A holder is used while attached to a chassis of a vibration generator that moves a vibrator to generate a vibration. The holder includes a vibrator retention unit retaining the vibrator, a fixed unit fixed to the chassis, and an arm. The arm connects the fixed unit and the vibrator retention unit, and the arm supports the vibrator retention unit while the vibrator retention unit can be displaced with respect to the fixed unit. The fixed unit, the arm, and the vibrator retention unit are integrally formed using resin.

A holder is used while attached to a chassis of a vibration generator that moves a vibrator to generate a vibration. The holder includes a vibrator retention unit retaining the vibrator, a fixed unit fixed to the chassis, and an arm. The arm connects the fixed unit and the vibrator retention unit, and the arm supports the vibrator retention unit while the vibrator retention unit can be displaced with respect to the fixed unit. The fixed unit, the arm, and the vibrator retention unit are integrally formed using resin.

A holder is used while attached to a chassis of a vibration generator that moves a vibrator to generate a vibration. The holder includes a vibrator retention unit retaining the vibrator, a fixed unit fixed to the chassis, and an arm. The arm connects the fixed unit and the vibrator retention unit, and the arm supports the vibrator retention unit while the vibrator retention unit can be displaced with respect to the fixed unit. The fixed unit, the arm, and the vibrator retention unit are integrally formed using resin.

An oscillator typically includes a rotatable drive shaft, at least two pivot members which rotate with the drive shaft, at least one oscillating member which is pivotable back and forth in an oscillating manner and at least one rod mounted on the at least one oscillating member which is movable in response to rotational and pivotal movement of the at least two pivot members so as to cause the oscillating member to pivot back and forth in an oscillating manner. At least one rotatable drive wheel may drive rotatable movement of the drive shaft. A drive mechanism may be used to drive rotation of the at least one drive wheel. At least one generating magnet may be mounted on the oscillating member and movable adjacent an electrically conductive coil for producing an electric current therein.

A holder is used while attached to a chassis of a vibration generator that moves a vibrator to generate a vibration. The holder includes a vibrator retention unit retaining the vibrator, a fixed unit fixed to the chassis, and an arm. The arm connects the fixed unit and the vibrator retention unit, and the arm supports the vibrator retention unit while the vibrator retention unit can be displaced with respect to the fixed unit. The fixed unit, the arm, and the vibrator retention unit are integrally formed using resin.

The present invention is a machine in which the repulsion and attraction forces of moving electromagnets are utilized to power a series of linkages that ultimately turn a crank. The motor is controlled by an external computer system which distributes an electric current among the electromagnets. In order to reverse the polarities of the electromagnets, the direction of the current will be rapidly changing. This polarity reverse causes electromagnets to repel and attract. The magnets then oscillate along two swing arms that once swung because of both polarity attraction and repulsion, activate the linkages.

A propulsion apparatus for a motor vehicle including an electric motor and at least one harmonic oscillator is disclosed. The electric motor emits a rotating magnetic field during operation and the at least one harmonic oscillator is arranged to interact with the rotating magnetic field emitted by the electric motor, wherein the harmonic oscillator comprises at least one support, a magnet with a magnetic pole exposed to the rotating magnetic field emitted by the electric motor, and an elastic element suspending the magnet to the support, such that the magnet oscillates with respect to the support as a function of the rotating magnetic field, thereby inducing a sound pressure wave corresponding to the oscillation of the magnet and the elastic element.

A propulsion apparatus for a motor vehicle including an electric motor and at least one harmonic oscillator is disclosed. The electric motor emits a rotating magnetic field during operation and the at least one harmonic oscillator is arranged to interact with the rotating magnetic field emitted by the electric motor, wherein the harmonic oscillator comprises at least one support, a magnet with a magnetic pole exposed to the rotating magnetic field emitted by the electric motor, and an elastic element suspending the magnet to the support, such that the magnet oscillates with respect to the support as a function of the rotating magnetic field, thereby inducing a sound pressure wave corresponding to the oscillation of the magnet and the elastic element.

The electromagnetic piston having two coils connected in series with a capacitor between the two coils. An electromagnetic chamber within the piston with one of the coils at each end of the chamber. A second set of coils connected to a power source. Copper connections on the piston to facilitate movement of power.

The electromagnetic piston having two coils connected in series with a capacitor between the two coils. An electromagnetic chamber within the piston with one of the coils at each end of the chamber. A second set of coils connected to a power source. Copper connections on the piston to facilitate movement of power.