COSMOSMotion Slides
What is COSMOSMotion? COSMOSMotion is a rigid body kinematics and dynamic simulation software that is fully integrated in SolidWorks COSMOSMotion simulates the real life working of your mechanism It is used by students, designers, engineers and other professionals to produce efficient and optimized designs
Traditional Design Cycle Use SolidWorks to build the model Manufacture a prototype Test the model under various conditions. Instrumentation is needed in most cases Based on the results, modify the model in SolidWorks, build a prototype, and test again until you are satisfied with the design Send the drawings to manufacturing
Design Cycle with COSMOSMotion Use SolidWorks to build the model Use COSMOSMotion to test the model virtually on a computer Based on the results, modify the model and simulate until you are satisfied with the design Build the prototype for further testing Send the drawings to manufacturing
Benefits of using COSMOSMotion Reduces the number of prototypes needed for testing Reduces the design time and thereby time to market Reduces the engineering design cost due to reduced physical testing Optimize your designs by quickly simulating many concepts and scenarios before making a final decision
What can COSMOSMotion do? Determine how the mechanism (assemblies) will move Find Clearance/Interference through entire range of motion Determine how forces effect the mechanism Determine reaction forces, spring forces, loads, torques, accelerations, velocities Create trace path and Cam profile Size actuators, motors, springs and dampers Provide loading information for design validation
What is Motion Simulation? How parts in an assembly will move is determined by: Joints connecting the part Driving motions applied to joints The mass properties of parts Applied Forces to the system (Dynamics) Time COSMOSMotion allows you to input these parameters and show you how parts in an assembly will move
Key Engineering Problems addressed by COSMOSMotion Size motors and actuators Determine power consumption See how friction will increase power requirements and actuators size Design Force Transmission Spring and damper stiffness Design Hydraulic actuators Reduce vibrations. Understand imbalance effects on mechanisms Determine boundary conditions for stress analysis
Joints A joint is used to constrain the relative motion of a pair of rigid bodies by physically connecting them Joints are automatically created from SolidWorks mates COSMOSMotion also allows users to create joints manually
Types of Motion Free Displacement Velocity Acceleration Displacement, Velocity and Acceleration can be constant or a function of time Types of Functions: Step, Harmonic, Spline and Expression
Spring and Dampers Types of Springs in COSMOSMotion Translation Spring Torsion Spring Non linear Spring Types of Dampers in COSMOSMotion Translation Damper Torsion Damper Non linear Damper
Types of Forces Gravity Applied Forces Action only force Action only moment Action/Reaction force Action/Reaction moment Impact force
Analysis Steps Create the model in SolidWorks and apply materials Select Fixed parts and Moving parts Automatically derive joints from SolidWorks assembly mates Define motion to the joints Create springs, dampers, forces if needed Run the motion simulation View the results
View Results Play Animations of Motion Check for Interference Plot Numerical Data Display Result Symbols Create Trace Path and Cam Profile Export Forces to COSMOSWorks