A trolley of a crane is arranged to move along a main support structure of the crane. The trolley includes a support frame structure; bearing wheels which are fastened to the support frame structure and by means of which the trolley is arranged to move along the main support structure; and a hoisting mechanism that has a rope drum for a hoisting rope, a rope pulley arrangement through which the hoisting rope may be guided from the rope drum to a fixed fastening point on the trolley, and a hoisting member in cooperation with the hoisting rope for hoisting a load. The rope drum is supported to the support frame structure of the trolley so that the axle of the rope drum is parallel to the main support structure. The rope pulley arrangement is located, in the axial direction of the rope drum, at least partly outside one rope drum end which is on the side of said fastening point. The support frame structure is divided into two separate frame parts, whereby the first frame part supports the rope pulley arrangement and the rope drum end on the side thereof, and whereby the second frame part supports the opposite end of the rope drum. A pivoted joint is arranged between the first frame part and the second frame part, which allows the first and second frame part to move relative to each other around the vertical and horizontal axis and the longitudinal axis of the first and second frame part.

A trolley of a crane is arranged to move along a main support structure of the crane. The trolley includes a support frame structure; bearing wheels which are fastened to the support frame structure and by means of which the trolley is arranged to move along the main support structure; and a hoisting mechanism that has a rope drum for a hoisting rope, a rope pulley arrangement through which the hoisting rope may be guided from the rope drum to a fixed fastening point on the trolley, and a hoisting member in cooperation with the hoisting rope for hoisting a load. The rope drum is supported to the support frame structure of the trolley so that the axle of the rope drum is parallel to the main support structure. The rope pulley arrangement is located, in the axial direction of the rope drum, at least partly outside one rope drum end which is on the side of said fastening point. The support frame structure is divided into two separate frame parts, whereby the first frame part supports the rope pulley arrangement and the rope drum end on the side thereof, and whereby the second frame part supports the opposite end of the rope drum. A pivoted joint is arranged between the first frame part and the second frame part, which allows the first and second frame part to move relative to each other around the vertical and horizontal axis and the longitudinal axis of the first and second frame part.

In a lifting and transporting device for lifting a load and transporting the load transversely to the lifting direction, for use in manufacturing a screwed flange connection, in order to bring a bolting tool into a bolting position, in which it is in engagement with a screw bolt connection to be tightened or to be released, or into a transport position in which it can be moved out of engagement with a screw bolt connection and can be transported to the next screw bolt connection, wherein the flange extends horizontally in the transport direction, comprising a frame which extends around a load space of specified size for picking up and lifting a load, a holding mechanism for holding the load, wherein the holding mechanism is movable relative to the frame in the lifting direction, and comprising a hoisting device which beside the load space is attached to the frame and is adapted for lifting and lowering the holding mechanism with a load attached thereto, wherein the frame is mounted on a first and a second support bearing whose supporting directions each extend perpendicularly to the transport direction and which have a distance to each other perpendicularly to the transport direction, wherein the first support bearing is designed for abutment against the flange upper side, and wherein at least the first support bearing includes sliding members or rollers which can be shifted or rolled off in the transport direction, the frame includes a first frame portion and a second frame portion, wherein the second frame portion is pivotally mounted on the first frame portion about an axis which extends in the transport direction, the first support bearing is attached to the first frame portion, the holding mechanism is mounted on the second frame portion so as to be shiftable in the lifting direction and is non-pivotably mounted with respect to the second frame portion about an axis extending in the transport direction, and the holding mechanism is configured to non-pivotably hold the load with respect to the holding mechanism about an axis extending in the transport direction.

A crane system includes an elevated track spanning a first location to a second location; at least one spreader assembly configured to move along the elevated track using a tram assembly unit, and to move a shipping container from a first storage area to a second storage area, wherein the first storage area and the second storage area are between the first location and the second location; and a controller configured to identify the shipping container and control a movement of the shipping container using the at least one spreader assembly.

A crane system includes an elevated track spanning a first location to a second location; at least one spreader assembly configured to move along the elevated track using a tram assembly unit, and to move a shipping container from a first storage area to a second storage area, wherein the first storage area and the second storage area are between the first location and the second location; and a controller configured to identify the shipping container and control a movement of the shipping container using the at least one spreader assembly.

In a lifting and transporting device for lifting a load and transporting the load transversely to the lifting direction, for use in manufacturing a screwed flange connection, in order to bring a bolting tool into a bolting position, in which it is in engagement with a screw bolt connection to be tightened or to be released, or into a transport position in which it can be moved out of engagement with a screw bolt connection and can be transported to the next screw bolt connection, wherein the flange extends horizontally in the transport direction, comprising a frame which extends around a load space of specified size for picking up and lifting a load, a holding mechanism for holding the load, wherein the holding mechanism is movable relative to the frame in the lifting direction, and comprising a hoisting device which beside the load space is attached to the frame and is adapted for lifting and lowering the holding mechanism with a load attached thereto, wherein the frame is mounted on a first and a second support bearing whose supporting directions each extend perpendicularly to the transport direction and which have a distance to each other perpendicularly to the transport direction, wherein the first support bearing is designed for abutment against the flange upper side, and wherein at least the first support bearing includes sliding members or rollers which can be shifted or rolled off in the transport direction, the frame includes a first frame portion and a second frame portion, wherein the second frame portion is pivotally mounted on the first frame portion about an axis which extends in the transport direction, the first support bearing is attached to the first frame portion, the holding mechanism is mounted on the second frame portion so as to be shiftable in the lifting direction and is non-pivotably mounted with respect to the second frame portion about an axis extending in the transport direction, and the holding mechanism is configured to non-pivotably hold the load with respect to the holding mechanism about an axis extending in the transport direction.

A continuous container crane device may include a first track having a continuous shape and a second track having a continuous shape. Preferably, the first track may be substantially parallel to the second track. One or more trolleys may be movably coupled to the first track and to the second track so that the trolleys are configured to move in a continuous movement path (starts and finishes at the same place) defined by the first and second track. Each trolley may include a lifting mechanism that may be coupled to a container spreader which may be removably coupled to shipping containers for the transport of shipping containers to and from trucks with a chassis trailer, all types of intermodal railroad flat cars, ships and other water traveling vessels, container storage lots, etc.

A continuous container crane device may include a first track having a continuous shape and a second track having a continuous shape. Preferably, the first track may be substantially parallel to the second track. One or more trolleys may be movably coupled to the first track and to the second track so that the trolleys are configured to move in a continuous movement path (starts and finishes at the same place) defined by the first and second track. Each trolley may include a lifting mechanism that may be coupled to a container spreader which may be removably coupled to shipping containers for the transport of shipping containers to and from trucks with a chassis trailer, all types of intermodal railroad flat cars, ships and other water traveling vessels, container storage lots, etc.

A steering device for an OHT according to some example embodiments of the present inventive concepts includes: an LM block; a steering plate fixedly installed to the LM block and provided with an insertion groove; a link installed in the insertion groove of the steering plate and tilted; a main bearing having an outer circumferential surface in contact with the link to reduce friction when the link is tilted; and a guide roller rotatably installed on a protrusion protruding from the link.

A steering device for an OHT according to some example embodiments of the present inventive concepts includes: an LM block; a steering plate fixedly installed to the LM block and provided with an insertion groove; a link installed in the insertion groove of the steering plate and tilted; a main bearing having an outer circumferential surface in contact with the link to reduce friction when the link is tilted; and a guide roller rotatably installed on a protrusion protruding from the link.