U.S. patent application number 10/780345 was filed with the patent office on 2004-09-30 for disposable absorbent article employing an absorbent composite and method of making the same.
Invention is credited to Ducker, Paul M., Klemp, Walter V., Sneed, Scott W., Suzuki, Migaku.
Application Number | 20040193128 10/780345 |
Document ID | / |
Family ID | 32993437 |
Filed Date | 2004-09-30 |
United States Patent
Application |
20040193128 |
Kind Code |
A1 |
Klemp, Walter V. ; et
al. |
September 30, 2004 |
Disposable absorbent article employing an absorbent composite and
method of making the same
Abstract
A disposable absorbent article includes a topsheet, a backsheet
and an absorbent core disposed therebetween. One or more of the
backsheet, topsheet, and absorbent core is constructed of an
absorbent composite that includes an absorbent layer of hydratable
fine fibers in the form of microfibril obtained from cellulose or a
derivative thereof and super absorbent polymer (SAP) particles
bonded together by the hydratable fibers, and a nonwoven substrate
supporting the absorbent layer such as SMS. The absorbent layer is
coated over the surface of the nonwoven substrate. The core may
include one uniform layer of the absorbent composite or a composite
having one layer of the nonwoven substrate and a plurality of
segmented absorbent layers applied thereon. In the latter design,
the absorbent layers are spaced apart from one another to expose
surface sections of the substrate. These non-coated surface
sections provide wicking zones which allow room for the absorbent
layers to expand and prevent gel blocking.
Inventors: |
Klemp, Walter V.; (Houston,
TX) ; Ducker, Paul M.; (St. Simons, GA) ;
Sneed, Scott W.; (Decatur, GA) ; Suzuki, Migaku;
(Kanagawa, JP) |
Correspondence
Address: |
PAULA D. MORRIS & ASSOCIATES, P.C.
d/b/a THE MORRIS LAW FIRM, P.C.
10260 WESTHEIMER, SUITE 360
HOUSTON
TX
77042-3110
US
|
Family ID: |
32993437 |
Appl. No.: |
10/780345 |
Filed: |
February 17, 2004 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
10780345 |
Feb 17, 2004 |
|
|
|
09615978 |
Jul 14, 2000 |
|
|
|
60144345 |
Jul 16, 1999 |
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Current U.S.
Class: |
604/378 |
Current CPC
Class: |
A61F 2013/530554
20130101; A61F 2013/530737 20130101; Y10T 442/2205 20150401; A61F
13/49426 20130101; A61F 2013/4581 20130101; A61F 2013/1539
20130101; A61F 13/531 20130101; A61F 13/535 20130101; A61F
2013/530496 20130101; A61F 13/51403 20130101; A61F 13/51458
20130101; A61F 13/49466 20130101; A61F 13/53436 20130101 |
Class at
Publication: |
604/378 |
International
Class: |
A61F 013/15; A61F
013/20 |
Claims
What is claimed is:
1. A disposable absorbent article comprising: a topsheet; a
backsheet; and an absorbent core disposed therebetween; wherein at
least one of said backsheet, topsheet, and absorbent core is
constructed of an absorbent composite including an absorbent layer
of hydratable fine fibers in the form of microfibril obtained from
cellulose or a derivative thereof, and super absorbent polymer
(SAP) particles bonded together by said hydratable fibers, and a
nonwoven substrate supporting said absorbent layer, said absorbent
layer being coated thereupon.
2. The article of claim 1, further comprising a pair of
longitudinally-extending, upstanding cuffs spaced laterally from
said core, each said cuff including a folded portion of said
topsheet and a longitudinally-extending absorbent composite secured
within said folded portion, said longitudinally-extending absorbent
composite including an absorbent layer of hydratable fine fibers in
the form of microfibril obtained from cellulose or a derivative
thereof, and super absorbent polymer (SAP) particles bonded
together by said hydratable fibers, and a nonwoven substrate
supporting said absorbent layer, said absorbent layer being coated
thereupon.
3. The article of claim 2, wherein said core includes said first
absorbent composite.
4. The article of claim 3, wherein said first absorbent composite
and said longitudinally extending absorbent composites of said
cuffs are sections of one continuous absorbent composite structure
positioned about a crotch region of said article.
5. The article of claim 2, wherein said nonwoven substrate is a
section of said topsheet.
