A one handed walk assist device featuring a handle and plurality of legs affixed to a variably shaped support frame, featuring various independent embodiments including an embodiment trapezoidal orientation between the front and back legs, and an embodiment apparatus orientation that is angled backwardly. A variety of storage/carriage compartments are disclosed.

A one handed walk assist device featuring a handle and plurality of legs affixed to a variably shaped support frame, featuring various independent embodiments including an embodiment trapezoidal orientation between the front and back legs, and an embodiment apparatus orientation that is angled backwardly. A variety of storage/carriage compartments are disclosed.

The rolling stick is a supporting structure. The rolling stick transfers the load of a patient to a supporting surface. The rolling stick is a rolling structure. The rolling stick operates in a rolling mode and a stationary mode. The rolling stick includes a stanchion structure, a plurality of leg structures, and a caster structure. The plurality of leg structures and the caster structure attach to the stanchion structure. The stanchion structure transfers the load of the patient to the supporting surface. The caster structure rolls the rolling stick across the supporting surface. The plurality of leg structures forms a mechanical structure that: a) forms multiple load paths used for transferring the load of the patient to the supporting surface; and, b) stabilizes the rolling stick from rolling when the rolling stick is in the stationary mode.

The rolling stick is a supporting structure. The rolling stick transfers the load of a patient to a supporting surface. The rolling stick is a rolling structure. The rolling stick operates in a rolling mode and a stationary mode. The rolling stick includes a stanchion structure, a plurality of leg structures, and a caster structure. The plurality of leg structures and the caster structure attach to the stanchion structure. The stanchion structure transfers the load of the patient to the supporting surface. The caster structure rolls the rolling stick across the supporting surface. The plurality of leg structures forms a mechanical structure that: a) forms multiple load paths used for transferring the load of the patient to the supporting surface; and, b) stabilizes the rolling stick from rolling when the rolling stick is in the stationary mode.

In one aspect there is disclosed a walking aid (10). The walking aid (10) comprises a support leg (12) having an operative upper end (16) and an operative lower end (18). The walking aid (10) further comprises a wheel assembly (14) for operative attachment to the lower end (18) of the support leg (12). The wheel assembly (1.4) is adapted to be pushed in a forward direction by a user resting on the support leg (12). The wheel assembly (14) comprises a chassis (26) supporting (i) at least one wheel (28) and (ii) a stop (30). The stop (30) is operatively adapted to co-operate with the at least one wheel (30) such that a torque applied to the support leg (12) by the user will arrest movement of the wheel assembly (14) in the forward direction.

In one aspect there is disclosed a walking aid (10). The walking aid (10) comprises a support leg (12) having an operative upper end (16) and an operative lower end (18). The walking aid (10) further comprises a wheel assembly (14) for operative attachment to the lower end (18) of the support leg (12). The wheel assembly (1.4) is adapted to be pushed in a forward direction by a user resting on the support leg (12). The wheel assembly (14) comprises a chassis (26) supporting (i) at least one wheel (28) and (ii) a stop (30). The stop (30) is operatively adapted to co-operate with the at least one wheel (30) such that a torque applied to the support leg (12) by the user will arrest movement of the wheel assembly (14) in the forward direction.

Methods, systems, and products estimate distances to aid a visually impaired user of a mobile device. As the user carries the mobile device, a camera in the mobile device captures images of a walking cane. The images of the walking cane are analyzed to infer a distance between a tip of the walking cane and the mobile device. The distance may then be used by navigational tools to aid the visually impaired user.

Methods, systems, and products estimate distances to aid a visually impaired user of a mobile device. As the user carries the mobile device, a camera in the mobile device captures images of a walking cane. The images of the walking cane are analyzed to infer a distance between a tip of the walking cane and the mobile device. The distance may then be used by navigational tools to aid the visually impaired user.

The present invention provides a portable gyroscopic device for the transportation of objects or individuals which comprises: a portable receptacle (A) which comprises: a frame (1) on which an axis (3) of a gyroscopic element comprising one or more masses or flywheel units (2) is mounted; at least one electric motor (8) which actuates at least one mass or flywheel unit of said gyroscopic element mentioned, a source of electric power (5); and electronic control means (6) to operate said electric motor. Besides, the invention provides a set of portable gyroscopic device and accessories for the transportation of objects or individuals which comprises the portable gyroscopic device according to claims 1 to 1 and a transportation platform (11) which comprises elements for the transportation of said platform which are selected between mechanical bearings, drones, an air cushion and an electromagnetic field.

In one aspect there is disclosed a walking aid (10). The walking aid (10) comprises a support leg (12) having an operative upper end (16) and an operative lower end (18). The walking aid (10) further comprises a wheel assembly (14) for operative attachment to the lower end (18) of the support leg (12). The wheel assembly (1.4) is adapted to be pushed in a forward direction by a user resting on the support leg (1.2). The wheel assembly (14) comprises a chassis (26) supporting (i) at least one wheel (28) and (ii) a stop (30). The stop (30) is operatively adapted to co-operate with the at least one wheel (30) such that a torque applied to the support leg (12) by the user will arrest movement of the wheel assembly (14) in the forward direction.