A packaging system includes a container (34) within which are disposed first detonator devices (10) having reactive coils (16), e.g., coils of shock tube leads, and second detonator devices (20) having inert coils (26), e.g., coils of insulated electric leg wires. The inert coils (26) are interposed between the reactive coils (16) and are approximately co-extensive with the reactive coils (16), so that the inert coils (26) form a barrier to propagation of an accidental initiation from one reactive coil (16) to another. Reactive coils (16) and inert coils (26) are fastened to each other to form mixed coil pairs (30) which are nested to interpose a pair of the inert coils (26) between at least some of the reactive coils (16). A method of packing the first and second detonator devices calls for placing them in a container (34) in the described arrangement.

An equipment containment and transport assembly (20) includes an open-top equipment-receiving primary bag (22) having upstanding sidewall structure (26) equipped with lifting lug opening pairs (30, 32), and a bottom wall (28). The assembly (20) further has a flexible sleeve (24), which is secured to the sidewall structure (26) and is shiftable between a ready position surrounding the sidewall structure (26) and a deployed position extending upwardly for closure or the assembly (20). When deployed, the sleeve (24) covers the lug opening pairs (30, 32). The assembly (20) is particularly useful for containment and shipping of electrical transformers.

A method and system for storing an electronic device, such as an LED 34 component having metallic conductive leads 36, 38 or a light engine 30 having LEDs soldered to a PCB 32, within a container 100 formed of paper material. The container interior surface 14, 16 is coated with a barrier 20 bounding the interior volume 18. Barrier 20 occludes an emission of sulfur-containing gas from the paper material into interior volume 18. Barrier 20 is a polymer, e.g. a thermoplastic material, either in the form of a sheet or a spray or liquid coating, preferably applied to the paper material blank 10 before it is folded into the container shape 100. Barrier 20 may further comprise electro-static discharge material.

According to an embodiment of the present invention, a protective film package includes a tray including a recess for seating an electronic device including a front plate exposing the display, a protective film, attached to the front plate of the electronic device, including a photo-curing layer, and a photo-curing support structure detachably coupled to the electronic device wherein the protective film is disposed at a predetermined position on the front plate when the tray on which the electronic device is seated and the protective film are aligned, and at least a portion of the edge of the protective film is pressed to the front plate by the photo-curing support structure when the photo-curing support structure is coupled with the electronic device on which the protective film is disposed. Various other embodiments are possible.

The invention relates to a plastic enclosure for enclosing industrial components. The enclosure comprises a case (2), a lid (9), and a latch device (13) for locking the lid to the case. The lid (9) has a grip means formed as a rigid lug (14) molded to be monolithic with the lid (9), the lug comprising a throughhole (19) to which a hook portion (17) of a rocker (15) can grip. The lug (14) is arranged, in the closed position of the lid, to extend over and at a distance from the second wall (7) to be substantially in parallel with a wall of the case to limit an intermediate space between the wall (7) and the lug (14) when the lid is in the closed position. The hook portion (17) is arranged so that, in the release position (II) of the rocker (15), it is turned inside the intermediate space away from the path of the lug (14) and, in the locking position (I) of the rocker, the hook portion is turned to protrude laterally outwards through the through-hole (19) of the lug (14) and to compress the sealing gasket (12) by pressing the sealing flange (8) against the sealing gasket (12) to create a spring force against which the hook portion holds the lug (14). The output force of the hook portion (17) exerted to the lug (14) is amplified by a mechanical advantage provided by a lever effect of the rocker (15) when being turned to the locking position by an input force exerted to the handle arm (18).

An object to be achieved by the present invention is to provide a gas barrier film having excellent acid resistance, transparency, and gas barrier properties. The gas barrier laminated body of the present invention is a laminate, in which an inorganic thin-film layer is laminated onto at least one of surfaces of a polymer substrate, and the inorganic thin-film layer mainly contains Al and Si, and a ratio of an Al content amount between before and after treatment of immersing the laminate into aqueous solution of hydrochloric acid that has concentration of 1 mol/L for one hour satisfies a formula of (Al Content Amount After Treatment)/(Al Content Amount Before Treatment)10075.

Packaging comprises a sleeve and a re-configurable container comprising first and second boxes which are hinged together and are pivotable between a folded-together configuration in which a first main panel of the first box faces a first main panel of the second box and the container is insertable into and removable from the sleeve and an unfolded configuration in which the first main panels of the first and second boxes do not face one another. The first main panel of the first box has an aperture which provides access to a first compartment. The second box has a first edge panel for providing access to a second compartment. The arrangement is such that, when the container is inserted in the sleeve, the sleeve covers the first edge panel of the second box, and, when the container is removed from the sleeve, the first edge panel of the second box provides access to the second compartment.

The invention relates to a packaging (1) for at least one electronic smoking device product (11, 14, 18), the packaging comprising a back panel (2) and at least two packaging layers (3, 4, 5), wherein the back panel (2) comprises a first back panel portion (2a) and a second back panel portion (2b), wherein the first and second back panel portions (2a, 2b) are pivotable relative to each other, wherein the at least two packaging layers (3, 4, 5) comprise a first packaging layer (3) and a second packaging layer (4), wherein the first packaging layer (3) is connected to the first back panel portion (2a) and wherein the second packaging layer (4) is connected to the second back panel portion (2b).

A pallet assembly (10) for safe handling and transporting of equipment such as a transformer (16) includes a lower pallet (12) with a containment bag (14). The pallet (10) is equipped with hold-down structure, allowing the transformer (16) to be secured thereto via straps (64). The bag (14) has a bottom wall (36) secured to pallet (12), and sidewall structure (16), which can be deployed to form a liquid-tight bag (14).

The present disclosure provides a packaging assembly for mailing a home security device by direct mail package. The packaging assembly includes an envelope. The envelope includes a first panel, a second panel and a seal flap. The seal flap is affixed on a first side of the first panel. The envelope provides space for encapsulating a foam cushioning. The foam cushioning is characterized by a cuboidal shape. The envelope encapsulates the home security device. The home security device includes a protective housing encapsulating a plurality of electrical components. The rectangular pocket on the second face of the foam cushioning receives the home security device. The envelop encapsulates a first layer. The first layer covers the first face of the foam cushioning. The envelope encapsulates a second layer. The second layer covers the second section of the second face of the foam cushioning and a segment of the home security device.