A transport support structure comprises a platform, a first frame side on the platform, a second frame side on the platform and a third frame side on the platform. The second frame side is disposed opposite and spaced apart from the first frame side, and the third frame side extends between the first and second frame sides. The transport support structure further comprises first and second support receiving members disposed under the platform. The first support receiving member includes a first opening configured to receive a first lifting device support element, and the second support receiving member includes a second opening configured to receive a second lifting device support element.

Equipment transport bag assemblies (20, 92, 98, 145, 152, 182) each including an upright, open-top, equipment-receiving bag (22, 110, 158) with associated equipment-handling assemblies (24, 92, 102, 164, 184). The assemblies (24, 92, 102, 164, 184) have load-bearing strap units (34, 114, 166, 186) operably associated with the transport bags (22, 110, 158) so that the strap units (34, 114, 166, 186) bear the primary loads during lifting and handling of the bag assemblies (20, 92, 98, 145, 152, 182).

A cushion package box includes a box body, a first cushion member and at least one paper tube. The first cushion member is disposed in the box body and has a porous structure. An opening direction of the porous structure is different from an opening direction of the at least one paper tube. The at least one paper tube is disposed in the box body and in contact with the first cushion member.

An electronic component reel set includes a first electronic component reel and a second electronic component reel. The first electronic component reel includes first electronic components each having a first characteristic value falling in a predetermined range above a reference characteristic value, a first electronic component package that stores the first electronic components linearly, a first reel body in which the first electronic component package is wound, and a first indicator portion indicating the first characteristic value. The second electronic component reel includes second electronic components each having a second characteristic value falling in a predetermined range below the reference characteristic value, a second electronic component package that stores the second electronic components linearly, a second reel body in which the second electronic component package is wound, and a second indicator portion indicating the second characteristic value.

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).

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 system of packaging and displaying a set of products is disclosed. The system may include a first and second container, together forming a hinged box, each container including a first display face, and a first back positioned on a side of the container opposite the first display face. A first magnetic element and a second element magnetically responsive to the first magnetic element may be positioned in the containers to assist in closing the box. At least one of the containers includes a transparent cover that secures, even in the open position of the box, displayed products, the displayed product visible through the cover when the box is hinged open. The cover has perforations that can be torn to access the products without tools. The products are arranged in the order of use and installation.

The present invention is directed to a technique for visually judging an exchange timing of a container which has been heated in the air and thus degraded. The container is a container having a storage section for storing products: wherein the constituent material of the container is a resin composition; wherein the composition contains an antistatic agent; wherein the composition contains no coloring material, or contains a coloring material, however in this case, at a time when (a surface electric resistance value of the container having been changed by heating of the container)/(a surface electric resistance value of the container at a time of starting the heating)=10, discoloration of the container caused by the heating is a recognizable degree; and wherein the container is exchanged in a case where the container is discolored to a defined color by the heating.

The lid body side wafer support parts allow flexibility to be exhibited and supports the wafers. If a closed state substrate is defined as being a wafer which is stored in the substrate storing space in a container main body in a state wherein the container main body opening portion is closed by the lid body, and a closed time center is defined as being the center of a closed state substrate, the back side substrate support portion, when a closed state substrate is viewed in the thickness direction, are disposed in a pair about a depth direction reference line and support the wafer. A center angle which the back side substrate support portion form toward the depth direction with respect to a left/right direction reference line when a closed state substrate is viewed in the thickness direction is 20-55°.

The invention provides an adjustable tilting packaging box for liquid crystal module. The first solution includes: box, support rack for carrying liquid crystal module, supporting rack being connected to box bottom through first support element. First support element includes at least a first adjustment mechanism, connected to side of support rack; wherein, first adjustment mechanism including: a first support pillar, a resilient element and a positioning element. First support pillar is retractably connected to box bottom through resilient element; first support pillar is disposed with resilient buckle matching positioning element to realize multi-level rising and lowering of first support pillar. Through tilt angle of support rack making PCB located at lower end of leaning, the weight of PCB prevents PCB from folding up to cause crease in COF or damage to glass during bumpy transportation. The invention uses another means of angle adjustment mechanism to achieve same objective.