The lath machine in the Central University of Technology (CUT) mechanical workshop uses epicyclic gear train shown in Figure 1 to operate. Plate gear C of this gear system are carried on the arm A and...


Use the table method to calculate the number of teeth of gear B.


The lath machine in the Central University of Technology (CUT) mechanical<br>workshop uses epicyclic gear train shown in Figure 1 to operate. Plate gear C<br>of this gear system are carried on the arm A and free to rotated. the pitch circle<br>diameter of the internally toothed ring gear D is to be 214 mm and the module<br>4 mm. When the ring gear D is stationary, the arm A, which carries three planet<br>wheels C of equal size, is to make one revolution in the same direction as the<br>sun wheel B for every five revolutions of the driving spindle carrying the<br>sunwheel B.<br>Ring gear D<br>Planet gear C<br>Sun gear B<br>Figure 1: An picyclic gear train of the lath machine<br>Determine suitable number of teeth for all the wheels and the exact diameter<br>of pitch circle of the ring.<br>

Extracted text: The lath machine in the Central University of Technology (CUT) mechanical workshop uses epicyclic gear train shown in Figure 1 to operate. Plate gear C of this gear system are carried on the arm A and free to rotated. the pitch circle diameter of the internally toothed ring gear D is to be 214 mm and the module 4 mm. When the ring gear D is stationary, the arm A, which carries three planet wheels C of equal size, is to make one revolution in the same direction as the sun wheel B for every five revolutions of the driving spindle carrying the sunwheel B. Ring gear D Planet gear C Sun gear B Figure 1: An picyclic gear train of the lath machine Determine suitable number of teeth for all the wheels and the exact diameter of pitch circle of the ring.

Jun 11, 2022
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