A device for processing a continuous web includes a feed station for feeding the web in a feed direction towards a cutting station for cutting the web to a cutting length into individual segments of web that are disc-shaped. A further feed station feeds each segment. A first cutting unit cuts the web into the segments and a second cutting unit includes a cutting element configured to sever the web across a full width in a direction transverse to the feed direction. A drive unit is configured to issue a command to move the cutting element from a non-operating position, where the web is fed by the feed station to the first cutting unit through the second cutting unit, to an operating position, where the web is severed by the cutting element to interrupt feeding of the web to the first cutting unit.

A device for processing a continuous web includes a feed station for feeding the web in a feed direction towards a cutting station for cutting the web to a cutting length into individual segments of web that are disc-shaped. A further feed station feeds each segment. A first cutting unit cuts the web into the segments and a second cutting unit includes a cutting element configured to sever the web across a full width in a direction transverse to the feed direction. A drive unit is configured to issue a command to move the cutting element from a non-operating position, where the web is fed by the feed station to the first cutting unit through the second cutting unit, to an operating position, where the web is severed by the cutting element to interrupt feeding of the web to the first cutting unit.

Cutting systems and methods capable of performing a variable cutting operation on a continuous web. The system includes a first cutting apparatus configured to receive the web and perform a cutting operation thereon to produce unfinished documents, and a second cutting apparatus configured to subsequently perform a trim cutting operation thereon to produce finished documents of selectively defined finished lengths, wherein the second cutting apparatus has a feed direction that is perpendicular to a feed direction of the first cutting apparatus. The system includes a conveyor system configured to receive the unfinished documents from the first cutting apparatus, arrange the unfinished documents into a stream of shingled documents traveling in the feed direction of the first cutting apparatus, and turn the unfinished documents at a right angle to travel in the feed direction of the second cutting apparatus without changing their orientation.

Cutting systems and methods capable of performing a variable cutting operation on a continuous web. The system includes a first cutting apparatus configured to receive the web and perform a cutting operation thereon to produce unfinished documents, and a second cutting apparatus configured to subsequently perform a trim cutting operation thereon to produce finished documents of selectively defined finished lengths, wherein the second cutting apparatus has a feed direction that is perpendicular to a feed direction of the first cutting apparatus. The system includes a conveyor system configured to receive the unfinished documents from the first cutting apparatus, arrange the unfinished documents into a stream of shingled documents traveling in the feed direction of the first cutting apparatus, and turn the unfinished documents at a right angle to travel in the feed direction of the second cutting apparatus without changing their orientation.

The present disclosure relates to assembling, advancing, reorienting, and/or transferring stretched elastic parts during the assembly of absorbent articles. As described herein, a transfer assembly reorients a stretched elastic part from a first orientation, wherein the direction of stretch is generally parallel to the machine direction, to a second orientation, wherein the direction of stretch is generally perpendicular to the machine direction. The reoriented elastic part is then transferred to a carrier while maintaining the stretched condition of the elastic part. The orientation and/or configuration of vacuum apertures in a carrier surface relative to the direction of stretch of the elastic part and relative to the machine direction helps to prevent the elastic part from contracting, while at the same time helps to allow the elastic part to slide off the carrier surface without snagging and/or sticking to aperture perimeter edges.

The present disclosure relates to assembling, advancing, reorienting, and/or transferring stretched elastic parts during the assembly of absorbent articles. As described herein, a transfer assembly reorients a stretched elastic part from a first orientation, wherein the direction of stretch is generally parallel to the machine direction, to a second orientation, wherein the direction of stretch is generally perpendicular to the machine direction. The reoriented elastic part is then transferred to a carrier while maintaining the stretched condition of the elastic part. The orientation and/or configuration of vacuum apertures in a carrier surface relative to the direction of stretch of the elastic part and relative to the machine direction helps to prevent the elastic part from contracting, while at the same time helps to allow the elastic part to slide off the carrier surface without snagging and/or sticking to aperture perimeter edges.

Method for cutting media from a multi-roll printing system, comprising the steps of: selecting one of a first medium and a second medium, which first medium and second medium are output in parallel with respect to one another from the multi-roll printing system; transporting the selected medium to a cutting media transport path spaced apart from a further media transport path in a traverse direction perpendicular to a plane of the cutting media transport path; and cutting the selected medium positioned at the cutting media transport path.

The present invention further relates to a cutting assembly and a multi-roll printing system.

Tension spikes in a running web slit to direct output webs to respective upper and lower cutoff knives are minimized by anticipating the increased tension in the web when the lead edge enters an outfeed nip and offsetting the tension spike with a decrease in the force imposed by the infeed pull roll nip, whereby the sum of the web tensions is substantially uniform through the cutting cycle and the sheets are cut to a consistent length.

Tension spikes in a running web slit to direct output webs to respective upper and lower cutoff knives are minimized by anticipating the increased tension in the web when the lead edge enters an outfeed nip and offsetting the tension spike with a decrease in the force imposed by the infeed pull roll nip, whereby the sum of the web tensions is substantially uniform through the cutting cycle and the sheets are cut to a consistent length.

A system for applying a material to a substrate comprising: a feed section that comprises a feed roll and configured for advancing a material along a predetermined path; a material applicator roll configured to receive the material from the feed roll and apply a cut length of material to a substrate; a knife element located between the feed section and the material applicator roll; and a non-vacuum anvil roll positioned near the knife element, wherein the knife element and the non-vacuum anvil roll are positioned along the path of the material and engage the material to cut the material into the cut length of material for applying to the substrate, and wherein the material contacts the peripheral surface of the non-vacuum anvil roll only at a cut engagement point.