Kinematics Fundamentals

Lecture 2

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Joints ReduceSystem DOF

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Determining MobilityGrubler & Kutzbach Equations

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Mechanisms and Structures

Fourbar Linkage Delta Triplet (Truss)

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Applying Mobility Equations - 1

M = 3 (L-1) –2(J1) – J2 = 3(8-1) –2(10) – 0 = 1

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Applying Mobility Equations - 2

M = 3 (L-1) –2(J1) – J2 = 3(6-1) –2(7) – 1 = 0

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Gruebler Paradoxes

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Possible Mechanismsfrom “Number Synthesis”

Some combinations will make valid “Isomers,” and some will not.

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Isomers

C4H10

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Invalid Isomers

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Grashof Condition

Demonstration

LINKAGE TRANSFORMATION

• Revolute joints in any loop can be replaced by prismatic joints with no change in DOF of the mechanism, provided that at least two revolute joints remain in the loop.

• Any full joint can be replaced by a half joint, but this will increase the DOF by one.

• Removal of a link will reduce the DOF by one.

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LINKAGE TRANSFORMATION

• The combination of rules 2 and 3 above will keep the original DOF unchanged.

• Any ternary or higher-order link can be partially "shrunk" to a lower-order link by coalescing nodes. This will create a multiple joint but will not change the DOF of the mechanism.

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LINKAGE TRANSFORMATION

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LINKAGE TRANSFORMATION

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LINKAGE TRANSFORMATION

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LINKAGE TRANSFORMATION

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INTERMITTENT MOTION

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Inversions

• Inversions result from grounding different links in the chain.

• So, there are as many inversions as links.• Not all inversions will have unique kinds of

motion.• For example, a Grashof Fourbar has only 3

distinct inversions, 2 crank-rockers, 1 double-crank, and 1 double-rocker.

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Inversions of the Grashof FourbarS + L < P + Q

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Inversions of the Non-Grashof FourbarS + L > P + Q

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Special-Case Grashof LinkageS + L = P + Q

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Inversions of the Slider Crank

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Inversions of the Sixbar Linkage

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Geared Fivebar Linkage

M = 3(5 – 1) – 2(5) – 0 = 2 M = 3(5 – 1) – 2(5) – 1 = 1

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Compliant Linkages

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Find Its Degree of Freedom

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Find Their Grashof Conditions