Landing gear lean question?
The question has been raised many times - since 2005, even on this forum. Most responses seem to be guesswork (sometimes educated). The quote-concensus-unquote seems to agree with Check Airman - to fit in the wheel wells.
I'm not sure that really matters these days, since most gear in recent planes have a "tilt actuator" (A380, see also 777), therefore there is no required relationship between the angle when stowed vs. the angle when extended. They don't hang simply according to gravity anymore.
The A380 wing gear seem to "untilt" to level/parallel with fuselage centerline as they are stowed, in this video:
https://youtu.be/nms0-x0wDGQ?t=2m3s
The fuselage gear retract by sliding back and up, like an escalator.
I've seen reference to the idea that tilted-down vs. tilted-up has to do with the airframe's natural aerodynamic tendency to pitch down or up on touchdown, with the main gear tilted to counter that tendency. The 767 tilts front-down, like the 380.
I'm not sure that really matters these days, since most gear in recent planes have a "tilt actuator" (A380, see also 777), therefore there is no required relationship between the angle when stowed vs. the angle when extended. They don't hang simply according to gravity anymore.
The A380 wing gear seem to "untilt" to level/parallel with fuselage centerline as they are stowed, in this video:
https://youtu.be/nms0-x0wDGQ?t=2m3s
The fuselage gear retract by sliding back and up, like an escalator.
I've seen reference to the idea that tilted-down vs. tilted-up has to do with the airframe's natural aerodynamic tendency to pitch down or up on touchdown, with the main gear tilted to counter that tendency. The 767 tilts front-down, like the 380.
Last edited by pattern_is_full; 31st Oct 2017 at 05:35.
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I think this question has been around for a lot earlier then 2005. Working for an employer who was a B757 operator, attended briefing by Boeing pending our intoduction of B767, circa 1989, the question was asked, why does the 767 gear tilt forward? We were treated to a somewhat long BS explantion of softer touchdown and other clever reasons, the presenter was rather flummoxed to be asked why then does 757 tilt rearwards? (both types designed about the same time)
The answer most definitley as Check Airman almost stated is " so it fits in gear bay" nothing more nothing less. All the tilt actuators; gear shortening tricks etc on various types boils down to same. Bristol Britannia? Canadair CL44? anyone?
The answer most definitley as Check Airman almost stated is " so it fits in gear bay" nothing more nothing less. All the tilt actuators; gear shortening tricks etc on various types boils down to same. Bristol Britannia? Canadair CL44? anyone?
CV880, IIRC. I do remember checking truck position cylinders on walkarounds. And a truck position indicator as part of the cockpit landing gear indication system.
Most jet airliners have the landing gear retraction axis (ie the trunnions) aligned for-and-aft. Ditto the bogie when stowed is aligned longitudinally.
So simple geometry would imply that the bogie wouldn't have any tilt when the gear is lowered.
But it does, and that's clearly by design and for a reason.
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Different airplane, but good job of showing retraction.
https://www.bing.com/videos/search?q...6A1D&FORM=VIRE
https://www.bing.com/videos/search?q...6A1D&FORM=VIRE
"Make it fit" is one reason. In order to make it fit, the bogies need to be rotated forward, backward, or level in order to minimize clear the gear wells. Some consideration needs to be made for that operating mechanism. Once the gear is dropped and contacts the runway, the hydraulics that stow it now have to allow it to rotate one way or another about it's "ankles". The travel involved may dictate one postition (toes up vs toes down) over another.
Once down, the A380 design appears to position the bogies flatter, once a landing flare is considered. The 747 "heels down" would require the bogies to rotate once the rear tires make contact.
A landing gear engineer (I'm not one) might also provide some insight into failure modes. Consider what might happen, for example, if a wheel bearing froze and applied a sudden torque to a bogie. "Heels down" would rotate the bogie into position. "Toes down" would act the other way, tipping the bogie further forward and result in higher stresses when it is eventually flattened out. There may be other failure modes and effects to consider should the extension mechanisms fail to operate completely.
Just be happy you don't have to worry about this one working properly (it didn't once, rather spectacularly): https://youtu.be/seWJa6SG3LQ?t=285
Once down, the A380 design appears to position the bogies flatter, once a landing flare is considered. The 747 "heels down" would require the bogies to rotate once the rear tires make contact.
