A leg assembly, and a shock absorption mechanism for a pole are provided. The shock absorption mechanism comprises a pole body and a leg assembly, wherein the leg assembly comprises a support leg, a tray surrounding the support leg, and a connecting sleeve for connecting the pole body inserting from the top of the support leg. When a bottom of the pole body is inserted into the connecting sleeve and tightly resists against the elastic limiting clamps, the elastic limiting clamps will be pushed outward and limited in the guiding slots of the support leg, so that the connecting sleeve with the pole body can move upward and downward relative to the support leg. There is a mounting space for the shock absorption spring between the support leg and the connecting sleeve, and the support leg has a trend of moving downward due to resistance from the shock absorption spring.

A leg assembly, and a shock absorption mechanism for a pole are provided. The shock absorption mechanism comprises a pole body and a leg assembly, wherein the leg assembly comprises a support leg, a tray surrounding the support leg, and a connecting sleeve for connecting the pole body inserting from the top of the support leg. When a bottom of the pole body is inserted into the connecting sleeve and tightly resists against the elastic limiting clamps, the elastic limiting clamps will be pushed outward and limited in the guiding slots of the support leg, so that the connecting sleeve with the pole body can move upward and downward relative to the support leg. There is a mounting space for the shock absorption spring between the support leg and the connecting sleeve, and the support leg has a trend of moving downward due to resistance from the shock absorption spring.

A walking stick can include a handle (50) including a head (52). The head (52) can include at least one internal reinforcement member (90). The at least one internal reinforcement member (90) can have a shape that is substantially the same as a shape of the head (52). The bathing wand can include a neck (54) and a shaft (20). The bathing wand can also include a foot (150, 180) for engaging the ground. The foot (150, 180) can be coupled to the shaft (20). In some aspects, the foot (180) can include at least two arms (186) extending from a top portion (190) towards a bottom portion (194) of the foot (180). Each of the at least two arms (186) can be coupled together through a base (188) of the of the bottom portion (194). In some aspects, at least one arm (186) can form a loop (193).

A walking stick can include a handle (50) including a head (52). The head (52) can include at least one internal reinforcement member (90). The at least one internal reinforcement member (90) can have a shape that is substantially the same as a shape of the head (52). The bathing wand can include a neck (54) and a shaft (20). The bathing wand can also include a foot (150, 180) for engaging the ground. The foot (150, 180) can be coupled to the shaft (20). In some aspects, the foot (180) can include at least two arms (186) extending from a top portion (190) towards a bottom portion (194) of the foot (180). Each of the at least two arms (186) can be coupled together through a base (188) of the of the bottom portion (194). In some aspects, at least one arm (186) can form a loop (193).

A walking cane system including of a remote control device having a user interface and a first transmission system; and a walking cane having a shaft configured with a proximal end and a distal end, a handle coupled to the proximal end of the shaft, a base coupled to the distal end of the shaft, one or more elongated members housed within the shaft, a second transmission system, and a motor system; wherein the actuation of remote control device causes the walking cane to raise itself into a vertical, upright orientation.

A walking cane system including of a remote control device having a user interface and a first transmission system; and a walking cane having a shaft configured with a proximal end and a distal end, a handle coupled to the proximal end of the shaft, a base coupled to the distal end of the shaft, one or more elongated members housed within the shaft, a second transmission system, and a motor system; wherein the actuation of remote control device causes the walking cane to raise itself into a vertical, upright orientation.

In accordance with one or more embodiments and corresponding disclosure, various non-limiting systems, devices, and methods are described in connection with an assistive support device that provides feedback to a user. In an aspect, disclosed is a system comprising, a first sensor component that generates a first set of sensor data based on a first set of force applied to an assistive support device. The system also comprises a data repository component that stores a first set of sensor data provided by the assistive support device. Furthermore, in an aspect, the system comprises a feedback component that employs a feedback mechanism based on an occurrence of a value of an applied force to the assistive support device of the first set of force applied being greater than or less than a threshold value of an applied force.

In accordance with one or more embodiments and corresponding disclosure, various non-limiting systems, devices, and methods are described in connection with an assistive support device that provides feedback to a user. In an aspect, disclosed is a system comprising, a first sensor component that generates a first set of sensor data based on a first set of force applied to an assistive support device. The system also comprises a data repository component that stores a first set of sensor data provided by the assistive support device. Furthermore, in an aspect, the system comprises a feedback component that employs a feedback mechanism based on an occurrence of a value of an applied force to the assistive support device of the first set of force applied being greater than or less than a threshold value of an applied force.

A walking cane having an integral gripping mechanism; the walking cane having the integral gripping mechanism includes a T-shaped walking cane having an illumination member and a gripping mechanism actuated by a trigger. The gripping mechanism includes a stationary gripping lever and a mobile gripping lever hosted on an axle which is configured to move in relation to the stationary gripping lever. The walking cane having integral gripping mechanism provides users with additional independence and mobility.

A self-righting cane is provided that includes a handle portion having a grip and a collar. A shaft extends from the handle portion and is joined to the handle portion at the collar. A base supporting portion includes a weight disposed within the base supporting portion. The weight has an aperture such that the shaft connecting to the base supporting portion through the aperture. The weight disposed within the base supporting portion self-rights the cane and prevents the cane from falling over.