Periodic running machines, such as linkages and cam-follower mechanisms, are usually designed considering a constant drive speed. However, in high speed machines, the required torque to drive the input shaft at constant speed exhibits a very high periodic fluctuation, hence massive motors are required to drive even small loads. This paper, starting form a review of the available literature, presents a theoretical framework to the problem of input torque balancing, and it defines a methodology for the synthesis of balancing mechanisms with the task to fully compensate the load variations due to a periodic torque
The harmful effects of imbalance-induced vibration cause significant productivity and precision redu...
Static balancing through passive devices is a suitable strategy to reduce motor loads for numerous a...
Traditional techniques for balancing long, flexible, high-speed rotating shafts are inadequate over ...
Machines are often subjected to periodic loads, related both to the characteristics of the payload o...
Linkage and cam-follower mechanism design are often based on the simplifying assumption of constant ...
Input torque balancing through addition of an auxiliary, input torque balancing mechanism, is a well...
In a companion paper Demeulenaere et al. (2005), the cam-based centrifugal pendulum (CBCP) was intro...
The paper deals with the kinematics and automated calculation of intermittent mechanisms with radial...
Abstract: Dynamic balancing of mechanisms still goes together with a considerable increase of mass a...
In a companion paper (Input torque balancing using a cam-based centrifugal pendulum: design procedur...
To increase the accuracy as well the production speed of industrial machines, dynamic balance is bec...
High speed drive shafts are traditionally balanced using trim balance weights applied to the shaft e...
This paper proposes a novel concept of active balancer for reducing the input torque fluctuations of...
This work is an attempt to evolve a means for statically and dynamical balancing of mechanical compo...
Technological progress requires higher-speed units that caused the increasing dynamic loads and thei...
The harmful effects of imbalance-induced vibration cause significant productivity and precision redu...
Static balancing through passive devices is a suitable strategy to reduce motor loads for numerous a...
Traditional techniques for balancing long, flexible, high-speed rotating shafts are inadequate over ...
Machines are often subjected to periodic loads, related both to the characteristics of the payload o...
Linkage and cam-follower mechanism design are often based on the simplifying assumption of constant ...
Input torque balancing through addition of an auxiliary, input torque balancing mechanism, is a well...
In a companion paper Demeulenaere et al. (2005), the cam-based centrifugal pendulum (CBCP) was intro...
The paper deals with the kinematics and automated calculation of intermittent mechanisms with radial...
Abstract: Dynamic balancing of mechanisms still goes together with a considerable increase of mass a...
In a companion paper (Input torque balancing using a cam-based centrifugal pendulum: design procedur...
To increase the accuracy as well the production speed of industrial machines, dynamic balance is bec...
High speed drive shafts are traditionally balanced using trim balance weights applied to the shaft e...
This paper proposes a novel concept of active balancer for reducing the input torque fluctuations of...
This work is an attempt to evolve a means for statically and dynamical balancing of mechanical compo...
Technological progress requires higher-speed units that caused the increasing dynamic loads and thei...
The harmful effects of imbalance-induced vibration cause significant productivity and precision redu...
Static balancing through passive devices is a suitable strategy to reduce motor loads for numerous a...
Traditional techniques for balancing long, flexible, high-speed rotating shafts are inadequate over ...