The shaft shown below is the input shaft of a worm gear drive. The V-belt sheave receives 7.5 hp from directly downward. The worm rotates at 1750 rpm and has a pitch diameter of 2.000 in. The tangential, radial, and axial forces are shown in the figure. The worm is to be machined integrally with the shaft, and it has a root diameter of 1.614 in. Determine (a) the forces on sheave B and (b) the maximum resultant moment. FB = FAY = 162 lb, M = 1199 in-lb A B 1.50 3.00 3.00- V-belt sheave 5.00 in PD Bearing C Worm D Ww= 352 lb End view of worm Bearing W₁w 265 lb -Wxw = 962 lb W/w = 352 lb

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Transcribed Image Text:

The shaft shown below is the input shaft of a worm gear drive. The V-belt sheave receives 7.5 hp from directly downward. The worm rotates at 1750 rpm and has a pitch diameter of 2.000 in. The tangential, radial, and axial forces are shown in the figure. The worm is to be machined integrally with the shaft, and it has a root diameter of 1.614 in. Determine (a) the forces on sheave B and (b) the maximum resultant moment. FB = FAY = 162 lb, M = 1199 in-lb A B 1.50+ V-belt sheave 5.00 in PD -3.00- Bearing C -3.00- Worm D W/w = 352 lb End view of worm Bearing W₁W 265 lb -Wxw = 962 lb Ww= 352 lb