Structured covers including an expanse, a structure member, and a hook. The hook is coupled to a first end of the structure member, The hook is configured to selectively couple to a coupling member to bound the expanse in a defined configuration defined at least in part by the structure member. In some examples, the structured cover includes a plurality of structure members, a plurality of mounting points, a channel layer, a crimp, and/or a reinforcing layer.

Structured covers including an expanse, a structure member, and a hook. The hook is coupled to a first end of the structure member, The hook is configured to selectively couple to a coupling member to bound the expanse in a defined configuration defined at least in part by the structure member. In some examples, the structured cover includes a plurality of structure members, a plurality of mounting points, a channel layer, a crimp, and/or a reinforcing layer.

The invention relates to a floor (10) for a container, the floor comprising at least one section (11,11′,11″) is, wherein the floor section (11,11′,11″) is formed from a single sheet element and includes a number of protruding elements (20′, 20″, 20″) and a base (28), the floor section (11,11′,11″) has a polygonal shape with a length (L) extending in a first direction (X) and a width (W) extending in a second direction (Y) being perpendicular to the first direction (X), each protruding element (20, 20′, 20″) includes a base element having two side walls (22,23) extending perpendicularly from a base (28) of the floor section (11,11′,11″). The invention further relates to a method of manufacture of a floor section (11, 11′, 11″) for a container floor (10).

A system for detecting and verifying an environmental anomaly within a shipping container (transported on a transit vehicle having an external transceiver) has wireless sensor-based ID nodes at different locations within the container and multiple command nodes mounted to the container. A first command node is programmatically configured to be operative to detect the sensor data broadcasted from the ID nodes; responsively identify the anomaly based upon the sensor data detected by that command node; and transmit a validation request to another command node. The other command node is configured to be operative to also detect the sensor data broadcasted from the ID nodes; receive the validation request from the first command node; verify the anomaly in response to the validation request and based upon the sensor data detected by the second command node; and broadcast a verification message based upon whether the anomaly for the shipping container is verified.

A system for detecting and verifying an environmental anomaly within a shipping container (transported on a transit vehicle having an external transceiver) has wireless sensor-based ID nodes at different locations within the container and multiple command nodes mounted to the container. A first command node is programmatically configured to be operative to detect the sensor data broadcasted from the ID nodes; responsively identify the anomaly based upon the sensor data detected by that command node; and transmit a validation request to another command node. The other command node is configured to be operative to also detect the sensor data broadcasted from the ID nodes; receive the validation request from the first command node; verify the anomaly in response to the validation request and based upon the sensor data detected by the second command node; and broadcast a verification message based upon whether the anomaly for the shipping container is verified.

A sectional panel tank comprises one or more side wads that are joined together in forming the sectional panel tank. One of the side wall comprises a first unit panel having a first extension at a first edge of the first unit panel and a second unit panel having a second extension at a second edge of the second unit panel. By combing the second extension to the second extension, the second unit panel is joined to the first unit panel for providing a continuous surface of the side wall. No gasket is needed between the first extension and the second extension. A method of making the sectional panel tank is also disclosed. A method of making prefabricated unit panels with lining sheets is further disclosed for the sectional panel tank.

A sectional panel tank comprises one or more side wads that are joined together in forming the sectional panel tank. One of the side wall comprises a first unit panel having a first extension at a first edge of the first unit panel and a second unit panel having a second extension at a second edge of the second unit panel. By combing the second extension to the second extension, the second unit panel is joined to the first unit panel for providing a continuous surface of the side wall. No gasket is needed between the first extension and the second extension. A method of making the sectional panel tank is also disclosed. A method of making prefabricated unit panels with lining sheets is further disclosed for the sectional panel tank.

Pallet container 1 for the transport of temperature-sensitive products, which pallet container 1 comprises at least one side part 21, one bottom part 22, one top part 23 and one lid part 24, each having at least one vacuum insulation panel 3 disposed therein, and wherein the at least one side part 21, the bottom part 22 and the top part 23 comprise a common stop rim portion 4, at which stop rim portion 4 the lid part 24 comes to rest partially or fully circumferentially, characterized in that the pallet container 1 comprises at least one edge protection element 7 in order to distribute a load applied by a tensioning element 6.

Pallet container 1 for the transport of temperature-sensitive products, which pallet container 1 comprises at least one side part 21, one bottom part 22, one top part 23 and one lid part 24, each having at least one vacuum insulation panel 3 disposed therein, and wherein the at least one side part 21, the bottom part 22 and the top part 23 comprise a common stop rim portion 4, at which stop rim portion 4 the lid part 24 comes to rest partially or fully circumferentially, characterized in that the pallet container 1 comprises at least one edge protection element 7 in order to distribute a load applied by a tensioning element 6.

An enhanced shipping container apparatus that maintains packages is described having integrated fire suppression. The apparatus has a container base supporting the packages, multiple container walls coupled to the container base, and a container top coupled to each of the container walls. A fire suppression panel is integrated as part of one or more of the walls and top portion, and has a support sheet of fire resistant material; an interior exposed sheet of temperature sensitive material; a sealed boundary connecting the support sheet and interior exposed sheet on peripheral edges (where the sealed boundary, support sheet and interior exposed sheet define a holding cavity), and integrated fire suppression material in the holding cavity. The temperature sensitive material of the interior exposed sheet releases the integrated fire suppressant material from within the holding cavity when the temperature sensitive material of the interior exposed sheet is exposed to a threshold temperature.