6. The article of claim 1, wherein said backsheet is formed from
said absorbent composite, said absorbent layer including a low
cross link SAP adapted to gel block upon wetting such that said
backsheet is substantially impervious when wet and said backsheet
is breathable when dry.
7. The absorbent article of claim 6, wherein said SAP are
water-swellable particles included in a concentration in the range
of about 50 g/m.sup.2 to about 500 g/m.sup.2.
8. The absorbent article of claim 1, wherein said absorbent core
includes a prefabricated sheet of said absorbent composite.
9. The absorbent article of claim 8, wherein said absorbent
composite of said core includes a plurality of said absorbent
layers, said layers being spaced apart form one another such that
non-coated surface sections of said substrate are exposed
therebetween.
10. The absorbent article of claim 9, wherein said non-coated
surface sections form wicking zones between said absorbent
layers.
11. The absorbent article of claim 8, wherein said absorbent layers
are laterally spaced, elongated segments.
12. The absorbent article of claim 8, wherein said absorbent
composite layer has a corrugated configuration characterized by a
plurality of pleats at which distinct adjacent sections of said
absorbent composite are mutually adhered.
13. The absorbent article of claim 1, wherein said absorbent
composite forms said backsheet and said core, said backsheet having
a section providing said nonwoven substrate and said absorbent
layer being concentrated at a crotch region of said backsheet to
form said absorbent core.
14. The absorbent article of claim 1, wherein said core includes
said absorbent composite, said absorbent composite further
including one or more of said absorbent layers disposed over said
nonwoven substrate.
15. The absorbent article of claim 1, wherein said absorbent
composite further includes a concentration of pulp material, said
absorbent layer and said nonwoven substrate forming a sheet
disposed about said pulp concentration such that said pulp
concentration is disposed between at least two layers of said sheet
of absorbent layer and nonwoven substrate.
16. The absorbent article of claim 1, wherein said absorbent
composite forms at least a portion of said topsheet and said
absorbent core, said topsheet having a section providing said
nonwoven substrate and said absorbent layer forming said core.
17. The absorbent article of claim 1, wherein said absorbent layer
includes low-crosslink, low gel strength SAP having free swell
capacities of over 40 g/g and such that said absorbent layer is
adapted to gel block upon wetting so as to be substantially
impervious but is breathable when dry.
18. A disposable absorbent article comprising: a topsheet; a
backsheet; an absorbent composite including an absorbent layer of
hydratable fine fibers in the form of microfibril obtained from
cellulose or a derivative thereof, and absorbent polymer (SAP)
particles bonded together by said hydratable fibers, and a nonwoven
substrate supporting said absorbent layer, said absorbent layer
being coated thereupon; and wherein said absorbent layer is
disposed between the topsheet and backsheet, and generally
centrally at a location identified as a crotch region, said
absorbent layer providing an absorbent core for absorbing bodily
exudates received in said crotch region.
19. The article of claim 18, wherein said absorbent layer is
supported underneath a section of said topsheet, such that said
section of said topsheet provides said nonwoven substrate of said
absorbent composite.
20. The article of claim 18, further comprising a pair of
longitudinally-extending, upstanding cuffs spaced laterally from
said absorbent core, each said cuff including a folded portion of
said topsheet and a longitudinally-extending absorbent composite
secured within said folded portion, said longitudinally-extending
absorbent composite including an absorbent layer of hydratable fine
fibers in the form of microfibril obtained from cellulose or a
derivative thereof, and super absorbent polymer (SAP) particles
bonded together by said hydratable fibers, and a nonwoven substrate
supporting said absorbent layer, said absorbent layer being coated
thereupon.
21. The article of claim 18, wherein said absorbent composite
located at said crotch region and said longitudinally extending
absorbent composites of said cuffs are sections of one continuous
absorbent composite structure positioned about the crotch
region.
22. The article of claim 18, wherein said absorbent layer is
supported on said backsheet, such that a section of said backsheet
provides said nonwoven substrate of said absorbent composite.
23. The article of claim 20, wherein said absorbent layer includes
a low cross link SAP adapted to gel block upon wetting such that
said backsheet is substantially impervious when wet-and said
backsheet is breathable when dry.
24. The absorbent article of claim 18, wherein said SAP are
water-swellable bodies included in a concentration of about 20 gsm
and said nonwoven substrate is an SMS having a basis weight in the
range of about 10 gsm to 60 gsm.
25. The absorbent article of claim 18, wherein said absorbent
composite of said core includes a plurality of said absorbent
layers, said layers being spaced apart form one another such that
non-coated surface sections of said substrate are exposed
therebetween, said non-coated surface sections forming wicking
zones between said absorbent layers.
