Apparatuses, systems, and methods of use for a generator is disclosed. In one embodiment, the generator has a stator and a rotor and a first plurality of magnets coupled to the rotor and a second plurality of magnets coupled to the stator. An external magnetic housing may be coupled to an input shaft of the generator or surround the generator itself. A first layer of magnets produce a rotating magnetic field and a second layer of magnets create a static magnetic field, whether such magnets are in the generator itself or within an external magnetic housing. The disclosed generator increases the mechanical power inputted into the generator, which then produces an increased output of the generator.

Apparatuses, systems, and methods of use for a generator is disclosed. In one embodiment, the generator has a stator and a rotor and a first plurality of magnets coupled to the rotor and a second plurality of magnets coupled to the stator. An external magnetic housing may be coupled to an input shaft of the generator or surround the generator itself. A first layer of magnets produce a rotating magnetic field and a second layer of magnets create a static magnetic field, whether such magnets are in the generator itself or within an external magnetic housing. The disclosed generator increases the mechanical power inputted into the generator, which then produces an increased output of the generator.

An electric axle assembly having dual motors and dual disconnects allowing for selectably disconnecting either one of the motors so that either motor may operate as the primary drive motor. Each of the dual motors is coupled to a layshaft, and each disconnect is positioned between a gear reduction at the output of the motor and a gear reduction connected to the layshaft. The layshaft is coupled to a differential via a clutch and gear set, the gear set providing a two-speed transmission for power delivered from the layshaft to the differential.

An electric axle assembly having dual motors and dual disconnects allowing for selectably disconnecting either one of the motors so that either motor may operate as the primary drive motor. Each of the dual motors is coupled to a layshaft, and each disconnect is positioned between a gear reduction at the output of the motor and a gear reduction connected to the layshaft. The layshaft is coupled to a differential via a clutch and gear set, the gear set providing a two-speed transmission for power delivered from the layshaft to the differential.

A regenerative energy system comprises a power source driving a motor that rotates a drive gear about an axis, the drive gear rotating a driven gear about an axis. The drive and driven gears each comprise radially extending teeth projecting from respective gear peripheries, the teeth meshing when the drive gear drives the 5 driven gear. Permanent magnets are disposed in at least some of the drive and driven gear teeth such that the magnetic poles of the drive gear teeth repel the poles of the driven gear teeth. When magnetic repulsive forces between the drive and driven gear teeth are overcome, the drive gear and driven gear teeth can engage one another. A coil is located in proximity to the permanent magnets. The 0 coil can form part of a solenoid. Electrical current is generated in the coil by a movement of the permanent magnets relative to the coil.

A regenerative energy system comprises a power source driving a motor that rotates a drive gear about an axis, the drive gear rotating a driven gear about an axis. The drive and driven gears each comprise radially extending teeth projecting from respective gear peripheries, the teeth meshing when the drive gear drives the 5 driven gear. Permanent magnets are disposed in at least some of the drive and driven gear teeth such that the magnetic poles of the drive gear teeth repel the poles of the driven gear teeth. When magnetic repulsive forces between the drive and driven gear teeth are overcome, the drive gear and driven gear teeth can engage one another. A coil is located in proximity to the permanent magnets. The 0 coil can form part of a solenoid. Electrical current is generated in the coil by a movement of the permanent magnets relative to the coil.

The present invention relates to a self-contained and powered electric energy generator system. The energy generator system comprises a pair of generators designed to provide power to an external item, and wherein one of the generators is also configured to provide input power to an integrated AC motor. The AC motor is connected to a flywheel, which stores kinetic energy from the rotation of the AC motor. Then, the generators produce electricity by converting the stored kinetic energy into electrical energy. The generator system does not need fuel or external sources for generating electricity, and accordingly is cost efficient and environmentally friendly.

The present invention relates to a self-contained and powered electric energy generator system. The energy generator system comprises a pair of generators designed to provide power to an external item, and wherein one of the generators is also configured to provide input power to an integrated AC motor. The AC motor is connected to a flywheel, which stores kinetic energy from the rotation of the AC motor. Then, the generators produce electricity by converting the stored kinetic energy into electrical energy. The generator system does not need fuel or external sources for generating electricity, and accordingly is cost efficient and environmentally friendly.

The disclosure provides a pole-piece structure for a magnetic gear, comprising a plurality of laminate plates, wherein each plate comprises one or more apertures and an aperture in each plate aligns with an aperture in an adjacent plate to form one or more channels extending from a first end of the laminate plates to a second, opposite end of the laminate plates, wherein a resin cast is provided within each channel to hold the plurality of laminate plates together.

The disclosure provides a pole-piece structure for a magnetic gear, comprising a plurality of laminate plates, wherein each plate comprises one or more apertures and an aperture in each plate aligns with an aperture in an adjacent plate to form one or more channels extending from a first end of the laminate plates to a second, opposite end of the laminate plates, wherein a resin cast is provided within each channel to hold the plurality of laminate plates together.