A method for monitoring a cable of an implement system. The implement system includes a drilling device, a tensioning device and the cable, the cable coupled to the drilling device and the tensioning device in a taut configuration to define a first length. The method includes determining, by a controller, an increment in the first length of the cable. The method further includes comparing, by the controller, the increment in the first length with a threshold value; and generating, by the controller, a warning signal if magnitude of the increment is greater than the threshold value.

This invention relates to a winch and to a method of using the winch. The winch is ideally adapted for mounting to the boom of a vehicle such as a mini-excavator, and is likely to find its greatest utility in relation to the removal of underground pipes, electricity conduits, fiber optic cables and the like, as well as in the bursting of pipes. The invention provides a winch comprising a support column, a base, a magazine, a drive mechanism and a mounting structure. The drive mechanism is connected to the magazine and is adapted to rotate the magazine in use. The support column connects the magazine to the base. The mounting structure is adapted for mounting to the boom of a vehicle. The winch has a rotatable connection between the base and the mounting structure which is securable in a chosen rotational position, so that the base of the winch can be correctly aligned regardless of the orientation of the vehicle.

This invention relates to a winch and to a method of using the winch. The winch is ideally adapted for mounting to the boom of a vehicle such as a mini-excavator, and is likely to find its greatest utility in relation to the removal of underground pipes, electricity conduits, fiber optic cables and the like, as well as in the bursting of pipes. The invention provides a winch comprising a support column, a base, a magazine, a drive mechanism and a mounting structure. The drive mechanism is connected to the magazine and is adapted to rotate the magazine in use. The support column connects the magazine to the base. The mounting structure is adapted for mounting to the boom of a vehicle. The winch has a rotatable connection between the base and the mounting structure which is securable in a chosen rotational position, so that the base of the winch can be correctly aligned regardless of the orientation of the vehicle.

A spare wheel assembly winch having a force dependent cable release mechanism is disclosed. In one embodiment, the sheave includes a series of breakaway features that can be torn if the tension on the spare tire cable exceeds the predetermined level, thus allowing the inner, gear-containing portion of the sheave to rotate independently of the outer, cable-holding portion. In another embodiment, the sheave includes a series of breakaway notches formed on the gear teeth of the internal gear. In a further embodiment, a frangible tab extends from torque plate into a depression formed in the cover plate. In yet another embodiment, a tear feature extends from the housing and is situated adjacent the torque plate arm. In an additional embodiment, frangible tabs extend from the body of the sheave into a geared insert. In still another embodiment, a frangible tab extends from a geared insert into the torque plate.

The present disclosure discloses a winch comprising a motor having a rotator, a brush holder assembly electrically coupled to the rotator, and a coil assembly surrounding the rotator, a motor casing covering at least a part of the motor which comprises a plurality of conducting columns electrically coupled to the coil assembly and the brush holder assembly, a driving shaft drivably connected to the motor, a gear reduction unit drivably connected to the driving shaft, a first support frame detachably connected to the motor casing, a second support frame detachably connected to the gear reduction unit, and a winding drum located between the first support frame and the second support frame. The winch as disclosed facilitates mounting and dismounting, and provides improved waterproofness.

A dumpster handling device is disclosed for handling a first dumpster and a second dumpster comprises a lower support beam for supporting a first dumpster. A lower support beam, a first side frame and a second side frame define a lower dumpster holding channel. A first upper support beam and a second upper support beam define an upper dumpster holding channel. A dumpster lift vertically lifts the first dumpster from the lower dumpster holding channel to the upper dumpster holding channel. A beam lift pivots the lower support beam and the first dumpster. A lower hoist positions a second dumpster within the lower dumpster holding channel. A first telescoping support beam and a second telescoping support beam define an angled dumpster displacement channel. An upper hoist links with the first dumpster for displacing the first dumpster along the angled dumpster displacement channel.

A portable winch system includes a frame, a pair of wheels, a motor that is secured to the frame; and a capstan that is secured to the frame and that is rotatable via the motor. A rope is wound about the capstan in a manner that enables a user to grasp a tail end of the rope and induce friction between the capstan and the portion of the rope that is wound about the capstan. A tow end of the rope is attachable to an object to be pulled by the winch. An input guide attached to the frame is configured to receive the rope and direct the rope toward the capstan as the object is pulled toward the winch. An alignment guide attached to the frame is configured to contact the rope and align the rope about the capstan as the rope is wound about the capstan.

An offshore drilling vessel includes a floating hull having a moonpool, a drilling tower positioned on the hull at or near the moonpool, a tubular string main hoisting device including a main hoisting winch and main cable connected to the main hoisting winch, a crown block mounted on the drilling tower, a travelling block suspended from the crown block in a multiple fall arrangement of the main cable, a mobile working deck and an integrated heave compensation system including a main cable heave compensation sheave in a path of the main cable between the main hoisting winch and the travelling block, a hydraulic sheave compensator connected to the main cable heave compensation sheave to provide a heave compensated motion of the travelling block, and a hydraulic deck compensator connected to the hull and to the mobile working deck to provide a heave compensated motion of the working deck relative to the hull within the heave compensation motion range.

A cable puller and associated methods are shown. Useful example methods include pipe bursting using cable pullers as shown. Cable pullers and methods shown provide a mechanical advantage that increases an amount of cable pulled in one cycle. Selected examples are shown that include a pulley located on a distal end of a moving portion of an extending and contracting beam. The pulley and the mechanical advantage it supplies helps to improve the efficiency of the cable puller and reduce manufacturing cost of the cable puller.

A cable puller and associated methods are shown. Useful example methods include pipe bursting using cable pullers as shown. Cable pullers and methods shown provide a mechanical advantage that increases an amount of cable pulled in one cycle. Selected examples are shown that include a pulley located on a distal end of a moving portion of an extending and contracting beam. The pulley and the mechanical advantage it supplies helps to improve the efficiency of the cable puller and reduce manufacturing cost of the cable puller.