26. The absorbent article of claim 25, wherein said absorbent
layers are laterally spaced, elongated segments.
27. The absorbent article of claim 18, wherein said absorbent
composite layer has a corrugated configuration characterized by a
plurality of pleats at which distinct adjacent sections of said
absorbent composite are mutually adhered.
28. The absorbent article of claim 18, wherein said absorbent
composite further includes a concentration of pulp material, said
absorbent layer and said nonwoven substrate forming a sheet
disposed about said pulp concentration such that said pulp
concentration is disposed between at least two layers of said sheet
of absorbent layer and nonwoven substrate.
29. The absorbent article of claim 18, wherein a plurality of
sections of said topsheet is spaced from said topsheet and
alternating sections of said topsheet are secured to said
backsheet, each said spaced topsheet section including one or more
of said absorbent layers such that said topsheet forms said
nonwoven substrate of said absorbent composite.
30. In a disposable absorbent having an absorbent core disposed
between a topsheet and a backsheet, a prefabricated absorbent
composite comprising: an absorbent layer of hydratable fine fibers
in the form of microfibril obtained from cellulose or a derivative
thereof, and absorbent polymer (SAP) particles bonded together by
said hydratable fibers, and a nonwoven substrate supporting said
absorbent layer, said absorbent layer being coated thereupon;
wherein said absorbent layer is disposed between the topsheet and
backsheet, and generally centrally in the article at a location
identified as a crotch region, said absorbent layer providing an
absorbent core for absorbing bodily exudates received by the crotch
region.
31. The absorbent composite of claim 31, wherein said absorbent
layer is supported underneath a section of the topsheet, such that
said section of topsheet provides said nonwoven substrate of said
absorbent composite.
32. The absorbent composite of claim 30, wherein the article
includes a pair of longitudinally-extending, upstanding cuffs
spaced laterally from said absorbent core, each cuff having two
sheet layers, and wherein said absorbent composite includes two
longitudinally-extending composite sections extending upwardly from
the crotch region into the cuffs and between the cuff layers, said
absorbent composite forming an absorbent structure about the crotch
region.
33. The absorbent composite of claim 30, wherein said absorbent
layer is supported on a section of the backsheet, such that said
backsheet section provides said nonwoven substrate of said
absorbent composite.
34. The absorbent composite of claim 33, wherein said absorbent
layer includes a low cross link SAP adapted to gel block upon
wetting such that said backsheet section is substantially
impervious when wet and said backsheet section is breathable when
dry.
35. The absorbent composite of claim 34, wherein said low
cross-link SAP is low-gel strength SAP characterized by a free
swell capacity greater than about 40 g/g.
36. The absorbent composite of claim 30, wherein said SAP are
water-swellable bodies included in a concentration of about 50 gsm
to 500 gsm.
37. The absorbent composite of claim 30, wherein said absorbent
composite of said core includes a plurality of said absorbent
layers, said layers being spaced apart from one another such that
non-coated surface sections of said substrate are exposed
therebetween, said non-coated surface sections forming wicking
zones between said absorbent layers.
38. The absorbent composite of claim 30, further comprising a
coating of mineral oil over the SAP particles of the absorbent
layer, said coating being adapted to retard the initial receipt of
liquid by the SAP in the absorbent layer.
Description
BACKGROUND OF THE INVENTION
[0001] The present application claims the benefit of the filing
date of U.S. provisional application Ser. No. 60/144,345 filed Jul.
16, 1999 (which is hereby incorporated by reference for all
purposes).
[0002] The present invention relates generally to a disposable
absorbent article or garment that employs an absorbent composite as
one or more of its structural components. Disposable absorbent
articles or garments contemplated by the invention include diapers,
training pants, adult incontinence products, feminine hygiene
products, and other similar use absorbent products (collectively
"disposable absorbent articles"). The use of disposable diapers and
training pants has surpassed the use of cloth diapers. Disposable
feminine hygiene products are popular because these offer improved
comfort and utility to the wearer. Disposable incontinence
products, on the other hand, are intended for adults and provide
these wearers control and absorption of involuntary bowel and
bladder discharge associated with some medical conditions,
including those associated with advancing age.
