Patent application number | Description | Published |
20080268085 | EMBOSSING PROCESS INCLUDING DISCRETE AND LINEAR EMBOSSING ELEMENTS - An apparatus for producing a deep-nested embossed product including a first embossing member and a second embossing member. The first embossing member has a plurality of discrete embossing elements disposed in a first non-random pattern. The second embossing member has a plurality of second embossing elements including at least one linear embossing element. The second embossing elements are disposed in a second non-random pattern such the first non-random pattern and the second non-random pattern nest together to a depth of greater than about 0.01 mm. | 10-30-2008 |
20080274227 | EMBOSSING PROCESS INCLUDING DISCRETE AND LINEAR EMBOSSING ELEMENTS - An apparatus for producing a deep-nested embossed product including a first embossing member and a second embossing member. The first embossing member has a plurality of discrete embossing elements disposed in a first non-random pattern. The second embossing member has a plurality of second embossing elements including at least one linear embossing element. The second embossing elements are disposed in a second non-random pattern such the first non-random pattern and the second non-random pattern nest together to a depth of greater than about 0.01 mm. | 11-06-2008 |
20080274228 | EMBOSSING PROCESS INCLUDING DISCRETE AND LINEAR EMBOSSING ELEMENTS - An apparatus for producing a deep-nested embossed product including a first embossing member and a second embossing member. The first embossing member has a plurality of discrete embossing elements disposed in a first non-random pattern. The second embossing member has a plurality of second embossing elements including at least one linear embossing element. The second embossing elements are disposed in a second non-random pattern such the first non-random pattern and the second non-random pattern nest together to a depth of greater than about 0.01 mm. | 11-06-2008 |
20080302493 | EMBOSSING PROCESS INCLUDING DISCRETE AND LINEAR EMBOSSING ELEMENTS - A method for producing a deep-nested embossed product is disclosed. The method comprises the steps of: a) providing an embossing apparatus having mating first and second embossing members; b) providing the first embossing member with a plurality of discrete embossing elements in a non-random pattern; c) providing the second embossing member with at least one linear embossing element; d) coordinating the at least one linear embossing element with the non-random pattern of first embossing elements; e) aligning the first embossing member and the second embossing member so that the non-random pattern of first embossing elements nest with the at least one linear embossing element to an engagement depth of greater than about 0.01 mm; f) providing one or more plies of material to the embossing apparatus; and, g) passing the one or more plies of the material between the first and second embossing members to produce the deep-nested embossed product. | 12-11-2008 |
20090320750 | APPARATUS FOR THE TRANSFER OF A FLUID TO A MOVING WEB MATERIAL - The present disclosure provides for an apparatus for transferring fluid. The apparatus has a fluid transfer component, a fluid receiving component, a fluid supply, and a fluid motivating component. The fluid transfer component comprises first surface, a second surface, a non-random pattern of distinct pores each defining a pathway between the first and second surfaces, each pathway having a single entry point at the first surface and a single exit point at the second surface. The pores are disposed at preselected locations to provide a desired pattern of permeability. The fluid receiving component comprises a fluid receiving surface. The fluid supply is adapted to provide a fluid in contact with and at a constant fluid pressure with each of said pores. The fluid motivating component is adapted to facilitate transport of the fluid from the first surface through the pores to the second surface. | 12-31-2009 |
20100012203 | APPARATUS FOR THE TRANSFER OF A FLUID TO A MOVING WEB MATERIAL - The present disclosure provides for an apparatus for transferring fluid. The apparatus has a fluid transfer component, a fluid receiving component, a fluid supply, and a fluid motivating component. The fluid transfer component has a first surface, a second surface, a non-random pattern of distinct pores each defining a pathway between the first and second surfaces, a single entry point at the first surface, and a single exit point at the second surface. The pores are disposed at preselected locations to provide a desired pattern of permeability. The fluid receiving component comprises a fluid receiving surface. The fluid supply is adapted to provide a fluid in contact with and at a constant fluid pressure with the first surface of the fluid transfer component. The fluid motivating component is adapted to facilitate transport of the fluid from the first surface through the pores to the second surface. | 01-21-2010 |
20100043884 | METHOD FOR THE TRANSFER OF A FLUID TO A MOVING WEB MATERIAL - The present disclosure provides for a method for transferring fluid. The method provides for the steps of: a) providing a fluid transfer component comprising a first surface, a second surface, a non-random pattern of distinct pores, the pores connecting the first surface and the second surface, the pores being disposed at preselected locations to provide a desired pattern of permeability, b) providing a fluid receiving component comprising a fluid receiving surface, c) motivating a fluid into contact with the first surface and subsequently through the distinct pores to the second surface, d) bringing the second surface and the fluid receiving surface into fluid transfer proximity, e) transferring fluid from the second surface to the fluid receiving surface. | 02-25-2010 |
20120137967 | APPARATUS FOR THE TRANSFER OF A FLUID TO A MOVING WEB MATERIAL - The present disclosure provides for an apparatus for transferring fluid. The apparatus has a fluid transfer component, a fluid receiving component, a fluid supply, and a fluid motivating component. The fluid transfer component has a first surface, a second surface, a non-random pattern of distinct pores each defining a pathway between the first and second surfaces, a single entry point at the first surface, and a single exit point at the second surface. The pores are disposed at preselected locations to provide a desired pattern of permeability. The fluid receiving component comprises a fluid receiving surface. The fluid supply is adapted to provide a fluid in contact with and at a constant fluid pressure with the first surface of the fluid transfer component. The fluid motivating component is adapted to facilitate transport of the fluid from the first surface through the pores to the second surface. | 06-07-2012 |