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Item 1374

DESIGN: UniCopter ~ Rotor - Hub - ARR - Blade Generated Forces - Preliminary:

The preliminary rough calculations of the blade generated forces at the rotor hub.

Mechanical Design and Description ~ Rotor Hub section is the source of this page and the calculations. [Source ~ MDD p.4-48]

Calculations are for 3-blade and 4-blade rotors.

B. Rotor Hubs:

2. Design Considerations:

a. Flight Conditions:

a1. Normal Operating Conditions:

Blade's CG Location ~ This book considers the blade's CG to be 0.45R for a tapered spar and plan or be 0.48R for a constant spar section. The UniCopter has a larger then standard taper therefor, the blade's CG is estimated at 0.42 R

Blade's Weight ~ A couple of guessestimates: 21 lbs and 16 lbs each.

	3-blade Rotors	4-blade Rotors
Rotor speed: N	480 rpm	480 rpm
Number of blades per rotor: b	3	4
Lift of one rotor: L	575 lbs	575 lbs
Radius to the GG of the blade: r = 0.42R =	0.42 9.5' = 4.0''*	0.42 9.2' = 3.89''*
Weight of the blades: 1071.html , W_b	21 lbs	16 lbs
Normal centrifugal effect: C_F = 0.000341 W_b * r * N²*	= 0.000341 21 * 4.00 * 230,400 = 6,600 lbs* = 29,358 N	= 0.000341 16 * 3.89 * 230,400 = 4,890 lbs* = 21,752 N
Average coning angle: β₀ = tan^-1 (L / (b C_F))*	tan^-1 (575 / (3 6,600)) = 1.66º*	tan^-1 (575 / (4 4,890)) = 1.68º*
Normal operating torque: (1 rotor) T = 63,000 hp / N*	7875 in/lb = 656 ft-lb	7875 in/lb = 656 ft-lb
Torque per blade: T_b = T / b	656 / 3 = 219 ft-lb	656 / 4 = 164 ft-lb
Lag Offset: e = T_b / C_F	219 / 6,600 = 0.033 ft?	164 / 4,890 = 0.034 ft?
Normal lag angle: sin^-1(e/a) + sin^-1(e/r₁)

Same Page ~ Different Craft: ~ Dragonfly ~ SynchroLite (CVJ)

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Last Revised: November 5, 2004