[0003] Prior art disposable absorbent articles typically employ
three basic structural elements: a fluid permeable topsheet that is
placed next to the wearer's skin when the article is worn, a
backsheet which forms the outer surface of the diaper, and an
absorbent element interposed between the topsheet and the
backsheet. The permeable topsheet is designed to allow liquid to
pass from the area adjacent the wearer into the area of the core.
Topsheets may be constructed from a wide range of liquid and vapor
permeable hydrophilic material, and may be used with surface
activation agents ("surfactants") to increase its liquid
permeability. Surfactants lower the surface tension of the liquid
and facilitates the liquid's passage through the topsheet.
[0004] The backsheet is typically vapor and liquid impermeable so
as to minimize or prevent leakage. For example, the backsheet is
often an impermeable film that extends the full width of the
article. In some of the more recent designs, a cloth-like outer
sheet is added to the film for a more pleasing feel, as the film is
positioned to cover only the central portion of the backsheet,
and/or in the area most likely to be exposed to liquid. In either
design, the film may be made so as to be impermeable or to have
some vapor transmission-properties, or "breathability," and
functions to contain fluids within the absorbent element. Such a
two-layer backsheet design, however, contributes to the complexity
of any manufacturing process. The articles further include a middle
layer of a moisture absorbent core between the topsheet and
backsheet. The absorbent core must be able to take up the liquid
which passes through the topsheet, and distribute the liquid. The
core is designed to retain the distributed liquid.
[0005] A typical absorbent core of the prior art is constructed of
two components: a high or super absorbent material and an absorbent
matrix. Common sources of absorbent materials include numerous
compounds of organic materials such as polyvinyl alcohol,
polyacrylates, various grafted starches, and cross-linked sodium
polyacrylate. These absorbent materials are employed as core
material in the form of particles, fibers, foams, and/or layers.
The absorbent matrix, on the other hand, is typically provided by
de-fiberized wood pulp or similar material. As expected, the
majority volume of a prior art absorbent core is taken up by the
absorbent matrix and not the absorbent material.
[0006] The two-component core design is used primarily because many
of the preferred high absorbent materials are incapable of
absorbing liquid at the rate or even near the rate at which liquid
is typically received by the absorbent article (when worn).
Therefore, the absorbent matrix is provided to hold the received
liquid and deliver it to the high absorbency material at a rate
slower than the rate at which the liquid would otherwise be
delivered (absent the absorbent matrix). This allows the high
absorbent material more time to fully absorb the liquid.
[0007] Another function of the absorbent matrix is to prevent "gel
blocking." Gel blocking is the blockage of the interstitial spaces
between elements or particles of the high absorbent material and
blockage of channels through which the liquid must pass to
encounter unsaturated absorbent particles. Such gel blocking can
occur as a result of the high absorbency particles or elements
swelling upon absorption of liquid and occupying additional volume.
The fibers of the matrix prevent "gel blocking" by dispersing the
high absorbent particles throughout the matrix, thereby minimizing
the potential for particle-to-particle contact.
[0008] Although the absorbent matrix does not have the high
absorption properties of the high absorbent material, it is
recognized as a necessary component in achieving adequate
absorbency (measured by both capacity and rate) in prior art core
compositions. Achieving optimal absorbency in these core
compositions involves not only selecting a suitable high absorbent
material, but also identifying the optimal ratio between the high
absorbent material and the absorbent matrix. Since the SAP material
is typically 2-10 times more absorbent than the pulp material (of
the absorbent matrix), one means of providing a thinner, more
compact absorbent core is to increase its SAP content and decrease
its pulp content. The ratio of SAP content to pulp content is,
however, limited by the propensity of higher SAP/pulp ratio
compositions to gel block during use. It is generally accepted that
an SAP/pulp ratio of 1 is the highest, practical ratio available.
Accordingly, this ratio also sets the lower practical limit of the
core thickness and thus, of the disposable absorbent article.
SUMMARY OF THE INVENTION
[0009] It is, therefore, one of multiple objects of the invention
to provide a disposable absorbent article or garment employing an
improved absorbent composite therein. According to the invention,
such an absorbent composite may be employed as a primary component
of the absorbent core, backsheet, topsheet, containment walls or
cuffs, and other elements (e.g., an acquisition layer) of the
disposable absorbent article, or a combination of two or more of
these elements, thereby producing an absorbent article having
various advantageous characteristics. Among some of the
characteristics which may be exhibited by the inventive disposable
absorbent article are improved fit and appearance, improved
absorption and liquid containment properties, simpler, more
efficient manufacturing process, reduction of components and
material sources, and a thinner, more compact construction.
