A drum spooling system with a line protective material or wrap that can be wound and unwound with a load-bearing line, such as a wire rope, on a load drum to form a superposed arrangement of layers of the load-bearing line and protective material around the load drum, which advantageously reduces the pressure on the drum, radial space and/or drum size requirements, and damage to the wire rope resulting from the spooling and unspooling process, among other things.

A drum spooling system with a line protective material or wrap that can be wound and unwound with a load-bearing line, such as a wire rope, on a load drum to form a superposed arrangement of layers of the load-bearing line and protective material around the load drum, which advantageously reduces the pressure on the drum, radial space and/or drum size requirements, and damage to the wire rope resulting from the spooling and unspooling process, among other things.

Disclosed is a system for manipulating an object and providing at least one utility winch. The system includes a motor and a driveshaft having an axis and being coupled to the motor. The system includes a first spool on the driveshaft being rotatable with the driveshaft by the motor and a first line for lifting an object, the first line attached to the first spool. The system also includes a second spool on the driveshaft being rotatable with the driveshaft by the motor, and a second line attached to the second spool, the second line configured to deliver at least one utility selected from electric power, data, and fluid.

Disclosed is a system for manipulating an object and providing at least one utility winch. The system includes a motor and a driveshaft having an axis and being coupled to the motor. The system includes a first spool on the driveshaft being rotatable with the driveshaft by the motor and a first line for lifting an object, the first line attached to the first spool. The system also includes a second spool on the driveshaft being rotatable with the driveshaft by the motor, and a second line attached to the second spool, the second line configured to deliver at least one utility selected from electric power, data, and fluid.

A lifting cabinet, comprises a cabinet body, wherein the cabinet body comprises a side plate in which at least two wire through-holes are configured, a trunking which is configured in the side plate for communicating with the two wire through-holes, and wires which are placed in the trunking and are respectively connected to electric parts in different spaces within the cabinet body through the two wire through-holes. The cabinet solves the problem of messy and unsightly appearance caused by unreasonable wire arrangement.

A lifting cabinet, comprises a cabinet body, wherein the cabinet body comprises a side plate in which at least two wire through-holes are configured, a trunking which is configured in the side plate for communicating with the two wire through-holes, and wires which are placed in the trunking and are respectively connected to electric parts in different spaces within the cabinet body through the two wire through-holes. The cabinet solves the problem of messy and unsightly appearance caused by unreasonable wire arrangement.

A tagline control system for handling a wind turbine component during an operation on a wind turbine using a lifting apparatus. The tagline control system includes a tagline control module (74, 164) having a housing (80), at least two winches (126,128) disposed within the housing and each having a tagline cable (130, 132), a controller (146) disposed within the housing and operatively coupled to the at least two winches, and a power source (148) disposed within the housing (80) and operatively coupled to the at least two winches. A method of handling a wind turbine component during an operation on a wind turbine using the lifting apparatus includes coupling the tagline control module to the lifting apparatus and to a wind turbine component, and operating the tagline control system to effectuate the position of the wind turbine component.

A tagline control system for handling a wind turbine component during an operation on a wind turbine using a lifting apparatus. The tagline control system includes a tagline control module (74, 164) having a housing (80), at least two winches (126,128) disposed within the housing and each having a tagline cable (130, 132), a controller (146) disposed within the housing and operatively coupled to the at least two winches, and a power source (148) disposed within the housing (80) and operatively coupled to the at least two winches. A method of handling a wind turbine component during an operation on a wind turbine using the lifting apparatus includes coupling the tagline control module to the lifting apparatus and to a wind turbine component, and operating the tagline control system to effectuate the position of the wind turbine component.

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 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.