A soft terrain walking assist device and foot for the same is disclosed. The walking assist device includes an elongate shaft having a proximal end and a distal end. A handle is defined at the proximal end. A foot is attached to the distal end. The foot formed as a rounded plate having a coupling on a top surface of the rounded plate. A plurality of downwardly protruding tabs disposed in a spaced apart relation about a peripheral edge of the rounded plate. The tabs are configured to penetrate a soft terrain in a ground surface and contain a portion of the soft terrain within a containment area defined between the bottom surface and an inner face of each of the plurality of downwardly protruding tabs. The present invention allows users with a stability or strength impediment to enjoy peaceful walks on the beach while providing added stability.

The device disclosed herein is a walking cane comprised of an elongate shaft having a proximal end and a distal end. The proximal end includes a handle member having a grip surface and forward-facing front face. The front face comprises a steel surface for attaching an LED illuminator having a magnet attached to the illuminator. A magnet formed into or attached to the back of the LED illuminator attaches to the steel surface of the front face of the handle to hold the LED illuminator in place. The illuminator has an on-board battery to provide power to the light. The LED illuminator additionally includes a motion sensor and an ambient light sensor such that the LED illuminator when attached to the walking cane will activate upon the sensors detecting both motion of the waking cane and a low light condition.

The device disclosed herein is a walking cane comprised of an elongate shaft having a proximal end and a distal end. The proximal end includes a handle member having a grip surface and forward-facing front face. The front face comprises a steel surface for attaching an LED illuminator having a magnet attached to the illuminator. A magnet formed into or attached to the back of the LED illuminator attaches to the steel surface of the front face of the handle to hold the LED illuminator in place. The illuminator has an on-board battery to provide power to the light. The LED illuminator additionally includes a motion sensor and an ambient light sensor such that the LED illuminator when attached to the walking cane will activate upon the sensors detecting both motion of the waking cane and a low light condition.

The device disclosed herein is a walking cane comprised of an elongate shaft having a proximal end and a distal end. The proximal end includes a handle member having a grip surface and forward-facing front face. The front face comprises a steel surface for attaching an LED illuminator having a magnet attached to the illuminator. A magnet formed into or attached to the back of the LED illuminator attaches to the steel surface of the front face of the handle to hold the LED illuminator in place. The illuminator has an on-board battery to provide power to the light. The LED illuminator additionally includes a motion sensor and an ambient light sensor such that the LED illuminator when attached to the walking cane will activate upon the sensors detecting both motion of the waking cane and a low light condition.

The device disclosed herein is a walking cane comprised of an elongate shaft having a proximal end and a distal end. The proximal end includes a handle member having a grip surface and forward-facing front face. The front face comprises a steel surface for attaching an LED illuminator having a magnet attached to the illuminator. A magnet formed into or attached to the back of the LED illuminator attaches to the steel surface of the front face of the handle to hold the LED illuminator in place. The illuminator has an on-board battery to provide power to the light. The LED illuminator additionally includes a motion sensor and an ambient light sensor such that the LED illuminator when attached to the walking cane will activate upon the sensors detecting both motion of the waking cane and a low light condition.

Smart walking devices, assemblies, and methods of using the same. Improved partial weight bearing requirements while using a walking aid may be provided. An example smart foot assembly may include a tubular sheath with a spring assembly connected to a foot with a force sensor coupled to the spring assembly wherein during a load phase as the distal end of the foot contacts the ground, the foot moves proximally as load is increased.

Smart walking devices, assemblies, and methods of using the same. Improved partial weight bearing requirements while using a walking aid may be provided. An example smart foot assembly may include a tubular sheath with a spring assembly connected to a foot with a force sensor coupled to the spring assembly wherein during a load phase as the distal end of the foot contacts the ground, the foot moves proximally as load is increased.

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.

An exercise device useful in the alleviation of posture- and age-related ailments, and being beneficial in the re-alignment, flexibility, and strengthening of the spine of the human torso and the body's skeletal structure, said exercise device comprising a walking staff or walking stick, being of appropriate length, and having a top or proximal end and a bottom or distal end, a protective hand-grip disposed upon the top or proximal end of said walking staff or walking stick, a protective tip disposed upon said bottom or distal end of said walking staff or walking stick, and a protective sheath covering, at minimum, the central or middle portion of said walking staff or walking stick, and an exercise method useful in the alleviation of said posture- and age-related ailments, and being beneficial in the re-alignment, flexibility, and strengthening of the spine and core musculature of the human torso and the body's skeletal structure while simultaneously serving to re-calibrate the user's center of gravity, balance and equilibrium, said method comprising the steps of positioning the elongate walking staff exercise device behind the user's neck and across the user's shoulders to lift user's chest upwardly and away from said user's pelvic region, with said user's arms being extended across said exercise device at the inner part of said user's elbows such that said user's shoulders are raised upwardly and pulled backwardly and the user's torso is lifted upwardly, while said user's forearms and hands extend across said exercise device forwardly of said user's body, and walking with said exercise device in said shoulder-mounted, arms-extended position, said walking motion providing an alternating back-and-forth motion to the user's arms, shoulders and spinal column inherent to said walking motion so as to facilitate subtle and gentle corrections to said spinal column, while stretching and strengthening the muscles of the abdominal area of said user's torso, and shortening and strengthening the muscles of the user's lumbar region of the lower back, said method also comprising the steps of performing a series of torso-twisting regimens while using said elongate walking staff or walking stick wherein an increasing amount of torque is exerted upon the spinal column of the human torso in direct proportion to the position of the user's hands along the length of said elongate walking staff or walking stick.