A portable hoisting device configured to be connected to a cable secured to a destination location for hoisting at least one person from a start location to the destination location is provided. The device includes a winch mechanism having a drum body shaped and adapted to have the cable wrap around the drum body. The winch mechanism is operable to selectively wrap the cable around the drum body. The device has a gear train operatively connected to the drum body and operable to engage the drum body in rotation, a motor operatively connected to the gear train, a control assembly operatively connected to the motor to control same, and a latching assembly adapted to enable a load to be connected to a component of the portable hoisting device, wherein the control assembly comprises a remote control configured to send signals to the motor remotely.

A wire gate operational system providing remote opening and closing of a post and wire gate having a winch and cable assembly with a power source and an operational controller. A remote-control actuator provides long range remote operation to open and close the gate by controlled dropping and raising of the lead wire gate post by the winch. A bottom wire loop between a brace post and the lead wire post acts as a pivot point for the lead gate posts and interconnected directional end cut composite intermediate posts (dancers) allow for controlled wire gate lowering direction allowing ranchers and livestock to pass directly over the lower gate.

An apparatus includes an end effector, a shaft assembly extending proximally from the end effector, an instrument base, and a knife driving assembly. The end effector includes a pair of jaws and a knife member capable of actuating between a proximal and distal position. The knife driving assembly can actuate the knife member between the proximal and distal position. The knife driving assembly includes a cable and a knife drive input assembly coupled only to a first drive input. The knife driven assembly is capable of rotating in first and second angular directions. The cable terminates into a first end and a second end, which are both attached to the knife drive input assembly. A portion of the cable is attached to the knife member. Rotation of the knife drive input assembly in the first angular direction drives the knife member distally. Rotation of the knife drive input assembly in the second angular direction drives the knife member proximally.

An electric stair lift system for transporting people and/or cargo up and down a flight of stairs includes a pair of parallel rails, a platform that is slidably engaged with the rails, an electric winch with a take-up spool, and pair of straps attached between the slidable platform and the take-up spool of the winch. In a preferred embodiment, the electric stair lift system is portable, so that it may be installed in such a way that it may be easily removed, stored and transported, as desired.

An electric stair lift system for transporting people and/or cargo up and down a flight of stairs includes a pair of parallel rails, a platform that is slidably engaged with the rails, an electric winch with a take-up spool, and pair of straps attached between the slidable platform and the take-up spool of the winch. In a preferred embodiment, the electric stair lift system is portable, so that it may be installed in such a way that it may be easily removed, stored and transported, as desired.

A method for mounting or dismounting components of a wind turbine is provided. The mounting or dismounting is accomplished by fastening at least one retaining rope or guide rope to a component to be mounted by fastening the retaining rope or the guide rope to a rope winch unit and by raising or lowering the component to be mounted or to be dismounted by means of a crane. The component to be mounted or to be dismounted is held or guided by means of the retaining rope or guide rope. The rope winch unit comprises a base, a pivot arm and a retaining unit. The pivot arm is pivot-ably coupled to the base at its first end. A rope winch for receiving the retaining rope or guide rope is provided at its second free end. The retaining unit is pivotably coupled to the pivot arm. The base comprises a plurality of latching units for receiving a first end of the retaining unit.

Disclosed is a pulley assembly in a roped access system including first and second plates and a sheave carried for rotation about an axis normal to the plates. An aperture passes through each plate parallel to the axis. The plates have a closed condition when the apertures are coaxial with one another and the plates are in contact near the apertures, forming a rope passage extending between the plates adjacent the sheave, having an upper part smaller than parts of the passage below that upper part. A roped access system includes a climbing rope passing through the rope passage and a tether connected to the climbing rope above the pulley assembly by a friction hitch and an aperture of the pulley assembly, the hitch. The hitch grips the rope upon downward force to the tether, releasing its grip upon upward force to the friction hitch by pulley assembly plates.

A portable power-driven system, such as an ascender/descender arrangement, ensures that a rope used in relation to the portable power-driven system is securely handled when in an operational state.

An apparatus for automated rope management on a vessel is described. The apparatus may include a first retraction unit configured to provide rotation about a first rotational axis, a second retraction unit connected to the first retraction unit and configured to provide rotation about a second rotational axis, and a mounting bracket coupled to the first retraction unit and configured for mounting the apparatus to the vessel.

An apparatus for automated rope management on a vessel is described. The apparatus may include a first retraction unit configured to provide rotation about a first rotational axis, a second retraction unit connected to the first retraction unit and configured to provide rotation about a second rotational axis, and a mounting bracket coupled to the first retraction unit and configured for mounting the apparatus to the vessel.