A security device, such as an anti-theft device, for a transport vehicle, such as a railcar, grating hinge connector includes a plate and a cup. The hinge connector has a first portion secured to the deck surface by a fastener with a head, and a second portion coupled to the grating. The cup has a base and a wall forming a cavity sized and shaped to receive the plate. The wall forms an opening that is sized and shaped to receive the plate for insertion into the cavity. The base is positioned on the hinge connector and has another opening sized and shaped to receive the fastener with the head positioned in the cavity. The insertion of the plate in the cavity secures the head of the fastener within the anti-theft device.

An apparatus includes a transfer ball, a rod, a first bracket, a second bracket, a lock nut, an elastic element, and a threaded collar. The rod is coupled to the transfer ball and extends vertically from the transfer ball. The second bracket is positioned above the first bracket. The rod extends vertically through the first bracket and the second bracket. The lock nut engages to the rod and is positioned above the first bracket and below the second bracket. The elastic element is positioned above the lock nut and below the second bracket. The rod extends vertically through the elastic element. The threaded collar is positioned above the elastic element and below the second bracket. The threaded collar is engaged to the rod. The rod extends through the threaded collar.

A locking assembly includes an elongated guide tube configured to be coupled to a first component. The guide tube is elongated in a first direction from a first end to an opposite second end. The locking assembly also includes a first pin partially disposed in the guide tube and protruding from the first end of the guide tube. The first pin can be received in a first receiver. The locking assembly also includes a second pin partially disposed in the guide tube and protruding from the second end of the guide tube. This second pin can be received in a second receiver. The locking assembly also includes a handle removably coupled with the second pin. The handle can be grasped and moved to slide the second pin relative to the guide tube and the first pin along the first direction.

A train system having a train element consisting of a single train car configured to travel along a rail system, and including an enclosed first use area and a flat car section. The flat car section includes a drive-on loading area configured to enable a vehicle to be driven onto the flat car section and then transported by the train car. Train element includes a drive system for moving the train element along the rail system and a control system for autonomously controlling the operation of the train car. A sensor system collects sensor data and provides the sensor data, as inputs, to the control system. Sensor data is used by the control system in operating the train car. Lastly, a power system independently powers the drive system and control system.

An auto-rack railroad car including a frame, a plurality of upright posts supported by the frame, a deck, and a plurality of deck connector assemblies connecting the deck to the upright posts, each deck connector assembly including at least one wedge.

According to some embodiments, an autorack railcar roof assembly comprises a center roof panel, a first intermediate roof panel adjacent one side of the center roof panel, and a second intermediate roof panel adjacent an opposite of the center roof panel from the first intermediate roof panel. The center roof panel comprises a first width. The first and second intermediate roof panels each comprise a second width greater than the first width.

According to some embodiments, an autorack railcar roof assembly comprises a center roof panel, a first intermediate roof panel adjacent one side of the center roof panel, and a second intermediate roof panel adjacent an opposite of the center roof panel from the first intermediate roof panel. The center roof panel comprises a first width. The first and second intermediate roof panels each comprise a second width greater than the first width.

The present invention provides a removable frame system for transporting vehicles in a container. The frame system is be assembled in the container, the vehicles are loaded on the frame system, the container is shipped to the location, the vehicles are unloaded from the frame system, and the frame system is disassembled and returned to the manufacture or stored for later use.

The present invention provides a removable frame system for transporting vehicles in a container. The frame system is be assembled in the container, the vehicles are loaded on the frame system, the container is shipped to the location, the vehicles are unloaded from the frame system, and the frame system is disassembled and returned to the manufacture or stored for later use.

A method comprises removing a first deck of a plurality of decks and a second deck of the plurality of decks from an autorack. The method further comprises removing one or more of a plurality of posts of the autorack and coupling a cross-brace assembly to one or more of the plurality of posts, wherein the cross-brace assembly is coupled to the one or more of the plurality of posts at a location above an existing brace bay of the autorack. The method also comprises coupling the second deck of the plurality of decks to the autorack at a location above or below the cross-brace assembly.