Cam-follower is used in a range of applications to convert rotational motion to linear motion of a follower at specific characteristics and time period. Your role is to construct the profile of a cam that specify the following motion requirements of a follower: Motion.1: first part of lift period at constant acceleration of 2 m/s2 over rotation of 30° Motion.2: second part of lift period at constant deceleration of 2 m/s? over the next 30° Motion.3: follower produces constant displacement for next 90° Motion 1 and 2 are the rise/lift period and must be 15 mm displacement and the fall is identical to rise/lift period and must return to the base again at 210°. The base of the circle cam is 140 mm. Produce the profile of cam for 2°intervals and find out speed of cam in rpm and the corresponding time interval for each segment of the profile. Provide both a table of data and final sketch including all the information on it. 1. Explore the profiles that will achieve a specified motion for a) radial plate (one type only) b) cylindrical cams (at least three types)
Cam-follower is used in a range of applications to convert rotational motion to linear motion of a follower at specific characteristics and time period. Your role is to construct the profile of a cam that specify the following motion requirements of a follower: Motion.1: first part of lift period at constant acceleration of 2 m/s2 over rotation of 30° Motion.2: second part of lift period at constant deceleration of 2 m/s? over the next 30° Motion.3: follower produces constant displacement for next 90° Motion 1 and 2 are the rise/lift period and must be 15 mm displacement and the fall is identical to rise/lift period and must return to the base again at 210°. The base of the circle cam is 140 mm. Produce the profile of cam for 2°intervals and find out speed of cam in rpm and the corresponding time interval for each segment of the profile. Provide both a table of data and final sketch including all the information on it. 1. Explore the profiles that will achieve a specified motion for a) radial plate (one type only) b) cylindrical cams (at least three types)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![Project 4:
Cam-follower is used in a range of applications to convert rotational motion to linear motion of a follower at
specific characteristics and time period. Your role is to construct the profile of a cam that specify the following
motion requirements of a follower:
Motion.1: first part of lift period at constant acceleration of 2 m/s2 over rotation of 30°
Motion.2: second part of lift period at constant deceleration of 2 m/s? over the next 30°
Motion.3: follower produces constant displacement for next 90°
Motion 1 and 2 are the rise/lift period and must be 15 mm displacement and the fall is identical to
rise/lift period and must return to the base again at 210°. The base of the circle cam is 140 mm.
Produce the profile of cam for 2°intervals and find out speed of cam in rpm and the corresponding time
interval for each segment of the profile. Provide both a table of data and final sketch including all the
information on it.
1. Explore the profiles that will achieve a specified motion for
a) radial plate (one type only)
b) cylindrical cams (at least three types)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fccd9c527-65f1-4b62-9ccd-fae3514aa7b0%2F2c268ee0-e69d-4b36-82cd-276ddcfff31d%2Fqighujf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Project 4:
Cam-follower is used in a range of applications to convert rotational motion to linear motion of a follower at
specific characteristics and time period. Your role is to construct the profile of a cam that specify the following
motion requirements of a follower:
Motion.1: first part of lift period at constant acceleration of 2 m/s2 over rotation of 30°
Motion.2: second part of lift period at constant deceleration of 2 m/s? over the next 30°
Motion.3: follower produces constant displacement for next 90°
Motion 1 and 2 are the rise/lift period and must be 15 mm displacement and the fall is identical to
rise/lift period and must return to the base again at 210°. The base of the circle cam is 140 mm.
Produce the profile of cam for 2°intervals and find out speed of cam in rpm and the corresponding time
interval for each segment of the profile. Provide both a table of data and final sketch including all the
information on it.
1. Explore the profiles that will achieve a specified motion for
a) radial plate (one type only)
b) cylindrical cams (at least three types)
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