[0010] A disposable absorbent article according to the invention
includes a topsheet, a backsheet, and an absorbent core disposed
therebetween. At least one of the backsheet, topsheet, and
absorbent core and/or a combination of these elements (e.g., a
backsheet/absorbent core composite or topsheet/absorbent core
composite) utilizes an absorbent composite. The absorbent composite
is constructed of an absorbent layer (e.g, a low-density layer) of
hydratable fine fibers in the form of microfibril obtained from
cellulose or a derivative thereof, and absorbent polymer (i.e.,
SAP) particles bonded together by the hydratable fibers, and a
nonwoven substrate (e.g., a high-density layer) supporting the
absorbent layer. The absorbent layer is coated upon the nonwoven
substrate.
[0011] Containment walls including leg cuffs or leg gathers may
also utilize the absorbent composite. For example, the article may
employ a pair of longitudinally-extending, upstanding cuffs spaced
laterally from the core. Each cuff includes a folded portion of the
topsheet and a longitudinally-extending absorbent composite secured
within the folded portion. The longitudinally-extending absorbent
composite also includes an absorbent layer of hydratable fine
fibers in the form of microfibril and super absorbent polymer (SAP)
particles bonded together by the hydratable fibers and a nonwoven
substrate supporting the absorbent layer. In one set of
embodiments, the core also includes an absorbent composite, and the
core's absorbent composite and the longitudinally extending
absorbent composites of the cuffs are sections of one continuous
absorbent composite structure. This composite structure is
positioned about a crotch region of the article and may be adapted
(e.g., by selecting appropriate SAP material specifications) to
swell upon wetting so as to substantially gel-block and liquid seal
the crotch region. Further, a nonwoven section of the topsheet may
provide the nonwoven substrate of the absorbent composite of the
containment walls and/or of the absorbent core.
[0012] In another aspect of the invention, a backsheet utilizing
the absorbent composite preferably includes a low cross link SAP
that is adapted to gel block upon wetting. In this way, the
backsheet is breathable when dry but the absorbent layer and, thus,
the backsheet, is substantially impervious when wet. Such a low
cross-link SAP may be a low gel strength SAP having free swell
capacities greater than about 40 g/g SAP.
[0013] In yet another aspect of the invention and in one set of
embodiments, the absorbent core may be formed from a prefabricated
sheet of the absorbent composite. In one embodiment, the absorbent
composite has a plurality of absorbent layers (e.g., segmented)
which are spaced apart from one another such that non-coated
surface sections of the substrate are exposed therebetween. The
non-coated surface sections form wicking zones between the
absorbent layers and allow the absorbent layers room to swell,
thereby preventing or minimizing gel blocking and promoting
saturation of the absorbent layers. The segments of absorbent
layers may be laterally spaced, elongated segments, randomly or
equally dispersed (e.g., a staggered pattern) concentrations in
dotted or rounded forms, or some other configuration. Preferably,
the layers are concentrated or enlarged at the crotch region of the
disposable absorbent article.
[0014] In one embodiment, the absorbent composite layer of the core
has a corrugated configuration. This configuration is characterized
by a plurality of pleats (i.e., pronounced fold lines) wherein
distinct adjacent sections of the absorbent composite mutually
adhere. In another embodiment, the absorbent composite is rolled
about a concentration of pulp material such that the pulp
concentration is disposed between two layers of the absorbent
composite (i.e., "nested"). Further embodiments may utilized a
multi-tiered design wherein two or more absorbent composites or two
or more absorbent layers are stacked (e.g., at least in the crotch
region).
[0015] In yet another aspect of the invention, the absorbent
composite forms the backsheet and the absorbent core. For example,
the nonwoven substrate forms or is provided by the backsheet and
the absorbent layer is concentrated at the crotch region to form
the absorbent core. Similarly, the absorbent composite may be
utilized to form at least a portion of the topsheet and the
absorbent core, wherein a section of the topsheet provides the
nonwoven substrate of the absorbent composite and the absorbent
layer forms the core.
BRIEF DESCRIPTION OF THE DRAWINGS
[0016] A better understanding of the invention may be obtained by
when a detailed description of the preferred embodiments is
considered in conjunction with the appended drawings, in which:
[0017] FIG. 1 is a vertical cross-section illustration of a
prefabricated absorbent composite employed in the invention;
[0018] FIG. 2 is a perspective view of a disposable absorbent
article embodying the invention;
[0019] FIG. 3 is a top plan view of the disposable absorbent
article of FIG. 2 in a flat and extended condition;
[0020] FIG. 4 is an exploded view of the disposable article of FIG.
