A transmission or actuator offering one or more rotational outputs proportionate in speed and direction to that of a common rotational input, each with its own ratio coupled with a controllable dynamic slip/compliance element and optionally either of a one-way bearing or brake preventing back driving. Ratios are continuously variable between positive and negative values, including infinity, varied by mechanical or electromechanical actuators under external or computer control. The transmission may intrinsically integrate multiple partial transmissions for increasing torque capability, rapidly changing between alternate settings, and/or to drive multiple outputs with customizable design. A communicating system of such distributed transmissions forming a hierarchy or network, each transmission driven directly by a motor, indirectly by the output of another transmission, or both, including indirect cumulative forward and back driving throughout the hierarchy or network. Such a network of actuators for complex robotic, manufacturing, movement, or transport applications.

A transmission or actuator offering one or more rotational outputs proportionate in speed and direction to that of a common rotational input, each with its own ratio coupled with a controllable dynamic slip/compliance element and optionally either of a one-way bearing or brake preventing back driving. Ratios are continuously variable between positive and negative values, including infinity, varied by mechanical or electromechanical actuators under external or computer control. The transmission may intrinsically integrate multiple partial transmissions for increasing torque capability, rapidly changing between alternate settings, and/or to drive multiple outputs with customizable design. A communicating system of such distributed transmissions forming a hierarchy or network, each transmission driven directly by a motor, indirectly by the output of another transmission, or both, including indirect cumulative forward and back driving throughout the hierarchy or network. Such a network of actuators for complex robotic, manufacturing, movement, or transport applications.

A transmission or actuator offering one or more rotational outputs proportionate in speed and direction to that of a common rotational input, each with its own ratio coupled with a controllable dynamic slip/compliance element and optionally either of a one-way bearing or brake preventing back driving. Ratios are continuously variable between positive and negative values, including infinity, varied by mechanical or electromechanical actuators under external or computer control. The transmission may intrinsically integrate multiple partial transmissions for increasing torque capability, rapidly changing between alternate settings, and/or to drive multiple outputs with customizable design. A communicating system of such distributed transmissions forming a hierarchy or network, each transmission driven directly by a motor, indirectly by the output of another transmission, or both, including indirect cumulative forward and back driving throughout the hierarchy or network. Such a network of actuators for complex robotic, manufacturing, movement, or transport applications.

A transmission or actuator offering one or more rotational outputs proportionate in speed and direction to that of a common rotational input, each with its own ratio coupled with a controllable dynamic slip/compliance element and optionally either of a one-way bearing or brake preventing back driving. Ratios are continuously variable between positive and negative values, including infinity, varied by mechanical or electromechanical actuators under external or computer control. The transmission may intrinsically integrate multiple partial transmissions for increasing torque capability, rapidly changing between alternate settings, and/or to drive multiple outputs with customizable design. A communicating system of such distributed transmissions forming a hierarchy or network, each transmission driven directly by a motor, indirectly by the output of another transmission, or both, including indirect cumulative forward and back driving throughout the hierarchy or network. Such a network of actuators for complex robotic, manufacturing, movement, or transport applications.

A continuously variable transmission (CVT) includes an input arrangement associated with an input shaft and an output arrangement associated with an output shaft. An input sprocket and an output sprocket are connected via a chain. An input cone member is connected to the input shaft, disposed within a central opening of the input sprocket, and frictionally engages an inner periphery of the input sprocket such that rotation of the input cone causes the input sprocket to rotate. An output cone member is connected to the output shaft, disposed within a central opening of the output sprocket, and frictionally engages an inner periphery of the output sprocket such that rotation of the output sprocket causes rotation of the output cone member.

A continuously variable transmission (CVT) includes an input arrangement associated with an input shaft and an output arrangement associated with an output shaft. An input sprocket and an output sprocket are connected via a chain. An input cone member is connected to the input shaft, disposed within a central opening of the input sprocket, and frictionally engages an inner periphery of the input sprocket such that rotation of the input cone causes the input sprocket to rotate. An output cone member is connected to the output shaft, disposed within a central opening of the output sprocket, and frictionally engages an inner periphery of the output sprocket such that rotation of the output sprocket causes rotation of the output cone member.