ground vibration testing is also part of the development of the helicopter, to be followed by scale-model wind-tunnel data.

In addition, the future aircraft is intended to be able to use fuel-efficient engine technology to allow an aircraft to travel at least 800 kilometers on a single tank of fuel. Such an ability will enable the aircraft to operate more easily one a single mission without needing Forward Arming and Refueling Points, or FARPs.

The idea is to engineer and aircraft able to fly from the west coast to Hawaii without needing to refuel.

Requirements for the program are still being refined for the Army-led program, which is aimed at service future aircraft for all four services.

These requirements, now being put into actual demonstrator aircraft built by both Bell and a Boeing-Sikorsky industry teams, include building and aircraft able to reach speeds greater than 230 knots, hover in thin air at 6,000-feet and 95-degrees Fahrenheit, achieve a combat radius of at least 434 kilometers and be configured to include emerging sensors and mission equipment technologies likely to emerge by the 2030s.

 
Top