2;
[0021] FIG. 5 is a vertical cross sectional view across a core or
crotch region of an alternative disposable absorbent article
according to the invention;
[0022] FIG. 6 is a vertical cross-sectional view of the article in
FIG. 5 depicting the article when the absorbent core is wetted or
activated;
[0023] FIG. 7 is a plan view illustration of an absorbent core
employed by an absorbent article according to the present
invention;
[0024] FIG. 8 is a plan view illustration of an absorbent core
employed by an alternative absorbent article according to the
present invention;
[0025] FIG. 9 is a plan view illustration of an absorbent core
employed by another alternative absorbent article according to the
invention;
[0026] FIG. 10 is a vertical cross-sectional view schematic of an
alternative absorbent article according to the invention;
[0027] FIG. 11 is a vertical cross-sectional view schematic of an
alternative absorbent core employed by an absorbent article
according to the invention;
[0028] FIG. 12 is a vertical cross-sectional view schematic of an
alternative absorbent core employed by an absorbent article
according to the invention;
[0029] FIG. 13 is a vertical cross-sectional view schematic of an
alternative embodiment of a disposable absorbent article according
to the invention;
[0030] FIG. 14 is a vertical cross-sectional view schematic of the
disposable absorbent article of FIG. 13 depicted in the "wet"
condition;
[0031] FIG. 15 is a vertical cross-sectional view schematic of an
alternative embodiment of a disposable absorbent article according
to the present invention;
[0032] FIG. 16 is a vertical cross-sectional view schematic of the
disposable absorbent article of FIG. 15 depicted in the "wet
condition;"
[0033] FIG. 17 is a vertical cross-sectional view schematic of a
backsheet/absor core composite employed by an absorbent article
according to the invention;
[0034] FIG. 18 is a vertical cross-sectional view schematic of an
alternative backsheet/absorbent core composite employed by an
absorbent article according to the invention;
[0035] FIG. 19 is a vertical cross-sectional view schematic of an
alternative backsheet/absorbent core composite employed by an
absorbent article according to the invention.
[0036] FIG. 20 is a vertical cross-sectional schematic of a
topsheet/absorbent core composite structure employed by an
absorbent article according to the invention;
[0037] FIG. 21 is a schematic illustration of the construction of a
topsheet/absorbent core composite structure employed by an
absorbent article according to the invention;
[0038] FIG. 22 is a schematic of a vertical cross-sectional view of
a containment wall/absorbent core composite structure employed by
an absorbent article according to the invention;
[0039] FIG. 23 is a schematic of a vertical cross-sectional view of
an alternative containment wall/absorbent core composite structure
employed by an absorbent article according to the invention;
and
[0040] FIG. 24 is an alternative schematic of a vertical
cross-sectional view of an alternative containment wall/absorbent
core composite structure employed by an absorbent article according
to the invention.
DETAILED DESCRIPTION OF THE DRAWINGS
[0041] Upon review of the detailed description and the accompanying
drawings provided herein, it will be apparent to one of ordinary
skill in the art that the present invention is also applicable to
other disposable absorbent articles and more particularly, to
disposable absorbent articles such as training pants or other
incontinence products. Accordingly, the present invention shall not
be limited to the structures and processes specifically described
and illustrated herein, although the following description is
particularly directed to a disposable diaper. The term "absorbent
article" or "absorbent garment" with which the present invention is
associated, includes various types of disposable articles and
garments which are placed against or in proximity to the body of
the wearer so as to absorb and contain various bodily exudates.
[0042] FIG. 1 depicts (in exaggerated fashion for illustration) an
absorbent composite 200 employed in various embodiments of the
present invention. The absorbent composite 200 is a prefabricated
sheet constructed from water-swellable bodies in the form of super
absorbent polymer particles 202 (SAP) which are covered or
intermixed with extremely fine micro-fibrillated cellulose 204
(MFC) and embedded into the pores of a low-density nonwoven
substrate 206 and anchored thereto (i.e., the MFC acts as a
binder). As shown in FIG. 1, the prefabricated absorbent composite
200 includes a low density layer 208 of the SAP and MFC, and a
high-density layer 210 of the nonwoven substrate 206. A process of
manufacturing a prefabricated sheet of the absorbent composite 200
suitable for the present invention has been developed by the Japan
Absorbent Technology Institute (JATI), and is available therefrom
under the trade name MEGATHIN. The details of the manufacturing
process and other characteristics of the MEGATHIN sheet are
described in a PCT international application filed by JATI and
issued Reference No. PCT/JP/97/0460 The disclosure provided in this
and related applications by JATI are hereby incorporated by
reference.
