A pulp-molded packaging article is introduced herein, which comprises a bottom wall, and a standing lateral wall having a bulge region and a groove region. A transversely cross-sectional thickness located at the bulge region is larger than a transversely cross-sectional thickness located at the groove region. While a to-be-packaged object enters inside the article to oppress the bulge region, the bulge region is therefore actuated in elastic deformation to reach an outwardly deflected position. And then, after the to-be-packaged object continues to reach the groove region, the bulge region is rebounded therefore to exert reverse elastic forces on the to-be-packaged object, resulting in a snap-in retention onto the to-be-packaged object, which makes the snap-in convex surface stopping the to-be-packaged object from moving toward a top opening of the article.

A lid assembly for a food container is described that may be used to store and transport food items. The container defines an interior to store a food product. The lid assembly includes a lid and a stopper that is sized to close an opening of the container. A biasing member urges the lid to an open position when the lid is unlocked or unlatched.

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.

In accordance with one embodiment, a method of capturing biomatter includes placing a device comprising the biomatter within an extension tube, the extension tube being coupled to a tray. A fold is created in the extension tube sealing the extension tube and the biomatter contained therein. The extension tube is secured to the tray to maintain the fold. The assembly is discarded, e.g., into a bio-waste disposal bag in a bio-waste container. The fold is a smooth fold, in contrast to a sharp tip, thus minimizing the possibility of puncture of the bio-waste disposal bag.

A transportation tray to transport filled syringes, the tray including a front shelf spaced apart from a rear shelf, with the front shelf and the rear shelf being on approximately the same plane. The front shelf includes at least one set of paired flexible fingers, the paired flexible fingers being spaced apart sufficiently to accommodate a barrel of a syringe and to thus hold the syringe on the tray.

A delivery system package includes a tray, a delivery system, and a slip card between the tray and the delivery system. To remove the delivery system, a pull tab of the slip card is moved to raise the slip card including the delivery system from the tray. At the same time, this moves the slip card over a lid sealing flange of the tray, considered a non-sterile surface in accordance one embodiment. Accordingly, the slip card extends over the lid sealing flange preventing contact between the delivery system and the lid sealing flange. In addition, the slip card effectively forms a ramp for sterile removal of the delivery system from the tray.

The invention relates to a package for a drill. The package has a protecting portion arranged to house a cutting portion of said drill in a contact free manner and a locking portion arranged to hold a tool engaging portion of said drill. The locking portion and the protecting portion are movable relative each other and the drill is releasable from the locking portion by a movement of the locking portion relative the protecting portion. The protecting portion is allows the user to clamp the cutting portion of said drill by pressing the protecting portion and thereby establishing a contact between the protecting portion and the cutting portion of said drill. The invention also relates to a method and an arrangement.

A holding structure for holding a plurality of containers for pharmaceutical, medical or cosmetic purposes includes a carrier having openings or receptacles for accommodating the containers. Holding devices for holding the containers are provided at the openings or receptacles. The holding devices can selectively assume two different stable positions, namely a first stable position in which the containers can be inserted without friction into the openings or receptacles and a second stable position in which the containers are held in the respective opening or receptacle by frictional engagement or by positive locking. The containers can be reliably inserted into the openings or receptacles without material abrasion. In the open insertion position of the holding devices, a large number of containers can be inserted concurrently into the openings or receptacles without high forces acting on the holding structure.

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.