10.08.20
Arman Ashraf, Mason, OH; Kelyn Anne Arora, Cincinnati, OH; Misael Omar Aviles, Cincinnati, OH; John Lee Hammons, Hamilton, OH; and Paul Thomas Weisman, Cincinnati, OH.
Assigned to The Procter & Gamble Company, Cincinnati, OH.
Filed: 6/19/19
Issued: 9/8/20
A method for manufacturing topsheets for absorbent articles, comprising the steps of: providing a continuous forming belt cycling about a set of guide rollers, the forming belt comprising an outer receiving side and an inner side, and comprising an air permeable substrate belt with an ordered arrangement of airflow blocking structures disposed thereon, the airflow blocking structures projecting in a z-direction outward from the substrate belt and having outermost land surfaces and a z-direction depth on the receiving side of the forming belt, whereby the belt has an arrangement of airflow permeable regions and airflow blocked regions corresponding with the ordered arrangement of airflow blocking structures; providing a forming vacuum system below a working location through which the forming belt travels, and proximate its inner side, wherein the forming belt moves in a machine direction MD through the working location; continuously introducing and entraining a flow of individual polymer streams into an air flow moving generally in a z-direction with respect to the working location of the forming belt; continuously attenuating the polymer streams via the air flow, to form spun filaments; continuously directing the air flow and entrained spun filaments to the working location; using the forming vacuum system to continuously draw air in the air flow through the airflow permeable regions of the forming belt as they move along the machine direction through the working location, and thereby drawing the entrained filaments predominately toward and onto the airflow permeable regions, such that they accumulate to a greater second average basis weight over the airflow permeable regions and to lesser first average basis weight over the airflow blocked regions, to form a batt of accumulated filaments on the receiving side of the forming belt, whereby the batt is provided with an arrangement of built-up regions and attenuated regions corresponding with the ordered arrangement of airflow blocking structures on the forming belt; compacting the batt against the forming belt via a compaction roller, whereby filaments in the attenuated regions are deformed by pressure between the land surfaces and the compaction roller; and lifting the batt away from the forming belt; wherein the airflow blocking structures are arranged on the forming belt in individualized single-topsheet configurations that substantially repeat sequentially on the forming belt along the machine direction, each single-topsheet configuration having a longitudinal axis and being configured to form a section of formed nonwoven web material comprised by a single topsheet having an in-use wearer-facing portion with an outer perimeter, each single-topsheet configuration comprising a configuration of one or more continuous channel-forming structures following one or a plurality of paths, the one or plurality of paths being substantially symmetric about the longitudinal axis and predominately circumscribing a discharge locus on the longitudinal axis, wherein the one or more continuous channel-forming structures extends across a central lateral axis of the single-topsheet.
Assigned to The Procter & Gamble Company, Cincinnati, OH.
Filed: 6/19/19
Issued: 9/8/20
A method for manufacturing topsheets for absorbent articles, comprising the steps of: providing a continuous forming belt cycling about a set of guide rollers, the forming belt comprising an outer receiving side and an inner side, and comprising an air permeable substrate belt with an ordered arrangement of airflow blocking structures disposed thereon, the airflow blocking structures projecting in a z-direction outward from the substrate belt and having outermost land surfaces and a z-direction depth on the receiving side of the forming belt, whereby the belt has an arrangement of airflow permeable regions and airflow blocked regions corresponding with the ordered arrangement of airflow blocking structures; providing a forming vacuum system below a working location through which the forming belt travels, and proximate its inner side, wherein the forming belt moves in a machine direction MD through the working location; continuously introducing and entraining a flow of individual polymer streams into an air flow moving generally in a z-direction with respect to the working location of the forming belt; continuously attenuating the polymer streams via the air flow, to form spun filaments; continuously directing the air flow and entrained spun filaments to the working location; using the forming vacuum system to continuously draw air in the air flow through the airflow permeable regions of the forming belt as they move along the machine direction through the working location, and thereby drawing the entrained filaments predominately toward and onto the airflow permeable regions, such that they accumulate to a greater second average basis weight over the airflow permeable regions and to lesser first average basis weight over the airflow blocked regions, to form a batt of accumulated filaments on the receiving side of the forming belt, whereby the batt is provided with an arrangement of built-up regions and attenuated regions corresponding with the ordered arrangement of airflow blocking structures on the forming belt; compacting the batt against the forming belt via a compaction roller, whereby filaments in the attenuated regions are deformed by pressure between the land surfaces and the compaction roller; and lifting the batt away from the forming belt; wherein the airflow blocking structures are arranged on the forming belt in individualized single-topsheet configurations that substantially repeat sequentially on the forming belt along the machine direction, each single-topsheet configuration having a longitudinal axis and being configured to form a section of formed nonwoven web material comprised by a single topsheet having an in-use wearer-facing portion with an outer perimeter, each single-topsheet configuration comprising a configuration of one or more continuous channel-forming structures following one or a plurality of paths, the one or plurality of paths being substantially symmetric about the longitudinal axis and predominately circumscribing a discharge locus on the longitudinal axis, wherein the one or more continuous channel-forming structures extends across a central lateral axis of the single-topsheet.