According to a first aspect of the present disclosure, there is provided a wall element for a load carrier. The wall element has a body with a frame, which defines at least one opening. The wall element features at least one panel for covering the at least one opening of the frame. The wall element further features a cover strip for detachable attachment to the body through a reversible attachment interface between the cover strip and the body to secure the at least one panel to the at least one opening.

An apparatus and methods are described for an improved pallet for the transportation and storage of goods. The pallet disclosed herein has four walls that are at least 4 inches tall that may be lowered to allow the efficient removal of goods off of the pallet. The wall may be used as a ramp to slide the goods off of the pallet. The walls may be locked in an upright position to ensure the goods are secured onto the pallet during transport or storage. When the goods are needed, one or more of the walls may be unlocked and lowered so that the goods do not have to be lifted over the wall to unload the goods from the pallet. The wall may also be in the lowered position to allow goods to be loaded onto to the pallet without having to lift them up and over the wall. The pallet also consists of nine feet that are at least 4 inches high, which minimizes the risk of forks missing the pallet opening when the forks are inserted to move the pallet.

Disclosed are systems, apparatus and methods for transporting a palletized stack of bottles or other similar bulk-produced containers using a unique pallet base and a unique set of side panels that may be engaged with the base and with each other in order to protect the stacks of bottles on the pallet base during shipping and transport. Embodiments of the invention dampen vibrations, protect the bottles from exterior contaminants, and allow the bottles to be viewed from the outside. Embodiments of the invention also provide reusable pallet systems that are easy to assemble and disassemble, and ship back for reuse.

Various embodiments provide a bulk material shipping container top wall assembly, and a bulk material shipping container including the top wall assembly, that provides various advantages over previously known commercially available bulk shipping material container top wall assemblies and bulk shipping material containers.

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 said container without tools, screws or external fasteners, and customize said 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.

A packaging and shipping system for dry charged batteries. The packaging system includes a shipping crate having a lower section that defines an open interior. The open interior is sized to receive a dry charged battery and a plurality of electrolyte bottles. Each of the electrolyte bottles contains a volume of electrolyte sufficient to fill one of the individual cells of the dry charged battery. Each of the electrolyte bottles are separately packaged and positioned within the open interior of the shipping crate. Upon reaching the desired destination, the shipping crate can be stored. When the dry charged battery is to be placed into use, the shipping crate is opened and the individual cells of the dry charged battery are filled with electrolyte from the plurality of electrolyte bottles. Once the dry charged battery has been activated, the empty electrolyte bottles can be placed back into the shipping crate and returned for recycling.

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 bracket for securing a plurality of support members for a shipping crate assembly is also disclosed. The bracket forms a corner of the shipping crate assembly. The bracket includes first and second non-identical plates. The first and second non-identical plates are joined along a connection line. The first and second non-identical plates extend perpendicularly from each other. A foot is secured to the first and second non-identical plates, the foot being secured along the connection line.

A filtering apparatus having a housing with lateral, upstream and downstream walls, and a top plate disposed at a significant angle to incoming overspray air to accelerate and guide the particulate-laden air. The angle of the top plate directs the air upstream and away from the filters so the larger solids impact the top plate and wall and adhere, removing paint from the air. Larger solids too massive to turn while accelerating through an opening into an entry chamber collect on the upstream sidewall and the highly filtered air flows toward filter units disposed downstream of the entry opening. Lighter solids that flow downstream are removed by the filtration media. An overhang of the angled top plate reduces flow into the filter units of collected solids.

A packaging and shipping system for dry charged batteries. The packaging system includes a shipping crate having a lower section that defines an open interior. The open interior is sized to receive a dry charged battery and a plurality of electrolyte bottles. Each of the electrolyte bottles contains a volume of electrolyte sufficient to fill one of the individual cells of the dry charged battery. Each of the electrolyte bottles are separately packaged and positioned within the open interior of the shipping crate. Upon reaching the desired destination, the shipping crate can be stored. When the dry charged battery is to be placed into use, the shipping crate is opened and the individual cells of the dry charged battery are filled with electrolyte from the plurality of electrolyte bottles. Once the dry charged battery has been activated, the empty electrolyte bottles can be placed back into the shipping crate and returned for recycling.