The invention provides a packaging container for plate shaped articles and a packaging method using the same. The packaging container comprises a container sole plate, a container lid plate and container side plates. Each of them is provided with detachable assembling parts which allow the container sole plate, the container lid plate and container side plates to be detachably assembled to form the packaging container. The arrangement of detachable assembling parts on the container sole, the container lid and the container side plates may realize the detachable assembly among them. That is, any side of the cubic packaging container can be separately detached during the packaging operation, such that it is possible to more easily and promptly package or obtain the plate shaped articles, while the plate shaped articles are hardly to be damaged when being packaged, thereby fulfilling the demand on automatic packaging for plate shaped articles.

A method and system of and for securing and/or transporting fragile or valuable items such as jewelry, small medical, scientific, or industrial instruments, or similar items, which can be damaged or lose value due to rough or negligent handling and/or shipping, the method and system including a plurality of cooperative filaments or bristles onto and into which an item is placed.

An optical component storage tray may define a plane. The tray may include a first side. The tray may include a second side. The first side and second side may be located on opposite sides of the plane. The tray may include a plurality of sockets. The plurality of sockets may be positioned on the first side. The plurality of sockets may include engaging features. The plurality of sockets may include a pocket. The pocket may be configured to receive an optical component. The tray may include a plurality of plugs. The plurality of plugs may be positioned on the second side. The plurality of plugs may include mating features. The mating features and the engaging features may be configured to intermesh. The tray may be formed from a composite material. The composite material may include a polycarbonate matrix. The composite material may include a dispersed carbon phase.

An optical component storage tray may define a plane. The tray may include a first side. The tray may include a second side. The first side and second side may be located on opposite sides of the plane. The tray may include a plurality of sockets. The plurality of sockets may be positioned on the first side. The plurality of sockets may include engaging features. The plurality of sockets may include a pocket. The pocket may be configured to receive an optical component. The tray may include a plurality of plugs. The plurality of plugs may be positioned on the second side. The plurality of plugs may include mating features. The mating features and the engaging features may be configured to intermesh. The tray may be formed from a composite material. The composite material may include a polycarbonate matrix. The composite material may include a dispersed carbon phase.

An optical element storage device includes: a base provided with a first groove on the surface, a second groove being provided in the first groove, a boss being provided along an inner wall of the second groove, the optical element to be stored being placed on the boss; and a cover body unit including a top cover and a pressing block, a third groove being provided in the top cover, a fourth groove being provided in the third groove, the pressing block being provided in the fourth groove, the pressing block being movably connected with the fourth groove, the projected area of the pressing block on the base being larger than the sectional area of the first groove, the top cover being detachably connected with the base. The storage device has a simple structure and is easy to be carried, and can store and transport the optical element stably.

An optical element storage device includes: a base provided with a first groove on the surface, a second groove being provided in the first groove, a boss being provided along an inner wall of the second groove, the optical element to be stored being placed on the boss; and a cover body unit including a top cover and a pressing block, a third groove being provided in the top cover, a fourth groove being provided in the third groove, the pressing block being provided in the fourth groove, the pressing block being movably connected with the fourth groove, the projected area of the pressing block on the base being larger than the sectional area of the first groove, the top cover being detachably connected with the base. The storage device has a simple structure and is easy to be carried, and can store and transport the optical element stably.

A tray for transporting a semiconductor device includes a plate, a loading portion on the plate and configured to support the semiconductor device, and a sidewall portion on the plate and surrounding at least a portion of the loading portion, wherein the sidewall portion includes a first sidewall, and the first sidewall includes a first inclined portion extending from the loading portion and defining a first angle with respect to an upper surface of the loading portion, and a first guide portion extending from the first inclined portion and defining a second angle with respect to the upper surface of the loading portion, the second angle being smaller than the first angle, and the first angle and the second angle are acute angles.

A tray for transporting a semiconductor device includes a plate, a loading portion on the plate and configured to support the semiconductor device, and a sidewall portion on the plate and surrounding at least a portion of the loading portion, wherein the sidewall portion includes a first sidewall, and the first sidewall includes a first inclined portion extending from the loading portion and defining a first angle with respect to an upper surface of the loading portion, and a first guide portion extending from the first inclined portion and defining a second angle with respect to the upper surface of the loading portion, the second angle being smaller than the first angle, and the first angle and the second angle are acute angles.

A retail display unit includes a plurality of clear tubes positioned substantially adjacent to each other and each having a length. A plurality of clear inserts each positioned inside one of the plurality of clear tubes and extend the length of the one of the plurality of clear tubes. Each clear insert includes a first end that corresponds with a first end of each clear tube and an opposing second end that corresponds with an opposing second end of each clear tube. A plurality of strings of lights are continuously wrapped around and engaged with the first and second ends of the plurality of clear inserts.

A package body for packing a main body of an image forming apparatus is configured to be conveyed when the image forming apparatus is packed therein. The package body includes a packing box which covers the main body of the image forming apparatus, and a heat insulating portion, disposed between the packing box and a part of a plurality of exterior surfaces of the image forming apparatus, for insulating a toner bottle installed in the image forming apparatus. The heat insulating portion includes a first heat insulating portion, covering the toner bottle on a front side surface of the main body, a second heat insulating portion, covering the toner bottle on a second side surface of the main body included in the plurality of exterior surfaces, and meeting the first side surface, and a third heat insulating portion, covering a discharge tray portion of the image forming apparatus.