A system for manufacturing a two-part fastener may include a fastener-molding housing and an actuating assembly. The fastener-molding housing may include a fastener mold having a first mold section connected to a second mold section through a flash connection mold section. The fastener mold is configured to receive fastener-forming material to form a pre-engaged fastener having a first fastener portion within the first mold section and a second fastener portion within the second mold section. The first fastener portion is temporarily secured to the second fastener portion through a flash connection portion formed within the flash connection mold section. The an actuating assembly includes a stripper plate, a connecting member, and at least one ejection member. The connecting member is configured to securely retain the first fastener portion. The stripper plate is configured to be moved relative to the connecting member in order to drive one of the first or second fastener portions into the other of the first or second fastener portions to form a fully-formed fastener. The ejection member is configured to eject the fully-formed fastener from the actuating assembly

A method for producing a package closure having a neck, a cap and an axis (A) includes a) by means of movable jaws and a tool core forming the neck with an outer thread and the cap with an inner thread, wherein an interior of the neck is formed by an outer first tool core part, and wherein an interior of the cap is formed by an inner second tool core part and a third tool core part, the thread of the cap being formed by the third tool core part, b) removing the jaws from the formed package closure, c) axially displacing the second tool core part in relation to the first tool core part and thereby separating the cap and the neck, d) axially displacing the third tool core part in relation to the second tool core part and thereby disengaging the cap from the third tool core part while keeping the second tool core part engaged with the cap, e) displacing the neck axially in relation to the cap and bringing the thread of the cap into engagement with the thread of the neck through an inherent flexibility of the package closure to form a package closure having a cap mounted on the neck, and f) displacing the package closure in relation to the second tool core part to disengage the package closure from the tool core.

A fastener including a pin and a grommet. The pin is pre-engaged to the grommet with at least one flash connection, the pin is configured to be secured to the grommet at least by the flash connection being broken, and one of the pin or the grommet moves relative to the other of the pin or the grommet to break the at least one flash connection. Further, the pin is configured to engage and be secured to a first component and the grommet is configured to engage and be secured to a second component.

A manufacturing process for an active grille shutter arrangement including in-mold assembly of an active aero hinge modular frame that allows for the joining of multiple components that are to be assembled directly out of the molding process tooling. These components could be the vane end pivots, vane end stops, drive linkages, frame end stops, etc. Final assembly of the system is facilitated by geometrical considerations and molding material considerations in the in-mold assembly (IMA) design.

A fastener including a pin and a grommet. The pin is pre-engaged to the grommet with at least one flash connection, the pin is configured to be secured to the grommet at least by the flash connection being broken, and one of the pin or the grommet moves relative to the other of the pin or the grommet to break the at least one flash connection. Further, the pin is configured to engage and be secured to a first component and the grommet is configured to engage and be secured to a second component.

A system for manufacturing a two-part fastener may include a fastener-molding housing and an actuating assembly. The fastener-molding housing may include a fastener mold having a first mold section connected to a second mold section through a flash connection mold section. The fastener mold is configured to receive fastener-forming material to form a pre-engaged fastener having a first fastener portion within the first mold section and a second fastener portion within the second mold section. The first fastener portion is temporarily secured to the second fastener portion through a flash connection portion formed within the flash connection mold section. The an actuating assembly includes a stripper plate, a connecting member, and at least one ejection member. The connecting member is configured to securely retain the first fastener portion. The stripper plate is configured to be moved relative to the connecting member in order to drive one of the first or second fastener portions into the other of the first or second fastener portions to form a fully-formed fastener. The ejection member is configured to eject the fully-formed fastener from the actuating assembly.

A manufacturing process for an active grille shutter arrangement including in-mold assembly of an active aero hinge modular frame that allows for the joining of multiple components that are to be assembled directly out of the molding process tooling. These components could be the vane end pivots, vane end stops, drive linkages, frame end stops, etc. Final assembly of the system is facilitated by geometrical considerations and molding material considerations in the in-mold assembly (IMA) design.

A system for manufacturing a two-part fastener may include a fastener-molding housing and an actuating assembly. The fastener-molding housing may include a fastener mold having a first mold section connected to a second mold section through a flash connection mold section. The fastener mold is configured to receive fastener-forming material to form a pre-engaged fastener having a first fastener portion within the first mold section and a second fastener portion within the second mold section. The first fastener portion is temporarily secured to the second fastener portion through a flash connection portion formed within the flash connection mold section. The an actuating assembly includes a stripper plate, a connecting member, and at least one ejection member. The connecting member is configured to securely retain the first fastener portion. The stripper plate is configured to be moved relative to the connecting member in order to drive one of the first or second fastener portions into the other of the first or second fastener portions to form a fully-formed fastener. The ejection member is configured to eject the fully-formed fastener from the actuating assembly.

A method of producing a package closure (10) of plastic material by means of a mould comprising movable jaws (35, 36), a counterpart (37), an outer first tool core part (38), an inner second tool core part (39) and an ejector (40), wherein the outer first tool core part, the second tool core part and the ejector are axially displaceable relative each other, comprising the steps of axially displacing the outer first tool core part and the second tool core part in relation to each other in a first direction, thereby disengaging the cap from the outer first tool core part while keeping the inner second tool core part engaged with the cap, and then axially displacing the inner second tool core part and the outer first tool core part and/or the ejector (32) in relation to each other in the first direction or in an opposite second direction while folding a foldable portion (21) of the package closure inward through an inherent flexibility of the package closure (10), Disclosed is also a device for producing the package closure (10) and various embodiments of package closures.