Packaging may include cushioning elements. Molded fiber cushioning elements may be configured as end caps, and may include independently flexible panels. The cushioning elements may include an upper and lower panel fixed together about their periphery, but free to bend and translate about and along each other otherwise. The cushioning elements may include opposed mechanical bends that are proximate a friction interface, thereby allowing the cushioning element to absorb impact and vibration, and replacing the need for less environmentally friendly cushioning, such as expanded polystyrene or foam cushioning.

A packing member attached to an article to be packed, which is accommodated in a package box, to absorb an impact applied to the article, including: a first supporting part; a second supporting part; and a shock absorbing member connected to the first supporting part and the second supporting part. One of the first supporting part and the second supporting part is disposed so as to be partially in contact with the article in a state in which an impact is not applied. When an impact is applied, the shock absorbing member deforms to absorb the impact.

The present disclosure discloses a stop block and a display panel packaging structure, the stop block includes a support and at least one buffer, and the support includes at least one mounting portion and at least one fixing portion; the buffer is attached to and covers the fixing portion.

A shock-absorbing structure includes an underlay placed on a base, and a cushioning member disposed on the underlay. The underlay includes at least one positioning portion that includes a slope raised in a position inclined with respect to another area of the positioning portion and fixes the cushioning member in position, and a support portion that supports the slope in an obliquely raised position. The cushioning member includes at least one hollow that receives the positioning portion.

Shipping containers for batteries are described herein. An example shipping container includes a base defining a cavity, a lid to be coupled to a top of the base to substantially seal the cavity, and an absorbent pad disposed within the cavity to absorb liquid from the battery if the battery leaks.

The present disclosure provides a buffer structure and a packaging box, the buffer structure includes a fixing frame and at least one adjusting component, the adjusting component includes at least one adjusting rod, a first locking member, and a second locking member, the adjusting rod passes through the adjusting hole along the extending direction of the adjusting rod, and includes a plurality of connecting parts arranged in parallel along the extending direction, the first locking member and the second locking member are respectively connected to one of connecting parts and clamp the supporting plate; and a buffer member connected to an end face of the adjusting rod and located on a side of the second locking member away from the supporting plate.

A storage container for shipping fan blades includes blade compartments each housing one or more fan blades, where each compartment includes an upper foam retention holder that maintains a fan blade tip end in place and a lower foam retention holder that maintains a blade root in place, both holders configured and positioned to prevent twisting or lateral movement of the blades when in the compartment. The compartments form container rows, such that a housing of the storage container has one or more retainer walls that are movable between an access position allowing user access to insert and remove fan blades from compartments and retaining position blocking user access to insert and remove fan blades from compartments.

Provided is a cushioning material for being put into a packing box configured for encasement of electronic equipment. The cushioning material absorbs external stress applied to the electronic equipment encased in the packing box. The cushioning material includes: a first holder including a first plate configured to face the electronic equipment when the cushioning material and the electronic equipment are encased in the packing box, and a second plate configured to face an inner wall surface of the packing box when the cushioning material and the electronic equipment are encased in the packing box; and a first cushioning block provided between the first plate and the second plate.

Damage to a packing device and a packed object caused by a load is prevented, and a box and the packed object are protected stably. A box of the packing device includes side surface portions, upper flaps, lower flaps, a protrusion, a fixing portion, and interior cushions. The protrusion is formed by folding part of an upper flap. The fixing portion fixes the protrusion such that the protrusion projects from the upper flap. In a state where an object is accommodated in the box, the protrusion is interposed between the upper flap and the packed object, and disperses the load applied to the box.

A cushioning apparatus includes a first connecting block, a second connecting block, a first cushioning block, a second cushioning block, a third cushioning block, and a fourth cushioning block. An outer end portion of the first cushioning block is fixedly connected to the first connecting block. An outer end portion of the second cushioning block is fixedly connected to the second connecting block. A top surface of an outer end portion of the third cushioning block is connected to a top surface of the first connecting block in a flippable manner. A top surface of an outer end portion of the fourth cushioning block is connected to a top surface of the second connecting block in a flippable manner.