A facility (1) processes multi-core cable (2) having a screening braid and/or foil sheathing, inner conductors (2a), and/or internal filler. The facility (1) includes stations (3, 5-10, 12) each for at least one respective processing step of cable stripping; the opening up, trimming, and folding back of any screening braid present; the removal of any foil present; and the removal of any internal filler present. A transport device transports cut-to-length cables to and from these stations (3, 5-10, 12). The transport system (13) connects stations (3, 5-10, 12). At least one control unit (17) may be provided, whereby all stations (3, 5-10, 12) may be automatically operated.

A method of installing a dock includes providing first and second dock sections, each having a bottom transport member, and a dock support that supports the dock section when installed. The first dock section is installed adjacent to a shoreline. The dock lifting device of a dock cart is attached to the second dock section and the lifting device of the dock cart lifts the first end of the second dock section such that the second dock section is supported by the bottom transport member and the cart transport member. The cart moves the second dock section along the first dock section until the first end of the second dock section is adjacent to the second end of the first dock section. The lifting device then lowers the first end of the second dock section to be level with the second end of the first dock section.

A brush (400) for delivering a glutinous substance (168) to a workpiece (170) from an end-effector (102) is disclosed. The brush (400) comprises a body (402), having a rotational axis (438). The brush (400) also comprises a shaft (404), coupled to the body (402) and coaxial with the rotational axis (438). Additionally, the brush (400) comprises a tube (430), having a first end (411) and a second end (412), opposite the first end (411). The tube (430) comprises a first channel (408), coaxial with the rotational axis (438) and having an inlet (409) and an outlet (480). Furthermore, the tube (430) extends from the body (402) in a first direction (A) along the rotational axis (438), to the second end (412). The brush (400) further comprises bristles (420) that surround a portion of the tube (430), wherein the bristles (420) extend from the body (402) in the first direction (A).

The present disclosure relates to methods for inserting a fastener into a wafer-carrying pod. The system includes a robotic arm with a screw tool assembly disposed at the far end of the robotic arm. The screw tool assembly includes a lower sleeve configured to receive a fastener. A screwdriver is disposed within an upper sleeve of the screw tool assembly, and a motor is provided to rotate the screwdriver. In use, the screw tool assembly is positioned over the fastener so the lower sleeve surrounds the fastener and the screwdriver engages the fastener. The fastener head is received within the lower sleeve, and the screwdriver screws the fastener into the pod.

The present disclosure relates to systems and methods for affixing and/or removing a fastener from a wafer-carrying pod. The system includes a robotic arm with a screw tool assembly disposed at the far end of the robotic arm. The screw tool assembly includes a lower sleeve configured to receive a fastener. A screwdriver is disposed within an upper sleeve of the screw tool assembly, and a motor is provided to rotate the screwdriver. In use, the screw tool assembly is positioned over the fastener so the lower sleeve surrounds the fastener and the screwdriver engages the fastener. The screwdriver unscrews the fastener from the pod, and the fastener head is received within the lower sleeve.

A method for extracting electronic components comprising the steps of heating an electronic device having one or more electronic components by delivering heat energy to the electronic device directly to a first side surface or a second side surface of the electronic device and disturbing the electronic device to separate the one or more electronic components from the electronic device.

A method of use for supporting a fuel unit. The method includes attaching a support structure having a plurality of legs on a tabletop assembly of a mobile lift table and positioning the support structure under an elevated vehicle having a fuel unit. The method includes removing the fuel unit from the elevated vehicle such that the support structure operatively supports the fuel unit. The method includes moving the fuel unit away from the elevated vehicle and actuating the plurality of legs from a retracted position to an extended downward position. The method further includes lowering the tabletop assembly which carries the support structure with the fuel unit such that the plurality of legs engages a floor. The method further includes detaching and removing the support structure from the tabletop assembly such that the tabletop assembly is no longer supporting the support structure of the fuel unit.

Building panels, especially floor panels are shown, which are provided with a locking system that is configured to lock the adjacent edges by angling and that have a tongue and a strip on the same edge, and a method to divide a board and produce such building panels.

A biopsy device may comprise a probe assembly that has a needle assembly extending distally from the probe assembly. The needle assembly has a needle portion and blade assembly. The blade assembly comprises a blade and a multi-member coupling assembly. The multi-member coupling assembly is configured to couple to the blade and to the needle portion to attach the blade to the needle portion. In one configuration the multi-member coupling assembly comprises two coupling members configure to couple to the blade. The blade may be a flat blade that has a retention channel formed therein, wherein the two coupling members may couple to the blade at the retention channel. The needle portion may comprise a needle and a cutter receiving tube. The needle may be an ovular cross-sectioned tube having a cut-out portion into which a circular cross-sectioned cutter receiving tube may be inserted and coupled thereto.

A method for disassembling and/or assembling an underwater section of a retractable thruster unit of a swimming vessel. A supporting cradle is detachably fixed to the underwater section from below, and the thruster unit is lifted so that the underwater section is at least partly brought inside the well formed in the bottom of the vessel. Lifting wires of an auxiliary lift are connected to the supporting cradle for supporting the thruster unit. Water is drained from the well, and the lower gear is disengaged and the intermediate section and the lower gear are sealed. After that water is let to ingress into the well and the underwater section is lowered down by the auxiliary lift to dock bottom or sea bed, from where the underwater section is picked up with a crane.