An actuator includes a casing, an output disc, a transmission component, a cable, a power source, and a tension adjustment assembly. The output disc and the transmission component are rotatably disposed on the casing. The cable is disposed through the transmission component and connected to the output disc. The power source can drive the transmission component. The tension adjustment assembly includes a lever, an elastic component, and a slidable component. The lever has a first end and a second end opposite to each other. The first end is connected to the cable. The elastic component is connected to the casing and the second end of the lever. The slidable component is in contact with a portion of the lever located between the first end and the second end, and is slidable along the lever to change its position to adjust a tension of the cable.

An accessibility-enhancing joint module may include a housing, a powered motor disposed within the housing, a rotatable receiving member operatively connected to the powered motor, a coupling element configured to attach to the receiving member, and a control board disposed within the housing and operatively connected to the powered motor, wherein the coupling element is disposed external to the housing. An accessibility-enhancing arm assembly may include a first joint module and a second joint module and a tubular arm member attached to the proximal mounting portion of the first joint module and the proximal mounting portion of the second joint module, each joint module including a housing having a body portion and a proximal mounting portion, a powered motor disposed within the housing, and a rotatable receiving member operatively connected to the powered motor. The joint module(s) and/or the arm assembly may be operable by a variety of accessible controls.

A gripper assembly includes a base having a hollow area extending in a first direction, at least three grippers arranged along a circumference of the base, the at least three grippers configured to be rotatable about respective rotational axes extending in the first direction, and a first power transmitter configured to rotate the at least three grippers at the same time in a first rotational direction about the respective rotational axes.

A wrist joint comprises first and second joint features, the first joint feature having a first end surface profile defining a central protrusion, a first outer protrusion, a second outer protrusion, a first recess, and a second recess, wherein the first recess and the second recess are on opposite sides of the central protrusion and between the first outer protrusion and the second outer protrusion, and the second joint feature having a second end surface profile defining a central recess, a first outer recess, a second outer recess, a first protrusion between the central recess and the first outer recess, and a second protrusion between the central recess and the second outer recess, wherein the first protrusion and the second protrusion have an end surface profile different from the end surface profile of the first outer protrusion, the second outer protrusion, and the central protrusion.

A joint arrangement including a drive member rotatable about a rotation axis, the drive member including a drive member press fit surface and a drive member shape lock structure; an attachment portion having an attachment thread; and a driven member including a driven member press fit surface, a driven member shape lock structure and a through hole; wherein the joint arrangement is configured such that the driven member can be rigidly connected to the drive member by means of a press fit between the drive member press fit surface and the driven member press fit surface by threadingly engaging the attachment thread with an attachment member passing through the through hole; and wherein the joint arrangement is configured such that a shape lock is provided between the drive member shape lock structure and the driven member shape lock structure when the driven member is connected to the drive member.

Provided is an apparatus for molding plastic preforms into plastic containers, with at least one blow molding arrangement, which includes at least a first mold carrier, a second mold carrier and a blow-molding device having at least two blow mold side parts and a base part, wherein the blow molding device can be releasably arranged on the mold carriers via a locking mechanism and forms a cavity inside which the plastic preforms can be molded into the plastic containers, wherein during the molding process, the mold carriers can be latched together by a latching device, and the apparatus includes a changeover robot which is suitable and intended for extracting the blow-molding device in an assembled state from the mold carriers.

A robot having joint shaft that includes: a first-link member and a second-link that are coupled about a rotation axis; a reducer that has an input-shaft fixed to the first-link and an output-shaft fixed to the second-link; a motor that generates a driving force to be input to the reducer; and an input-side encoder and an output-side encoder. The motor is away from the rotation axis, and a power transmission mechanism is provided between the motor and the reducer. The reducer includes a hollow-part and a tubular-member. The tubular-member passes through the hollow-part, one end of which is fixed to the input-shaft or the output-shaft, and the other end of which protrudes from the input-shaft or the output-shaft. The output-side encoder includes a scale and a sensor. The scale is fixed to the tubular-member; and the sensor is fixed to the input-shaft or the output-shaft.

A method for assembling a humanoid type robot comprises two elements and an articulation with freedom in rotation linking the two elements about an axis, the articulation mounted and dismantled to join and separate the two elements. The robot comprises: a box with circular section fixed to a first element and extending along an axis parallel to the axis of rotation of the articulation, a cable having two ends, a first is connected to the first element and a second is connected to the second element. The cable is partly wound in the box about the axis of the box and extends out of the box to its second end. Between a separated and joined configuration of the two elements, an elasticity of the cable allows it to be wound in the box. The robot is assembled by connecting the cable at its two ends then mechanically mounting the articulation.

A robot for testing lower limb performance of a spacesuit includes a pressure maintaining box, an air circulation component, an air cooling unit, heat radiating hose components, and two mechanical legs. The air cooling unit is connected with the pressure maintaining box; the air circulation component is arranged in the pressure maintaining box; the mechanical legs are installed on the pressure maintaining box, and the heat radiating hose components are arranged in the mechanical legs; air in the pressure maintaining box is cooled through the air cooling unit and delivered into the heat radiating hose components through the air circulation component; each mechanical leg comprises a thigh, a knee joint component, a shank, an ankle joint component and a foot; the thigh is connected with the shank through the knee joint component; the shank is connected with the foot through the ankle joint component.

Disclosed herein is a joint unit including two facing gears that include respective two bevel gear members that face each other, and an intermediate gear that has a bevel gear member meshing with both the two bevel gear members. One of the two facing gears and the intermediate gear includes a first member including an inner circumferential portion of the bevel gear member of the one of the two facing gears and the intermediate gear; a second member including an outer circumferential portion of the bevel gear member of the one of the two facing gears and the intermediate gear; and a resilient member attached to one of the first member and the second member for normally urging the other of the first member and the second member to move in a direction along the directions of rotation of the one of the two facing gears and the intermediate gear.