A crane includes a control interface to receive an operating instruction defining a target position, and a controller to determine movements of crane components and to generate driving instructions to be applied to a system of hydraulic actuators. The controller estimates a pressure level of a required working pressure of a hydraulic pump of each of the hydraulic actuators for the determined movements, and compares the estimated pressure levels and identifies the hydraulic actuators as a high pressure function, or as a low pressure function, based on the comparisons. The controller determines a time period during a movement from a current position to a target position, in which only the hydraulic actuators identified as a high pressure function or as a low pressure function is/are activated, and generates driving instructions for the hydraulic actuators to perform the determined movements, including activation of the determined hydraulic actuators during the time period.

A method for positioning a straddle carrier for containers and a container to be placed behind a container that has already been placed. The straddle carrier is moved by means of travel supports, travel drives, and a controller that interacts with same, and measurement signals from sensors arranged on the straddle carrier are processed by the controller in order to move and position the straddle carrier and the container to be placed.

A method for positioning a straddle carrier for containers and a container to be placed behind a container that has already been placed. The straddle carrier is moved by means of travel supports, travel drives, and a controller that interacts with same, and measurement signals from sensors arranged on the straddle carrier are processed by the controller in order to move and position the straddle carrier and the container to be placed.

A control switch for operating, preferably in single-hand operation, a hoist or crane, having a device for manual actuation, preferably single-finger actuation, with a base element, which is preferably designed as a housing, and a control lever which can be pivoted relative to the base element and which can be pivoted by means of a pivot movement triggered by means of manual actuation, preferably single-finger actuation, from an unpivoted base position into an actuation position that is pivoted in relation to the base position, in order thereby to bring about a predefined movement of the hoist or crane.

This crane information display system is provided with a terminal device having a camera and captures an image of a crane with the camera to obtain a camera image, the crane information display system including a crane information acquisition unit that reads display information of an information display unit, which is mounted in the crane, from the camera image and acquires information about the crane; a position/orientation calculation unit that calculates the position and orientation of the crane from the camera image; an information processing unit that converts the information about the crane acquired by the crane information acquisition unit into three-dimensional image information corresponding to the position and orientation of the crane calculated by the position/orientation calculation unit; and an image display unit that overlays the information about the crane converted by the information processing unit on the camera image and displays the same.

A remote-control arrangement for remotely controlled objects, such as in particular lifting systems and/or working devices, has a handheld transmitter which has a housing on which multiple adjustable-position operating elements for the input of control commands are held, and in which remote control electronics are accommodated, by means of which control commands input via the operating elements can be converted into signals, which can be emitted to control the objects, and a display held on the housing for displaying control-relevant information. The display is formed by a computer display of a portable computer produced separately from the transmitter, and a standard interface, via which the portable computer can be detachably connected to the remote-control electronics of the transmitter, is provided on the housing.

An Enhanced Lift Assist Device is described. The device allows a user to lift and manipulate large, heavy or bulky items by applying force to the item as opposed to traditional control methods such as buttons. This force based system provides ease of movement of the item, making it appear much lighter than it actually is. The Enhanced Lift Assist Device also includes an adjustable base that allows for change of orientation of the device that may include leveling or self-leveling functionality, allowing the device to be operated in non-traditional environments that require leveling or operational adjustments for proper functioning.

A handheld remote control for a crane includes a wireless transceiver, an input device, a display screen, and processing circuitry. The wireless transceiver is configured to wirelessly communicate with a controller of the crane. The input device is configured to receive a user input. The display screen is configured to display information regarding deployment of a stabilizer of the crane. The processing circuitry is configured to obtain the user input via the input device, and cause at least one stabilizer of the crane to deploy or retract based on the user input.

A handheld remote control for a crane includes a wireless transceiver, an input device, a display screen, and processing circuitry. The wireless transceiver is configured to wirelessly communicate with a controller of the crane. The input device is configured to receive a user input. The display screen is configured to display information regarding deployment of a stabilizer of the crane. The processing circuitry is configured to obtain the user input via the input device, and cause at least one stabilizer of the crane to deploy or retract based on the user input.

Accordingly, exemplary embodiments are disclosed of coordinated safety interlocking systems and methods of coordinating safety interlocking. In an exemplary embodiment, a system for providing coordinated safety interlocking between a plurality of machines is disclosed. The system generally includes a plurality of machine control units each configured to control at least one of the plurality of machines. The system also includes at least one operator control unit configured to define a dynamic cluster including a subset of the plurality of machine control units. The at least one operator control unit is configured to control safety interlocking between each machine control unit in the dynamic cluster. The system may be used to provide coordinated safety interlocking between various elements and/or machines, such as crane bridges and crane hoists, etc.