A container is provided. The container comprises a cover, a base, and a body, which includes one or more spine structures and one or more door panels which may open and allow substantially lateral access to the interior of the container. The one or more door panels may be secured in a closed position by a latch mechanism. In a first mode, the latch mechanism is not released. In a second mode, the latch mechanism is released. The first mode and the second mode may operate concurrently and can be accessed separately via different mechanisms. A switch mechanism may alternate between the first mode and the second mode. Alternatively, a pedal includes a first pedal mechanism corresponding to the first mode and a second pedal mechanism corresponding to the second mode.

A container is provided. The container comprises a cover, a base, and a body, which includes one or more spine structures and one or more door panels which may open and allow substantially lateral access to the interior of the container. The one or more door panels may be secured in a closed position by a latch mechanism. In a first mode, the latch mechanism is not released. In a second mode, the latch mechanism is released. The first mode and the second mode may operate concurrently and can be accessed separately via different mechanisms. A switch mechanism may alternate between the first mode and the second mode. Alternatively, a pedal includes a first pedal mechanism corresponding to the first mode and a second pedal mechanism corresponding to the second mode.

Collapsible containers and a method of their manufacture are disclosed herein. The collapsible containers have one or more collapsible wall sections and a stiff upper and lower tier. The wall sections have living hinges and three or more tiers between the hinges. A thermoplastic elastomer layer may join separately made portions of the container together. The containers may be made by molding and overmolding. The containers include inter alia bulk liquid containers, jugs, tubs, baskets, bottles, and food containers. The method of manufacturing includes placing a container component and a matching container body comprising a stiff first tier, a stiff second tier, and a collapsible wall section in a mold; assembling the container body with the container component to close one end of the container body; and overmolding a thermoplastic layer around the container body and the container component.

Collapsible containers and a method of their manufacture are disclosed herein. The collapsible containers have one or more collapsible wall sections and a stiff upper and lower tier. The wall sections have living hinges and three or more tiers between the hinges. A thermoplastic elastomer layer may join separately made portions of the container together. The containers may be made by molding and overmolding. The containers include inter alia bulk liquid containers, jugs, tubs, baskets, bottles, and food containers. The method of manufacturing includes placing a container component and a matching container body comprising a stiff first tier, a stiff second tier, and a collapsible wall section in a mold; assembling the container body with the container component to close one end of the container body; and overmolding a thermoplastic layer around the container body and the container component.

A cap protector for protecting a cap on a container includes a plurality of axial fins extending from a common point. Each axial fin includes a body extending between an inner edge and an outer edge, and a cap-engaging lip defined on the inner edge that is configured to selectively engage a cap of a container. The plurality of axial fins may be movable from a disengaged position to an engaged position, wherein in the engaged position the cap-engaging lip of each of the plurality of axial fins engages the cap of a container.

A cap protector for protecting a cap on a container includes a plurality of axial fins extending from a common point. Each axial fin includes a body extending between an inner edge and an outer edge, and a cap-engaging lip defined on the inner edge that is configured to selectively engage a cap of a container. The plurality of axial fins may be movable from a disengaged position to an engaged position, wherein in the engaged position the cap-engaging lip of each of the plurality of axial fins engages the cap of a container.

The invention relates to a plastic enclosure for enclosing industrial components. The enclosure comprises a case (2), a lid (9), and a latch device (13) for locking the lid to the case. The lid (9) has a grip means formed as a rigid lug (14) molded to be monolithic with the lid (9), the lug comprising a throughhole (19) to which a hook portion (17) of a rocker (15) can grip. The lug (14) is arranged, in the closed position of the lid, to extend over and at a distance from the second wall (7) to be substantially in parallel with a wall of the case to limit an intermediate space between the wall (7) and the lug (14) when the lid is in the closed position. The hook portion (17) is arranged so that, in the release position (II) of the rocker (15), it is turned inside the intermediate space away from the path of the lug (14) and, in the locking position (I) of the rocker, the hook portion is turned to protrude laterally outwards through the through-hole (19) of the lug (14) and to compress the sealing gasket (12) by pressing the sealing flange (8) against the sealing gasket (12) to create a spring force against which the hook portion holds the lug (14). The output force of the hook portion (17) exerted to the lug (14) is amplified by a mechanical advantage provided by a lever effect of the rocker (15) when being turned to the locking position by an input force exerted to the handle arm (18).

The invention relates to a plastic enclosure for enclosing industrial components. The enclosure comprises a case (2), a lid (9), and a latch device (13) for locking the lid to the case. The lid (9) has a grip means formed as a rigid lug (14) molded to be monolithic with the lid (9), the lug comprising a throughhole (19) to which a hook portion (17) of a rocker (15) can grip. The lug (14) is arranged, in the closed position of the lid, to extend over and at a distance from the second wall (7) to be substantially in parallel with a wall of the case to limit an intermediate space between the wall (7) and the lug (14) when the lid is in the closed position. The hook portion (17) is arranged so that, in the release position (II) of the rocker (15), it is turned inside the intermediate space away from the path of the lug (14) and, in the locking position (I) of the rocker, the hook portion is turned to protrude laterally outwards through the through-hole (19) of the lug (14) and to compress the sealing gasket (12) by pressing the sealing flange (8) against the sealing gasket (12) to create a spring force against which the hook portion holds the lug (14). The output force of the hook portion (17) exerted to the lug (14) is amplified by a mechanical advantage provided by a lever effect of the rocker (15) when being turned to the locking position by an input force exerted to the handle arm (18).

A closure for a pharmaceutical vial. The closure comprises an aluminum foil with an inductively meltable adhesive, an elastic seal, and a cap. The cap has an opening through which a perforating cannula can be inserted.

A closure for a pharmaceutical vial. The closure comprises an aluminum foil with an inductively meltable adhesive, an elastic seal, and a cap. The cap has an opening through which a perforating cannula can be inserted.