Dynamic balance such as input torque and angular velocity fluctuation is an important problem in the design of machines and mechanisms, Geneally, control of angular velocity fluctuation is obtained primarily by a flywheel which the moment of inertia i...
Dynamic balance such as input torque and angular velocity fluctuation is an important problem in the design of machines and mechanisms, Geneally, control of angular velocity fluctuation is obtained primarily by a flywheel which the moment of inertia is very big. But it can not cancel completely the fluctuation of angular velocity.
This paper investigates a design method of noncircular geared flywheel which can eliminate perfectly the angular velocity and input torque fluctuation of the mechanical system. The ratio of angular velocity of crank shaft and noncircular geared flywheel is derived, which sets the relation between the flywheel and profit and loss work of the mechanical system.