A vented metal can end is provided. The can end includes a tab and a tab rivet. The can end includes an outer score and a vent score. The vent score is formed in the end wall and located beneath the nose of the tab. The vent score is positioned such that the tab rivet is located between the vent score and the center point of the end wall and the vent score is also located between the outer score and the tab rivet.

A metal easy open can end adapted for closing a metal can body is proposed. The can end has a score (27) defining a removable panel (26) and a tab (23), located at an edge region of the panel, for applying a force to the panel to allow the panel to be removed in a tear direction. The panel (26) has at least one embossed and/or debossed rib (25 a-c) extending substantially in said tear direction from a location or locations proximal to said tab to a location or locations proximal to an end of the panel opposite to said edge region. The rib(s) have a depth or height of at least 0.6 mm relative to surrounding panel regions along at least a part of the rib extent.

A metallic container end closure is provided that generally comprises a primary pour opening and an extended or secondary score which is opened with a secondary tool to form a secondary pour opening. The fact that a secondary tool is required allows the secondary score to be shallower, and thus more secure than deeper scores that are openable by finger pressure alone. Once the secondary tool is used to fracture the secondary score, a secondary pour opening is produced adjacent to the primary pour opening to form a larger opening. A user may insert materials such as ice or oranges through the enlarged pour opening.

A metallic container end closure is provided that generally comprises a primary pour opening and an extended or secondary score which is opened with a secondary tool to form a secondary pour opening. The fact that a secondary tool is required allows the secondary score to be shallower, and thus more secure than deeper scores that are openable by finger pressure alone. Once the secondary tool is used to fracture the secondary score, a secondary pour opening is produced adjacent to the primary pour opening to form a larger opening. A user may insert materials such as ice or oranges through the enlarged pour opening.

An easy-open can end for making an opening therethrough suitable for pouring comprises an end plate, a score line in the end plate defining most of the periphery of a tear panel while leaving a hinge, and a protrusion formed on the tear panel. To open the easy-open can end, the protrusion is pressed down by a rotating bar horizontally rotated over the protrusion or by a body vertically hitting the protrusion to cause relative vertical movement between the tear panel and the remainder of the end plate, rupture of the score line, and swinging of the tear panel down about the hinge to an open position.

A method of making a can end, which includes a recessed panel defined by an upwardly extending chuck wall, a peripheral scoreline disposed in a public side of the panel proximate to the base of the chuck wall, a tab fastened to the panel by a rivet, includes the step of employing tooling to form a pressure resistance bead extends around the panel inboard of the peripheral scoreline and outboard of the rivet. The tooling forms a saw tooth panel formation proximate to the pressure resistance bead inboard of the pressure resistance bead. Among other benefits, the pressure resistance bead and saw tooth panel formation created by the tooling and method combine to resist wrinkling or other undesired deformation of the can end.

A can end (10) has a curl (14) extending circumferentially about a longitudinal axis (50). A circumferential wall (15) extends downwardly. A strengthening member (16) is joined to lower segment of the circumferential wall (15). A center panel (12) extends radially inwardly from the circumferential strengthening member (16). A rivet (38) attaches a tab (28) to the center panel (12). A cover (60) is attached to the tab (28) and is rotation therewith. A frangible score (24) in the center panel (12) is breakable to form a pour opening (27) in the center panel (12). The cover (60) is rotatable to overlay the pour opening (27) and effectively reclose the pour opening (27) in a reclosed condition of the can end (10).

A method of making a can end, which includes a recessed panel defined by an upwardly extending chuck wall, a peripheral scoreline disposed in a public side of the panel proximate to the base of the chuck wall, a tab fastened to the panel by a rivet, includes the step of employing tooling to form a pressure resistance bead extends around the panel inboard of the peripheral scoreline and outboard of the rivet. The tooling forms a saw tooth panel formation proximate to the pressure resistance bead inboard of the pressure resistance bead. Among other benefits, the pressure resistance bead and saw tooth panel formation created by the tooling and method combine to resist wrinkling or other undesired deformation of the can end.

A vented metal can end is provided. The can end includes a tab and a tab rivet. The can end includes an outer score and a vent score. The vent score is formed in the end wall and located beneath the nose of the tab. The vent score is positioned such that the tab rivet is located between the vent score and the center point of the end wall and the vent score is also located between the outer score and the tab rivet.

A can end that is attached to a metal can body with a bottom end forming a cavity that may be filled with food, liquid, etc. The can end is made of metal with a bead configuration located in the outer circumference of the can end that increases its resistance to deformation when subjected to high pressure cooking environments and assists in preventing the can end from separating along the frangible score.