A method for producing a multi-layered absorbent article is disclosed. At least two of the layers include a colored region.

A method for forming an elastomeric laminate includes the steps of providing a first coverstock material; SELF'ing the first coverstock material to create a pre-SELFed coverstock layer having a primary activation pattern comprising SELF-specific land areas; providing an elastomeric layer; and joining the elastomeric layer to the pre-SELFed layer at zero relative strain, such that the elastomeric layer and pre-SELFed coverstock layer are joined at one or more bonding sites.

A stretchable composite sheet, wherein pleat-free regions where no pleats are formed are formed between a plurality of pleat formation regions, the sheet being made by a method, wherein non-continuous coating sections are set so as to correspond to form the plurality of pleat formation regions, and non-coating sections are set so as to correspond to form the pleat-free regions, and an intermittent coating is performed on stretchable elastic members (rubber threads). An apparatus for non-continuously and intermittently applying a hot-melt adhesive comprises an intermittent coating unit, which includes a hot-melt supply control device having a valve mechanism and a coating head having slit grooves in which coating areas are formed, and a non-continuous coating unit, which vertically vibrates rubber threads, passing through the coating areas, between a coating position and a non-coating position.

Provided are a disposable diaper production method and a disposable diaper production device by which cutting positions of respective side pieces can be accurately managed. A partly-finished product is conveyed in a longitudinal direction in a state in which both side portions in the width direction of the cutting position of respective side panel pieces are held for each set of the two side panel pieces when the respective side panel pieces are cut off by a cutting unit. A controller controls driving rates of a cutting motor and a conveying motor to rotate driving blades at a rate faster than the conveying rate of the partly-finished product.

An apparatus for fabricating an elastic nonwoven material generally includes a first bonding module and a second bonding module. The second bonding module is positionable in close proximity to the first bonding module for receiving a first nonwoven fabric, a second nonwoven fabric, and at least one elastic strand therebetween. The second bonding module has a face with a width dimension and a circumferential axis and is rotatable about a rotation axis. The face has a plurality of ridges includes a first ridge and a pair of second ridges positioned on opposing sides of the first ridge along the circumferential axis. The first ridge defines a plurality of interspaced lands and notches, and the second ridges are configured to sever the at least one elastic strand when in close proximity to the first bonding module.

The present invention is intended to prevent cutting of the resilient and elastic members by a welding process. The foregoing issue is solved by passing a first sheet layer, a second sheet layer, and elongated resilient and elastic members continuously disposed in an MD direction between the two sheet layers, between a first roll with joint convex parts provided at circumferential intervals on an outer peripheral surface and a second roll opposed to the first roll, and pressurizing and heating the first sheet layer and the second sheet layer to form sheet joined sections by welding the first sheet layer and the second sheet layer in such a manner as to cross the resilient and elastic members and have MD-direction intervals therebetween, wherein circumferentially continuous grooves are formed on a pressurization surface of the second roll, passage sections of the resilient and elastic members are pressurized and heated in positions including the grooves of the second roll, and non-passage sections of the resilient and elastic members are pressurized and heated in positions not including the grooves of the second roll.

A method for mechanically deforming, such as by bonding, a substrate assembly. The substrate assembly may be advanced at first velocity toward a bonder apparatus. The bonder apparatus may rotate at a second velocity, which is less than or equal to the first velocity. The bonder apparatus may include a support surface and a process assembly. The substrate assembly may be contracted prior to advancing onto the bonder apparatus. A first process assembly may receive a leading portion of the substrate assembly and a subsequent process assembly may receive a trailing portion. The leading portion and the trailing portion define a product arc length, which is less than or equal to a process product pitch. One or more processes may be performed on the substrate assembly. The substrate assembly may then be removed from the apparatus and advanced through a metering assembly such that the substrate assembly exits at the first velocity and may be expanded such that the leading portion and the trailing portion are separated by the process product pitch.

A method for mechanically deforming a substrate assembly. The substrate assembly may advance at a first velocity toward a bonder apparatus. The bonder apparatus may rotate about an axis of rotation and include a support surface between a first member and a second member. The first and second members may rotate at the first velocity and may be separated by an initial angle. The first member may receive a leading portion and the second member may receive a trailing portion of the substrate assembly. The first member may decelerate to a second velocity, and, subsequently, the second member may decelerate to the second velocity. The first member and the second member may be separated by a process angle, which may be different than the initial angle. A central portion of the substrate assembly may be relaxed while the leading and trailing portion may be held at a process tension. The substrate assembly may then undergo one or more processes.

Manufacturing a multiple use absorbent article includes producing an absorbent article having a liquid permeable chassis topsheet, a liquid impermeable chassis backsheet, and a chassis absorbent core sandwiched between the chassis topsheet and the chassis backsheet. The method also includes producing an absorbent insert having an insert topsheet, an insert backsheet, and an insert absorbent core. The method also includes producing a separable line of weakness within or adjacent to the peripheral sealing region, and bonding the insert backsheet to the chassis topsheet, wherein the line of weakness provides for separation of the absorbent insert into a removable portion configured to be removed from the chassis absorbent unit, and a resident portion that remains bonded to the chassis absorbent unit.

The present disclosure relates to methods and apparatuses for assembling absorbent articles, and more particularly, methods and apparatuses for severing elastic in an advancing elastic laminate. A continuous elastic laminate may be formed by bonding elastic strands between a first continuous substrate layer and a second continuous substrate layer. As discussed in more detail below, the continuous elastic laminate may advance through a cutting apparatus that intermittently deactivates or severs the elastic strands of the elastic laminate along the machine direction.