Provided are a packaging container, a packaging method, and a method for carrying metal foil, which can suppress damage and deformation of the packaging container and enable stable carrying even if the packaging container is carried while suspending it in the midair. A packaging container made of corrugated cardboard includes: a pallet 2 having leg portions 21; a body frame 3 arranged on the pallet 2, the body frame 3 having bearing grooves 31 at end wall portions 32 opposing to each other; and a lid portion 4 provided on the body frame 3, wherein each of the leg portions 21 is arranged on an inner side than each of the end wall portions 23 of the pallet 2.

A sheet metal pallet assembly includes a deck and an undercarriage. The deck is reinforced about its outer edges by longitudinal and transverse perimeter girding. The deck is further reinforced by one or more transverse reinforcement ribs and interior longitudinal girding. The undercarriage is composed of left and right fork tube risers joined together by bridges. The fork tube risers are configured to receive the tines of a forklift. Each fork tube riser has inner and a outer legs, each splayed at an a respective angle. Preferably, the splay angle of the outer leg is greater than the splay angle of the inner leg. The ends of each fork tube riser are folded over with a hem to improve strength and present a blunt edge. The undercarriage may, optionally, be fabricated from a single monolithic piece of sheet metal.

A convertible pallet assembly, and associated method of making the convertible pallet, includes a first, planar pallet surface, and a second, planar support surface spaced therefrom. First and second sidewalls extend in parallel relation between the pallet surface and the support surface from adjacent opposite sides thereof. The sidewalls include first and second wheels with respective rotational axes that extend perpendicular to the sidewalls. An actuation mechanism is associated with each sidewall. The actuation mechanism has (i) a first position that allows the first and second wheels on one side to move upwardly and downwardly relative to the sidewall in a non-load carrying condition, and (ii) a second position such that the first and second wheels on the one side project outwardly from the support surface in a load carrying condition whereby the assembly can be rolled on the wheels as a cart.

An apparatus and method are described herein for a load carrying structure, and more particularly, to a load carrying pallet formed of modular interlocking components that do not require welding or bonding. An apparatus includes a load carrying structure having: a plurality of side members removably connected to each other to form a base; a first support member and a second support member, where the first support member and the second support member are each removably connected between a respective pair of the plurality of side members; and a top member, where the top member is removably fastened to each of the plurality of side members.

A pallet includes a deck and one or more leg-plank bridges that extend from the deck. The leg-plank bridges include one or more legs and a plank that extends between the legs. The legs and plank are integrally formed together and attached to the deck. The legs have one or more internal walls that define one or more cavities. Concrete fills the cavities of the legs located on a lead end of the pallet. The remaining cavities in the legs are filled with foam. The cavities in one version are wedge shaped. Other legs of the deck are filled entirely with foam.

A sheet metal pallet assembly includes a deck and an undercarriage. The deck is reinforced about its outer edges by longitudinal and transverse perimeter girding. The deck is further reinforced by one or more transverse reinforcement ribs and interior longitudinal girding. The undercarriage is composed of left and right fork tube risers joined together by bridges. The fork tube risers are configured to receive the tines of a forklift. Each fork tube riser has inner and a outer legs, each splayed at an a respective angle. Preferably, the splay angle of the outer leg is greater than the splay angle of the inner leg. The ends of each fork tube riser are folded over with a hem to improve strength and present a blunt edge. The undercarriage may, optionally, be fabricated from a single monolithic piece of sheet metal.

A convertible pallet alternately displays and ships/transports associated product received thereon is disclosed herein. The pallet includes a substantially planar support member for receiving the associated product thereon. At least first and second wheels are mounted to the pallet. A convertible support surface is movably mounted to the pallet, the convertible support surface having (i) a first position where the convertible support surface receives loads imposed on the upper surface and transfers the loads directly to an associated surface, and (ii) a second position where the wheels extend outwardly from the lower surface for engagement with the associated surface so that loads imposed on the upper surface are transferred to the associated surface through the wheels and for converting the pallet into a movable cart.

A convertible pallet assembly, and associated method of making the convertible pallet, includes a first, planar pallet surface, and a second, planar support surface spaced therefrom. First and second sidewalls extend in parallel relation between the pallet surface and the support surface from adjacent opposite sides thereof. The sidewalls include first and second wheels with respective rotational axes that extend perpendicular to the sidewalls. An actuation mechanism is associated with each sidewall. The actuation mechanism has (i) a first position that allows the first and second wheels on one side to move upwardly and downwardly relative to the sidewall in a non-load carrying condition, and (ii) a second position such that the first and second wheels on the one side project outwardly from the support surface in a load carrying condition whereby the assembly can be rolled on the wheels as a cart.

A convertible pallet assembly, and associated method of making the convertible pallet, includes a first, planar pallet surface, and a second, planar support surface spaced therefrom. First and second sidewalls extend in parallel relation between the pallet surface and the support surface from adjacent opposite sides thereof. The sidewalls include first and second wheels with respective rotational axes that extend perpendicular to the sidewalls. An actuation mechanism is associated with each sidewall. The actuation mechanism has (i) a first position that allows the first and second wheels on one side to move upwardly and downwardly relative to the sidewall in a non-load carrying condition, and (ii) a second position such that the first and second wheels on the one side project outwardly from the support surface in a load carrying condition whereby the assembly can be rolled on the wheels as a cart.

A pallet includes a deck and one or more leg-plank bridges that extend from the deck. The leg-plank bridges include one or more legs and a plank that extends between the legs. The legs and plank are integrally formed together and attached to the deck. The legs have one or more internal walls that define one or more cavities. Concrete fills the cavities of the legs located on a lead end of the pallet. The remaining cavities in the legs are filled with foam. The cavities in one version are wedge shaped. Other legs of the deck are filled entirely with foam.