A portable winch and method of use is shown. One advantage of winches shown includes an ability to lower a boom or boom sections into limited access exit pit for winching operations such as pipe bursting. Sectional boom designs shown provide the ability to easily raise and lower a boom large distances without the need for a single long boom. Selected winch designs shown include flexible inserts between the boom and the winch frame that help resist damage from unforeseen shifting of the device during operation. Designs and methods shown also include multiple pulleys on a boom end unit. Fasteners are shown that reduce build up of debris.

A cable drive unit (1) for use with a free stall cleaning system (101). The cable drive unit (1) includes a base frame (3), a support frame (5) being displaceable with respect to the base frame (3) via a corresponding displacement assembly (7), and a drum (9) pivotably mountable about the support frame (5) and displaceable therewith for receiving a cable (11) to be wound about said drum (9). Also described is a kit for assembling a cable drive unit (1) and a free stall cleaning system (101). Also described is a method of winding a cable (11) of a free stall cleaning system (101) about a drum (9) via the present cable drive unit (1).

A cable drive unit (1) for use with a free stall cleaning system (101). The cable drive unit (1) includes a base frame (3), a support frame (5) being displaceable with respect to the base frame (3) via a corresponding displacement assembly (7), and a drum (9) pivotably mountable about the support frame (5) and displaceable therewith for receiving a cable (11) to be wound about said drum (9). Also described is a kit for assembling a cable drive unit (1) and a free stall cleaning system (101). Also described is a method of winding a cable (11) of a free stall cleaning system (101) about a drum (9) via the present cable drive unit (1).

This invention relates to a cable drive unit (1) for use with a free stall cleaning system (101). The cable drive unit (1) includes a base frame (3), a support frame (5) being displaceable with respect to the base frame (3) via a corresponding displacement assembly (7), and a drum (9) pivotably mountable about the support frame (5) and displaceable therewith for receiving a cable (11) to be wound about said drum (9). Also described is a kit for assembling a cable drive unit (1) and a free stall cleaning system (101). The invention further includes a method of winding a cable (11) of a free stall cleaning system (101) about a drum (9) via the present cable drive unit (1).

This invention relates to a cable drive unit (1) for use with a free stall cleaning system (101). The cable drive unit (1) includes a base frame (3), a support frame (5) being displaceable with respect to the base frame (3) via a corresponding displacement assembly (7), and a drum (9) pivotably mountable about the support frame (5) and displaceable therewith for receiving a cable (11) to be wound about said drum (9). Also described is a kit for assembling a cable drive unit (1) and a free stall cleaning system (101). The invention further includes a method of winding a cable (11) of a free stall cleaning system (101) about a drum (9) via the present cable drive unit (1).

A positioning system includes a plurality of sensors, a frame, including a plurality of rollers, and a housing. The housing includes at least one guide rod and a driving module. The at least one guide rod is disposed laterally within the housing. The frame is coupled to the at least one guide rod, such that the frame is configured to translate laterally along the at least one guide rod. The driving module is configured to translate the frame along the at least one guide rod, responsive to a signal received from the plurality of sensors.

A positioning system includes a plurality of sensors, a frame, including a plurality of rollers, and a housing. The housing includes at least one guide rod and a driving module. The at least one guide rod is disposed laterally within the housing. The frame is coupled to the at least one guide rod, such that the frame is configured to translate laterally along the at least one guide rod. The driving module is configured to translate the frame along the at least one guide rod, responsive to a signal received from the plurality of sensors.

An alignment device aligns a piece good part, which is received by a cable winch, relative to a yaw axis of an aircraft. An alignment member is fastened on an underside of the aircraft, and an alignment mating part fixed to the piece good part. In use, the alignment mating part has an alignment lug pointing towards the aircraft. The alignment member has a guide track having a sliding surface facing the alignment mating part. When the alignment mating part is displaced towards the aircraft, the alignment lug of the alignment mating part abuts the sliding surface through retraction of the cable winch. During further axial displacement of the alignment mating part towards the aircraft, through further retraction of the cable winch, the alignment lug slides along the sliding surface. This causes the alignment mating part to rotate and align the piece good part with the aircraft.

An alignment device aligns a piece good part, which is received by a cable winch, relative to a yaw axis of an aircraft. An alignment member is fastened on an underside of the aircraft, and an alignment mating part fixed to the piece good part. In use, the alignment mating part has an alignment lug pointing towards the aircraft. The alignment member has a guide track having a sliding surface facing the alignment mating part. When the alignment mating part is displaced towards the aircraft, the alignment lug of the alignment mating part abuts the sliding surface through retraction of the cable winch. During further axial displacement of the alignment mating part towards the aircraft, through further retraction of the cable winch, the alignment lug slides along the sliding surface. This causes the alignment mating part to rotate and align the piece good part with the aircraft.

Systems and methods can be used in connection with a wellbore environment for automatically controlling wire being spooled around a drum. A system comprising a spooler, a sensor assembly, and a communication link can be used to adjust the position of wire being spooled around a drum. A first motor can control the spooler and a second motor can control the sensor assembly. The spooler can be positioned to control spooling of wire around the drum as the drum rotates to reel in wire. The sensor assembly can be configured to detect a distance between the sensor assembly and the wire being spooled. A communication link can communicatively couple the sensor assembly with the first motor and the second motor to control movement of the spooler and the sensor assembly relative to the drum based on the distance detected by the sensor assembly.