Highly textured non-woven composite wipe

a non-woven, wipe technology, applied in carpet cleaners, packaging goods, foodstuffs, etc., can solve the problems of low cost and affect another parameter, and achieve the effect of increasing flexibility, increasing thickness, and low bending stiffness

Inactive Publication Date: 2005-07-07
KIMBERLY-CLARK WORLDWIDE INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0023] As used herein, the term “wet wipe” refers to a fibrous sheet which, during its manufacture, has a liquid applied thereto so that the liquid can be retained on or within the fibrous sheet until its utilization by a consumer. The liquid may include a fragrance and / or an emollient and may serve to aid the fibrous sheet in retention of materials which are to be wiped up during its utilization.
[0029] The present invention provides for increasing the amount of thickness, texture and flexibility of the wipe, without the characteristic increase in basis weight that usually follows, thus allowing for less raw material utilization while obtaining enhance functionality (i.e., a better wipe for less money). Further, the invention provies a highly textured outer layer with an inner layer whereby retraction of the outer layer(s) causes it to pucker and gather in between points bonding the outer layer(s) and inner layer. As such texture upon texture is created, first from the outer layer(s) and then by the composite, which together form wipes of the invention.
[0031] The problem of lack of softness or cloth-like feel associated with previous disposable wipes has been addressed by the wipes of the present invention, e.g., composite elastic material of the present invention, which are adapted to provide a more cloth like feel than otherwise available. This can be accomplished by providing, e.g., a non-woven composite material or SBL, having a low bending stiffness (i.e., increased flexibility) and an increased thickness at a relatively lower basis weight (i.e., maximum bulk per unit mass), while maintaining a desired level of strength (i.e., sufficient tensile strength in both machine direction, MD, and in cross-machine direction, CD).

Problems solved by technology

However, if one of these parameters is changed this can affect another of the parameters.
Producing a high quality disposable wipe that is soft, thick and textured like a woven wash cloth, but at a low cost, can be difficult.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0087] Wipes were made as described in the present application. Each wipe contained a three-layer laminate composite elastic material, which included two gatherable outside textured-surface coform layers and in inner elastomeric core layer.

Elastomeric Core

[0088] The elastomeric layer in this example is produced using a two bank meltblown process and a single continuous speed foraminous belt. The first bank of the meltblown process was setup to extrude elastomeric filaments / fibers directly onto the foraminous belt in a substantially parallel configuration without the use of heated primary air to draw the filaments. A metallocene-catalyzed polyethylene resin available from DOW Chemical Company, under the trade designation of Dow Affinity® XUS59400.03L, was used to produce the filaments at a nominal melt temperature of 220° C. The substantially parallel filaments were extruded through a spin beam with a nominal hole size of 0.07 cm and a density of 7 holes per cm. The velocity of th...

example 2

[0099] Following the procedure of Example 1, a composite elastic material is prepared using an elastomeric web containing 100% elastomeric meltblown fibers at a basis weight of 25 grams per square meter.

example 3

[0100] A particularly suitable solution and method of application for a washcloth wipe is described as follows:

[0101] The chemical applied to the substrate can be any useful chemical or mixture of various chemicals that enhances the functionality of the substrate for its intended purpose. Possible chemical additives include, without limitation, strength additives, absorbency additives, softener additives, surfactant additives, conditioning additives, aesthetic additives such as fragrances or dyes. Other additives include, without limitation, anti-acne additives, antimicrobial additives, antifungal additives, antiseptic additives, antioxidants, cosmetic astringents, drug astringents, deodorants, detergents, emollients, external analgesics, binders, film formers, skin moisturizing ingredients as known in the art, opacifiers, skin conditioning agents, skin exfoliating agents, skin protectants, sunscreens, vapor rubs and the like. Suitable chemicals are disclosed in U.S. Pat. No. 5,400...

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Abstract

A wipe comprising a non-woven composite material including at least one non-woven inner layer and at least one non-woven outer layer. The outer layer is textured and has a Layer Peak To Valley Ratio greater than 1 and less than about 4 and is bonded to the inner layer at at least two points. The composite material has a Wipe Peak To Valley Ratio greater than 1 and less than about 4.

Description

BACKGROUND OF THE INVENTION [0001] Fibrous non-woven materials and fibrous non-woven composite materials are widely used as products, or as components of products, such as dry wipes and wet wipes because they can be manufactured inexpensively and made to have specific characteristics. These products can be manufactured so inexpensively that they can be viewed as disposable, as opposed to reusable. [0002] One approach to making fibrous non-woven materials for wipes is the use of homogeneous mixtures of materials such as air laid webs of fibers mixed with cellulosic fibers or another absorbent material. Other wipes have been prepared by joining different types of non-woven materials in a laminate or formed as a layered structure. These products can be prepared from plastic materials such as plastic sheets, films and non-woven webs, prepared by extrusion processes such as, for example, slot film extrusion, blown bubble film extrusion, meltblowing of non-woven webs and spinbonding. [000...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A45D34/00A47L13/16A47L13/17B08B1/00B32B3/30B32B5/26D04H13/00
CPCA45D34/00A45D2200/1018A45D2200/1036D04H13/002B32B3/30B32B5/26B08B1/00B08B1/006D04H1/4374D04H1/559D04H1/56Y10T442/601Y10T442/659A47L13/16A47L13/17D04H13/00B32B5/022B32B2307/54B32B2307/546B32B2307/718B32B2555/00
Inventor KOPACZ, THOMAS JOSEPHZANDER, TERESA MARIEPAWAR, PAU-LINKREMER, THOMASWRIGHT, ALAN EDWARD
Owner KIMBERLY-CLARK WORLDWIDE INC
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