A bridge crane assembly includes a crane track that is positioned in a warehouse. A cylinder is included that has a plurality of tracks integrated into the cylinder. A drive unit is integrated into the cylinder and the drive unit has a pair of drive wheels that each engages the crane track. The drive unit rotates each of the drive wheels in a first direction or a second direction. A carriage extends around the cylinder and a plurality of rollers is each rotatably coupled to the carriage. Each of the rollers engages a respective one of the tracks on the cylinder thereby facilitating the carriage to travel along the cylinder. A transport unit is integrated into the carriage and the transport unit engages the cylinder. The transport unit is actuatable to urge the carriage to travel along the cylinder in either a primary direction or a secondary direction.

Rail (10, 30) for use at boom hinges (5) of a crane (1), extending longitudinally from one end (11) to an opposite end (12), comprising a rail head (13, 33) having a running surface (131) for a wheel of a railway vehicle, a rail foot (14, 18, 38) for fastening the rail, and a web (15) connecting the rail head to the rail foot and interposed between the rail head and the rail foot, wherein the rail head is continuous along the length of the rail. The rail comprises a resilient member (16, 36) extending across the web (15) from the one end (11) of the rail over a length shorter than the length of the rail in order to provide a resiliency of the rail head (13, 33) relative to the rail foot (18, 38) over a length of extension of the resilient member.

Rail (10, 30) for use at boom hinges (5) of a crane (1), extending longitudinally from one end (11) to an opposite end (12), comprising a rail head (13, 33) having a running surface (131) for a wheel of a railway vehicle, a rail foot (14, 18, 38) for fastening the rail, and a web (15) connecting the rail head to the rail foot and interposed between the rail head and the rail foot, wherein the rail head is continuous along the length of the rail. The rail comprises a resilient member (16, 36) extending across the web (15) from the one end (11) of the rail over a length shorter than the length of the rail in order to provide a resiliency of the rail head (13, 33) relative to the rail foot (18, 38) over a length of extension of the resilient member.

The present disclosure provides a device for fixing a gantry crane rail in a factory building and a gantry crane system using the same. The device comprises a main body, which comprises a top portion, a first surface and a second surface opposite the first surface. The top portion is fixed to a bottom surface of a beam of the factory building, and the first surface and the second surface are substantially parallel to the crane rail. The device further comprises a first protruded support positioned on the first surface and a second protruded support positioned on the second surface.

A support rail for a robotic platform having a support structure of concrete, a lower metallic connection flange and an upper connection flange or a guide rail disposed on an external side of the support structure. The lower connection flange, on the one hand, and the upper connection flange or the guide rail, respectively, on the other hand, are connected by a rigid metallic exoskeleton structure provided on the external side of the support structure and surrounding at least partially or completely the support structure.

A support rail for a robotic platform having a support structure of concrete, a lower metallic connection flange and an upper connection flange or a guide rail disposed on an external side of the support structure. The lower connection flange, on the one hand, and the upper connection flange or the guide rail, respectively, on the other hand, are connected by a rigid metallic exoskeleton structure provided on the external side of the support structure and surrounding at least partially or completely the support structure.

A support rail for a robot platform displaceable in a translatory manner. This support rail is configured in the manner of an elongate construction element having at least one metallic guide rail for guiding the robot platform, the metallic guide rail being provided on the external side and extending in a main direction of extent. The support rail has at least one lower metallic connection flange for fastening the support rail on a sub-base such as a shed floor or to a gantry base, and on an external side, has at least one upper metallic connection flange for attaching the metallic guide rail and/or directly the at least one metallic guide rail. The support rail is designed having a support structure of concrete, and the support rail has a metallic tension structure embedded in the support structure of concrete and under tensile stress in the main direction of extent.

A support rail for a robot platform displaceable in a translatory manner. This support rail is configured in the manner of an elongate construction element having at least one metallic guide rail for guiding the robot platform, the metallic guide rail being provided on the external side and extending in a main direction of extent. The support rail has at least one lower metallic connection flange for fastening the support rail on a sub-base such as a shed floor or to a gantry base, and on an external side, has at least one upper metallic connection flange for attaching the metallic guide rail and/or directly the at least one metallic guide rail. The support rail is designed having a support structure of concrete, and the support rail has a metallic tension structure embedded in the support structure of concrete and under tensile stress in the main direction of extent.

Provided is a system including a platform to receive unmanned air vehicles (UAVs) thereon for launching and retrieving the UAVs. The system can include a pair of gantry arms that move to any location along the platform to position a UAV as desired. The platform includes a door that can open to expose a storage area in the system to receive and store UAVs, as well as to re-charge power in the UAVs. The storage area can include a plurality of cells that can be adjusted to receive a UAV of any size for storage therein.

Provided is a system including a platform to receive unmanned air vehicles (UAVs) thereon for launching and retrieving the UAVs. The system can include a pair of gantry arms that move to any location along the platform to position a UAV as desired. The platform includes a door that can open to expose a storage area in the system to receive and store UAVs, as well as to re-charge power in the UAVs. The storage area can include a plurality of cells that can be adjusted to receive a UAV of any size for storage therein.