Drive assisted stand up controller, motion board processing driver, development customization, drive control board solution customization

Drive assisted stand up controller, motion board processing driver, development customization, drive control board solution customization

The auxiliary stand up seat includes a seat bracket, a seat surface, a rotating frame used to drive the seat surface to tilt relative to the seat bracket to assist personnel in standing up on the seat surface, and a driving mechanism used to drive the operation of the rotating frame. One end of the rotating frame forms a rotating pair with the top of the seat bracket, and the opposite end of the rotating frame also forms a rotating pair with one end of the chair surface. The middle of the rotating frame is equipped with a composite hinge driven by the driving mechanism for rotation. The driving mechanism drives the rotating frame to move around the rotating pair formed by the rotating frame itself and the seat bracket, raises the position of the rotating pair between the rotating frame and the chair surface, and at the same time, drives the chair surface to rotate relative to the rotating frame, expanding the angle between the rotating frame and the chair surface. During the assisted stand up process, the person sitting on it can feel that there are two trends of the chair surface rising and rotating. The stand up process is smooth, and the final chair surface has a small rotation angle, which prevents elderly people from slipping and falling. The structure is simple and applicable.

As people age, their leg strength deteriorates, and although they can walk, they experience difficulty standing up. To address this issue, designing assistive standing equipment is very meaningful. In order to solve the above problems, after searching existing technologies, it was found that an elderly assisted standing seat uses a lifting rod as the power device to push the seat plate to rotate around the seat body. The disadvantage of this method is that during the assisted standing process, only the chair surface rotates without lifting, which causes the weight of the elderly's upper body to quickly fall on their knees, and the angle of the chair surface changes quickly, making it easy for the elderly to slide off the chair and fall.