An operating device includes a crane controller for controlling actuators of the loading crane and for generating sensor data based on the sensor signals, and an input device spatially separated from the crane controller for inputting control commands for the crane controller. The crane controller has a first telecommunications device for exchanging data signals with the input device, and the data signals output by the crane controller include sensor data. The input device has a second telecommunications device for exchanging data signals including control commands with the first telecommunications device. The input device has a transmitter device for outputting data signals. A signaling device is spatially separated from the input device, and has a receiver device for receiving data signals output by the transmitter device and a display device for displaying audio data and/or image data. The signaling device signals the audio data and/or image data to a user.

A compact wireless remote control for the wireless remote control of a machine is described, having an upper-face operating surface having a display device and at least one free space which is below the upper-face operating surface so as to be at least partly covered by same, is open towards the outside at least laterally on one side, and is delimited by wall portions of the wireless remote control. At least one operating element which can be actuated by an operator at least from the open lateral side of the free space is provided on at least one of said wall portions on the free space side. The free space is preferably formed continuously from one lateral side to the other lateral side and is open at both lateral sides. At least one operating element in each case can be manually accessed from each open lateral side for actuation.

A compact wireless remote control for the wireless remote control of a machine is described, having an upper-face operating surface having a display device and at least one free space which is below the upper-face operating surface so as to be at least partly covered by same, is open towards the outside at least laterally on one side, and is delimited by wall portions of the wireless remote control. At least one operating element which can be actuated by an operator at least from the open lateral side of the free space is provided on at least one of said wall portions on the free space side. The free space is preferably formed continuously from one lateral side to the other lateral side and is open at both lateral sides. At least one operating element in each case can be manually accessed from each open lateral side for actuation.

An overhead bridge crane detection system comprising a lidar sensor in communication with a controller, wherein the lidar sensor and the controller are located in a housing and the housing has a means for removable attachment to an overhead bridge crane or to maintenance equipment.

There is provided a control system including: a first transmission unit configured to transmit a first command directing an operation of a crane; a second transmission unit configured to transmit a second command directing an operation of the crane; and a control device including a first reception unit configured to accept the first command and a second reception unit configured to accept the second command, in which the control device is configured to operate the crane in a case in which the first command and the second command coincide with each other.

There is provided a control system including: a first transmission unit configured to transmit a first command directing an operation of a crane; a second transmission unit configured to transmit a second command directing an operation of the crane; and a control device including a first reception unit configured to accept the first command and a second reception unit configured to accept the second command, in which the control device is configured to operate the crane in a case in which the first command and the second command coincide with each other.

A hoists remote-control assembly having an electrical hoist assembly with a combined control signal and electrical input port, a hoist trolley assembly having a control input port and a combined control signal and electrical cable having a free end extending from the hoist trolley assembly with the free end of the control signal and electrical cable removably attachable to the power input port of the hoist assembly, a wireless signal receiver module having a control signal cable removably attachable to the control signal input port of the hoist trolley assembly, a power input port removably attachable to the control signal and electrical cable of the hoist trolley assembly, and a combined control signal and electrical cable removably attachable to the power input port of the hoist assembly, and a wireless transmitter sending wireless operator hoist commands to the wireless signal receiver module located distal to the wireless transmitter.

A hoists remote-control assembly having an electrical hoist assembly with a combined control signal and electrical input port, a hoist trolley assembly having a control input port and a combined control signal and electrical cable having a free end extending from the hoist trolley assembly with the free end of the control signal and electrical cable removably attachable to the power input port of the hoist assembly, a wireless signal receiver module having a control signal cable removably attachable to the control signal input port of the hoist trolley assembly, a power input port removably attachable to the control signal and electrical cable of the hoist trolley assembly, and a combined control signal and electrical cable removably attachable to the power input port of the hoist assembly, and a wireless transmitter sending wireless operator hoist commands to the wireless signal receiver module located distal to the wireless transmitter.

A hydraulic crane comprising: —a rotatable column (7); —a crane boom system (10) comprising two or more liftable and lowerable crane booms (11, 13); and —an electronic control device (25), which is configured to prevent an execution of crane boom movements that would make the lifting moment of the crane exceed the maximum allowed lifting moment of the crane, and to continuously establish position information as to the prevailing position of the load suspension point (P) of the crane boom system. When the lifting moment of the crane has reached a limit value at a given level below the maximum allowed lifting moment, the electronic control device is configured to prevent the execution of any combination of crane boom movements that would increase the horizontal distance between the load suspension point and said vertical axis of rotation and at the same time allow the execution of any combination of crane boom movements that keeps said horizontal distance unchanged or reduces said horizontal distance.

A hydraulic crane comprising: —a rotatable column (7); —a crane boom system (10) comprising two or more liftable and lowerable crane booms (11, 13); and —an electronic control device (25), which is configured to prevent an execution of crane boom movements that would make the lifting moment of the crane exceed the maximum allowed lifting moment of the crane, and to continuously establish position information as to the prevailing position of the load suspension point (P) of the crane boom system. When the lifting moment of the crane has reached a limit value at a given level below the maximum allowed lifting moment, the electronic control device is configured to prevent the execution of any combination of crane boom movements that would increase the horizontal distance between the load suspension point and said vertical axis of rotation and at the same time allow the execution of any combination of crane boom movements that keeps said horizontal distance unchanged or reduces said horizontal distance.