A remote controlled lift assembly includes a pair of supports is each mountable to a respective outrigger of scaffolding. A winch unit is positionable on the supports when the supports are mounted on the scaffolding and the winch unit has a cable extending downwardly therefrom. The cable is lowered or lifted when the winch is actuated. A receiver is coupled to the winch unit and the receiver is in electrical communication with the winch unit. A remote control is provided that is carried by a user and the remote control is in wireless electrical communication with the receiver. In this way the user can remotely lift and lower the cable for lifting and lowering cargo.

A remote controlled lift assembly includes a pair of supports is each mountable to a respective outrigger of scaffolding. A winch unit is positionable on the supports when the supports are mounted on the scaffolding and the winch unit has a cable extending downwardly therefrom. The cable is lowered or lifted when the winch is actuated. A receiver is coupled to the winch unit and the receiver is in electrical communication with the winch unit. A remote control is provided that is carried by a user and the remote control is in wireless electrical communication with the receiver. In this way the user can remotely lift and lower the cable for lifting and lowering cargo.

A hoist mounting apparatus includes a pair of vertical supports. Each of the vertical supports has an upper end and a lower end. Each of the lower ends comprises a mount configured to releasably engage a roof hatch frame. A horizontal support is positioned on and extends between the vertical supports. The horizontal support is freely movable with respect to the vertical supports. The horizontal support has a first end, a second end, a first side edge and a second side edge. The horizontal support is elongated and has a longitudinal axis extending through the first and second end ends. The horizontal support has an elongated opening therein extending along the longitudinal axis. The electric hoist is positionable on the horizontal support such that a cable attached to the electric hoist extends downwardly through the elongated opening.

A balancer for tools includes a rotating winding and unwinding drum for a cable, configured with a free end for supporting a tool. The balancer also includes a spring, wound around the main axis of rotation of the drum and integral with a terminal portion with the drum, in order to generate an elastic reaction, as a consequence of the unwinding of the cable and of the consequent rotation of the drum, adapted to facilitate the rewinding of the cable. The balancer further includes an element for braking the drum, which is adapted to generate a resisting moment which acts even indirectly on the drum to contrast the rewinding stroke of the cable; a respective electronic unit is furthermore associated with the element and is provided with a module for the control and adjustment of the intensity of the resisting moment generated by the element.

A balancer for tools includes a rotating winding and unwinding drum for a cable, configured with a free end for supporting a tool. The balancer also includes a spring, wound around the main axis of rotation of the drum and integral with a terminal portion with the drum, in order to generate an elastic reaction, as a consequence of the unwinding of the cable and of the consequent rotation of the drum, adapted to facilitate the rewinding of the cable. The balancer further includes an element for braking the drum, which is adapted to generate a resisting moment which acts even indirectly on the drum to contrast the rewinding stroke of the cable; a respective electronic unit is furthermore associated with the element and is provided with a module for the control and adjustment of the intensity of the resisting moment generated by the element.

Disclosed is a hoist apparatus including: an electric motor, and a control box that can be electrically powered by a power supply, the control box including at least an electronic control circuit, an electrical wiring and an external casing forming a box of the control box, the external casing including at least sidewalls and a removable lid closing the box, the control box controlling the operations of the electric motor thanks to the electrical wiring connected to the electronic control circuit, to the power supply and to the electric motor, and a monitoring device, wherein the monitoring device is an insert of the box, the monitoring device being arranged within an enclosure, the enclosure being an added part of the box or being an exchanged part of the box and wherein the monitoring device is connected to the electrical wiring.

Disclosed is a hoist apparatus including: an electric motor, and a control box that can be electrically powered by a power supply, the control box including at least an electronic control circuit, an electrical wiring and an external casing forming a box of the control box, the external casing including at least sidewalls and a removable lid closing the box, the control box controlling the operations of the electric motor thanks to the electrical wiring connected to the electronic control circuit, to the power supply and to the electric motor, and a monitoring device, wherein the monitoring device is an insert of the box, the monitoring device being arranged within an enclosure, the enclosure being an added part of the box or being an exchanged part of the box and wherein the monitoring device is connected to the electrical wiring.

Embodiments conveyed herein seek to disclose a mobile sorting system. The system can include a mobile platform having one or more storage housings. The mobile sorting system can include a mobile platform having a storage area(s) and first and second motorized actuating assemblies. The second motorized actuating assembly can be positioned proximate to the first motorized actuating assembly. The storage areas includes a storage housing(s). The first and second motorized actuating assemblies each include end effectors that can prehend storage housings and containers, respectively. The first and second motorized actuating assemblies each include prehension elements. Each motorized actuating assembly has a firsts mode to prehend object using the end effectors, a second mode to translate the object, and a third mode to release the object.

Embodiments conveyed herein seek to disclose a mobile sorting system. The system can include a mobile platform having one or more storage housings. The mobile sorting system can include a mobile platform having a storage area(s) and first and second motorized actuating assemblies. The second motorized actuating assembly can be positioned proximate to the first motorized actuating assembly. The storage areas includes a storage housing(s). The first and second motorized actuating assemblies each include end effectors that can prehend storage housings and containers, respectively. The first and second motorized actuating assemblies each include prehension elements. Each motorized actuating assembly has a firsts mode to prehend object using the end effectors, a second mode to translate the object, and a third mode to release the object.

A system for positioning equipment comprises a hoist including an electric motor coupled to a pulley for exerting a pulling force upon a tension member that extends to a distal end configured to attach to an elevated structure. The system also comprises a portable power supply including a battery supplying DC power, and an inverter configured to generate and supply AC power to the hoist for driving the electric motor and thereby lifting the hoist toward the elevated structure. A method for pre-positioning a hoist comprises attaching a tension member of a hoist to an elevated structure; generating AC power from a DC source by an inverter of a portable power supply; and lifting the hoist using the portable power supply. Thus, the hoist can be pre-positioned in an elevated location before utility power is available.