Explanation Write the expression for diameter of gear 2 d 2 = N 2 P (I) Here, number of teeth on gear 2 is N 2 , and pitch of gear 2 is P . Write the expression for pitch line velocity. V = π d n 12 (II) Here, gear diameter is d and gear speed is n . Write the expression for transmitted load. W t = 33000 H V (III) Here, power is H and pitch line velocity is V . Write the expression for input torque. T 2 = W × d 2 (IV) Here, transmitted load is W and gear diameter is d . Write the expression for radial load. W ′ 32 = W t tan ϕ n (V) Here , transmitted load is W t and pressure angle is ϕ n . Write the expression for radial force. F r = T 2 R × 2 (VI) Here, input torque is T 2 and distance of F from center is R . Write the expression for moment of force about A B . ∑ M A B = 0 W t × ( C E + A D ) − 2 F × A D = 0 (VII) Here, transmitted load is W t , distance between C and E is C E , distance between A and D is A D , and force acting at C and D is F . Write the expression for moment of force about A B .in reversed direction. W t × ( l p ) − 2 F t × d p = 0 (VIII) Here, transmitted load is W t , distance between load and plate is l p and distance bteween plate is d p . Write the expression for moment of radial force. M = W ′ 32 ( C E + h 2 ) (IX) Here, radial load is W ′ 32 , distance between C and E is C E and height of plate is h . Write the expression for calculating diagonal of plate. a = b 1 2 + h 1 2 (X) Here, width of plate is b 1 and height of plate is h 1 . Write the expression for radial force at B . F B = M 4 ( a ) (XI) Here, moment is M and diagonal of plate is a . Write the expression for shear force at ( C and D ) F S 1 = [ W ′ 32 4 + F B ( r 1 × a ) ] 2 + [ F B ( r 2 × a ) ] 2 (XII) Here, radial load is W ′ 32 , radial force at B is F B , diagonal of plate is a . Write the expression for shear force at A and B . F S 1 = [ F B − F B ( r 1 × a ) ] 2 + [ F B ( r 2 × a ) ] 2 (XIII) Here, force at B is F B , radial force at B is F B , diagonal of plate is a . Conclusion: Substitute 20 for N 2 and 4 teeth / in for P in Equation (I). d 2 = 20 teeth 4 teeth / in = 5 in Substitute 5 in for d and 900 rev / min for n in Equation (II). V = π ( 5 in ) ( 900 rev / min ) 12 = 14137.166 12 in / min = 1178.098 in / min Substitute 30 hp for H and 1178.098 in / min for V in Equation (III). W t = 33000 × 30 hp 1178.098 in / min = 33000 × 0.02546479 lbf = 840

Shigley's Mechanical Engineering Design (McGraw-Hill Series in Mechanical Engineering)

10th Edition

ISBN: 9780073398204

Author: Richard G Budynas, Keith J Nisbett

Publisher: McGraw-Hill Education

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Chapter 13, Problem 35P

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Chapter 13, Problem 34P

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Chapter 13 Solutions

Shigley's Mechanical Engineering Design (McGraw-Hill Series in Mechanical Engineering)

Ch. 13 - A 17-tooth spur pinion has a diametral pitch of 8...Ch. 13 - A 15-tooth spur pinion has a module of 3 mm and...Ch. 13 - A spur gearset has a module of 6 mm and a velocity...Ch. 13 - A 21-tooth spur pinion mates with a 28-tooth gear....Ch. 13 - A 20 straight-tooth bevel pinion having 14 teeth...Ch. 13 - A parallel helical gearset uses a 20-tooth pinion...Ch. 13 - A parallel helical gearset consists of a 19-tooth...Ch. 13 - To avoid the problem of interference in a pair of...Ch. 13 - Prob. 9P Ch. 13 - Prob. 10P

Ch. 13 - Prob. 11P Ch. 13 - Prob. 12P Ch. 13 - Prob. 13P Ch. 13 - Prob. 14P Ch. 13 - A parallel-shaft gearset consists of an 18-tooth...Ch. 13 - The double-reduction helical gearset shown in the...Ch. 13 - Shaft a in the figure rotates at 600 rev/min in...Ch. 13 - The mechanism train shown consists of an...Ch. 13 - The figure shows a gear train consisting of a pair...Ch. 13 - A compound reverted gear trains are to be designed...Ch. 13 - Prob. 21P Ch. 13 - Prob. 22P Ch. 13 - Prob. 23P Ch. 13 - A gearbox is to be designed with a compound...Ch. 13 - The tooth numbers for the automotive differential...Ch. 13 - Prob. 26P Ch. 13 - In the reverted planetary train illustrated, find...Ch. 13 - Prob. 28P Ch. 13 - Tooth numbers for the gear train shown in the...Ch. 13 - The tooth numbers for the gear train illustrated...Ch. 13 - Shaft a in the figure has a power input of 75 kW...Ch. 13 - The 24T 6-pitch 20 pinion 2 shown in the figure...Ch. 13 - The gears shown in the figure have a module of 12...Ch. 13 - The figure shows a pair of shaft-mounted spur...Ch. 13 - Prob. 35P Ch. 13 - Prob. 36P Ch. 13 - A speed-reducer gearbox containing a compound...Ch. 13 - For the countershaft in Prob. 3-72, p. 152, assume...Ch. 13 - Prob. 39P Ch. 13 - Prob. 40P Ch. 13 - Prob. 41P Ch. 13 - Prob. 42P Ch. 13 - The figure shows a 16T 20 straight bevel pinion...Ch. 13 - The figure shows a 10 diametral pitch 18-tooth 20...Ch. 13 - Prob. 45P Ch. 13 - The gears shown in the figure have a normal...Ch. 13 - Prob. 47P Ch. 13 - Prob. 48P Ch. 13 - Prob. 49P Ch. 13 - The figure shows a double-reduction helical...Ch. 13 - A right-hand single-tooth hardened-steel (hardness...Ch. 13 - The hub diameter and projection for the gear of...Ch. 13 - A 2-tooth left-hand worm transmits 34 hp at 600...

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