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Engineering Curves
- 1. • Name : Surbhi R Yadav • Branch : Computer Engineering • Division : A • Semester : First • Subject : Engineering Graphics • Roll No : 48 • Enrollment No : 141200107065 • Faculty Name : Mr. Bhavya Kothak Aditya Silver Oak Institute of Technology
- 3. Introduction • When one curve rolls over another curve without sliding or slipping, the path of any point of the rolling curve is called a roulette. • When rolling curve is a circle and the curve on which it rolls is a straight line or a circle, we get cycloidal group of curves. • There are nine different curves in this group.
- 4. Classification of Cycloidal Curves Cycloid : 1. Inferior Trochoid 2. Superior Trochoid Epicycloid 1. Inferior Epitrochoid 2. Superior Epitrochoid Hypocycloid 1. Inferior Hypotrochoid 2. Superior Hypotrochoid
- 5. Cycloids • A cycloid is a curve generated by a point on the circumference of the circle as the circle rolls along a straight line with out slipping.. • The moving circle is called the "Generating circle" and the straight line is called the "Directing line" or the "Base line". • The point on the Generating circle which generates the curve is called the "Generating point"
- 6. Construction of a Cycloid • Step1: Draw the generating circle and the base line equal to the circumference of the generating circle
- 7. • Step 2 : Divide the circle and the base line in to equal number of parts. also erect the perpendicular lines from the division of the line
- 8. • Step 3: with your compass set to the radius of the circle and centers as C1,C2,C3,.... etc. cut the arcs on the lines from circle through 1,2,3, .. etc.
- 9. • Step 4: locate the points which are produced by cutting arcs and joining by a smooth curve.
- 10. • By joining these new points you will have created the locus of the point P for the circle as it rotates along the straight line with out slipping
- 11. • Hence our final result is a cycloid
- 12. Epicycloids • The cycloid is called the epicycloid when the generating circle rolls along another circle outside(directing circle) • The curve traced by a point on a circle which rolls on the out side of a circular base surface
- 13. Construction of an Epicycloid • Step1: Draw and divide the circle in to 12 equal divisions. • Step 2: Transfer the 12 divisions on to the base surface.
- 14. • Step3: Mark the 12 positions of the circle- centers (C1,C2,C3,C4..) as the circle rolls on the base surface. • Step 4: Project the positions of the point from the circle.
- 15. • Step 5: Using the radius of the circle and from the marked centers C1,C2,C3,C4.. etc. cut off the arcs through 1,2,3.. etc. • Step 6: Darken the curve and our final result is an epicycloid
- 16. Hypocycloids and its Construction • The curve traced by a point on a circle which rolls on the inside of a circular base surface. • Step 1: Divide the rolling circle in to 12 equal divisions. • Step 2: Transfer the 12 divisions on to the base surface.
- 17. • Step 3: Mark the 12 positions of the circle - center (C1,C2,C3..) as the circle rolls on the base surface. • Step 4: project the positions of the point from the circle.
- 18. • Step 5: Using the radius of the circle and from the marked centers step off the position of the point. • Step 6: Darken the curve and result is a hypocycloid
- 19. Applications of Cycloid Curves •Used in design of gear tooth profiles •Conveyor of mould boxes in foundry shops •Commonly used in kinematics and in mechanism that work with rolling contact.
- 20. Thank You