An example flywheel energy storage device includes a fiber-resin composite shell having an elliptical ovoid shape. The example device also includes an axially oriented internal compressive support between the axial walls of the shell. The example device also includes an inner boss plate and an outer boss plate on each side of the shell. The example device also includes a plurality of radially oriented, fiber-resin composite helical wraps forming the shell and coupling the shell to the inner and outer boss plates for co-rotation and torque transfer. The example device also includes boss plate attachments on internal boss plate supports to mount the shell for co-rotation and torque transfer via resin bonding, friction, and compression between the inner and outer boss plates.

A vibration damper that effectively damps vibrations moving a drive unit and a support body closer to and away from each other by a rolling mass. The vibration damper comprises: an elastic member interposed between the drive unit and the support body; an arm extending from the drive unit toward the support body; a rolling mass rolled on the arm by a reciprocation of the arm; a support member fixed to the support body while rotatably supporting the rolling mass; and a position changer that changes a contact point between the rolling mass and the arm by reciprocating the arm.

A vibration damper that effectively damps vibrations moving a drive unit and a support body closer to and away from each other by a rolling mass. The vibration damper comprises: an elastic member interposed between the drive unit and the support body; an arm extending from the drive unit toward the support body; a rolling mass rolled on the arm by a reciprocation of the arm; a support member fixed to the support body while rotatably supporting the rolling mass; and a position changer that changes a contact point between the rolling mass and the arm by reciprocating the arm.

A utility power generator includes a flywheel that includes an outer perimeter that is operable between a planar position and a plurality of sinusoidal positions. A hub is concentrically positioned within the flywheel, wherein the hub defines a rotational axis of the flywheel. An axial fitting traverses relative to the hub and along the rotational axis in an axial direction as the flywheel operates between the planar position and the plurality of sinusoidal positions. The flywheel, the hub and the axial fitting are rotationally linked to synchronously rotate about the rotational axis. Rotation of the flywheel biases the axial fitting toward the planar position. A transfer fitting is coupled to at least one of the flywheel, the hub and the transfer fitting. Rotation of the flywheel about the rotational axis operates the transfer fitting to operate a tool.

A utility power generator includes a flywheel that includes an outer perimeter that is operable between a planar position and a plurality of sinusoidal positions. A hub is concentrically positioned within the flywheel, wherein the hub defines a rotational axis of the flywheel. An axial fitting traverses relative to the hub and along the rotational axis in an axial direction as the flywheel operates between the planar position and the plurality of sinusoidal positions. The flywheel, the hub and the axial fitting are rotationally linked to synchronously rotate about the rotational axis. Rotation of the flywheel biases the axial fitting toward the planar position. A transfer fitting is coupled to at least one of the flywheel, the hub and the transfer fitting. Rotation of the flywheel about the rotational axis operates the transfer fitting to operate a tool.

Product transport structures are provided which include a self-stabilizing platform assembly configured to support a product on a deck of the self-stabilizing platform assembly and to stabilize the product during moving of the self-stabilizing platform assembly and product. The self-stabilizing platform assembly includes multiple torque-generating devices and a stability control system. The multiple torque-generating devices are controllable to produce a stabilization torque within the self-stabilizing platform assembly, and the stability control system is configured to control operation of the multiple torque-generating devices. The stability control system is configured to adjust operation of one or more torque-generating devices of the multiple devices to produce the stabilization torque to facilitate stabilizing the product during moving of the self-stabilizing platform assembly and product.

Product transport structures are provided which include a self-stabilizing platform assembly configured to support a product on a deck of the self-stabilizing platform assembly and to stabilize the product during moving of the self-stabilizing platform assembly and product. The self-stabilizing platform assembly includes multiple torque-generating devices and a stability control system. The multiple torque-generating devices are controllable to produce a stabilization torque within the self-stabilizing platform assembly, and the stability control system is configured to control operation of the multiple torque-generating devices. The stability control system is configured to adjust operation of one or more torque-generating devices of the multiple devices to produce the stabilization torque to facilitate stabilizing the product during moving of the self-stabilizing platform assembly and product.

A rotary device includes a first rotor, a second rotor, a centrifugal element, and a first rolling member. The first rotor includes an accommodation portion having first and second guide surfaces. The first and second guide surfaces face both sides in a circumferential direction. The first rotor is disposed to be rotatable. The second rotor is disposed to be rotatable with and relative to the first rotor. The centrifugal element is disposed within the accommodation portion. The centrifugal element is disposed to be radially movable by a centrifugal force acting thereon in rotation of the first or second rotor. The centrifugal element rotates about a rotational axis thereof in radial movement thereof. The first rolling member is disposed between the first guide surface and the centrifugal element. The first rolling member rolls on the first guide surface in accordance with rotation of the centrifugal element about the rotational axis thereof.

A flywheel arrangement comprising a shaft with a flywheel fixedly connected thereto. The flywheel comprises at least one cavity and that cavity is at least partially filled with particulate matter.

A flywheel arrangement comprising a shaft with a flywheel fixedly connected thereto. The flywheel comprises at least one cavity and that cavity is at least partially filled with particulate matter.