Provided is an artificial muscle device, including a plurality of heat transfer modules including a thermal conductive body in which a plurality of tunnels parallel to each other and a thermoelectric element contacting an outer surface of the thermal conductive body, a connection member connecting a first heat transfer module to a second heat transfer module, the connection member being folded or unfolded according to a distance between the first heat transfer module and the second heat transfer module, a thermal reaction driving member passing through each of the tunnels, the thermal reaction driving member being stretched or contracted in a longitudinal direction of the tunnel according to a temperature of the thermal reaction driving member, and a power transmission part connected to an end of the thermal reaction driving member.

An exoskeleton device that includes an artificial joint and a frame member extending from the artificial joint. The frame member is configured for extension over a limb of a user. The exoskeleton device also includes a self-aligning mechanism connected to the frame member. The self-aligning mechanism includes three passive degrees of freedom (pDOF) provided in a prismatic-revolute-revolute (PRR) configuration. The self-aligning mechanism also includes a limb attachment member configured for mechanically coupling to a portion of the limb of the user.

A bench assembly that stretches and develops the quadriceps femoris and/or hip flexors muscle groups of a client with the help of a therapist or trainer. The bench assembly has a basal subassembly with a front member that faces the therapist. Extending rearwardly from the front member is a first side member. A rear member extends laterally from the first side member. Each of the front and rear members have an upwardly oriented column that extends from a bottom rail of the associated member. The columns underlie a client support pad on which the client may lie recumbent and face upwardly with his/her legs positioned towards the front member before a trainer applies a stretching regimen to the legs and/or hips.

A rehabilitation assisting apparatus has a main body, a waist assisting unit mounted above the main body, and two leg assisting units separately disposed side by side above the main body. Each of the leg assisting units is pivotally connected with the waist assisting unit. An upper rocking plate of the waist assisting unit can be driven to roll leftward and rightward to rehabilitate or train a waist of a user. A leg lifting bracket of each of the leg assisting unit can be driven to pitch upward and downward to rehabilitate or train a leg of the user.

A driving module including a driving source configured to generate power, a gear train including a decelerating gear set configured to receive driving power from the driving source and a ring gear attached to one side thereof, and a rotary joint including at least one planetary gear configured to rotate using power received from an output end of the decelerating gear set and to revolve along the ring gear is disclosed.

In some embodiments, a device for assisting motion of a joint may include a first anchor on a first side of the joint, a second anchor on a second side of the joint, a spring operatively coupled to the first anchor and the second anchor, and an actuator operatively coupled to the first anchor and the second anchor. Actuating the actuator may apply a torque about the joint that is resisted by a reaction torque applied to the joint by the spring.

Examples of a motion guiding device of a target joint of a target body are disclosed. The device allows three degree-of-freedom (DOF) motion about a remote center of rotation that is approximately aligned to a center of rotation of the target joint. The device comprises a base adjustably connected to the target body and three rotary joints interconnected with a network of linkages. One end of the network of linkages is connected to the base and the opposite end to an effector plate. At least one of the three rotary joints is not aligned with an axes of motion of the target joint and any of these rotary joints may be positioned under angle with respect to the others. Each of the rotary joints provides one DOF of rotary motion about the respective axes and each axis of the three rotary joints intersect at the remote center of rotation. The geometry of the network of linkages is adjustable to adjust a position of the remote center of rotation in three dimensions. The three rotary joints and the network of linkages rotate the effector plate about the remote center of rotation that is approximately align with the center of rotation of the target joint. This system may be connected with one or more parallel branches for additional actuation.

There is disclosed a mobility aid for use by a user having a lower body amputation site. The mobility aid includes a lower body exoskeleton (LBE). The LBE has a pelvic support structure and a first leg and a second leg. Each of the first and second legs are movably coupled to the pelvic support structure, wherein at least the first and second legs are selectively actuable to move the lower body exoskeleton relative to a surface on which the mobility aid is positioned. The LBE also includes a carrier selectively positionable with respect to the lower body exoskeleton and, which in use, supports the user at or about an amputation site; and a harness system configured to, when in use, secure the user to the lower body exoskeleton.

A hip assist actuation system is configured to allow a user to experience free movement of hip extension and hip flexion over a predetermined range and receive a torque assist in response to performing a lifting or pushing activity. The hip assist actuation system may be configured to determine whether the lifting or pushing activity is occurring and provide the torque assist in response to the determination.

A wearable assistance apparatus is disclosed, wherein the wearable assistance apparatus may include a first frame configured to transfer a power in a first direction to assist a user, a second frame configured to transfer the power in a second direction to assist the user, a first wearing portion configured to urge the second frame towards the user in response to the first wearing portion being pulled in the first direction, and a second wearing portion configured to urge the first frame towards the user in response to the second wearing portion being pulled in the second direction.