A framed structure, such as a material cart, used for material-handling purposes includes an elongated frame having two opposite ends and two opposite sides. In addition, a first set of mounts are adapted to accept the forks of a forklift truck directed endwise therein and are arranged in such a relationship to the elongated frame so that the first pair of mounts are adapted to accept the forks of a forklift truck directed therein from a side of the elongated frame. Furthermore, a second set of mounts are adapted to accept the forks of a forklift truck directed endwise therein and are arranged in such a relationship to the elongated frame so that the second set of mounts are adapted to accept the forks of a forklift truck directed therein from an end of the elongated frame.

The invention relates to a container for transporting a vehicle therein, which is essentially rectangular in construction with a first and a second end face, two long sides, a bottom, and a top, wherein the container has a floor element, a frame structure, and at least two cover elements, wherein the at least two cover elements cover the end faces, the long sides, and the top of the container when in the closed state, and the floor element covers the bottom of the container, and wherein the frame structure builds on the floor element and, in the region of the top, the at least two cover elements are hinged to the frame structure in such a way that they can be swung upward away from the floor element when the container is in an open state.

A temporary wall system for use in temporarily converting a shipping container, such as a standard or high-cube intermodal container, into a living space or workspace, the shipping container having a substantially rectangular access opening having a perimeter, wherein the wall system comprises a wall having exterior dimensions suitable to allow the perimeter of the wall to at least substantially mate with the perimeter of the container's access opening, wherein the wall defines an access opening that is sized to allow an adult human to pass from one side of the wall to the other through the access opening, and the wall comprises a door that is mounted so that the door can be selectively moved between an open and a closed position; and a power hookup for powering one or more accessories supported by the wall.

A freight container (1) has a frame to which a bottom (2), a roof (3), and sides (5-7) are attached, one side having a door opening closeable by a folding door (12) made of flexible, fire resistant material. The door (12) is supported from runners (13) moveable along a rail (14) combined with a top member (9) of a frame delimiting the door opening. A gap (15) is formed between the top frame member (9) and the top of the door (12) in its closed condition. The top member (9) is provided with a depending support (16) having a surface facing the inside of the door (12) and having attached thereto a strip of heat intumescent material (20). A flow passage (18) is formed between the strip (20) and the door (12) for gasses attempting to escape from the container through the gap (15) in a fire inside the container. The heat intumescent material (20) is arranged to swell and close the flow passage (18) when subjected to hot gasses from the fire inside the container.

A movable equipment loading and unloading structure for movably mounting equipment within a container includes a loading and unloading assembly and a guide assembly. The loading and unloading assembly includes a loading and unloading rail mounted to a ceiling of the container and a loading and unloading wheel assembly movably coupled to the loading and unloading rail. The loading and unloading wheel assembly is mounted to a side of the equipment. The guide assembly includes a guide rail mounted to a floor of the container and at least one guide wheel rollably coupled to the guide rail. The guide wheel is mounted to another side of the equipment opposite to the side mounted to the loading and unloading wheel assembly.

A hollow container or box formed from a roof, a first side (i.e., or first upper and lower sides), a second side (i.e., for second upper and lower sides), a rear side (i.e., or rear upper and lower sides), a door (i.e., or upper and lower door), and a base placing the container or box in a fully assembled position. Unique side and end access doors are provided. Each of the sides are releasably coupled or hingedly connected to one another and the adjacent sides are hingedly coupled to the base. Upon releasing the sides from one another and rotating each relative to one another in a particular order along various axis rotation, the container or box is transitioned from a fully assembled position into a flat, parallel orientation, fully collapsed position.

A hollow container or box formed from a roof, a first side (i.e., or first upper and lower sides), a second side (i.e., for second upper and lower sides), a rear side (i.e., or rear upper and lower sides), a door (i.e., or upper and lower door), and a base placing the container or box in a fully assembled position. Unique side and end access doors are provided. Each of the sides are releaseably coupled or hingedly connected to one another and the adjacent sides are hingedly coupled to the base. Upon releasing the sides from one another and rotating each relative to one another in a particular order along various axis rotation, the container or box is transitioned from a fully assembled position into a flat, parallel orientation, fully collapsed position

A container energy storage system is provided in this disclosure. The system includes a container and a plurality of functional assemblies. The container includes a container frame and a bottom plate. The container frame is formed with a plurality of openings and a hollow main body. The bottom plate is disposed at a bottom of the container frame and is fixedly connected to the container frame. The functional assemblies are disposed in the hollow main body and located above the bottom plate.

A two-piece intermodal shipping container has a deck and a lid. The deck has vertical lock corner casings bottom corner castings, a frame and a floor. Tie down clips or rings are provided on side and end beams around a floor that is recessed in one embodiment. The lid has side beams and corner posts with upper and lower corner castings. Twist locks are held in the vertical lock corner casings. After loading and securing cargo on the deck, the lid is lowered over the cargo to the deck. The twist locks are turned to secure the lower corner castings on the lid with the vertical lock corner casings on the deck, completing the shipping container for placing or stacking the container on a truck, train, ship or airplane. The deck has fork lift openings in the frame. The lid has fork lift tubes or lifting rings at the top.

A mobile distribution platform apparatus and method utilizing an over the road tractor platform constructed to be freely movable upon the road system. A plurality of ramps are each pivotally joined to the platform and each pivotable between a raised travel configuration and lowered to an extending loading configuration. Each ramp further includes a plurality of adjustable removable support jacks which may be installed on the underside of a ramp and extend downwardly therefrom to provide support for the ramp in its loading configuration. The mobile distribution platform provides a transportation and distribution hub which may be located as required without the need of stationary support facilities. In addition to providing a road transport hub, the present invention mobile distribution platform also provides the capability to locate adjacent a section of railroad track without the need of supporting stationary facilities.