[0043] In summary, a suitable method of making the absorbent
composite (as disclosed in JATI's PCT application) involves
dispersing water swellable solid bodies (i.e., the SAP particles)
and the hydratable fibers of MFC in a dispersing medium of organic
solvent and water. The organic solvent is selected such that it is
capable of controlling the swelling of the SAP and dispersing the
hydratable fibers and, thus, being miscible with water. The method
further involves separating the SAP and fibers from the resultant
dispersion liquid in the dispersing medium (e.g, forming a layer of
a resultant slurry and spreading the slurry layer over a supporting
sheet). Then, the dispersing medium is removed (e.g, from the
slurry layer) and the remaining composite dried.
[0044] In one aspect of the invention, the invention provides
various adaptations of the absorbent composite manufactured, at
least partially, by the above-described process. In another aspect
of the invention, a plurality of absorbent composites having an
array of properties are obtained for implementation in a disposable
absorbent article and as various components of the inventive
article, including as components of the backsheet, topsheet,
absorbent core, containment walls or cuffs (including leg gathers),
backsheet/absorbent core composite, topsheet/absorbent composite,
and other combinations of these elements.
[0045] In one aspect of the invention, multiple functions or
advantageous properties are obtained in a single prefabricated
absorbent composite sheet structure (suitable for a specific
disposable absorbent article design) by varying the basis weight of
the SAP and/or the nonwoven substrate, varying the compositions of
the low density layer and the nonwoven substrate, varying the
detailed construction of the components such as, for example, the
degree of SAP cross-linking, and/or applying the absorbent
composite at various locations in the article or integrating same
with various elements of the article. Specific examples of these
variations are provided in more detail in the description of the
individual components of the inventive article.
[0046] Generally, a higher or faster absorption rate for the SAP
(and thus, for the absorbent composite sheet) is achieved by
providing an SAP structure with a lower degree of cross-linking
construction, whereas a lower or slower absorption rate is achieved
by providing an SAP structure with a higher degree of cross-linking
construction. The degree of cross-linking (both internally and at
the surface of the SAP structure) affects the gross absorbent
properties of the SAP including gel strength and AUL (absorbency
under load measured at the standard 0.28 psi). It is contemplated
that the optimal degree of cross-linking and SAP absorption rate
for a particular disposable absorbent article may be obtained
through trial and error and after considering other desirable,
interdependent properties of the article. In any event, the degree
of cross-linking may be selected by examining the free swell
capacities of the SAP structure, as well as observing the gel
strength, AUL and other gross absorbent properties of the
structure. Generally, for purposes of description, high
cross-linked SAP have free swell capacities of about 20 to 40 g/g
SAP and low cross-linked SAP have free swell capacities greater
than about 40 g/g. SAP materials which are typically employed in
presently available absorbent products may be considered high
cross-linked SAP materials and thus, can be used as a reference. It
should also be noted that typical SAP granules employed in these
products will have a greater degree of cross-linking at the surface
than internally (below the surface), thereby producing a material
with a hard coating or surface but which is soft and more absorbent
on the inside). For example, one available SAP sheet (polyaspartic
acid) is characterized by 0.1 to 30% cross-linking (which is
generally high) at the surface and 0.1% to 3.0% internally (which
is generally low). See, e.g., U.S. Pat. No. 5,461,085, hereby
incorporated by reference.
[0047] Below is a more detailed description of compositions (for
the absorbent composite) preferred for various embodiments of the
inventive disposable article. It should be noted that the SAP
components will typically account for over 70% of the absorbent
composite.
[0048] (1) SAP Surface Linkage Density. Various types of SAP
materials are available and primarily distinguishable by their main
polymer chains, e.g., by biodegradable or non-biodegradable, salt
resistant or non-salt resistant. In many of the embodiments
described herein, an acrylic acid super absorbent polymer is
preferred. Absorbent properties including absorbent capacity,
absorbent speed, gel strength of acrylic acid SAP vary according to
the types and concentrations of surface cross-linkage agent.
