Cards may be manufactured in a lamination process, such that interior portions of the cards may be visible. Punch alignment queues within the card may be scanned by a punch machine and rendered onto a display of the punch machine. The punch alignment queues may be aligned with targets also rendered onto the display so that the card may be properly aligned within a punch machine to prepare the card for a trimming process. A Venturi system may temporarily adhere the card to a punch of the punch machine while the punch is engaged with a die to trim the card. The cutting surface of the die may be offset with respect to a surface of the punch, so that the card may be sequentially trimmed along a perimeter of the card.

Cards may be manufactured in a lamination process, such that interior portions of the cards may be visible. Punch alignment queues within the card may be scanned by a punch machine and rendered onto a display of the punch machine. The punch alignment queues may be aligned with targets also rendered onto the display so that the card may be properly aligned within a punch machine to prepare the card for a trimming process. A Venturi system may temporarily adhere the card to a punch of the punch machine while the punch is engaged with a die to trim the card. The cutting surface of the die may be offset with respect to a surface of the punch, so that the card may be sequentially trimmed along a perimeter of the card.

A face shield manufacturing method includes, among other things, positioning a bumper layer between a headband layer and a shield layer. The method further includes securing the bumper layer, the shield layer, and headband layer to provide a multilayered structure, and cutting a face shield assembly from the multilayered structure. A face shield assembly includes, among other things, a bumper configured to be placed against a front of a head of a user, a shield secured to the bumper, a headband configured to be placed against a rear of the head of the user, and fasteners. Each of the fasteners binds an end portion of the headband to at least the bumper. The headband is folded over each fastener when the bumper is placed against the front of the head of the user and the headband is placed against a back of the head of the user.

A method for manufacturing a plurality of pharmaceutical agent delivery patch devices includes: providing a supply web including an active layer containing a pharmaceutically active agent; and cutting the supply web to form cut lines through the active layer. The cut lines define in the active layer: a first active layer patch having a first peripheral edge formed by the cutting step; and a second active layer patch having a second peripheral edge formed by the cutting step. The first and second peripheral edges each include a corner portion. At least a first segment of the first peripheral edge and an opposing second segment of the second peripheral edge are formed by a shared one of the cut lines.

A method for manufacturing a plurality of pharmaceutical agent delivery patch devices includes: providing a supply web including an active layer containing a pharmaceutically active agent; and cutting the supply web to form cut lines through the active layer. The cut lines define in the active layer: a first active layer patch having a first peripheral edge formed by the cutting step; and a second active layer patch having a second peripheral edge formed by the cutting step. The first and second peripheral edges each include a corner portion. At least a first segment of the first peripheral edge and an opposing second segment of the second peripheral edge are formed by a shared one of the cut lines.

A system for forming apertures in a flexible film is provided. The system includes a punching tool for forming apertures in a flexible film. The punching tool defines a through hole therethrough. The system also includes a support plate. The punching tool is configured to press the flexible film against the support plate to form the apertures.

A system for forming apertures in a flexible film is provided. The system includes a punching tool for forming apertures in a flexible film. The punching tool defines a through hole therethrough. The system also includes a support plate. The punching tool is configured to press the flexible film against the support plate to form the apertures.

A punch unit associable with a respective punch holder of a punching machine to form a punch assembly comprises a punch tip holder mountable on the respective punch holder and a punch tip housed in, and connected to, said punch tip holder in an assembled configuration; the punch tip holder includes a connecting element coupled to the punch tip; an adapter element shaped and sized so as to be inserted and housed in the respective punch holder and provided with an inner cavity suitable to house the connecting element with the punch tip in the assembled configuration; locking means housed in the adapter element, which can be operated manually without tools and arranged for locking or unlocking the connecting element with the punch tip to or from said adapter element.

A method for multiple-stroke slotting of planar workpieces includes positioning a workpiece relative to a slotting tool having a punch and a die, moving the punch and the die relative to one another, moving the slotting tool and the workpiece relative to one another, slotting a workpiece by a slot length during a sectioning slot stroke and at least one subsequent slotting stroke in a sectioning phase, and performing strokes in form of slotting strokes and at least one trimming stroke during the relative movement of the punch and the die in a working phase. The subsequent slotting stroke is performed prior to the trimming stroke, and the slot length exceeds a maximum attainable slot length during the trimming stroke. The workpiece and the slotting tool are moved relative to one another by at least one feed movement between the strokes.

A method for multiple-stroke slotting of planar workpieces includes positioning a workpiece relative to a slotting tool having a punch and a die, moving the punch and the die relative to one another, moving the slotting tool and the workpiece relative to one another, slotting a workpiece by a slot length during a sectioning slot stroke and at least one subsequent slotting stroke in a sectioning phase, and performing strokes in form of slotting strokes and at least one trimming stroke during the relative movement of the punch and the die in a working phase. The subsequent slotting stroke is performed prior to the trimming stroke, and the slot length exceeds a maximum attainable slot length during the trimming stroke. The workpiece and the slotting tool are moved relative to one another by at least one feed movement between the strokes.