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The figure below represents an ingenious gear train for obtaining a tremendous reduction ratio in a...
[2] (15 PTS) Use the formula method Figure below represents an ingenious gear train in which...
[2] (15 PTS) Use the formula method Figure below represents an ingenious gear train in which the arm is the driver. Determine the speed ratio of output to input for this mechanism. Take counter-clockwise viewed from left as positive. The sun gear S2 is fixed. Pl (101 teeth) P2 (102 teeth) Arm S2 (99 teeth) Output Input Sl (100 teeth) P1 P2
Answer given is 524 rpm Question 2 A compound epicydic gear is as shown in Figure...
Answer given is 524 rpm
Question 2 A compound epicydic gear is as shown in Figure Q2. Sun wheels S1 and 52 are integral with the input shaft X and the Annulus wheel A1 is fixed. The Planet wheel P1 rotates about a pin carried by the Annulus Az and the Planet wheel P2 rotates about a pin attached to the arm keyed to the shaft Y. The numbers of teeth are : Si=30, Pu=20, P2=18, Sz=32. Find the speed...
Kinematics class 3. (25 POINTS) Planetary gear train analysis: The figure below representsa planetary gear train...
Kinematics class
3. (25 POINTS) Planetary gear train analysis: The figure below representsa planetary gear train used in a drill head. Gear 1 rotates with the input shaft. The ring gear 3 meshes both with gear 5 and gear 6, which are the planets. Gear 2 acts as the carrier for gear 5, the output is the carrier 4 Consider the number of teeth Ni-6, N2 36, N-54, N-24 and No-9 a) Identify how many stages are needed to fully...
The top half of a compound epicyclic gear set is as shown in Figure Q2. If...
The top half of a compound epicyclic gear set is as shown in Figure Q2. If the input shaft I rotate at dockwise direction at a speed of 1,200 rpm and gear Al is set as the output, determine the following. (a) The output speed Nal when gear X rotates counter-clockwise direction at the speed of 3,000 rpm. (b) The magnitude and direction of the torque required to lock gear X if 300 Nm torque is applied on input shaft...
estion- a) Find the speed ratio of the gear train shown in figure. What will be...
estion- a) Find the speed ratio of the gear train shown in figure. What will be the direction of gear 7 b) Determine pitch line velocity (v r.w) of gear &, provided for gear 6 Imodule (D/T) 5mm e) If double the speed ratio (as calculated in a) is required with a simple gear train (having only two gears) number of teeth on driven gear, provided input gear has 20 teeth. IST IST 25T 33T I8T An epicyclic gear train...
please show all work 4. Given an Epicyclic gearbox that has a fixed Sun gear “D",...
please show all work
4. Given an Epicyclic gearbox that has a fixed Sun gear “D", and the output gear “C” has 300 Teeth, Planet gears have 30 Teeth, the input is Arm “A”. Given that the input torque is 100 N.m., input speed of 1250 rpm and the efficiency of the gearbox is 70%. Calculate the number of teeth on the sun gear and the ratio of the gearbox. Also Calculate the Fixing Torque.
Homework 6: The figure below shows a gear train where gear 1, on shaft a (input...
Homework 6: The figure below shows a gear train where gear 1, on shaft a (input shaft), drives gear 2 with 32 teeth (denoted 32T) on shaft b, gear 3 (20T) also is on shaft b and drives gear 4 (507) on shaft c (output shaft). The pitch diameter of gears 1 and 2 are d = 24 mm and d = 48 mm. The center distance between gears 3 and 4 (distance between shafts b and c is 70mm....
Part 1 A simple epicyclic gear has a sun gear with 10 teeth and a ring...
Part 1 A simple epicyclic gear has a sun gear with 10 teeth and a ring gear with 100 teeth. If the sun gear is held stationary, calculate the speed/gear ratio when the ring gear is the input and the planet carrier is the output? Part 2 Two parallel shafts which are 220mm apart are to be connected by a simple gear train, will all gear centres on the same line, using gears from a pool of six gears of...
Machine design 1 Name Application 10 The compound reverted gear train shown below is used to...
Machine design 1
Name Application 10 The compound reverted gear train shown below is used to reduce the speed of the input (gear 2) to the output gear 5. Your objective is to develop a design for this gear train be specify the gear teeth. There are several requirements to keep in mind and the objective is to reduce the overall size dimension Y Requirements . . . . Shall deliver 20 HP Input speed shall be 1750 RPM (adjustable)...
