| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 156161000 | Of stressed filaments | 14 |
| 20100000665 | Enhanced Thickness Fabric and Method of Making Same - The present invention provides thickened fabrics and reinforcements for use as a spacer or reinforcement for a matrix system. The fabric includes in a first embodiment a woven fabric comprising weft and warp yarns containing glass fibers. A portion of the weft yarns are undulated into a sinusoidal path forming a generally “C” shaped bridge between adjacent warp yarns which results in an increased thickness for the fabric. The fabric is coated with a polymeric resin or bonding agent, for substantially binding the weft yarns in the undulated condition. This invention also includes methods for making such fabric by increasing the thickness of a woven or non-woven material by such methods as applying tension to warp yarns having opposite twists during weaving operations, or using unbalanced yarns, for example. | 01-07-2010 |
| 20100212814 | ADHESIVE EJECTING APPARATUS - An ejecting mechanism includes a pump, a pump controller unit, a distribution pipe, a restricting unit, and adhesive nozzles. The pump controller unit is configured to control to increase or decrease the amount of adhesive to be taken in by the pump. The distribution unit is configured to send a predetermined amount of adhesive to the adhesive nozzles out of the adhesive supplied by the pump, and to return the rest of adhesive to a discharge pipe out of the supplied adhesive, except for the predetermined amount of adhesive. The restricting unit is configured to disposed between the distribution unit and the discharge pipe and configured to restrict an amount of adhesive to be returned to a pipe. | 08-26-2010 |
| 20120247651 | System and Method for the Automated Delivery and Layup of Resin Infused Fibers - An automated in-line feed-through system integrating the delivery, application and infusion of a resin to one or more fiber tows and layup of the one or more infused fiber tows to form a composite structure. The system includes an automated resin delivery, deposition and infusion system configured to deposit the resin on one or more fiber tows and form the infused fiber tows. The system integrates an automated layup system including a compaction roller, a guide roller coupled to an extending cylinder, and an auxiliary roller configured to adhere the one or more infused fiber tows to a substrate. The system further includes a controller configured to control system parameters, including the control of tension of the one or more infused fiber tows within the automated layup system. Other aspects of the automated in-line manufacturing system are also provided. | 10-04-2012 |
| 20130233470 | METHOD FOR OBTAINING A COMPOSITE MATERIAL PART INCORPORATING A TENSIONING STEP OF THE FILAMENTS AND TOOL FOR ITS IMPLEMENTATION - A method for obtaining a composite material part from a preform of layers of fibers pre-impregnated with resin stacked on top of one another on a tool, the preform being delimited by a lower surface, an upper surface, and a peripheral flank. The method includes attaching to the tool, after the last layer has been laid, a peripheral part comprising a wing adapted to cover the peripheral edge of the upper surface, so as to create, in the periphery of the preform, a peripheral cavity adjacent to the flank of the preform and, before the polymerization phase, to withdraw the gas present in the peripheral cavity so as to tension filaments of the preform by exerting a traction force at the ends of the filaments. | 09-12-2013 |
| 20130240122 | METHOD OF MANUFACTURING A PERSONAL HYGIENE PRODUCT - A method of manufacturing a disposable absorbent personal hygiene product including a stretched elastic strand and a flat nonwoven substrate includes mixing a pressurized gas and hot melt adhesive to form a foamed adhesive. A filament of foamed adhesive is discharged toward the stretched elastic strand and deposited onto the stretched elastic strand so that the foamed adhesive expands in volume on the stretched elastic strand. The stretched elastic strand is secured to the flat nonwoven substrate with the foamed adhesive. Alternatively, the foamed adhesive secures two flat nonwoven substrate portions of the disposable absorbent personal hygiene product together. | 09-19-2013 |
| 20130255861 | Apparatuses and Methods for Making Absorbent Articles - The present disclosure relates to methods and apparatuses for assembling absorbent articles, and more particularly, diapers, each including a chassis connected with front and back elastic belts. Opposing end regions of the chassis are connected with regions of the elastic belts where the elasticity of the elastic belts has been removed or deactivated. As discussed in more detail below, an elastic laminate is formed by intermittently bonding elastic strands between a first continuous substrate layer and a second continuous substrate layer. The elastic strands are then intermittently deactivated by severing the strands in the non-bonded regions to form deactivated regions of the elastic laminate. A plurality of chassis may then be bonded with the elastic laminate, wherein the first or second end regions of each chassis may be bonded with deactivated regions of the continuous elastic laminate. | 10-03-2013 |
| 20130255862 | Apparatuses and Methods for Making Absorbent Articles - The present disclosure relates to methods and apparatuses for assembling diapers, each including a chassis connected with front and back elastic belts. As discussed in more detail below, opposing end regions of the chassis are connected with regions of the elastic belts where the elasticity of the elastic belts has been removed or deactivated. An elastic laminate may be formed by continuously bonding elastic strands between a first continuous substrate layer and a second continuous substrate layer such that the elastic strands are bonded to both the first substrate layer and the second substrate layer in heavy-bond regions. And the elastic strands are bonded to the first substrate layer and/or the second substrate layer with in light-bond regions. The elastic strands are then intermittently deactivated by cutting the strands into one or more discrete pieces in the light-bond regions. The discrete pieces retract and remain in the light-bond regions. | 10-03-2013 |
