A collapsible container that includes a base, a first side panel hingedly attached to the base, a second side panel hingedly attached to the base, a first end panel hingedly attached to the base, with the first end panel including a door, and a second end panel hingedly attached to the base. The collapsible container can further include a top cover. The collapsible container is configured to be positioned in a collapsed position and an assembled position. In an assembled position, the collapsible container is configured to hold items during a domestic or international move.

An apparatus is provided for supporting solar panels in a stowed position and a deployed position. The apparatus comprises opposing end panels that each include a stationary track and first and second rigid frames configured to secure solar panels. One rigid frame is secured between the end panels and the other rigid frame is secured between first and second trolleys. The trolleys are moveable along the stationary tracks to deployable tracks supported by a pair of laterally extending arms. The pair of arms are selectively positionable in deployed positions in which the deployable tracks extend in a first lateral direction in alignment with the stationary tracks. Positioning the pair of arms in the deployed position enables the trolleys to be moved along the stationary tracks to the deployable tracks.

An energy storage system includes a plurality of battery strings, each battery string including a plurality of batteries coupled electrically together; a plurality of temperature sensors; an enclosure housing the plurality of battery strings and the temperature sensors; a plurality of fans positioned in different locations within the enclosure; and a temperature control system. The temperature control system includes a heating, ventilation, and air conditioning (HVAC) components, and a controller. The controller is programmed to execute the method that includes determining fan speed operating commands based at least in part on sensed temperatures at the different locations, and operating the fan speed in response to the operating commands provided to the respective fans.

The invention relates to a profile in a container, where a profile (5, 6, 7, 8, 101) comprising a cross section where at least a part of the cross section over a length of the profile is provided with a crumple zone, which crumple zone has a critical buckling load being smaller than the critical buckling load for zones abutting the crumple zone. The invention further relates to a method of manufacturing a profile for a container, where one or more profiles (5, 6, 7, 8, 101) in the container (1) is provided with a crumple zone, which crumple zone has a critical buckling load being smaller than the rest of the profile (5, 6, 7, 8, 101). The invention also relates to abase structure for a container, comprising a pair of bottom side rails, a front sill (4) in one end and a door end in an opposite end, a number of crossmembers (8) placed in parallel with the front sill (4) and door end and extending from a bottom side rail (2) in one side of the container (1) to a bottom side rail (2) at the other side of the container (1), wherein the crossmember (8) comprises a cross-section, where at least a part of the cross section over a length of the profile (5, 6, 7, 8, 101) is provided with a crumple zone, which crumple zone has a critical buckling load being smaller than the critical buckling load for zones abutting the crumple zone.

A container box, having: a container controller for controlling the container box, one or more pressure transducers disposed within the container box, the one or more pressure transduces operatively connected to the container box, wherein the container box is configured for monitoring pressure within the container box with the pressure transducers, the container box configured to perform an airtightness test, including: pressurizing the container box until pressure in the container box is above a first threshold; monitoring pressure in the container box to determine when pressure in the container box is proximate the first threshold; monitoring a first duration during which pressure in the contain box drops from the first threshold to a second threshold; determining whether the first duration is within an acceptable range, and when the duration is outside the acceptable range, communicating an alert to a container box monitoring implement.

The utility model discloses a top side beam of a container, which has a web plate that extends vertically along a height direction of the container, to increase a vertical height of the top side beam to above 100 mm. The utility model further discloses a container having the top side beam according to the utility model. The top side beam according to the utility model can effectively resist external impact, and it has a good protection function to prevent the container from being damaged by an external force and then improve the overall strength of the container, thereby avoiding that the container body is punctured and ensuring integrity and security of goods in the container. In addition, the top side beam of the container according to the utility model has a simple structure, is easy to manufacture, and facilitates convenient modification of the container. The container according to the utility model has high strength, great capability of resisting external impact, good protection performance, a long service life and an economic maintenance cost.

Systems and apparatuses include a container for a generator set. The container includes a housing including a cooling room structured to support a radiator and a radiator fan within the housing, an exhaust room structured to support an aftertreatment system, an engine room structured to contain the engine and the alternator within the housing, an air intake system positioned adjacent the engine room, and a control room structured to support control equipment for the generator set. The exhaust room may further support after treatment components including a muffler and an exhaust pipe.

A modular facility formation system includes any number of modules that may be coupled to one another to create a facility. Walls of the facility may be provided by one or more removeable walls, the walls of a shipping container, or a combination thereof. When installed within a shipping container, upper and lower braces are pressure fit into the shipping container without penetrating the container. The lower braces are configured to engage guidance mechanisms of the modules to guide the modules into a stowage position within the shipping container and to secure the modules in place. The modules may be configured with a pre-determined internal configuration corresponding to a defined function of the room within the facility.

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 container including a first panel with a first edge having a first protrusion with a first contoured profile with at least one projection, a second panel with a second edge having a second protrusion with a second contoured profile with at least one projection, and a spline with a first channel that defines a recess with an interior profile, and a second channel separate from the first channel that defines a recess with an interior profile. The first and second channels receive the first and second protrusions, respectively, such that the first contoured profile is complementary to a portion of the interior profile and the second contoured profile is complementary to a portion of the interior profile. The first and second panel include a mid-section extending from the first and second edges, respectively. The first and second edges have a greater thickness than the thickness of the mid-sections.