Systems and methods utilizing stationary and/or moveable cutting components provide limited interference with web processing operations, such as pad spin and pitch alteration. Heat, laser, fluid, or mechanical cutting operations may be used, including respectively, a heated element (e.g., wire, ribbon, bar, or embossing or perforating element) that may be triggered inductively, water or steam jets, or improved knife/anvil cooperation.

Systems and methods utilizing stationary and/or moveable cutting components provide limited interference with web processing operations, such as pad spin and pitch alteration. Heat, laser, fluid, or mechanical cutting operations may be used, including respectively, a heated element (e.g., wire, ribbon, bar, or embossing or perforating element) that may be triggered inductively, water or steam jets, or improved knife/anvil cooperation.

Systems and methods utilizing stationary and/or moveable cutting components provide limited interference with web processing operations, such as pad spin and pitch alteration. Heat, laser, fluid, or mechanical cutting operations may be used, including respectively, a heated element (e.g., wire, ribbon, bar, or embossing or perforating element) that may be triggered inductively, water or steam jets, or improved knife/anvil cooperation.

The present disclosure is directed to methods of manufacturing elastic belts for absorbent articles. The elastic belts may be used as waist bands, or portions thereof, in absorbent articles. The elastic belts may define a first nonwoven substrate, a second nonwoven substrate, and a plurality of elastic strands positioned intermediate the first and second nonwoven substrates. The elastic belts may define a plurality of apertures therethrough to create breathability in the elastic belts.

The present invention relates to a cutting tool (100) for providing holes in a core material layer (10). The cutting tool (100) comprises a cutting knife (110) having a cutting edge (112) configured to cut through the core material layer (10), and a support structure (120) onto which the cutting knife (110) is attached, wherein the support structure (120) is at least partly formed by an elastic material.

The present disclosure relates to a cutting system for providing holes in a core material layer. The cutting system has a cutting tool having a cutting knife configured to cut through the core material layer, and an anvil having a rigid support surface for receiving the cutting knife of the cutting tool. The cutting system further has an elastic member that is positioned to absorb at least a part of a force applied when the cutting tool is pressed against said anvil.

A cutting unit for cutting preparation features in a web of sheetlike material is provided. The cutting unit has a first part with a rigid base portion, at least one first cutting tool configured to cut a first preparation feature in the web of sheetlike material, and at least one second cutting tool configured to cut a second preparation feature in the web of sheetlike material. The at least one first and second cutting tools are attached to the base portion and located at a distance from each other, wherein at least one of the at least one first or second cutting tools is supported by a flexible support that is located in the rigid base portion of the first part.

Apparatuses and methods are provided in relation to a wrapping machine for wrapping packages, and more particularly, to a film-breaking apparatus for use with a wrapping machine having a dispenser carriage movable along a wrapping axis for wrapping a film around a package. The film-breaking apparatus includes a trigger arm coupled to the dispenser carriage; a puncturing arm including a puncturing member, the puncturing arm pivotably connected to the trigger arm such that the trigger arm is free to rotate relative to the puncturing arm in a first rotational direction, and rotationally coupled to the puncturing arm in a second rotational direction. The puncturing arm is configured to puncture the film being dispensed by the dispenser carriage with the puncturing member when rotated by the trigger arm.

Apparatuses and methods are provided in relation to a wrapping machine for wrapping packages, and more particularly, to a film-breaking apparatus for use with a wrapping machine having a dispenser carriage movable along a wrapping axis for wrapping a film around a package. The film-breaking apparatus includes a trigger arm coupled to the dispenser carriage; a puncturing arm including a puncturing member, the puncturing arm pivotably connected to the trigger arm such that the trigger arm is free to rotate relative to the puncturing arm in a first rotational direction, and rotationally coupled to the puncturing arm in a second rotational direction. The puncturing arm is configured to puncture the film being dispensed by the dispenser carriage with the puncturing member when rotated by the trigger arm.

A perforated non-woven fabric having at least one fiber layer that has a plurality of through holes. The total area of the through holes accounts for 1080% of the total area of the perforated non-woven fabric; the opening of the through holes is flat with the surface of the perforated non-woven fabric; and the density of through holes on the perforated non-woven fabric is 3/cm.sup.2100/cm.sup.2. The fiber density at the edge of each through hole is similar to or the same as the fiber density in other areas of the perforated non-woven fabric. The fiber surrounds the through hole, and only the surface of the fiber is bonded to each other.