The present invention relates to a gymnastic machine (1) comprising a base structure (2) having a front transmission assembly (23) and a rear transmission assembly (24), wherein said base structure comprises two lateral longitudinal members (27, 28) between which a sliding belt (22) slides, a sliding belt (22), associated to said base structure (2), on which a user can perform a gymnastic exercise, wherein said sliding belt (22) is configured to rotate by means of said front transmission assembly (23) and rear transmission assembly (24) according to a sliding direction (X), wherein said sliding belt (22) is arranged between said two lateral longitudinal members (27, 28) and an electric motor (3), having at least one stator (33) and at least one rotor (31, 31, 32), said electric motor (3, 3) being kinematically coupled to said front transmission assembly (23), or to said rear transmission assembly (24), for moving said sliding belt (22), said electric motor (3, 3) being of axial type.

Provided is an exercise guide system. The exercise guide system guides a user in an exercise on a treadmill, of which the speed is controllable according to the user's free will. The exercise guide system includes an input unit configured to receive at least one target exercise speed, a detection unit configured to detect an actual exercise speed of the user on the treadmill. The exercise guide system further includes an exercise guide unit configured to provide information related to the actual exercise speed and the target exercise speed so that the user personally adjusts an exercise speed on the treadmill.

A first exemplary aspect is a walking training apparatus including: an walking assistance apparatus attached to a lower limb of a trainee; at least one wire connected to the lower limb directly or through the walking assistance apparatus; a first wire winding mechanism configured to wind the wire for applying a pull-up force to the wire; a sensor for detecting displacement information according to a displacement of a position connected to the wire in a lateral direction; and a controller configured to control the first wire winding mechanism based on the displacement information.

A inclinable treadmill assembly includes a treadmill that has a track portion pivotally coupled to a motor portion. The track portion is urgeable into a selected incline with respect to a horizontal plane wherein the track portion is configured to increase or decrease a level of difficulty for a user. The track is rollable at an average speed of approximately 3.5 km/hr to accommodate the average walking speed of a child. A plurality of light emitters is each coupled to the track portion to emit light outwardly from the track portion. An actuator is coupled to the motor portion and the actuator tilts the motor portion and the track portion into a selected incline. A remote control is in wireless electrical communication with the actuator to remotely actuate the actuator to tilt the track portion into the selected incline.

A machine implemented method and system, including: transmitting one or more credentials of a user account from a user device to an exercise management system (EMS) having a processor and one or more sensors, where the EMS is disposed on an exercise equipment disposed in a selected at least one fitness center and the exercise equipment is part of a selected at least one exercise plan; transmitting the one or more credentials of the user account from the EMS to a cloud server having a processor; transmitting the selected at least one exercise plan for the new user account from the cloud server to the EMS; transmitting an exercise equipment information from the EMS; forming a user exercise data by the EMS for the exercise equipment based on data received from the one or more sensors; and transmitting an exercise feedback from the EMS.

The present invention relates to a gymnastic machine (1) comprising a base structure (2) having a front transmission assembly (23) and a rear transmission assembly (24), wherein said base structure (2) comprises two lateral longitudinal members (27, 28) between which a sliding belt (22) slides, a sliding belt (22), associated to said base structure (2), on which a user can perform a gymnastic exercise, wherein said sliding belt (22) is configured to rotate by means of said front transmission assembly (23) and said rear transmission assembly (24) according to a sliding direction (X), wherein said sliding belt (22) is arranged between said two lateral longitudinal members (27, 28) and an electric motor (3), having at least a stator (33) and at least a rotor (31, 31, 32), said electric motor (3, 3) being kinematically coupled to said front transmission assembly (23), or to said rear transmission assembly (24), for moving said sliding belt (22), in that said electric motor (3, 3) is of axial type.

A free weight assembly includes a cradle, an aerobic exercise element that is movable with respect to the cradle during the performance of an exercise, at least one free weight removable from the cradle, an input in communication with a processor that determines a time to instruct a user to remove the free weight, and an indicator that activates when the time to remove the free weight arrives.

A method of adaptive control of a treadmill, the treadmill includes a base extending along a longitudinal axis, the base includes a first rotatable element and a second rotatable element adapted to rotate about respective rotation axes transversal to the longitudinal axis of the base. A physical exercise area operatively connects to the first and second rotatable elements. A motor is operatively associated with the first and/or second rotatable element. The motor is configured for rotating the first and the second rotatable and dragging in rotation the physical exercise surface. The method includes: determining by a data processing unit of the treadmill, a first electrical parameter of the treadmill representative of the interaction between a user and the physical exercise surface of the treadmill. The data processing unit controls the motor based on the first electrical parameter detected by the data processing unit.

A system for a manual treadmill having a tread that rotates around a front axle and a rear axle and side rails on opposing sides of the tread includes a brake configured to slow rotation of at least one of the front axle or the rear axle, a controller, and a first presence sensor in communication with the controller, the first presence sensor positioned on a side rail and configured to detect a user on the side rail. The brake is not normally engaged during operation of the treadmill when the tread is moving and the first presence sensor does not detect the user on the side rail. The controller is configured to, in response to the first presence sensor subsequently detecting the user on the side rail, engage the brake.

A system for a treadmill including a tread that rotates around a front axle and a rear axle and side rails on opposing sides of the tread, comprises a brake configured to slow rotation of at least one of the front axle or the rear axle, a controller, and a first presence sensor in communication with the controller, the first presence sensor positioned on a side rail and configured to detect the user on the side rail. The brake is not engaged during operation of the treadmill when the tread is moving and the first presence sensor does not detect the user on the side rail. The controller is configured to, in response to the first presence sensor subsequently detecting the user on the side rail, engage the brake.