Provided are a control system and a control method for cranes which, by reducing the distortion of a structural member, are capable of shortening the time necessary for correcting positional deviations and directional deviations resulting from the distortion, thereby improving the efficiency of cargo handling work. A control system includes receivers and a control device and is configured in such a way that the control device adjusts the speed of each of paired propelling devices based on the coordinates of positions determined by the receivers to perform control to decrease the change in relative positions between the receivers in plan view.

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.

The present invention relates to an apparatus for loading and unloading an LNG tank container, the apparatus comprising: a base provided at a place at which LNG is used; a transfer cart capable of moving back and forth with respect to the base; a clamping device provided at a head part of the transfer cart; and a clamp position adjusting device capable of adjusting a horizontal position of the clamping device. Since there is no transfer of the LNG between tanks, the amount of LNG loss is reduced and the risk for the occurrence of a fire accident is reduced.

A method for steering the wheel assemblies of a gantry crane, including the steps of beginning the steering of at least one wheel assembly in the desired direction; and setting the angular position of a moveable pointer indicating a theoretical position of the wheel assembly which is consistent with said desired direction. The following steps are also included: setting an increment value of the moveable pointer in a direction consistent with respect to the steering movement of the wheel assembly; calculating the angular difference between the angular position of the moveable pointer and the current position of the wheel assembly; andincreasing the increment value of the moveable pointer if the difference shows a decrease, or decreasing the increment value of the moveable pointer if the difference shows an increase.

A system for the transfer, storage and distribution of intermodal containers of a plurality of lengths. The system comprises a first storage area comprising a first plurality of shafts arranged in a grid pattern along a first and second axis, a plurality of gantry cranes slidably disposed along the first axis and extending beyond the storage area, a roof structure disposed at a distance above the plurality of shafts, and a plurality of overhead cranes slidably associated with the plurality of tracks. The shafts disposed in rows along the first axis are configured to store intermodal containers of a plurality of lengths. The shafts disposed in a given row along the second axis are configured to store intermodal containers of a corresponding length. The plurality of gantry cranes are each configured to attach to and transport an intermodal container from a first location to one of a plurality of platforms slidably disposed along the first axis. The platforms delivering the intermodal container to one of the rows of the shafts along the first axis are based on the length of the intermodal container. The roof structure comprises a plurality of tracks corresponding to the rows of the shafts along the second axis. The overhead cranes are each configured to attach to and transport the intermodal container from the platforms to either one of the shafts or to a second location.

An alignment apparatus of a container configured to an alignment of a container smoothly by using a manual operation and an automatic operation together is provided. The alignment apparatus includes a first calculator performing calculation measuring a position of the container based on a detection result of a position sensor, a second calculator performing calculation measuring a target position based on the detection result of the position sensor, the target container being placed on the target position, a third calculator calculating and setting a first automatic operation region performing the automatic operation based on a position of the container and a second automatic operation region performing the automatic operation based on the target position, respectively, a first signal generating part detecting overlapping of the first automatic operation region and the second automatic operation region, and generating a first speed reference signal so as to coincide the position of the container with the target position, and a second signal generating part generating a second speed reference signal for moving the container based on a manual control signal generated by an operation of an operator.

An image-processing unit, a system, an automatic loading and/or unloading system and a method for detecting a locking device on a movable object, wherein the locking device locks a plurality of movable objects to one other and is arranged in a locking region of the movable object and the movable object is moved via a loading device, where the locking region can be sensed in a sensing region of at least one camera and an image-processing unit evaluates a signal of the camera to detect locking devices in a locking region of a movable object so as to detect locking devices efficiently and reliably.

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.

A line cable comprises one or more conductors for transmitting electrical power and/or data and an elongate supporting element. A related power supply system for supplying electrical power and/or data to a movable electrical load via cables comprises at least one feed device and a connecting element, which can be connected to the feed device, of a line cable of the load. The line cable can be output or retrieved from a reservoir, which is carried along by the load, in accordance with a distance between the reservoir and the feed device. A connecting element for connection to a connection of a feed device for electrical power and/or data is arranged at one end of the line cable. The supporting element can be connected to the connecting element in a force-fitting and/or interlocking manner for the purpose of transmitting longitudinal tensile forces.

An arrangement in connection with a movable hoisting apparatus includes at least one imaging device and a processor provided in connection with the movable hoisting apparatus. The imaging device is adapted to save images which at least partly present the surroundings of the hoisting apparatus. The processor is adapted to identify at least one identifiable object from at least two images saved at different time instants and to determine the direction and speed of travel of the hoisting apparatus based on the position of the identifiable object in the images.