Abstract: System, delivery vehicle and delivery container, wherein the delivery container for accommodation by a delivery vehicle has a plurality of compartments, wherein the compartments are accessible from the outside and each compartment is designed to accommodate a plurality of packages. Furthermore, a plurality of closure elements are provided for closing the compartments and a connecting element is provided for connection to a delivery vehicle.

Abstract: A conveying device for converting a serially transported piece goods stream into a parallelly transported piece goods stream. A feed belt conveyor serially feeds the piece goods stream, and a plurality of discharge belt conveyors parallelly discharge the fed piece goods stream. The discharge belt conveyors are assigned to a longitudinal side of the feed belt conveyor. The directions of transport of the discharge belt conveyors are oriented parallel to one another and transversely to the direction of transport of the feed belt conveyor. The discharge belt conveyors are configured as telescopic belt conveyors. The longitudinal side of the upper strand of the feed belt conveyor that is assigned to the discharge belt conveyors is arranged lower than the opposite longitudinal side of the upper strand of the feed belt conveyor.

Abstract: A conveying device for converting a serially transported piece goods stream into a parallelly transported piece goods stream. A feed belt conveyor serially feeds the piece goods stream, and a plurality of discharge belt conveyors parallelly discharge the fed piece goods stream. The discharge belt conveyors are assigned to a longitudinal side of the feed belt conveyor. The directions of transport of the discharge belt conveyors are oriented parallel to one another and transversely to the direction of transport of the feed belt conveyor. The discharge belt conveyors are configured as telescopic belt conveyors. The longitudinal side of the upper strand of the feed belt conveyor that is assigned to the discharge belt conveyors is arranged lower than the opposite longitudinal side of the upper strand of the feed belt conveyor.

Abstract: A compact lightweight gantry for a proton therapy system that has a source-to-axis distance (SAD) of less than 2 m and can deliver a proton beam of superior quality. The reduced SAD leads to reduced requirements on the maximum magnetic fields that can be generated by the bend magnets in the gantry beamline. Correspondingly, lightweight bend magnets can be used. The various components in the gantry beamline are optimized to achieve a beam spot size of approximately 4 mm sigma or less through a pencil beam scanning nozzle disposed downstream of the final bending magnet. In addition, the proton therapy system is configured to operate at a maximum beam energy in the range of 220-230 MeV.

Abstract: A compact lightweight gantry for a proton therapy system that has a source-to-axis distance (SAD) of less than 2 m and can deliver a proton beam of superior quality. The reduced SAD leads to reduced requirements on the maximum magnetic fields that can be generated by the bend magnets in the gantry beamline. Correspondingly, lightweight bend magnets can be used. The various components in the gantry beamline are optimized to achieve a beam spot size of approximately 4 mm sigma or less through a pencil beam scanning nozzle disposed downstream of the final bending magnet. In addition, the proton therapy system is configured to operate at a maximum beam energy in the range of 220-230 MeV.