Question 1 In the epicyclic gear shown in Figure Q1 the Annulus A1 and the Sun...
Question 1 In the epicyclic gear shown in Figure Q1 the Annulus A1 and the Sun wheel S2 are compound, the Sun wheel Si rotates with the input shaft and both Planet cages rotate with the output shaft. The numbers of teeth on the o wheels are Si=24, A1=72, Sz=40 and A2=80. (1) Find the gear ratio of the system when the Annulus A1 is held fixed. S Find the gear ratio of the system when the Figure Q1 Annulus...
[2] (15 PTS) Use the formula method Figure below represents an ingenious gear train in which the arm is the driver. Determine the speed ratio of output to input for this mechanism. Take counter-clockwise viewed from left as positive. The sun gear S2 is fixed. Pl (101 teeth) P2 (102 teeth) Arm S2 (99 teeth) Output Input Sl (100 teeth) P1 P2
Answer given is 524 rpm
Question 2 A compound epicydic gear is as shown in Figure Q2. Sun wheels S1 and 52 are integral with the input shaft X and the Annulus wheel A1 is fixed. The Planet wheel P1 rotates about a pin carried by the Annulus Az and the Planet wheel P2 rotates about a pin attached to the arm keyed to the shaft Y. The numbers of teeth are : Si=30, Pu=20, P2=18, Sz=32. Find the speed...
Kinematics class
3. (25 POINTS) Planetary gear train analysis: The figure below representsa planetary gear train used in a drill head. Gear 1 rotates with the input shaft. The ring gear 3 meshes both with gear 5 and gear 6, which are the planets. Gear 2 acts as the carrier for gear 5, the output is the carrier 4 Consider the number of teeth Ni-6, N2 36, N-54, N-24 and No-9 a) Identify how many stages are needed to fully...
The top half of a compound epicyclic gear set is as shown in Figure Q2. If the input shaft I rotate at dockwise direction at a speed of 1,200 rpm and gear Al is set as the output, determine the following. (a) The output speed Nal when gear X rotates counter-clockwise direction at the speed of 3,000 rpm. (b) The magnitude and direction of the torque required to lock gear X if 300 Nm torque is applied on input shaft...
estion- a) Find the speed ratio of the gear train shown in figure. What will be the direction of gear 7 b) Determine pitch line velocity (v r.w) of gear &, provided for gear 6 Imodule (D/T) 5mm e) If double the speed ratio (as calculated in a) is required with a simple gear train (having only two gears) number of teeth on driven gear, provided input gear has 20 teeth. IST IST 25T 33T I8T An epicyclic gear train...
please show all work
4. Given an Epicyclic gearbox that has a fixed Sun gear “D", and the output gear “C” has 300 Teeth, Planet gears have 30 Teeth, the input is Arm “A”. Given that the input torque is 100 N.m., input speed of 1250 rpm and the efficiency of the gearbox is 70%. Calculate the number of teeth on the sun gear and the ratio of the gearbox. Also Calculate the Fixing Torque.
Homework 6: The figure below shows a gear train where gear 1, on shaft a (input shaft), drives gear 2 with 32 teeth (denoted 32T) on shaft b, gear 3 (20T) also is on shaft b and drives gear 4 (507) on shaft c (output shaft). The pitch diameter of gears 1 and 2 are d = 24 mm and d = 48 mm. The center distance between gears 3 and 4 (distance between shafts b and c is 70mm....
Machine design 1
Name Application 10 The compound reverted gear train shown below is used to reduce the speed of the input (gear 2) to the output gear 5. Your objective is to develop a design for this gear train be specify the gear teeth. There are several requirements to keep in mind and the objective is to reduce the overall size dimension Y Requirements . . . . Shall deliver 20 HP Input speed shall be 1750 RPM (adjustable)...
Question 1 In the epicyclic gear shown in Figure Q1 the Annulus A1 and the Sun wheel S2 are compound, the Sun wheel Si rotates with the input shaft and both Planet cages rotate with the output shaft. The numbers of teeth on the o wheels are Si=24, A1=72, Sz=40 and A2=80. (1) Find the gear ratio of the system when the Annulus A1 is held fixed. S Find the gear ratio of the system when the Figure Q1 Annulus...
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