A walking training apparatus includes: a treadmill; a walking assistance apparatus configured to be mounted on a leg part of a user and assist the user's walking; a first pulling means for pulling at least one of the walking assistance apparatus and the leg part of the user upward and frontward; a second pulling means for pulling at least one of the walking assistance apparatus and the leg part of the user upward and rearward; and control means for controlling, while the treadmill is not being operated, pulling forces of the first pulling means and the second pulling means in such a way that the direction of a resultant pulling force, which is a resultant force of the pulling force of the first pulling means and the pulling force of the second pulling means, is changed rearward compared to a case in which the treadmill is being operated.

A computerized treadmill is provided. The treadmill deck may be fully suspended by a plurality of air suspension elements, such as bellows. The bellows may be pressurized by a computer-controlled compressor feeding a central air reservoir to which each bellows is connected via air hose. The bellows may be dampened to control expansion. A double hinge connecting the deck with frame may control lateral movement and reduce lateral load on the bellows. Incline and decline mechanisms facilitate a variety of deck angles. Control of the treadmill may be by computer, whether integrated or modular, whether traditional, laptop, tablet or smart phone. Control of the treadmill and conveyance of information associated with treadmill operation may be integrated with computer or smart phone applications, whether dedicated or third party.

A treadmill includes a platform where the platform includes a first side panel and a second side panel spaced apart at a distance from the first side panel, and a gap defined between the first side panel and the second side panel. The treadmill also includes a running deck contained within the platform and exposed within the gap, a first pulley connected to the running deck, a second pulley connected to the running deck opposite the first pulley, a tread belt surrounding the first pulley and the second pulley, a first post removably connected to the platform, a second post removably connected to the platform, and a first rail transversely connected to the first post and the second post.

An apparatus for automated walking training includes a frame or treadmill having a driven treadmill belt and a pelvis attachment to support a position and weight of a user. The pelvis attachment includes a displacement unit for allowing a movement of the user's pelvis held by attachment elements transverse to and/or rotating about a perpendicular axis to the walking direction of the treadmill to provide a more natural and physiological gait during training. A weight suspension unit having a cable guided over a guide roller positioned above and attached to the pelvis attachment may include a displacement unit adapted to move the guide roller perpendicular to the diverted section of the cable to influence the transverse position of an upper body of the user as well as to prevent a pendulum effect of the trunk of his body.

A treadmill which utilizes provides for a connection between the floor stand and the treadbase which is toward the front end of the treadbase and provides for generally improved support of the front end of the treadbase at higher angles by providing that the lift mechanism is attached to the treadbase at two fixed points a fixed distance from each other. The lift mechanism then utilizes two different motions, the extension of an extension arm and the rotation of a rigid arm, to produce lift. The rotation of the rigid arm generally utilizes a wheel in an enclosed raceway attached to the floor stand.

An electricity generating system using fitness equipment, wherein the fitness equipment can be used to produce electricity with a generator. The electricity produced can be transferred from the generator to a splitter. A controller can be used to receive identifications and decisions on transfer of the produced electricity from a fitness center. The controller can be used to track in real time electricity produced as watts or as amperage associated with a user identification, a fitness class identification, or an administrator identification input less than 10 minutes before the electricity is produced or at a preset time, which can then transfer in real time energy credits equivalent to electricity produced or transfer produced electricity to a destination designed in the a user decision, a fitness class decision, or an administrator decision.

A treadmill which utilizes provides for a connection between the floor stand and the treadbase which is toward the front end of the treadbase and provides for generally improved support of the front end of the treadbase at higher angles by providing that the lift mechanism is attached to the treadbase at two fixed points a fixed distance from each other. The lift mechanism then utilizes two different motions, the extension of an extension arm and the rotation of a rigid arm, to produce lift. The rotation of the rigid arm generally utilizes a wheel in an enclosed raceway attached to the floor stand.

A variable stiffness treadmill system having a variable stiffness mechanism, a split-belt treadmill, a counterweight system, and a body weight support for supporting an individual and varying the stiffness below the individual on the treadmill for research and rehabilitation.

Methods of enabling locomotor control, postural control, voluntary control of body movements (e.g., in non-weight bearing conditions), and/or autonomic functions in a human subject having a spinal cord injury, a brain injury, or a neurological neuromotor disease are described.

An apparatus for transporting a patient. The apparatus includes a supporting portion to grasp part of the body of a patient. A footboard unit is provided upon which the patient is able to stand when supported by the supporting portion, the footboard unit movable along a floor by movable means. A frame is connected between the footboard unit and the supporting portion. The apparatus is configured so that the footboard unit is able to move in proximity to a bed upon which the patient is lying, whereat the supporting portion can grasp the part of the body of the patient, wherein the frame and the supporting portion are able to support the patient in transitioning from a lying position on the bed to a standing position adjacent the bed as the footboard unit is moved relative to the bed.