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 a plurality of openings and a hollow main body. The bottom plate is disposed at the 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.

An apparatus, system and method for securing wheeled shipping carts within a shipping container. The apparatus, system and method for securing wheeled shipping carts within a shipping container secures the shipping racks across the width of the container and vertically, and then end-to-end inside the length of the container from the fixed end of the container to the doors as the container is loaded. In addition, the system and method secures wheeled shipping carts within a shipping container using a securing apparatus installed within the shipping container to constrain the wheeled shipping carts both vertically and horizontally in location during transport.

A functional training rig kit includes a box and a plurality of components adapted to fit within the box. At least some of the components and the box include elements by which the components are adapted to be attached to the outside of the box to provide at least one functional training rig attached to the outside of the box.

A lightweight barrier insert door is attached to an enclosure, such as a shipping container that holds a product to be fumigated, such as during transport of the product to a new location. The barrier insert door fits within the doorway of the container to provide a sealed barrier to mitigate leakage of a fumigant from the interior of the container. The barrier also includes air intake ports to maintain the structural integrity of the container and to provide ambient air to the interior. Additional ports allow for connection for fumigant entry, monitoring, and/or an exhaust hose to be connected to or through the barrier for the fumigation process. The barrier can be height adjustable to account for shipping containers of various sizes and can be connected with fumigant exhaust and release systems for the safe release thereof.

A method for joining shipping containers together to create a modular structure includes providing a first shipping container and a second shipping container; removing a wall of the side of the first shipper container to create a first opening; removing a wall of the side of the second shipping container to create a second opening; positioning the first opening adjacent and opposite to the second opening; aligning the first opening with the second opening; after the aligning, securing the first shipping container to the second shipping container to create the modular structure; and securing an inner flashing around an inner periphery of the first opening.

An improved automated inventory system is herein disclosed. The improved automated system (AIS) can comprise an enclosure for storing one or more items, one or more RFID readers, and a control system. Each of the items are tagged with an RFID (radio frequency identification) tag. The enclosure can comprise a plurality of of interior surfaces that defines an interior space within said enclosure. The enclosure can also comprise one or more access points within the interior surfaces that allow access to the items within the enclosure. Each of the RFID readers can be capable of reading the RFID tag. The control system can be in communication with the one or more RFID readers.

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 mobile device for storing and supplying multiple liquid fertilizers, comprising a housing, enclosing: two or more storage units, each suitable for storing a liquid fertilizer, wherein each storage unit is provided with a storage unit level measurement system, a storage unit filling system and a storage unit venting system; a safety drain liquid fertilizer storage, comprising at least two separate collectors for the separate containment of spilled liquid fertilizer; a dosing and controlling system; and wherein the housing is equipped with a connection for the input of a water flow, at least two connections for the output of liquid fertilizer, and an output for venting gasses.

Methods and systems for dynamic wireless network configuration are provided. Aspects include receiving, by an application on a user device, a token, deriving, by the application, a unique identifier and passcode based at least in part on the token, and controlling remote access to a first computer system based on the unique identifier and passcode.

A stowable generator device including a housing defining at least one storage chamber having an opening. A closure element is configured to selectively cover and uncover the opening. Support structure is disposed within the storage chamber in a collapsed position and is selectively extendable through the opening into an expanded position when the closure element is moved away from the opening. At least one energy generating unit is connected to the support structure. The support structure and the generating unit are configured to reversibly stow inside the housing in the collapsed position.