A cushioning member includes: an accommodating bag portion that accommodates a medium; a first fusing portion that defines the accommodating bag portion such that the accommodating bag portion is provided with an opening; a check valve having a first end located inside the accommodating bag portion and a second end located outside the accommodating bag portion, and provided at the opening; a second fusing portion that is immediately adjacent to the first fusing portion on those external sides of the check valve which are opposite in a direction intersecting a direction in which the check valve protrudes from the accommodating bag portion, and defines a channel that communicates with the opening; and a third fusing portion that is connected to the second fusing portion and seals the channel, the third fusing portion being provided across a portion of the check valve that protrudes from the accommodating bag portion.

A packaging system includes first and second caps, each cap having a main panel, first and second side panel assemblies extending from and substantially perpendicular to the main panel, a plurality of stacking protuberances, and a plurality of stacking sockets. The cap is stackable with an identical cap by mating the protuberances of the cap with the sockets of the identical cap. The packaging system further includes an elongated post; an elongated brace; and a packaging block fixed to the main panel of the first cap. The side panel assemblies of the first cap are adjacent to one another and together with the packaging block define a post socket that receives an end portion of the post and inhibits lateral movement of the post. Moreover, the side panel assemblies of the second cap are opposed to one another and respectively support first and second ends of the brace.

A packaging system includes first and second caps, each cap having a main panel, first and second side panel assemblies extending from and substantially perpendicular to the main panel, a plurality of stacking protuberances, and a plurality of stacking sockets. The cap is stackable with an identical cap by mating the protuberances of the cap with the sockets of the identical cap. The packaging system further includes an elongated post; an elongated brace; and a packaging block fixed to the main panel of the first cap. The side panel assemblies of the first cap are adjacent to one another and together with the packaging block define a post socket that receives an end portion of the post and inhibits lateral movement of the post. Moreover, the side panel assemblies of the second cap are opposed to one another and respectively support first and second ends of the brace.

A packing member includes a storage case for storing an article to be packed and a plurality of cushion members that are disposed in the storage case so as to face the article to be packed. The plurality of cushion members each have coupling portions, and, of the plurality of cushion members, adjacent cushion members are coupled together by the coupling portions.

A packaging assembly, including corrugated corner elements, each having a first corner post element leg and a second corner post element leg, each corner post element leg having one or more alternating ridges and grooves; endcap elements, each having a support layer portion and a tray layer portion, wherein the tray layer portion includes a corner recess formed proximate each corner of the support layer portion, wherein each corner recess is formed to allow at least a portion of one of the corrugated corner elements at least partially therein; and a support insert having a void or gap formed through a portion of the support insert, a relief recess and a scalloped relief recess are formed within at least a portion of the support insert, each allowing at least a portion of a corrugated corner element to be positioned at least partially therein.

A securing apparatus includes a main body that defines a cavity sized to receive a portion of an object, such as a box's corner. The securing apparatus includes at least one anchor extending from the main body that is configured to engage with the corner portion of the object such that the securing apparatus may be removably coupled thereto. The main body of the securing apparatus may include eyelets configured to receive a length of filament such that multiple objects may be secured to one another during packaging and shipping. Additionally, the securing apparatus may also include a projecting finger that is configured to retain a length of filament that may be used to attach the object more securely to a pallet or other structure for shipping.

A packaging apparatus includes: an inner box of which upper side is open and capable of storing a first object; an outer box capable of storing a second object and the inner box disposed on the second object, and having a pair of inner flaps and a pair of outer flaps; a protective portion formed in the inner box to protect the first object, the protective portion being disposed between the first object and a portion that is included in a facing portion of the pair of outer flaps and that does not overlap with the pair of inner flaps in a state where the pair of inner flaps and the pair of outer flaps are closed; and a pressing portion formed in at least any one of the inner box and the outer box to press the first object toward a bottom surface of the inner box.

The present disclosure relates to a shock-absorbing buffer for a base station antenna. The base station antenna includes a first end portion having a first end surface, a second end portion having a second end surface, and a protruding element which is at least provided on the first end surface and protrudes outward. The shock-absorbing buffer includes an inner buffer member and an outer buffer member. The inner buffer member is configured to at least partially cover the protruding element, the first end portion, and the second end portion, and the outer buffer member is configured to sleeve the inner buffer member and at least partially cover the first end portion and the second end portion. The inner buffer member and the outer buffer member are respectively made into a pre-formed structure from an inflatable air bag, and the inflatable air bag can form a plurality of air columns after being inflated. At least a part of the air columns of the inner buffer member cross each other, or at least a part of the air columns of the outer buffer member cross each other, or at least a part of the air columns of the inner buffer member and at least a part of the air columns of the outer buffer member cross each other, so as to enhance the performance of the shock-absorbing buffer through a synergistic effect.

The present disclosure relates to a shock-absorbing buffer for a base station antenna. The base station antenna includes a first end portion having a first end surface, a second end portion having a second end surface, and a protruding element which is at least provided on the first end surface and protrudes outward. The shock-absorbing buffer includes an inner buffer member and an outer buffer member. The inner buffer member is configured to at least partially cover the protruding element, the first end portion, and the second end portion, and the outer buffer member is configured to sleeve the inner buffer member and at least partially cover the first end portion and the second end portion. The inner buffer member and the outer buffer member are respectively made into a pre-formed structure from an inflatable air bag, and the inflatable air bag can form a plurality of air columns after being inflated. At least a part of the air columns of the inner buffer member cross each other, or at least a part of the air columns of the outer buffer member cross each other, or at least a part of the air columns of the inner buffer member and at least a part of the air columns of the outer buffer member cross each other, so as to enhance the performance of the shock-absorbing buffer through a synergistic effect.

A container (100) having: a housing member (10) having a bottom surface member (12) and a side surface member (14); and a protective member (20a) having a receiving surface in contact with an item to be housed. The bottom surface member defines the xy plane and the side surface member defines the xz plane and the yz plane that are orthogonal to the xy plane. The side surface member has a cut-out section (15a) that faces a housing space. The protective member has: an inside member (22a) comprising a receiving section (22R) having two receiving surfaces (23, 24) parallel to the xz plane and the yz plane; and an outside member (32a) arranged between the inside member and a side surface parallel to the yz plane of the side surface member, said outside member being fitted to the inside member so as to be slidable in a direction intersecting the bottom surface. The inside member and the outside member are arranged in the cut-out section so as to each be independently attachable and detachable. The inside member also comprises a support section (22S) formed in the y direction of the receiving section and having a support surface (22Sa) parallel to the xz plane. The support surface protrudes further in the x direction than the receiving surface parallel to the xz plane.