A bottle system includes a first housing having a first sealable opening and a distal end, between which a second sealable opening is located, and a first storage chamber being defined between the first and second sealable openings of the first housing. The bottle also includes a second housing having a second storage chamber defined between a third sealable opening and a base, with the first housing and the second housing adapted to be rotatably coupled relative to each other in an end-to-end configuration between at least a first state, in which the first and second storage chambers are separated from each other, and a second state, in which the first and second storage chambers are coterminous. The bottle also includes a cutter such that, in use, the cutter pierces seals of the second and third sealable openings as the first and the second housings are rotatably actuated.

A bottle system includes a first housing having a first sealable opening and a distal end, between which a second sealable opening is located, and a first storage chamber being defined between the first and second sealable openings of the first housing. The bottle also includes a second housing having a second storage chamber defined between a third sealable opening and a base, with the first housing and the second housing adapted to be rotatably coupled relative to each other in an end-to-end configuration between at least a first state, in which the first and second storage chambers are separated from each other, and a second state, in which the first and second storage chambers are coterminous. The bottle also includes a cutter such that, in use, the cutter pierces seals of the second and third sealable openings as the first and the second housings are rotatably actuated.

An aluminum alloy and recycle method are provided in which the recycled used beverage containers form an alloy composition useful with relatively minor compositional adjustments for body stock.

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.

Disclosed is a container for hermetically sealed storage of liquid, paste-like and/or solid products, more particularly foodstuffs, characterized in that the lid of the container is designed to be re-sealable and largely stable pull-tab lid is also provided, the opening of the lid not involving the separation of metal surface leading to swarf formation and the re-sealing of said lid for air tightness.

Disclosed is a container for hermetically sealed storage of liquid, paste-like and/or solid products, more particularly foodstuffs, characterized in that the lid of the container is designed to be re-sealable and largely stable pull-tab lid is also provided, the opening of the lid not involving the separation of metal surface leading to swarf formation and the re-sealing of said lid for air tightness.

Embodiments herein describe a scanning station for identifying an air gap between one or more items stored in a container (e.g., a cardboard box) and a surface of the container (e.g., a top lid of the cardboard box). After identifying the air gap, in one embodiment, the scanning station provides instructions to a downstream cutting station where the container is cut opened. In one embodiment, the scanning station includes one or more articulating arms that each includes a scanner (e.g., a radar sensor) attached on an end of the articulating arm facing the container. Moving the articulating arms along the boundaries of the container provides a 3D image of the inside of the container. By processing this image, the scanning station can identify an air gap along a desired cut line as well as a thickness of the sides of the container.

Embodiments herein describe a scanning station for identifying an air gap between one or more items stored in a container (e.g., a cardboard box) and a surface of the container (e.g., a top lid of the cardboard box). After identifying the air gap, in one embodiment, the scanning station provides instructions to a downstream cutting station where the container is cut opened. In one embodiment, the scanning station includes one or more articulating arms that each includes a scanner (e.g., a radar sensor) attached on an end of the articulating arm facing the container. Moving the articulating arms along the boundaries of the container provides a 3D image of the inside of the container. By processing this image, the scanning station can identify an air gap along a desired cut line as well as a thickness of the sides of the container.

An apparatus is disclosed and includes a can, which has an end wall incorporating a vent panel and a pouring panel, both panels presenting a contour defined by a rupture line. The apparatus includes an actuation tab with an extracting end portion affixed to the vent panel. The actuation tab includes a punching end portion affixed to the pouring panel and a lower end tooth to be pressed against a spot region of the rupture line of the pouring panel. The actuation tab includes a grip portion affixed to the extracting end portion and is designed to be manually and upwardly actuated for detaching the vent panel from the end wall. The grip portion is designed to punch and rupture the spot region of the rupture line of the pouring panel and, subsequently, detaching the latter from the end wall.

A dispensing system (40, 40A) includes a body (54, 54A) having an outer wall (56, 56A) defining a volume for storing a substance, the outer wall (64, 64A) having a top end (66, 66A) and a sealed bottom end (70, 70A). The top end (66, 66A) is covered by a flexible lid (56, 56A) that is connected to the body (54, 54A). The lid (56, 56A) has a press portion (88, 88A) for being engaged to move the lid (56, 56A) from a first position into a second, deflected position. A post (58, 58A) is connected to the lid (56, 56A) and is configured in the second position of the lid (56, 56A) to breach the sealed bottom end (70, 70A) to form a dispensing orifice (80, 80A) to accommodate movement of a substance out of the body (54, 54A).