A packing container for accommodating display panels is provided. The packing container includes a packing main body, which includes a first receiving recess, a second receiving recess, a first limiting element, and a second limiting element, wherein the first limiting element, the second limiting element, and the first and the second sidewalls of the second receiving recess jointly form a first limiting zone to constrain a circuit board of the display panel.

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.

A packing container for a display device includes: a main tray; a first panel support portion configured to protrude from a base portion disposed inside the main tray; a first base protruding portion configured to protrude from the base portion, and to be opposite to a first side surface of the first panel support portion; and a first sub-tray located on the first panel support portion of the main tray, wherein the first sub-tray includes: a second panel support portion located on the main tray, wherein the second panel support portion is opposite to a panel support surface of the first panel support portion; and a first lower protruding portion configured to protrude from a first edge of the second panel support portion toward the base portion, and to have an end portion between the first side surface of the first panel support portion and the first base protruding portion.

The description relates to device retention assemblies. One example can include a bucket having an open end and defining a volume that contains electronic components. The example can also include a lid positioned over the open end of the bucket. A retention assembly can be configured to bias the lid against the bucket to seal the open end. The retention assembly can include a tab that is secured to the lid with a fastener that extends through the retention assembly into the lid without extending completely through the lid and does not contact the bucket.

Method for packaging electrical insulators (4) for high voltage or very high voltage, such as electrical line insulators made with a dielectric material chosen from glass or porcelain, and more specifically, electrical insulators with a protective hydrophobic silicone elastomer coating covering the surface of the electrical insulators, under vacuum or under inert gas.

A battery packaging material including a laminate that is provided with a barrier layer, a heat-fusible resin layer positioned on one surface side of the barrier layer, and a polyester film positioned on other surface side of barrier layer. This battery packaging material is configured from at least a laminate provided with a barrier layer, heat-fusible resin layer positioned on one surface side of barrier layer, and a polyester film positioned on other surface side of barrier layer. When infrared absorption spectrum on the polyester film's surface in 18 directions at intervals of 10? from 0?-180? is obtained using total reflection method of Fourier transform infrared spectroscopy, the ratio of the maximum value and the minimum value of the ratio (Y.sub.1340/Y.sub.1410) of the absorption peak intensity Y.sub.1340 in 1340 cm.sup.?1 and the absorption peak intensity Y.sub.1410 in 1410 cm.sup.?1 in the infrared absorption spectrum is in the range of 1.4-2.7.

A flexible solar cell chip packaging box includes a housing body and a housing cover. The housing body includes a bottom wall and a first side wall which is perpendicularly and fixedly connected to the bottom wall, the first side wall and the bottom wall enclose a receiving chamber provided with an opening, and the first side wall is provided with a first groove. The housing cover includes a top wall and a second side wall which is perpendicularly and fixedly connected to the top wall, the top wall is covered on the opening, and the second side wall is sleeved on the outside of the first side wall.

A packing container for accommodating a display panel is described. The packing container includes a packing main body having a receiving recess, which includes a first receiving zone and a second receiving zone, and a limiting element disposed on the second receiving zone, wherein the limiting element and the sidewall of the second receiving zone form a limiting accommodating space to constrain and accommodate a circuit board of the display panel.

A carrier tap has a belt shape and includes material forming layers laminated in a lamination direction, a front surface and a back surface opposed to each other in a height direction corresponding to the lamination direction, and accommodating portions that each accommodate a component. The accommodating portions are each adjacent to the front surface and each aligned along a length direction with a partition wall interposed therebetween. The partition wall includes a top lower in height than a top of the front surface.

Tray for containing electronic components formed by a bearing body, substantially planar, having a first and a second face. First holding structures extend from the first face of the bearing body and second holding structures extend from the second face of the bearing body. Each second holding structure is aligned with a respective first holding structure in a vertical direction perpendicular to the first and the second faces of the bearing body. Each first holding structure is formed by first protrusions mutually spaced by first spaces and arranged along a first closed line; each second holding structure is formed by second protrusions mutually spaced by second spaces and arranged along a second closed line. Each second protrusion is aligned, in parallel with the vertical direction, with the first spaces and each first protrusion is aligned, in parallel with the vertical direction, with the second spaces.