Item 1029
DESIGN:
UniCopter ~ Rotor - Disk - Downwash Intersection Azimuths - 3-bladeMay want to produce a page for the 4-blade rotor and upgrade this one to 1150 GW UniCopter.
The location (azimuth and radius) where the lower rotor is struck by the downwash from the upper rotor.
This is not exactly true since the lower blade will have move along a bit before the downwash gets to it.The radius at 75% R is
In Hover:
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Starting Azimuth & Radius: |
Finishing Azimuth & Radius: |
Duration: |
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A/ |
150º @ root. Start @ cut-out |
202.5 @ .85R |
202.5-150+5.3 = 58º |
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B/ |
275º @ root to (tip - stagger).Downwash from upper blade may strike all the elements of the lower blade at the same moment The downwash at the outer portion will have further to travel but it will have a higher velocity. |
5.3º |
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C/ |
337.5º +/- @ .9R |
30º @ root. Start @ cut-out |
22.5+30+5.3 = 58º |
Gray values are temporary approximations.
It appears that there is some blade-blade interaction for about half of the rotation.
For plan view of rotor disks see:
DESIGN: UniCopter ~ Rotor - Disk - Blade to Blade ClearanceWith ABC the lower blade will be generating less thrust than the upper. In addition, the upper segments are above segments on the lower blade that are closer to the root and therefor have even less thrust. This is a strong reason for twist; as long as it is too much and is detrimental to autorotation.
In Forward Flight at ?? MPH:
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Starting Azimuth & Radius: |
Finishing Azimuth & Radius: |
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A/ |
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B/ |
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C/ |
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In forward flight it appears that A & B will take longer than 52.5 of rotation since the free air stream is moving aft whereas the scissors action is moving forward.
Viewing the helicopter in plan view and having 12:00 representing straight ahead, the sequence and locations of blade crossing is;
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Location: |
Orientation: |
Crossing Passage: |
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3:00 |
Port above Starboard |
All of span at same time |
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7:00 |
Starboard above Port |
Tip --> Root |
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1:00 |
Port above Starboard |
Root --> Tip |
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9:00 |
Starboard above Port |
All of span at same time |
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5:00 |
Port above Starboard |
Tip --> Root |
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11:00 |
Starboard above Port |
Root --> Tip |
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repeat. |
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In Hover:
Approximate azimuths where .75R aerodynamically interact. 45º, 92º, 140º, 200º, 272º & 345º.
Degrees between aerodynamically interaction azimuths. 47º, 48º, 60º, 72º, 73º, & 60º.
Positioning for 60º intervals and giving preference to the lower blade. 32º, 92º, 152º, 212º, 272º, & 332º.
A 'hump' may be needed at azimuth 270º on the two swashrings, to increase the pitch slightly.
A 'hump' may be needed at azimuth 90º on the two swashrings, to increase the pitch slightly.
The azimuth of the 'humps'
and 'dips' will increase when the forward speed increases.Note: The 'dip' on the upper blade will reduce the lift on the helicopter slightly. The lower blade extends out beyond the upper blade and thereby has two regions. The outer region is in free air and therefor the 'hump' will allow it to offset the loss of lift that is experienced by the upper blade. The 'hump' will allow the inner portion of this blade to reduce the effect of the downwash from the upper blade.
In Forward Flight:
The upper 'dip' must be advance to greater than 90º and the lower 'hump' must be increased to greater than 270º. This means that the swashrings must be advanced by about 30º in fast forward flight.
Two Possibilities for Producing HHC:
At present, I do not know how to rotate the swashring, which contains the 'hump' and the 'dip".
See:
DESIGN: UniCopter ~ Control - Flight - SwashringSee: OTHER: Aerodynamics - General - Higher Harmonic Control See Idea: on this page.
This page is currently showing the required period for the HHC:
OTHER: Aerodynamics - General - Rotor Induced ~ Frequencies
See also:
UniCopter ~ Vibration - Rotor Induced - Analysis
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Last Revised: January 24, 2004