Chapter 3 planar linkage 3.1 Types of the four-bar linkages 3.2 Variation of revolute four-bar mechanism 3.3 Application of the linkages 3.4 Characteristics Analysis of four-bar linkages 3.5 Velocity analysis by the Method of instant centers 3.6 Kinematic synthesis of four-bar linkages
Chapter 3 planar linkage 3.1 Types of the four-bar linkages 3.2 Variation of revolute four-bar mechanism 3.3 Application of the linkages 3.4 Characteristics Analysis of four-bar linkages 3.5 Velocity analysis by the Method of instant centers 3.6 Kinematic synthesis of four-bar linkages
Chapter 3 planar linkage r Mechanisms are used in a great variety of machines and devices. The simplest closed-loop linkage is the r four-bar which has three r moving links and r four pin joints
Chapter 3 planar linkage Mechanisms are used in a great variety of machines and devices. The simplest closed-loop linkage is the four-bar,which has three moving links and four pin joints. 4
3. 1 Types of the four-bar linkages Types 1) Crank-rocker mechanism 2)Double-crank mechanism 3)Double-rocker mechanism
3.1 Types of the four-bar linkages Types: 1) Crank-rocker mechanism 2) Double-crank mechanism 3) Double-rocker mechanism
A Double-rocker Crank-rocker Double-crank Blender Crane
Crank-rocker Double-crank Double-rocker Blender Crane
冲床
冲床
3.2 Variation of revolute four- bar mechanism r Transformation techniques or rules that can be applied r1. Replacing a revolute pair with a sliding pair r2. Taking different links as the frame r3. Enlarge a revolute pair r4. Interchanging quide-bar and sliding block
3.2 Variation of revolute four-bar mechanism Transformation techniques or rules that can be applied 1. Replacing a revolute pair with a sliding pair 2. Taking different links as the frame 3. Enlarge a revolute pair 4. Interchanging guide-bar and sliding block
1. Replacing a revolute pair with a sliding pair B C ●D e: represents eccentric or offset B
1. Replacing a revolute pair with a sliding pair e: represents eccentric or offset
2. Taking different links as the frame r For the same kinematic chain different kinds of mechanisms will be generated by holding different links fixes as the frame Such kinds of variations are called inversions
For the same kinematic chain,different kinds of mechanisms will be generated by holding different links fixes as the frame. Such kinds of variations are called inversions. 2. Taking different links as the frame
3. Enlarge a revolute pair
3. Enlarge a revolute pair
4. Interchanging guide-bar and sliding block
4. Interchanging guide-bar and sliding block