A combination bucket lid and seat permits a user to access contents of the bucket while the user is seated. The lid has a lip for engaging the bucket, and an opening configured to receive a hand of a user for removing the bucket contents. The opening may be selectively covered by a door that is attached to the lid. The door is movable between a closed position and an opened position. The door is configured to cover the opening of the lid in the closed position and uncover the opening of the lid in the open position. The door also may have a pad that allows the user to be comfortable while sitting. More specifically, the door may be attached to the lid by a hinge, or rotatable about an axis of rotation, to selectively cover and uncover the opening.

Sterilization packaging systems with features for sealing a volume against an ingress of contaminants are provided. Such features include a sealing assembly including a gasket and a sheet of filter material. The sealing assembly seals a lid to a seal rim of a base. The gasket has an upper surface, outer edge, and inner edge. The sheet of filter material extends from an inner edge of the gasket, and the gasket completely surrounds the sheet of filter material. The upper surface of the gasket comprises a plurality of indentations that define channels to facilitate delivery of a sterilization agent through the filter material. A sterilization assembly including a lid having a plurality of protrusions in its upper surface and a sliding-lock system for sealing and locking the lid to a container base is also provided.

A container closure includes a generally planar body having a product side and a customer side. The container closure body defines a limited container opening and an actuation location. Further, the container body includes a force concentrating construction disposed adjacent the limited container opening.

A portable insulated storage container includes an insulated body having an internal cavity for storing one or more items and an insulated lid. The insulated body includes a base, first and second opposing end panels, and first and second opposing side panels. The first and second opposing end panels are each configured to move between a first vertical orientation and a second horizontal orientation. Each of the first and second opposing side panels includes an upper portion connected to a lower portion by a hinge. The insulated lid configured to engage the insulated body to close the internal cavity.

A self-drilling, self-tapping bone screw is described in which the bone screw has a drill tip free of threads and having a length at least as great as about the thickness of a proximal cortical bone layer, with the drill tip having opposed lands and a helical flute between each of the lands with each of the lands having a cutting edge configured to cut bone as the drill tip is rotated into the bone with the flutes conveying the bone debris away from the drill tip, where a lead thread begins to self-tap internal threads in the proximal cortical bone layer after the drill tip has drilled through the proximal cortical bone layer so as to avoid stripping the threads formed in the bone layer. A method of installation is also disclosed.

A re-sealable vessel includes a body with an open end and a lid assembly. The lid assembly includes a cap with a seal sized to seal against the open end of the body and the cap is at least partially formed from a fusible metal with a melting point less than a threshold temperature comprising a boiling point or a temperature associated with a threshold vapor pressure of a liquid contained within the body, such that when a temperature of the fusible metal exceeds the melting point, the fusible metal melts, leaving an aperture through the cap.

An apparatus and methods of sealing a metallic container with a metallic end closure are disclosed. The apparatus includes a tool operable to releasably join the closure to the container. In one embodiment, the tool is configured to form a thread in the closure and the container. The tool may optionally crimp the closure to the container. Once sealed, the container can be opened by rotating the closure in an opening direction. The closure can subsequently re-close the container by rotating the closure in a closing direction.

A container with a security lock is provided. The container has a top unit and a bottom unit. The bottom unit may have a first side and a second side wherein the first side and the second side each have a compressible tab. The top unit may have a first opening and a second opening wherein the first opening and the second opening receive a portion of the compression tabs when the top unit is locked to the bottom unit.

A lid for an insulated container comprises a flexible gasket configured to facilitate a seal between the lid and an inner wall of the insulated container, and further configured to expand into an interior compartment of the insulated container responsive to a vacuum developing in the interior compartment. A diaphragm chamber is situated opposite the flexible gasket from the interior compartment when the lid is fully engaged with the insulated container. One or more air channels couple the diaphragm chamber to an exterior of the lid. The development of a vacuum in the interior compartment of the insulated container draws a force on the flexible gasket, thereby reducing pressure in the diaphragm chamber. The negative pressure in diaphragm chamber is back-filled with external air, which enters the lid via the air channels. The lid may then be removed without excessive vacuum forces.

The present disclosure is related to jars and containers and, more particularly, to the manufacture of readily recyclable jars and containers.

An exemplary jar is comprised of an aluminum base and a first aluminum inner cup provided with a first cavity defined with the aluminum base. An outer thread is provided about an exterior surface of the aluminum base, and an aluminum lid with a second aluminum inner cup is provided within a second cavity defined within the aluminum lid. An inner thread mateable with the outer thread is provided about an interior surface of the second aluminum inner cup.

A method of manufacturing readily recyclable jars can comprise providing a primary metal material and optionally applying a precoating to the primary metal material. The primary metal material may be formed into a jar with mating threads and a lid with mating threads. The primary metal material may optionally be finished. A liner may optionally be inserted. The lid and jar are then assembled, and a plastic cup may optionally be installed.