| 20130255863 | Apparatuses and Methods for Making Absorbent Articles - The present disclosure relates to methods and apparatuses for assembling diaper pants, each including a chassis connected with front and back elastic belts. Opposing end regions of the chassis may be connected with regions of the elastic belts where the elasticity of the elastic belts has been removed or deactivated. An elastic laminate may be formed by intermittently bonding elastic strands with a first continuous substrate, defining bonded regions and non-bonded regions intermittently spaced along the machine direction. A second continuous substrate may be cut into discrete lengths or patches intermittently spaced along the machine direction. The discrete lengths of the second substrate may then be bonded with the first continuous substrate and elastic strands in the bonded regions. The elastic strands are then intermittently deactivated by severing the strands in the non-bonded regions. And plurality of chassis may then be bonded with non-bonded regions of the elastic laminate. | 10-03-2013 |
| 20130255864 | Apparatuses and Methods for Making Absorbent Articles - The present disclosure relates to methods and apparatuses for assembling absorbent articles, and more particularly, diaper pants, each including a chassis connected with front and back elastic belts. As discussed in more detail below, opposing end regions of the chassis are connected with regions of the elastic belts where the elasticity of the elastic belts has been removed or deactivated. As discussed in more detail below, an elastic laminate may be formed by continuously bonding elastic strands between a first continuous substrate layer and a second continuous substrate layer. The elastic strands are then intermittently severed in light-bond regions of the elastic laminate. Adhesive on the laminate causes the severed elastic ends to retract or snap back from the light-bond regions at a relatively slower and/or controlled rate. | 10-03-2013 |
| 20130255865 | Methods and Apparatuses for Making Leg Cuffs for Absorbent Articles - The present disclosure relates to methods and apparatuses for assembling absorbent articles that include leg cuff gasketing assemblies. As discussed in more detail below, each leg gasketing assembly may be formed from elastic laminates having stretched elastic strands intermittently bonded thereto. As such, the elastic laminate includes bonded regions and non-bonded regions intermittently spaced along the machine direction. The elastic strands are then intermittently deactivated by severing the strands in the non-bonded regions of the continuous elastic laminate to form continuous lengths of leg gasketing assemblies having elastic regions and deactivated regions. The continuous lengths of leg gasketing assemblies may then bonded to a continuous topsheet substrate. In some embodiments, the elastic laminate may be combined with the topsheet substrate before severing the strands in the non-bonded regions. | 10-03-2013 |
| 20140196836 | METHOD FOR APPLYING STRETCHED ELASTIC STRANDS TO A SUBSTRATE - A system and method applies a plurality of stretched elastic strands onto a substrate such as along a predetermined non-linear path, to form a leg gather of a disposable absorbent personal hygiene product. The system includes an adhesive dispensing module for individually applying adhesive to the elastic strands. A heated strand guide located downstream of the dispensing module includes guide openings for the respective elastic strands. A drive mechanism coupled to the strand guide actuates movement of the strand guide in a direction transverse to the movement direction of the substrate, thereby causing the elastic strands to be applied to the substrate along the predetermined non-linear path. | 07-17-2014 |
| 20150083309 | Apparatus and Method for Making Side Seams on Absorbent Articles - The present disclosure relates to methods and apparatuses configured to bond elastic laminates together between a rotating drum and anvil. The drum includes a fluid nozzle and a press member. As such, a first elastic laminate and a second elastics laminate may be advanced in a machine direction onto the rotating drum. A fluid is heated to a temperature sufficient to partially melt substrate layers of the first and second elastic laminates. As the drum rotates, the press member shifts radially outward from the drum wherein a length, L, of the pattern surface extends in the cross direction across a plurality of elastic strands of first and/or second elastic laminates. And the partially melted portion of the substrate layers of the first and second elastic laminates and the plurality of elastic strands are then bonded together by being compressed between the pattern surface and the anvil roll. | 03-26-2015 |
| 20160089866 | METHOD FOR MANUFACTURING A COMPOSITE MATERIAL PART COMPRISING A WEB AND AT LEAST ONE FLANGE - A method for manufacturing a composite material part comprising a web and at least one flange. In a laying up stage, a plurality of plies of different orientations, including 0° oriented plies, are laid up to obtain a flat laminate with edges comprising an outer contour and an inner contour, the flat laminate also comprising at least one section with a radius of curvature of less than 10 m. A forming stage comprises forming a fold along a folding line on the flat laminate to create a flange forming an angle with the web, and applying a stress tension to the 0° oriented plies located at least partially between the folding line and the outer contour of the flat laminate, in the at least one section, to avoid the appearance of wrinkles. | 03-31-2016 |
| 20160102457 | METHOD OF MAKING A RIGID FIBER GRID - A method of making a rigid fiber mesh grid includes forming a plurality of substantially rigidified elongated rods formed from fiber strands and forming a plurality of substantially round cross section wrapped fiber tows and tensioning the plurality of wrapped fiber tows in parallel to one another at predetermined laterally spaced intervals. The wrapped fiber tows are wetted with an adhesive. The plurality of substantially rigidified elongated rods are placed on top of and generally perpendicular to the plurality of wetted wrapped fiber tows at spaced intervals. The adhesive is then cured to secure the elongated rods to the plurality of wrapped fiber tows. | 04-14-2016 |
