A crane with at least one main carrier which is moveable and a crane trolley which is mounted on the at least one main carrier for movement, a winch carrier being fastened to the crane trolley, and a load suspension apparatus which is moveable up and down in the vertical direction by cables hanging on the winch carrier, the load suspension apparatus having gripping tools for releasably gripping a load. The crane has at least one camera and at least one control stand for a crane driver, and the control stand has at least one screen. At least one assistance graphic can be superimposed on the at least one screen onto the display of the image recorded instantaneously by the camera, as an aid for the crane driver for orienting the load suspension apparatus and/or the gripping tool of the load suspension apparatus relative to the load to be gripped.

A system for transporting hydrogen from where it can be economically made to where it is most needed using airships. Green technologies can be used to generate electricity near to the primary energy sources. This electricity can then be used to produce hydrogen directly from water. Hydrogen can be delivered using an airship in which the hydrogen gas can also be used for generating lift, providing propulsion energy and serving ancillary needs. In other embodiments of the invention, the airship of the present invention can be used to dramatically reduce the cost of transportation of freight, the cost of passenger transportation, and to save on the area required for landing at the points of loading/unloading and embarkation/debarkation. And in another embodiment, the airship of the present invention can be used for transporting water and food to areas where needed. Various embodiments can load containers into and out of the ship.

In a method for preventing a collision of a load of a crane with an obstacle, a height profile of the obstacle is captured along a trajectory of movement of the load by at least two sensors for distance measurement. Signals of the sensors are transmitted via at least two communication channels to a controller having at least two operating systems. At least one of the operating systems has a safety program in a secure area. The obstacle is identified along the trajectory via the height profile. The controller includes a secure communications interface for transmitting signals from the controller to a crane control.

Load handling equipment comprises vertical support structures between which transport means are mounted to be moved along a horizontal support structure between the vertical support structures to move a load relative to the support structures, and a distance-measuring device capable of generating distance measurement data is mounted in at least one of said support structures. The distance-measuring device is arranged to generate distance measurement data on at least two of the following objects relative to their mounting position, the objects comprising: a vehicle positioned beneath or on a side of the load handling equipment, the door of a vehicle, a person, a load, a reflector and transport means for moving a load.

A system for determining a location of a vehicle in an environment provided with at least two landmarks whose location is known. The system includes at least one scanning distance sensor installed in the vehicle and configured to measure distance and direction from the vehicle to the at least two landmarks, as well as a data processing device configured to store in its memory the location of the at least two landmarks; and determine the location of the vehicle on the basis of at least the location of the at least two landmarks as well as the distance and direction from the vehicle to the at least two landmarks.

A connecting arrangement by which an electric load, which can be displaced in at least one direction of travel in relation to a feeder device, is supplied, by a cable, with electrical energy and/or data. The feeder device has at least one connection member for connecting to a corresponding connecting element of a cable carried by the electric load. An energy-supply system supplies the electric load. A simplified automatic connection of the cable to the feeder device by a connecting arrangement has a manipulator for connecting the connecting element to the connection member. A related energy-supply system has such a connecting arrangement and a related method has the following steps: a) positioning the connecting element in relation to the feeder device, b) using a manipulator to grip the connecting element and/or the cable, and c) using the manipulator to connect the connecting element to the connection member.

The invention relates to a brake assembly (1) for securing a conveyor device, in particular a crane system (100), comprising a first brake device (7) which acts on a first drive element (3), a second brake device (8) which acts on a second drive element (5), a transmission device (4), in particular a gearbox, acting between the first and second drive element, a load sensor (13, 13) which detects a load signal and passes same on to a controller (9), and the controller (9) is designed in such a way that, based on a load signal that exceeds an overload threshold, it initiates an emergency brake status and actuates the first and the second brake device (7, 8) in such a way that they act on the first and second drive element (3, 5) simultaneously within a first brake acting time, wherein one of the first and second brake devices is designed such that it acts on the first and/or the second drive element within a second brake acting time in a normal brake status, and the first brake acting time is shorter than the second brake acting time.

A cable guide apparatus has an oscillating link rotatable about an axis and a cable guide for the line cable. The line cable is fed from and into a reservoir based on the distance between the reservoir and the feed device and is guided by the cable guide. A simplified automatic connection of a line cable to a feed device is achieved and provides protective guidance and storage of the line cable by a cable guide apparatus in which the oscillating link can be moved linearly relative to the oscillation axis. A power supply system includes this cable guide apparatus. The related method comprises: a) retracting a connecting element, which is arranged on the line cable, into the cable guide apparatus and before, at the same time or afterwards b) moving the oscillating link from an extended to a retracted position relative to the oscillation axis in a linear manner.

An arrangement of a gantry lifting device for handling containers, in particular ISO containers, having a sensor device for the navigation of the gantry lifting device and having a clearance profile which is formed such that the gantry lifting device can move across a container, and of a row of spaced-apart marking elements such that the gantry lifting device can be moved along the row of marking elements by means of raster navigation, where the row of marking elements can be read by the sensor device of the gantry lifting device. The sensor device, in an operating position, is arranged outside the clearance profile on the gantry lifting device so as, in the operating position, to read the row of marking elements for the navigation of the gantry lifting device, where the row of marking elements is arranged next to the clearance profile of the gantry lifting device.

A service platform, container handling carrier and method of arranging electrical drive control elements. The platform (8) comprises one or more mounting space between a top and bottom surfaces (15, 19). The mounting spaces may receive electrical components (29).