An eddy current type resistance device comprising: a ring-shaped flywheel; a shaft center, the shaft center has an axial blind hole, the shaft center has a radial blind hole, the radial blind hole is connected to the axial blind hole; a positioning frame, connected to the shaft center inside the ring-shaped flywheel; multiple magnetic field generating components, evenly arranged on the positioning frame, and make the signal wires of the magnetic field generating components pass through the radial blind hole and the axial blind hole the outer end of the shaft center; and a side cover, connecting to the other side of the ring-shaped flywheel, and is connected to the shaft center by a bearing. Thereby having the effect of simplifying the type and process of the side cover.

An eddy current type resistance device comprising: a ring-shaped flywheel; a shaft center, the shaft center has an axial blind hole, the shaft center has a radial blind hole, the radial blind hole is connected to the axial blind hole; a positioning frame, connected to the shaft center inside the ring-shaped flywheel; multiple magnetic field generating components, evenly arranged on the positioning frame, and make the signal wires of the magnetic field generating components pass through the radial blind hole and the axial blind hole the outer end of the shaft center; and a side cover, connecting to the other side of the ring-shaped flywheel, and is connected to the shaft center by a bearing. Thereby having the effect of simplifying the type and process of the side cover.

The mechanism transfers energy between mechanisms of reciprocating motions in planes perpendicular to each other. At the same time, this mechanism locks the mechanism of reciprocating motion in one of the planes during the movement of the unlocked mechanism of reciprocating motion in a plane perpendicular to it and vice versa. To achieve the best performance, the required distances between the magnets must be maintained, and the powers of the magnets must differ from each other. Also, the required configuration of the magnets must be to obtain an inversion of the attractive forces of magnets shaped like blocks with poles located under the steel blocks

The mechanism transfers energy between mechanisms of reciprocating motions in planes perpendicular to each other. At the same time, this mechanism locks the mechanism of reciprocating motion in one of the planes during the movement of the unlocked mechanism of reciprocating motion in a plane perpendicular to it and vice versa. To achieve the best performance, the required distances between the magnets must be maintained, and the powers of the magnets must differ from each other. Also, the required configuration of the magnets must be to obtain an inversion of the attractive forces of magnets shaped like blocks with poles located under the steel blocks

The devices and methods described herein are utilized to continuously track unpowered logistics platforms such as semi-trailers and intermodal shipping containers. In some examples, a tracking device harvests the kinetic energy of oscillatory movements of the shipping container to power the tracking device. In some instances, the shipping container is moving on a roadway, railway, or waterway. In other examples, a tracking device harvests the kinetic energy of airflow moving around the shipping container. In some instances, the airflow is caused by movement of the shipping container. In other instances, the airflow may be caused by ambient weather such that air is flowing around a stationary shipping container.

The present disclosure relates to aerosol delivery devices. The aerosol delivery devices may include an atomizer, a reservoir configured to contain an aerosol precursor composition and an electrical circuit coupled to the atomizer. The electrical circuit may include an electrical generator assembly including a moveable input member and an electrical generator configured to produce an electrical current from movement of the moveable input member. The electrical circuit may be configured to direct the electrical current to the atomizer to produce an aerosol from the aerosol precursor composition. A related aerosol production method is also provided.

The present disclosure relates to aerosol delivery devices. The aerosol delivery devices may include an atomizer, a reservoir configured to contain an aerosol precursor composition and an electrical circuit coupled to the atomizer. The electrical circuit may include an electrical generator assembly including a moveable input member and an electrical generator configured to produce an electrical current from movement of the moveable input member. The electrical circuit may be configured to direct the electrical current to the atomizer to produce an aerosol from the aerosol precursor composition. A related aerosol production method is also provided.

An electromechanical flywheel machine includes a flywheel mass enclosed in an evacuable housing.

An electromechanical flywheel machine includes a flywheel mass enclosed in an evacuable housing.

An assembly for generating electricity includes a circular track configured to rotate about a first axis of rotation, the circular track comprising a first magnet having a face that is at an angle with respect to the first axis of rotation, a second magnet positioned at a center of the circular track, wherein a face of the second magnet is an opposite polarity to the face of the first magnet such that the second magnet repels the first magnet to rotate the circular track, and a device for converting rotational motion from the circular track into electricity.