A contact ring for an electroprocessor has redundant contact fingers, i.e., more contact fingers than needed for contacting a very narrow edge exclusion zone on a substrate such as a semiconductor wafer. The contact fingers have slightly different lengths so that they extend to different radial positions. By providing redundant contact fingers, and by slightly varying the lengths of the contact fingers, a sufficient number of contact fingers make contact with the electrically conductive surface in the edge exclusion zone to provide good electroplating results.

A surgical instrument including a handle assembly, a first endoscopic portion, a motor, and a first end effector is disclosed. The first endoscopic portion is selectively connectable to a distal portion of the handle assembly and defines a longitudinal axis. The first endoscopic portion includes a housing adjacent its proximal portion and includes an actuation member. The motor is disposed in mechanical cooperation with the housing of the first endoscopic portion and is operatively connected to the actuation member for moving the actuation member substantially along the longitudinal axis. The first end effector is selectively connectable to a distal portion of the first endoscopic portion and is configured to perform a first stapling function.

A rotor arrangement for a slip ring assembly, comprising a shaft element and at least one contact ring. The shaft element is at least partially in the form of a hollow shaft with a hollow interior and a casing wall. The shaft element has a middle section and each contact ring is arranged on the shaft element in the middle section and is electrically insulated from the shaft element by means of an insulation. The middle section has at least one cutout through the insulation and the casing wall into the interior. Each contact ring is connected to a cable element which is guided through one of the at least one cutout into the interior. The shaft element has a first end section with an outer circumferential cross section for the rotationally fixed coupling. Furthermore, a rotary coupling arrangement comprising a rotor arrangement of this kind is proposed.

Provided are: an impact fastening tool which prevents a torque detecting means from missing a signal and extends service life by adopting a fixed connector that prevents the trouble of being instantaneously separated (bounced) from a rotating electrode by intermittent impacts and has a shape allowing the progression of friction to be delayed structurally; and a torque tester. Both end portions of the fixed connector are fixed, and at least two protrusion portions are formed between the both end portions. The rotating electrode is disposed between one protrusion portion and the other protrusion portion such that the rotating electrode contacts the fixed connector at two or more points or in a line form. A signal required for the torque detecting means is transmitted through the contact between the rotating electrode and the fixed connector.

A rotatable coupling for audio cables is shown having a stator and a rotor divining an electrical rotary interface (301) for providing continuous connection between audio cables. A protective stator housing (304) retains the stator and a protective rotor housing (305) retains the rotor. A rolling-element bearing (306) with an inner race and an outer race allows the protective housings to axially rotate.

A rotatable coupling for audio cables is shown having a stator and a rotor divining an electrical rotary interface (301) for providing continuous connection between audio cables. A protective stator housing (304) retains the stator and a protective rotor housing (305) retains the rotor. A rolling-element bearing (306) with an inner race and an outer race allows the protective housings to axially rotate.

A sliding-contact power supply system and a three-dimensional circulating garage having the same are provided. The sliding-contact power supply system includes: a plurality of sub-sliding wires, each of the plurality of sub-sliding wires being adapted to be electrically connected to an outside power supply; a plurality of insulation segmentation elements, each of the plurality of insulation segmentation elements being connected between two sub-sliding wires; and a plurality of current collectors, each of the plurality of current collectors being electrically connected to the sub-sliding wire; wherein the plurality of sub-sliding wires and the plurality of insulation segmentation elements form a sliding wire guide rail having a ring shape, and each current collector is slidably disposed on the sliding wire guide rail.

A sliding-contact power supply system and a three-dimensional circulating garage having the same are provided. The sliding-contact power supply system includes: a plurality of sub-sliding wires, each of the plurality of sub-sliding wires being adapted to be electrically connected to an outside power supply; a plurality of insulation segmentation elements, each of the plurality of insulation segmentation elements being connected between two sub-sliding wires; and a plurality of current collectors, each of the plurality of current collectors being electrically connected to the sub-sliding wire; wherein the plurality of sub-sliding wires and the plurality of insulation segmentation elements form a sliding wire guide rail having a ring shape, and each current collector is slidably disposed on the sliding wire guide rail.

A connection structure connects to an electronic device and a projection component that connects to the electronic device through the connection structure to project a target projection content from the electronic device. The projection component includes a transmission module, an output interface, a direction change mechanism, and a linkage apparatus. The transmission module receives the target projection content. The output interface outputs an initial light ray of the target projection content. The direction change mechanism directs the initial light ray as an output light ray in one of a plurality of output directions. The linkage apparatus is coupled to the connection structure and the direction change mechanism to drive the direction change mechanism to change the output direction of the output light ray from a first output direction to a second output direction in response to a variation in a relative arrangement between the projection component and the electronic device.

A connection structure connects to an electronic device and a projection component that connects to the electronic device through the connection structure to project a target projection content from the electronic device. The projection component includes a transmission module, an output interface, a direction change mechanism, and a linkage apparatus. The transmission module receives the target projection content. The output interface outputs an initial light ray of the target projection content. The direction change mechanism directs the initial light ray as an output light ray in one of a plurality of output directions. The linkage apparatus is coupled to the connection structure and the direction change mechanism to drive the direction change mechanism to change the output direction of the output light ray from a first output direction to a second output direction in response to a variation in a relative arrangement between the projection component and the electronic device.