couplings and drives -凯发k8网页登录

dynamic transfer of torques and motions

couplings and drives blocks represent power transmission elements and systems such as springs, dampers, pulleys, and drives. to model the dynamic transfer of torques and motions, connect these blocks together just as you would assemble a physical driveline system.

simscape blocks

coupling and drive assemblies

	bearing that provides trans-axial support to freely rotating shaft
	power transmission system with taut belt connecting two pulleys
	power transmission element with frictional belt wrapped around pulley circumference
	power transmission system with chain and two sprockets
	shaft with torsional and bending compliance
	axially flexible bar or cable
	physical connection that enables tension transfer
	power transmission system with tightly wound rope around cylindrical drum
	spring and damper system that absorbs translational shocks
	viscous fluid coupling between rotating driveline shafts
	rotational spring and damper coupling with coulomb friction, locking, and hard stops
	rotational coupling between two driveline shafts
	dynamic gearbox with variable and controllable gear ratio, transmission compliance, and friction losses

springs and dampers

	sealed translational air spring
	nonlinear damper in a rotational system
	torsional spring based on polynomial or table lookup parameterizations
	nonlinear damper in a translational system
	translational spring based on polynomial or table lookup parameterizations
	faultable linear rotational damper
	faultable linear translational damper
	rotational damper with variable damping coefficient
	rotational spring with variable spring stiffness
	translational viscous damper with variable damping coefficient
	translational spring with variable spring stiffness

topics

model damping due to viscous friction.
model random noise in a drivetrain.
model faults that disturb drivetrains.
learn about belt direction and using ropes and inertias in pulley networks.

troubleshooting

identify and eliminate issues that prevent your model from simulating to completion.

learn how to solve initialization and motion issues in pulley networks.