A levitating bicycle hub coupling structure using a magnet in the internal contact structure is provided. The levitating bicycle hub coupling structure in which a non-contact type structure in a levitated form is provided to reduce friction enables the position of a hub inner shaft member for transmitting the load of a user to an inner bearing part to be changed to an upper or lower preset position, and fixes the shaft member at a changed position so as to offset the load applied to the shaft member by the repulsive force of the magnets, such that the load is not applied to the bearing parts positioned at both sides of the shaft member or is significantly reduced so as to improve rolling performance, and thus riding of the bicycle becomes smoother and easier.

A flywheel device includes a base, a cantilever mounted on the base, a bearing seat mounted on the base, first magnetic members mounted on the base, a rotation shaft arranged between the cantilever and the bearing seat, a magnetically floating seat mounted on the rotation shaft, second magnetic members mounted on the magnetically floating seat and corresponding to the first magnetic members, third magnetic members mounted on the magnetically floating seat, a repulsion driver locked on the base and surrounding the magnetically floating seat, fourth magnetic members mounted on the repulsion driver and corresponding to the third magnetic members, and a flywheel unit mounted on the rotation shaft. The second magnetic members have a polarity the same as that of the first magnetic members. The fourth magnetic members have a polarity the same as that of the third magnetic members.

The present invention discloses a magnetic rolling bearing capable of reducing the balance radial force of the gear pump, which includes a magnetized inner ring, a rolling body, a cage, and a magnetized outer ring assembly. The inner ring is magnetized to make the inner and outer ring surfaces of the magnetized inner ring have different magnetic properties; the magnetized outer ring assembly consists of four components, namely an upper ring surface of the magnetized outer ring assembly, a lower ring surface of the magnetized outer ring assembly, and two components in left and right. The left and right components are not magnetized, they are connected by recesses and are fixed with bolts, and the four components are alternately connected to form a complete ring.

A magnetic bearing is disclosed. A group of permanent magnets are physically attached to a group of piezoelectric actuators which push them toward or pull them away from a second group of permanent magnets when the piezoelectric actuators are electrically activated. A control unit energizes the piezoelectric actuators to provide a dynamic magnetic bearing. The second group of permanent magnets may also be pushed and pulled with a second group of piezoelectric actuators. Alternate configurations using electromagnets are also disclosed.

A novel configuration for the groups of electromagnets which maximizes efficiency in a piezoelectrically actuated magnetic bearing is also disclosed.

A flywheel device includes a base, a cantilever mounted on the base, a bearing seat mounted on the base, first magnetic members mounted on the base, a rotation shaft arranged between the cantilever and the bearing seat, a magnetically floating seat mounted on the rotation shaft, second magnetic members mounted on the magnetically floating seat and corresponding to the first magnetic members, third magnetic members mounted on the magnetically floating seat, a repulsion driver locked on the base and surrounding the magnetically floating seat, fourth magnetic members mounted on the repulsion driver and corresponding to the third magnetic members, and a flywheel unit mounted on the rotation shaft. The second magnetic members have a polarity the same as that of the first magnetic members. The fourth magnetic members have a polarity the same as that of the third magnetic members.

A magnetic phonograph record stabilizer is configured to hold a phonograph record in a biased contact against a turntable. The stabilizer features a base which is engaged with a magnetic housing which is moveable from a first position where magnetic attraction biases the base toward the turntable. The magnetic housing is slidable to a second position eliminating the biasing from the magnetic flux so the stabilizer can be removed from the turntable.

The present invention discloses a magnetic rolling bearing capable of reducing the balance radial force of the gear pump, which includes a magnetized inner ring, a rolling body, a cage, and a magnetized outer ring assembly. The inner ring is magnetized to make the inner and outer ring surfaces of the magnetized inner ring have different magnetic properties; the magnetized outer ring assembly consists of four components, namely an upper ring surface of the magnetized outer ring assembly, a lower ring surface of the magnetized outer ring assembly, and two components in left and right. The left and right components are not magnetized, they are connected by recesses and are fixed with bolts, and the four components are alternately connected to form a complete ring.

A magnetic drive has a prime mover, having a first magnet array on a first surface thereof, and a rotor, having a second magnet array on an outer surface thereof. The outer surface of the rotor is located adjacent to the first surface of the prime mover such that movement of the prime mover causes rotation of the rotor about an axis of rotation. A support member has a shaft for defining the axis of rotation of the rotor, and having a third magnet array, and the third magnet array cooperates with a fourth magnet array on the rotor to form a magnetic bearing to resist forces on the rotor acting along the axis of rotation thereof.

The present disclosure relates to a bicycle hub, and more particularly, to a levitating bicycle hub coupling structure using a magnet in the internal contact structure in order to upgrade the levitating non-contact type structure to reduce friction and enable the position of a hub inner shaft member for transmitting the load of a user to an inner bearing part and the like to be changed to an upper or lower preset position, and fixes the same at a changed position so as to offset the load applied to the shaft member by the repulsive force of the magnets, such that the load is not applied to the bearing parts positioned at both sides of the shaft member or is significantly reduced so as to improve rolling performance, and thus riding of the bicycle becomes smoother and easier; or has first and second internal magnet parts formed at the outer peripheries of both sides of the housing rotating by being connected to bicycle wheels, and has first and second external magnet parts corresponding to the first and second internal magnet parts so as to generate repulsive force, such that when the user gets on the bicycle, an eccentric load transmitted to the shaft member through a bicycle frame is supported by the repulsive force, thereby enabling the prevention of load being applied to the bearing parts.

Provided are a tape guide roller and tape drive having a guide roller having magnets and bushings to stabilize a roller barrel for a tape medium. The tape guide roller has a roller barrel extending around a vertical axis. The tape medium passes across the roller barrel to guide the tape medium on a tape path. A plurality of magnets positioned with respect to the vertical axis provide an axial force to stabilize the tape guide roller axially.