The present invention describes an electromechanical exercise machine that simulates the inertia and weight of a mass in Earth's gravity field and allows a user to move said simulated mass in the primary degrees of freedom of a traditional barbell free-weight system, with or without the use of various accessories.

A computer-implemented system for an exercise machine includes a mechanical energy storage device and an apparatus configured to supplement the resistance of the mechanical energy storage device with an added resistance and dissipate the energy of the mechanical energy storage device and an associated athlete. A communication pathway enables the exercise machine to communicate with at least one additional associated exercise machine to duplicate the total resistance in the exercise machine to an associated exercise machine. A central server includes a processor, memory, and a networking interface. A first user device includes a display, a processor, a memory, and a networking interface. The central server receives data from the exercise machine, extracts synchronization performance information from the data, and transmits the synchronization performance data to the first user device where it is used to train an athlete for an athletic endeavor.

An exercise machine includes a cyclical actuator and a mechanical energy storage device. Connective structure operatively connects the cyclical actuator to the mechanical energy storage device. Motion of the cyclical actuator urges physical motion of and energy storage in the mechanical energy storage device. The exercise machine further includes an electric machine. A communication pathway enables exchange of data between multiple associated exercise machines such that multiple associated operators on multiple associated exercise machines have a common experience.

A training apparatus for the simulation of rowing training includes a rolling seat to be moved linearly back and forth on a guide on a frame. Two handles which can be rotated independently of one another are mounted on an oarlock shaft. The oarlock shafts are connected to a drive mechanism in a force-flow connection. Upon introduction of force to the handles, power is output to a braking device via a drive mechanism, which has a freewheel between the oarlock shafts and the braking device. Upon actuation of the handles in a first direction about the axis of the respective rowlock shafts, power is transmitted to the braking device, and, upon actuation of the handles in the opposite direction the handles return without power being transmitted to the braking device.

A training apparatus for the simulation of rowing training includes a rolling seat to be moved linearly back and forth on a guide on a frame. Two handles which can be rotated independently of one another are mounted on an oarlock shaft. The oarlock shafts are connected to a drive mechanism in a force-flow connection. Upon introduction of force to the handles, power is output to a braking device via a drive mechanism, which has a freewheel between the oarlock shafts and the braking device. Upon actuation of the handles in a first direction about the axis of the respective rowlock shafts, power is transmitted to the braking device, and, upon actuation of the handles in the opposite direction the handles return without power being transmitted to the braking device.

A transportable rowing device can include a top plate, a rod, and an oar lock. The rod can be rotatable with respect to the top plate. The oar lock can be secured to the rod and the oar lock can be configured to secure an oar therein. The oar lock can be rotatable with the rod.

A transportable rowing device can include a top plate, a rod, and an oar lock. The rod can be rotatable with respect to the top plate. The oar lock can be secured to the rod and the oar lock can be configured to secure an oar therein. The oar lock can be rotatable with the rod.

An exercise machine includes a cyclical actuator and a mechanical energy storage device. Connective structure operatively connects the cyclical actuator to the mechanical energy storage device. Motion of the cyclical actuator urges physical motion of and energy storage in the mechanical energy storage device. The exercise machine further includes an electric machine. A communication pathway enables exchange of data between multiple associated exercise machines such that multiple associated operators on multiple associated exercise machines have a common experience.

An exercise machine includes a cyclical actuator and a mechanical energy storage device. Connective structure operatively connects the cyclical actuator to the mechanical energy storage device. Motion of the cyclical actuator urges physical motion of and energy storage in the mechanical energy storage device. The exercise machine further includes an electric machine. A communication pathway enables exchange of data between multiple associated exercise machines such that multiple associated operators on multiple associated exercise machines have a common experience.

A multi-functional rowing exerciser apparatus accommodates a plurality of rowing and paddling by connecting or releasing a cable system to selectively configure the rowing exerciser for sweep rowing, sculling oar rowing configuration to the Stand-Up-Paddling configuration in an easy and convenient manner.