Packaging configuration comprising: a pallet comprising a top surface, a bottom surface and a height HP; a first stack of bagged goods having a total height HL1, stacked on the pallet and comprising at least two layers; and a support structure comprising at least four walls situated over the first stack of bagged goods, one of the walls being a top wall and at least three of the walls being sidewalls. The support structure has a height HC that meets one of the following equations: HC>HL1, when the bottom end of at least one sidewall of the support structure is positioned on the top surface of the at least one pallet; or HC>HP+HL1, when the bottom end of at least one sidewall of the support structure and the bottom surface of the pallet are both positioned on the same surface. An air gap having a height HAG is situated between a top layer of the first stack of bagged goods and the top wall of the support structure.

Disclosed is a pallet, comprising first plywood, and foot piers fixedly arranged at a bottom side of the first plywood. The first plywood comprises a first batten layer and a second batten layer, wherein the first batten layer and the second batten layer are alternately arranged in a stacked manner, the first batten layer comprises several first battens arranged at intervals and along a first direction, and the second batten layer comprises several second battens arranged at intervals and along a second direction. The pallet not only has guaranteed strength but also has a relatively light weight.

A cavity is cut into a wooden structure (e.g., stringer, block, or deckboard) of a wood pallet such that an electronic tracking device can be embedded into the wooden structure for tracking the pallet. The cavity is shaped to allow for a sufficient thickness of remaining wood material surrounding the cavity to remain strong and also to allow for sufficient thinness so wireless signals can be reliably transmitted to/from electronics within the cavity. The remaining space within the cavity around the embedded tracking device is filled with a potting material to secure and protect the tracking device within the cavity. The tracking device monitors the location of the pallet and provides location data to a back-end system over a communication channel either directly or via a local hub. The back-end system performs analytics on the location data.

A photovoltaic module packing box and a photovoltaic module package structure are provided. The photovoltaic module packing box includes a tray having an accommodation space; a support plate having an edge hinged to an edge of the tray, and the support plate is lapped on the tray; an airbag assembly arranged in the accommodation space; an air valve assembly connected to the airbag assembly by a pipeline; an enclosure frame connected to the support plate and configured to enclose, together with the support plate, a receiving space for photovoltaic modules, and the enclosure frame includes a fixation part and a movable part; the fixation part is fixed to the support plate with one side thereof configured as an open structure; the movable part is detachably connected to the open structure of the fixation part, and the movable part and the fixation part together form an annular structure.

A momentum arresting ramp that includes a plurality of steps that each includes a slider receiving surface and a transition surface. The steps may enable a device with wheels to be moved down the ramp by a user, without inconvenient gravity building momentum of the device down the ramp. For example, the steps may be spaced apart along a first axis such that a first slider of the device is never in contact with one of the transition surfaces when a second slider of the device is in contact with another one of the transition surfaces. The configuration of the steps and the sliders may enable the device (e.g., a device heavy enough to typically require two users to unload using a planar ramp) to be easily and conveniently unloaded by a single user.

A piezoelectric generator structure disposed between an upper platform and a lower platform that includes a lower piezoelectric pad, an upper piezoelectric pad, and a connecting shaft. The lower piezoelectric pad coupled to the upper piezoelectric pad via the connecting shaft, where the lower piezoelectric pad is configured to compress under a downward motion of the upper platform during a compression movement due to an additional load being applied to an existing load on a top surface of the upper platform, where the lower piezoelectric pad produces a first voltage due to the compression movement. The upper piezoelectric pad configured to compress under an upward motion of the upper platform during a rebound movement of the upper platform, where the upper piezoelectric pad produces a second voltage due to the rebound movement. The generator structure configured to provide the first and the second voltage to a coupled power storage unit.

A crate apparatus can at least partially contain and protect articles that may be artificial stone slabs. The crate apparatus can include a crate and one or more partitions mounted to the crate and at least partially positioned in the interior of the crate. The partitions can extend crosswise to, and be spaced apart from one another in, an upright direction. The partitions and holes therein can be cooperatively configured to at least partially define upright receptacles for respectively receiving the articles. The upright receptacles and/or articles therein can extend vertically or be in an inclined configuration.

A modular, multiconfigurable container adapted to collapse for stowability and portability which is capable of being arranged in several geometries; whereby the container is operable to enable a user to assembly the container without tools, screws or external fasteners, and customize the container with minimal effort and skillset requirements for assemblage, so as to enable a user to customize said container for optimal stowing of categorized items in multiple interior bins, the container further configured to facilitate disassembly and stowage, one-man portability, and minimal tool and skillset requirements for assemblage. In various embodiments, the side panels and base panel are affixed together using a live hinge. The tote container further operates to allow a user to apply labels forwardly and rearwardly on the container within a recess adapted for that purpose.

Described is a pallet including a base having a length extending between a first end and a second end opposite the first end and a width transverse to the length; and a cage removably coupled to the base.

A pallet component structure body is for loading a packaged object. The pallet component structure body includes a pallet component and a frame structure forming component. The frame structure forming component is secured on the pallet component. The frame structure forming component is foldable flat in a state where adjacent ones of frame structure parts of the frame structure forming component are joined in advance.