2. (20 points) Design a compound, reverted, 20 standard spur gear train for a gear ratio of 70:1. (a) Specify the teeth numbers (2 18 for the pinions); (b) With the diametral pitch of 10 for all...
kinematics please answer ASAP 2 (20 points) Design a compound, reverted, 20° standard spur gear train for a gear ratio of 70:1 . (a) Specify the teeth numbers (2 18 for the pinions); (b) With the diametral pitch of 10 for all gears, calculate their outside diameters and the contact ratio for the pair with the larger gear ratio. 2 (20 points) Design a compound, reverted, 20° standard spur gear train for a gear ratio of 70:1 . (a) Specify...
APTER 9 GEAR TRAINS tq-12 Design a compound, spur gear train for a ratio of 120:1 and diametral pitch of 5 Specify pitch diameters and numbers of teeth. Sketch the train to scale. APTER 9 GEAR TRAINS tq-12 Design a compound, spur gear train for a ratio of 120:1 and diametral pitch of 5 Specify pitch diameters and numbers of teeth. Sketch the train to scale.
A compound gear train is to be designed as a speed increaser to provide a total increase of speed by 30 to 1 ( 1 %). Use spur gears with a 20° pressure angle and a diametral pitch of 7 teeth/in. Assume same diametral pitch in both stages. 5 1) Specify appropriate numbers of teeth to minimize the gearbox size while avoiding the interference problem in the teeth. Use full-depth teeth Determine the gearbox outside dimension Y, assuming the wall...
4. (12 points) A compound reverted spur gear train is to be designed to reduce the speed of a 180HP engine's rotating shaft from 3500rpm to 100rpm exactly. (a) (5 points) Specify appropriate numbers of teeth (N2, N3, N4 and N5) to minimize the gearbox size. A pressure angle of 20° is used for all the gears. Interference of gears is not acceptable. (b) (5 points) If all the gears are cut with 20° full-depth system. Assume a diametral pitch...
4. (12 points) A compound reverted spur gear train is to be designed to reduce the speed of a 180HP engine's rotating shaft from 3500rpm to 100rpm exactly. (a) (5 points) Specify appropriate numbers of teeth (N2, N3, N4 and N5) to minimize the gearbox size. A pressure angle of 20° is used for all the gears. Interference of gears is not acceptable. (b) (5 points) If all the gears are cut with 20° full-depth system. Assume a diametral pitch...
A compound reverted spur gear train is to be designed to reduce the speed of a 180HP engine's rotating shaft from 3500rpm to 100rpm exactly. (a) (5 points) Specify appropriate numbers of teeth (N2, N3, N4 and N5) to minimize the gearbox size. A pressure angle of 20° is used for all the gears. Interference of gears is not acceptable. (b) (5 points) If all the gears are cut with 20° full-depth system. Assume a diametral pitch of 6 teeth/in,...
A compound reverted spur gear train is to be designed to reduce the speed of a 180HP engine's rotating shaft from 3500rpm to 100rpm exactly. (a) (5 points) Specify appropriate numbers of teeth (N2, N3, N4 and N5) to minimize the gearbox size. A pressure angle of 20° is used for all the gears. Interference of gears is not acceptable. (b) (5 points) If all the gears are cut with 20° full-depth system. Assume a diametral pitch of 6 teeth/in,...
: Design the smallest two-stage, compound, reverted, spur-gear train with an overall train ratio of approximately 47:1 (Error for the train ratio must be kept under 0.2%). Assume full depth teeth and a pressure angle of 20o. Make a sketch of your solution, and specify the number of teeth for each gear. (You must be sure the pinions have enough teeth to avoid interference.)
4.(12 points) A compound reverted spur gear train is to be designed to reduce the speed of a 180HP engine's rotating shaft from 3500rpm to 100rpm exactly. (a) (5 points) Specify appropriate numbers of teeth (N2, N3, N4 and N5) to minimize the gearbox size. A pressure angle of 20° is used for all the gears. Interference of gears is not acceptable. (b) (5 points) If all the gears are cut with 20° full-depth system. Assume a diametral pitch of...
A compound reverted spur gear train is to be designed to reduce the speed of a 180HP engine's rotating shaft from 3500rpm to 100rpm exactly. Part 1. Specify appropriate numbers of teeth (N2, N3, N4 and N5) to minimize the gearbox size. A pressure angle of 20° is used for all the gears. Interference of gears is not acceptable. Part 2. If all the gears are cut with 20° full-depth system. Assume a diametral pitch of 6 teeth/in, and allowable...