A landing gear engineer (I'm not one) might also provide some insight into failure modes. Consider what might happen, for example, if a wheel bearing froze and applied a sudden torque to a bogie. "Heels down" would rotate the bogie into position. "Toes down" would act the other way, tipping the bogie further forward and result in higher stresses when it is eventually flattened out. There may be other failure modes and effects to consider should the extension mechanisms fail to operate completely.
Just be happy you don't have to worry about this one working properly (it didn't once, rather spectacularly): https://youtu.be/seWJa6SG3LQ?t=285
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IMHO, I guess getting all the wheels down and spun up quicker would give better braking performance if you inclined to make that a design priority?
We've all seen the grace an A330 sits on the back axle for an age slowly settling down onto the front axles of the main gear. Maybe the pilots are just showing off, but that distance gives you less braking and if limiting could be the answer....
We've all seen the grace an A330 sits on the back axle for an age slowly settling down onto the front axles of the main gear. Maybe the pilots are just showing off, but that distance gives you less braking and if limiting could be the answer....
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just different design ideas . on the a 380 they designed it to be level with the surface at a typical touchdown nose up attitude and boeing designed it to touch with rear wheels first for a better damping effect .
"Make it fit" is one reason. In order to make it fit, the bogies need to be rotated forward, backward, or level in order to minimize clear the gear wells. Some consideration needs to be made for that operating mechanism. Once the gear is dropped and contacts the runway, the hydraulics that stow it now have to allow it to rotate one way or another about it's "ankles". The travel involved may dictate one postition (toes up vs toes down) over another.
Yes, on some types the bogie needs to be rotated as the gear is stowed because when it's deployed it isn't level, as opposed to early jets like the Comet where it was and retraction was more straightforward.
But we haven't got any closer to explaining why bogies are tilted, let alone why the tilt is one way on some types and the opposite way on others.
In a crabbed landing, if someone doesn't decrab properly, a gear that lands front wheels first is going to put huge twisting strain on the gear leg and hinge bearings, because it will try to steer away from the runway centre line, and the forward motion will try to twist the gear round.
If the gear lands trailing wheels first, this strain will be much less, since the aircraft wheels will simply be pulled into line to follow the direction of travel as the aircraft follows the centreline.
Imagine pushing a wheelbarrow in front of you that is not straight, and the force required to keep it going in a line not along its axis, and then imagine a similar scenario but pulling an offset wheelbarrow behind you.
I have only flown types that land trailing wheels first, (apart from the SIM), and they are very smooth if you get it right.
As to why some tilt one way and others the other, perhaps it has something to do with minimising aquaplaning or something?
If the gear lands trailing wheels first, this strain will be much less, since the aircraft wheels will simply be pulled into line to follow the direction of travel as the aircraft follows the centreline.
Imagine pushing a wheelbarrow in front of you that is not straight, and the force required to keep it going in a line not along its axis, and then imagine a similar scenario but pulling an offset wheelbarrow behind you.
I have only flown types that land trailing wheels first, (apart from the SIM), and they are very smooth if you get it right.
As to why some tilt one way and others the other, perhaps it has something to do with minimising aquaplaning or something?
Further to RVF750's post, Convair also built the 880 and 990 with opposite bogie tilts (880 nose up and 990 nose down).
The basic reason for the different angles is as Check Airman wrote in post #2 is to make it fit in the least amount of space. The reason for nose down bogie tilt on some aircraft is this results in the bogie lying parallel to the centreline in the retracted position as the trunnions are skewed so the bottom of the gear moves forward as it retracts. The A380 wing gear is an example and probably the 767. The first step in a 777's retraction is to reposition the bogie to a nose down tilt angle so it lies parallel to the keel in the wheel well.
By mounting the actual leg as far aft in the trunnions as possible and skewing the trunnions you can get a longer landing gear into the same horizontal space. This is how Convair managed to jack up the 990 by 18 inches at the MLG compared to the 880 yet the trunnions are the same distance from the centreline. The MLG alone was 10 inches longer than the 880's with bigger tires but clever geometry enabled it all to fit.
