An exercise apparatus having a pulley, a pair of stabilizing assemblies each configured to couple a front portion of a respective pedal element to each side of the pulley, a looped belt configured to couple the pulley to a resistance assembly, a tension stabilizer configured to maintain a tension of the looped belt on the pulley, and the resistance assembly configured to assert an adjustable resistance to the pedal elements through the looped belt. The exercise apparatus also comprises a transport mechanism with a handle for transporting the exercise apparatus.

A method of exercise includes partially filling (not more than 70% full) a symmetrical hollow body of an exercise device with water, grasping a pair of opposed handles attached to the hollow body, positioning the device at a height and orientation for a first set of motions, and rapidly oscillating the device at a frequency (≥2 HZ) to transform the water from a static state into a dynamic state in which the center of mass oscillates and hydrodynamic forces arise. Optionally, an additive such as viscosity enhancer or beads for audible effect may be introduced in the water.

A system and method for aiding wearers with ataxia. The system and method embodying removably positioning vibratory devices adjacent to just above each hip bone of the wearer and adjacent to each ankle of the wearer. The vibratory devices can be selectively and programmatically controlled to provide haptic signals for improving proprioception and thereby improving the gait and balance of the wearer.

The present utility model relates to a device for the assisted exercise of the abdominal muscles. The equipment comprises a base structure, a seat for a person, a back for the torso, a fastening device for the arms, an adaptable headrest cushion and a foot rest. This configuration ensures that the physical force is exerted by the abdominal muscles and the arms. The device comprises a central rotation shaft connected to a variable-power electric motor connected to a reducer.

A respiratory treatment device comprising at least one chamber, a chamber inlet configured to receive exhaled air into the at least one chamber, at least one chamber outlet configured to permit exhaled air to exit the at least one chamber, and an exhalation flow path defined between the chamber inlet and the at least one chamber outlet. A restrictor member positioned in the exhalation flow path is moveable between a closed position, where a flow of exhaled air along the exhalation flow path is restricted, and an open position, where the flow of exhaled air along the exhalation flow path is less restricted. A vane in fluid communication with the exhalation flow path is operatively connected to the restrictor member and is configured to reciprocate between a first position and a second position in response to the flow of exhaled air along the exhalation flow path.

An exercising device for fitness training includes a main body forming a container, and a first end and a second end. The main body defines a length between the first end and the second end. The container has an outer surface, an inner surface, and a substantially hollow cylindrical shape with a cross-section which varies between the first end and the second end such that the outer surface and the inner surface define a waveform. A first cover is detachably arranged on the first end and a second cover is detachably arranged on the second end. The container can be filled with a liquid which causes the exercising device to vibrate when it flows through the main body at varying speeds. In addition, a method for operating the exercising device is provided.

An exercise machine of the type which have pedals or foot plates through which a person can, in use, transfer kinetic energy to the machine is described. In embodiments the exercise machine is configured such that the pedals or foot plats vibrate during exercise.

A wearable orthotic appliance to which at least one corrective element for correcting neuromuscular imbalances may be removably attached is made of fabric assembly held in compressive tension when worn by a user, the fabric assembly including a cavity or chamber into which the corrective element may be placed and secured at any of a plurality of continuously-adjustable positions. Maintenance of the corrective element position during use of the appliance may be assisted by establishing a compression gradient over selected areas of the appliance during assembly. The wearable orthotic appliance may be a shirt, vest, body suit, or other garment or article of clothing, and the corrective elements may be weights, electrodes, or other discrete elements whose therapeutic effect depends on proper positioning relative to the wearer's torso or other body parts.

A self-powered vibration mechanism is provided that can be mounted on an existing pedal shaft yet operates independent from the existing pedal. Mechanical isolation or mechanical decoupling permits transferring the vibrating energy to the foot rather than to the pedal shaft and the bicycle. In another embodiment, a full removable pedal with self-powered vibration mechanism can replace an existing pedal.

A method of exercise includes partially filling (not more than 70% full) a symmetrical hollow body of an exercise device with water, grasping a pair of opposed handles attached to the hollow body, positioning the device at a height and orientation for a first set of motions, and rapidly oscillating the device at a frequency (≥2 HZ) to transform the water from a static state into a dynamic state in which the center of mass oscillates and hydrodynamic forces arise. Optionally, an additive such as viscosity enhancer or beads for audible effect may be introduced in the water.