An embedded bionic winch for sampling and exploration of a polar sub-glacial lake, including an actuating chamber, a power chamber, a transition chamber, a sensor chamber, a cable arranging chamber and a slip ring chamber, where the actuating chamber, the power chamber, the transition chamber, the sensor chamber, the cable arranging chamber and the slip ring chamber are arranged in sequence, and are coaxially connected; the power chamber provides a power for the winch, and realizes sealing of motors located therein under water with a certain depth; the transition chamber realizes a power transmission between the power chamber and the cable arranging chamber; the sensor chamber is used for mounting of a tension sensor; the cable arranging chamber realizes retraction and release of a cable through the precise cooperation of a drum and a lead screw, and the slip ring chamber contains a slip ring.

A winch assembly (50) including: a winch shaft (12) rotatably mounted within a bracket (18) and adapted for rotation about a first axis (68); a substantially right-angled drive transferring mechanism having a drive input coupled to a manual tool engagement device and drive output coupled to the winch shaft (12), the tool engagement device adapted for rotation about a second axis (72) extending substantially radially from the first axis (68), wherein manual rotation of the tool engagement device causes rotation of the winch shaft (12); and an anti-twist bar (64) attached to the bracket (18) to reduce twist during rotation of the winch shaft (12).

A winch assembly (50) including: a winch shaft (12) rotatably mounted within a bracket (18) and adapted for rotation about a first axis (68); a substantially right-angled drive transferring mechanism having a drive input coupled to a manual tool engagement device and drive output coupled to the winch shaft (12), the tool engagement device adapted for rotation about a second axis (72) extending substantially radially from the first axis (68), wherein manual rotation of the tool engagement device causes rotation of the winch shaft (12); and an anti-twist bar (64) attached to the bracket (18) to reduce twist during rotation of the winch shaft (12).

A clutch assembly for a hoist may comprise a first epicyclic gear train and a first set of friction disks rotationally coupled to the first epicyclic gear train. A second set of friction disks may be in operable communication with the first set of friction disks. Torque may be transferred between the first set of friction disks and the second set of friction disks by means of a friction coupling between the first set of friction disks and the second set of friction disks. A pinion may be rotationally coupled to the second set of friction disks. A splined portion of the pinion may form an output of the clutch assembly.

In a manual/automatic non-electric-connection borehole clinometer for a landslide, a clinometer probe completes borehole inclination measurement; a hoisting mechanism is connected to the clinometer probe by a pull rope; and a first tooth disc of an automatic clutch and a first tooth disc of a manual clutch are fixed to a left shaft end and a right shaft end of the hoisting mechanism respectively, a second tooth disc of the automatic clutch is fixed to a driving shaft of an electric driving mechanism and selectively meshes with or moves away from the first tooth disc of the automatic clutch, and a second tooth disc of the manual clutch is fixed to a driving shaft of a manual driving mechanism and selectively meshes with or moves away from the first tooth disc of the manual clutch.

In a manual/automatic non-electric-connection borehole clinometer for a landslide, a clinometer probe completes borehole inclination measurement; a hoisting mechanism is connected to the clinometer probe by a pull rope; and a first tooth disc of an automatic clutch and a first tooth disc of a manual clutch are fixed to a left shaft end and a right shaft end of the hoisting mechanism respectively, a second tooth disc of the automatic clutch is fixed to a driving shaft of an electric driving mechanism and selectively meshes with or moves away from the first tooth disc of the automatic clutch, and a second tooth disc of the manual clutch is fixed to a driving shaft of a manual driving mechanism and selectively meshes with or moves away from the first tooth disc of the manual clutch.

A double-drum linkage winding type hoisting system includes a first hoisting drum and a second hoisting drum. The first hoisting drum and the second hoisting drum are engaged and linked through engagement structures on outer circumferences of the first hoisting drum and the second hoisting drum or are linked through a linkage intermediate member. A first hoisting rope is wound around the first hoisting drum. A second hoisting rope is wound around the second hoisting drum. The first hoisting rope and the second hoisting rope are not connected with each other.

A winch with handheld battery powered tensioning and payout unit provides uniform loading of all winches and allows for safe easy loading and payout. A method and apparatus is provided for retrofitting manual winches, in particular manual marine winches, to be operable with a handheld battery powered tensioning and payout unit.

A winch with handheld battery powered tensioning and payout unit provides uniform loading of all winches and allows for safe easy loading and payout. A method and apparatus is provided for retrofitting manual winches, in particular manual marine winches, to be operable with a handheld battery powered tensioning and payout unit.

An electric winch has a winch drum and a winch base. The winch drum has a drive train with an electric motor. The winch base has mounting portions being configured for rotatably holding and supporting the winch drum and the drive train. The electric winch further has a liquid-based cooling system. The winch base has a foot portion in between the mounting portions. The liquid-based cooling system is a closed-loop system and is integrated in the foot portion of the electric winch base, mounting portions, and winch drum without requiring connection to further liquid-connection points.