The basic reason for the different angles is as Check Airman wrote in post #2 is to make it fit in the least amount of space. The reason for nose down bogie tilt on some aircraft is this results in the bogie lying parallel to the centreline in the retracted position as the trunnions are skewed so the bottom of the gear moves forward as it retracts. The A380 wing gear is an example and probably the 767. The first step in a 777's retraction is to reposition the bogie to a nose down tilt angle so it lies parallel to the keel in the wheel well.
By mounting the actual leg as far aft in the trunnions as possible and skewing the trunnions you can get a longer landing gear into the same horizontal space. This is how Convair managed to jack up the 990 by 18 inches at the MLG compared to the 880 yet the trunnions are the same distance from the centreline. The MLG alone was 10 inches longer than the 880's with bigger tires but clever geometry enabled it all to fit.
Last edited by CV880; 2nd Nov 2017 at 22:47.
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In a crabbed landing, if someone doesn't decrab properly, a gear that lands front wheels first is going to put huge twisting strain on the gear leg and hinge bearings, because it will try to steer away from the runway centre line, and the forward motion will try to twist the gear round.
If the gear lands trailing wheels first, this strain will be much less, since the aircraft wheels will simply be pulled into line to follow the direction of travel as the aircraft follows the centreline.
Imagine pushing a wheelbarrow in front of you that is not straight, and the force required to
If the gear lands trailing wheels first, this strain will be much less, since the aircraft wheels will simply be pulled into line to follow the direction of travel as the aircraft follows the centreline.
Imagine pushing a wheelbarrow in front of you that is not straight, and the force required to
I reckon there will be more twisting force if the fronts land first than if the rears do. When the fronts land first, the inertia of the aircraft etc pushes forwards and downwards on the front wheels - more or less in line with the tilted angle of the bogey, pushing the tyre into the tarmac and making it 'dig in'.
If the rears land first, they will only have their own weight pressing on the tyres, (until the fronts have landed), so they will just 'skate along', imparting much less twisting force.
Any design engineers in the house?
If the rears land first, they will only have their own weight pressing on the tyres, (until the fronts have landed), so they will just 'skate along', imparting much less twisting force.
Any design engineers in the house?
While the above may well be true, it sounds more like a happy side-benefit. I doubt that mitigating the effects of a ham-fisted pilot neglecting to kick off drift is high on a designer's list of objectives.
In order for the design engineers to derive the strength, size and construction of the gear strut and torque links, gear twisting forces will have to be considered.
I would imagine though that any such twisting forces caused by a crabbed landing would be much less than those caused by a max steering angle taxiing turn at MTOW. So I agree with you
Still makes me wince when folk don't decrab though.
I would imagine though that any such twisting forces caused by a crabbed landing would be much less than those caused by a max steering angle taxiing turn at MTOW. So I agree with you
Still makes me wince when folk don't decrab though.
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My thoughts -
I think the gear toe orientation is a result of gravity - the heavier end hangs down . Demonstrated by the fact that most gear hang the same orientation during gravity extension w/o the help of any hydraulics. *since shown to be wrong
The amount of torque on the assembly should be about the same during a crabbed landing regardless of gear toe up or down - a free body diagram should show about the same amount of restoring force around the cg of the aircraft. In fact the torque should be slightly less in the toe down case due to the fact that the contact point is slightly closer to the cg - so shorter moment arm.
Standing by to be happily corrected!
The amount of torque on the assembly should be about the same during a crabbed landing regardless of gear toe up or down - a free body diagram should show about the same amount of restoring force around the cg of the aircraft. In fact the torque should be slightly less in the toe down case due to the fact that the contact point is slightly closer to the cg - so shorter moment arm.
Standing by to be happily corrected!
Last edited by mrfox; 10th Nov 2017 at 02:28.
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Just watch a 330 or 777 (non-er so no bogie lock) on take-off. The bogie stays level with the ground as the ac rotates around the center of the bogie - so relative to the ac it is nose down. Then as the aircraft unsticks the back wheels falls and the bogie hangs nose up due to the weight distrubition (*pitch trimmer positioning), then the gear pitch trimmer (or its equivalent in the 777) moves the bogie nose down for the retraction.
Last edited by mrfox; 10th Nov 2017 at 02:30.