A package structure includes a backing plate, at least one pad, a frame, a side enclosing plate, a magnetic component and a fixing structure. The backing plate supports a target object. The pad is disposed on the backing plate and fixes the target object. The frame is disposed on a lower side of the backing plate and bonded to the backing plate. The frame supports the backing plate to fix the pad onto the backing plate. The side enclosing plate is disposed around the backing plate and connected to the pad to fix the pad. The magnetic component is disposed on the backing plate and attracting a magnetic coating on the target object. The fixing structure is disposed at an end portion of the frame and connected to the pad to fix the pad.

A trading card protection assembly for storing trading cards for autographing includes a plurality of card frames that each receives a trading card to facilitate the trading card to be visible through the card frames. A holding panel is provided that has a receiving slot integrated into the holding panel. A respective one of the card frames is slidable into the receiving slot to facilitate the trading card in the respective card frame to be accessible for being autographed. Additionally, the holding panel has a hole extending through the holding panel to define a grip for gripping by a user to facilitate the trading card in the respective card frame to be autographed. A box is included that has a plurality of card slots for storing the card frames in an upright orientation in the box.

A transportation tooling structure, a split electric motor module with the transportation tooling structure, and a transportation method are provided. The transportation tooling structure comprises: a split base plate, a stator support and a rotor support, wherein the lower end of the stator support is fixedly supported on the upper surface of the split base plate, and the upper end of the stator support is fixedly supported on the side of a split stator close to the split base plate; and the upper end of the rotor support is fixedly supported on the side of an end of a split rotor away from the split stator, and the lower end of the rotor support is fixedly supported on the side of the split stator away from the split base plate.

A transportation tooling structure, a split electric motor module with the transportation tooling structure, and a transportation method are provided. The transportation tooling structure comprises: a split base plate, a stator support and a rotor support, wherein the lower end of the stator support is fixedly supported on the upper surface of the split base plate, and the upper end of the stator support is fixedly supported on the side of a split stator close to the split base plate; and the upper end of the rotor support is fixedly supported on the side of an end of a split rotor away from the split stator, and the lower end of the rotor support is fixedly supported on the side of the split stator away from the split base plate.

A utility box or storage system that includes one or more configurable storage compartments. The utility box or storage system can comprise a compartment having a first wall that includes a guide and a second wall, and a plurality of storage units, including at least one of the plurality of storage units that implants into the compartment between the first wall and the second wall. The at least one storage unit can include a ridge that aligns with the guide. The guide can engage the ridge to guide the storage unit during implantation.

A container is provided, including a tubular body having an open first end and a second end defining a receptacle to receive an elongate storage unit; and a retaining frame within the receptacle to receive and retain the unit, movable between a first configuration to engage a retaining surface of the unit to retain it within the receptacle, and a second configuration in which it is released from engagement with the frame for removal from the container, the frame including a supporting rim circumscribing the first end; and a flexible tab depending from the rim and projecting radially into the receptacle, such that in the first configuration a distal end of the tab is configured to engage the retaining surface, and when the frame is moved from the first to the second configuration, the tab is bent towards a peripheral wall of the body and away from the retaining surface.

An apparatus for storing one or more battery modules (100) comprising a containment tray (300, 500, 700, 1000) defined by opposing front and back faces (314, 316, 714, 716, 1014, 1016), opposing side faces (318, 718, 1018), and opposing top and bottom surfaces (310, 312, 522, 532, 710, 712 1010, 1011, 1012) oriented perpendicular to the front, back, and side faces, wherein the containment tray has a receiving area (302, 518, 702, 1002) formed in the top surface for receiving one or more battery modules, the receiving area comprising a receiving surface (320, 520, 720, 1020) oriented parallel to and located between the opposing top and bottom surfaces for supporting the one or more battery modules.

A device retention assembly includes a delivery system and a device retention mechanism retaining the delivery system. The device retention mechanism includes a tray, a base coupled to the tray, and retaining flanges pivotally coupled to the base. The delivery system is enclosed within an opening defined by the base and retaining flanges. A key locks the device retention mechanism in the closed position retaining the delivery system. The key must be removed to unlock the device retention mechanism to release the delivery system.

A device retention assembly includes a delivery system and a device retention mechanism retaining the delivery system. The device retention mechanism includes a tray, a base coupled to the tray, and retaining flanges pivotally coupled to the base. The delivery system is enclosed within an opening defined by the base and retaining flanges. A key locks the device retention mechanism in the closed position retaining the delivery system. The key must be removed to unlock the device retention mechanism to release the delivery system.

A containment case assembly, including a tray and closing lid, comprises an upper frame that is configured to support from one to a plurality of removable screw decks is described. The screw decks have a column of first openings into which removable silicon plugs or inserts are positioned. The removable inserts include indicia or labels that indicate to a user the size of a surgical screw that is positioned in a row of second openings that are aligned in the screw deck immediately adjacent to one of the first openings. The upper frame of the containment case also has an inlet provided with a series of adjacent indicia or labels that are spaced at regular millimeter intervals for use in verifying the length of a surgical screw. The upper frame is further provided with a series of regularly spaced openings that have progressively larger sizes. These openings enable a user to verify the diameter of a surgical screw.