The present disclosure provides an output shaft component and a power output mechanism. The output shaft component includes a housing connected to the driven member, an adapter shaft connected to an output shaft of the power output mechanism, and an elastic body mounted in the housing. The adapter shaft is rotatably mounted in the housing. The elastic body includes an inner ring, an outer ring located outside the inner ring, and an elastic portion connected between the inner ring and the outer ring. The adapter shaft is sheathed in the inner ring, the inner ring is synchronously rotatably connected to the adapter shaft, and the outer ring is fixed on the housing.

The present disclosure provides a cleaning system and a cleaning apparatus. The cleaning system includes a cleaning apparatus and a robot. The robot includes at least one robot arm. The cleaning apparatus includes at least one adaptor mechanism and a cleaning mechanism. The adaptor mechanism connects the cleaning mechanism to the robot arm. By controlling robot arms of the robot, the cleaning mechanism of the cleaning apparatus performs cleaning operations for platforms. The cleaning system achieves continuous and efficient cleaning effects, and operates object cleaning in diverse manners.

An articulated compliance mechanism for use with a support structure includes a carriage and a pair of parallel four-bar linkage arrangements. The arrangements collectively have a first set of links configured to rigidly connect to the support structure, a second set of links rotatably coupled to the carriage a distance from the first set of links, and a third set of links rotatably coupled to and spanning the distance. The compliance mechanism supports and provides the carriage, e.g., a rectangular shaped frame, with a stable equilibrium point using a gravitational restoring force, and provides the carriage with a passive translational degree of freedom along a horizontal axis in response to an input force from an operator. An additional compliance mechanism may be serially connected to provide a passive translational degree of freedom along a vertical axis. A system includes the compliance mechanism and support structure.

A DNA-structured linear actuator comprised of a ladder-like structure that twists to generate linear motion. In its base state, the DNA structured linear actuator best resembles a rope ladder. When this ladder is twisted, it takes on the appearance of a DNA double-helix structure. By application of a torsional force on one end, the ladder-like structure extends or contracts to allow linear translation of one end of the structure.

A sensing manipulator of an articulated arm is disclosed. The sensing manipulator includes a compliant section and a movement detection system provided along a first direction of the compliant section such that movement of the compliant section along both the first direction and at least one direction transverse to said first direction, are detectable by the movement detection system.

The disclosure provides an apparatus, system and method for a moveable bearing stage that allows for highly refined alignment and placement, and particularly planar alignment and placement, of component or devices through the use of robotics. The apparatus, system and method of providing at least a planar alignment of at least one component or device in relation to a secondary reference plane may include at least: a frame and stator assembly, having, at an upper portion thereof, at least a semi-spherical receiving interface; a movable assembly that moves within the frame and stator assembly, and that is connectively associated therewith by at least a plurality of springs; a semi-spherical stage, suitable for reception by the semi-spherical receiving interface and capable of at least rotational movement therewithin; a chuck within the semi-spherical stage and capable of at least co-planar, post-planar, and ante-planar positioning in relation to a plane provided by a topmost portion of the semispherical stage, wherein the chuck is capable of receiving the component or device; and at least two gripper jaws suitable for receiving and holding, at an upper portion thereof, the component or device, wherein the two gripper jaws comprise, at a lower portion thereof, at least ramps capable of physically interacting with ones of the motion stops.

A compliant robot includes a base and a compliant robot arm. The compliant robot arm includes a first quasi-direct drive assembly operatively connected to said base such that said compliant robot arm has at least one degree of freedom for motion relative to said base. The first quasi-direct drive assembly provides passive compliance such that said compliant robot arm has a back-drivable mode of operation for interactions between said compliant robot arm and an environment.

A compliance unit 10 includes a support plate 11, an attaching plate 12, and a fixing disk 22 that has a cylindrical portion 24 fixed to the support plate 11, and an annular, arc surface 26 is formed in a front surface of an annular portion 25 that is provided at a tip of the cylindrical portion 24 so as to protrude radially outside the cylindrical portion. A movable plate 31 is disposed between the annular portion 25 and the support plate 11, and the movable plate 31 is fastened to the attaching plate 12. The attaching plate 12 is provided with an abutment surface 37 opposing the arc surface 26, and the attaching plate 12 is movable to a position where the abutment surface 37 abuts on the arc surface 26 and a position where the abutment surface 37 is separate from the arc surface 26 via a gap 38 between the abutment surface and the arc surface 26.

An apparatus for surface finishing includes a robot and an end effector. The end effector includes a compliance wrist having an axis of movement and coupled to the robot and a grinder tool coupled to the compliance wrist. The robot is configured to controllably position the end effector in three-dimensional space. The compliance wrist is configured to bias the grinder tool to a biased position relative to the robot and enable the grinder tool to move relative to the robot in response to an external force acting upon the grinder tool.

A retainer that holds a plurality of first balls is arranged between a slide body constituting a slide portion and a base plate constituting a table portion, the plurality of first balls are arranged around an axis of the slide portion that coincides with the Z-axis, and a single second ball is arranged on the axis of the slide portion between a ball receiving plate constituting the slide portion and a ball receiving plate constituting the table portion.