An inflatable packaging structure, including at least one inflatable panel made of a plurality of layers of thermoplastic material, the at least one inflatable panel includes a plurality of fluid chambers, whereas a one-way check valve is incorporated into at least one of the plurality of fluid chambers, an air supply line, configured to commonly communicate with each of the one-way check valves to supply fluid into the fluid chambers; and at least two heat sealed edges formed on the at least one inflatable panel, each of which is configured to attach a portion of the at least one inflatable panel to another portion thereof; and wherein the at least two heat sealed edges extend generally in parallel with respect to each other and configured to form the inflatable packaging structure with at least partially rectangular cross-section, having at least four faces.

A double door assembly bottom restraining device and method provide stability to the double door assembly during manufacturing and shipping. The double door assembly bottom restraining device may be installed on the bottom of a double door assembly.

Packaging may include a base box having a cavity to receive a product, and a first paper spring extending from an interior of a first sidewall of the base box and a second paper spring extending from an opposing interior of a second sidewall of the base box. Each of the first and second paper springs may be formed from the same blank as the first sidewall. The first and second springs are flexible such that the cavity may accommodate products of different lengths, and may resiliently absorb vibrations or impact forces during shipping.

A shock absorber apparatus is provided. The shock absorber apparatus includes an elastic device and at least one mounting device connected to the elastic device. Each mounting device includes two securing elements. Each securing element is configured to secure an opposing portion of a structure. Each mounting device can also include two sliders. Each slider can have at least two surfaces, which are interconnected by an inclined surface facing an opposing slider, and a ground surface. The inclined surface can be slidably connected to one of the at least two securing elements. Each slider can be arranged to move in response to an applied force. The ground surface is configured to slidably connect to an inner wall of a box.

A retention packaging assembly (100, 200, 300) includes an end retention frame (200) that retains one lateral side of an object (150) and another retention frame (300) that retains another lateral side of the object. Each of the retention frames includes a retention panel, an end panel (104, 106) foldably coupled to the retention panel, a set of wing panels configured to be folded into a folded configuration, and a sheet (208, 308) fixedly coupled to each of the wing panels. Each end retention frame retains a lateral side of the object between the sheet and the retention panel when the wing panels are in the folded configuration. In some cases, the end retention frames are laterally spaced away from each other such that they do not contact each other when they retain the lateral sides of the object.

The present application relates to the field of packaging structures, and more particularly to a package cushioning material. The package cushioning material includes a first buffer body and a second buffer body. The first buffer body is provided with a plug-in groove at one end thereof, the second buffer body is provided with a plug-in portion at one end thereof, and the plug-in portion is vertically connected to the plug-in groove and is bonded with the plug-in groove by a white latex. The first buffer body includes a first primary buffer body and a first secondary buffer body, and the first primary buffer body is arranged between two first secondary buffer bodies. The second buffer body includes a second primary buffer body and a second secondary buffer body, and the second primary buffer body is arranged between two second secondary buffer bodies.

A packaging fastener includes a base member and a key member. The base member includes a first cylindrical part inserted through overlapped through holes of packaging materials. The key member includes a second cylindrical part inserted into the first cylindrical part of the base member. By inserting the first cylindrical part of the base member through the through holes and then inserting the second cylindrical part into the first cylindrical part, the packaging materials are coupled together. The key member has an engaging part. The base member has an engaged part. The engagement part has an elastically deformable supporting part and a lock claw. In a state where the lock claw is engaged with the engaged part, by elastically deforming the supporting part, the lock claw is displaced to a direction separate away from the engaged part to release an engagement of the lock claw with the engaged part.

An M-type inflatable bag includes a bottom wall, two side walls, two protective walls and two connecting portions. The bottom wall includes a plurality of bottom gas columns. Each of the side walls includes a plurality of side gas columns. Each side wall is located on two opposite sides of the bottom wall. The side walls and the bottom wall are divided at a joint to form a receiving space and a limiting space. The protective walls include a plurality of protective gas columns, and the protective walls are separately located outside the side walls. The connecting portion includes a plurality of first heat sealing nodes adjacent to the side wall and a plurality of second heat sealing nodes adjacent to the bottom wall. When the side wall and the bottom wall are bent, a buffer bump is formed between a first virtual bending line and a second virtual bending line.

Disclosed is a display apparatus including a display including a stand mounting part, a stand to which the stand mounting part is coupleable to mount the display on the stand, and a protection member comprising a portion that includes a support protection member and is detachably coupleable along an edge of the display so that, when the portion is coupled along the edge of the display, the support protection member covers a lower end portion of the display, and a mounting part protection member that is detachably coupleable along the edge of the display so that, when the mounting part protection member is coupled along the edge of the display, the mounting part protection member covers a portion of the display along which the stand is mountable, wherein the mounting part protection member is separately detachable from along the edge of the display while the portion that includes the support protection member remains coupled along the edge of the display with the support protection member covering the lower end portion of the display, to thereby uncover the portion of the display along which the stand is mountable.