However, it is generally understood to increase the surface
cross-linkage density if a high AUL is desired and to decrease the
surface cross-linkage density if a high free swell capacity is
desired.
[0049] (2) SAP Morphology. SAP is available in fiber-state or
particle state including powder state, consolidated particle state,
or in needle state. (particle state refers to each of the states
except fiber-state). The type of fiber-state SAP preferable in many
of the embodiments of the invention will be less than about 10 mm
in cut length, but preferably less than 5 mm. Particle state SAP
employed in some of the embodiments of the invention will be
smaller than about 500, .mu.in particle size but preferably under
400.mu..
[0050] (3) Density of SAP. The density of the SAP employed in
several embodiments of the invention will be in the range of about
1.3 to 1.0 g/cm.sup.2. If a high absorbent speed is desired, SAP
will typically be applied at a density of about 0.3 to 0.5
g/m.sup.2. If low absorbent speed is desired, the SAP density will
be about 0.6 to 0.9 g/m.sup.2. It should be noted, however, that in
some applications it will be desirable to apply mixtures of both
types (densities) of SAP to achieve a variety of purposes.
[0051] (4) Mount volume of SAP. The mount or substrate volume of
SAP employed in various embodiments will vary according to the
particular application, and more specifically, where it is applied
in the diaper. Generally, the SAP mount volume will be the
following:
1 Absorbent Core: 150.about.500 g/m.sup.2 Back Sheet: 20.about.500
g/m.sup.2 Back Sheet/Absorbent Core Composite: 50.about.500
g/m.sup.2 Top Sheet/Absorbent Core Composite: 50.about.500
g/m.sup.2 Containment Walls: 20.about.100 g/m.sup.2
[0052] (5) Nonwoven substrate. From many of the embodiments
described herein, the nonwoven substrate onto which the SAP layer
is applied, is preferably spunbond and SMS
(spunbond/meltblown/spunbond)(S1/M/S2)(althou- gh S1/M/M/S2 may be
preferred in some embodiments). Preferably, different types of
spunbond form the upper (S1) and lower (S2) layers. Generally, S1
should be a coarse denier and have a fluffy structure of spunbond.
S2 (which may be provided as a supporting layer) should be a fine
denier and have a dense structure of paper like spunbond. A middle
layer of meltblown should have a structure which would adhere on
both sides.
[0053] For a backsheet application, it is desirable to have a water
resistance of over 200 mm/Aq of at least 200 mm/Aq but preferably
about 400 mm/AQ, such that the SMS (whose ratio is between the M
layer and the S2 layer) is high. The total basis weight of the SMS
is preferably in the range of about 20 to 45 g/m.sup.2 and its
three components is preferably included in the following:
5.about.15 g/m.sup.2 S1; 5.about.10 g/m.sup.2 M; and 10.about.20
g/m.sup.2 S2.
[0054] (7) Absorbent core and topsheet/absorbent core composites.
For these composites, a high concentration or ration of S1 is
preferable so that a large amount of SAP may be mounted, but should
have a lower concentration or ratio of M and S2. For example, the
following ratios or concentrations will be preferred in many of the
embodiments of this composite: 10.about.15 g/m.sup.2 S1; 0.about.5
g/m.sup.2 M (note that if the concentration of M is 0, the
composite is composed only of spunbond); and 5.about.10 g/m.sup.2
S2.
[0055] (8) Containment wall and containment wall/absorbent core
composite. Since the containment wall should be water-resistant
(such as the backsheet), similar compositions will be applied in
this embodiment. However, the containment walls are generally
thinner than the backsheet but will preferably have a high ratio
between M and S2. The following is one composition suitable for
this embodiment of the invention: 4.about.5 g/m.sup.2 S1; 5.about.7
g/m.sup.2 M; and 5.about.7 g/m.sup.2 S2.
[0056] Generally, the prefabricated absorbent composite sheet 200
employed in the various embodiments of the invention is
characterized by a higher SAP content than is conventional, super
absorbency, ultra lightweightness, thinness, compactness and stable
absorbency due to the microfibril.
[0057] FIG. 2 is a perspective view of a disposable absorbent
article 10 in the form of a diaper 10. FIG. 3 illustrates a
composite web structure of the diaper 10 in a generally flat and
unfolded configuration which the diaper 10 assumes during one point
in the manufacturing process (when it is stretched in the
longitudinal direction). As will be explained further below, the
web structure may be subsequently trimmed, folded, sealed, welded
and/or otherwise manipulated to form a disposable diaper 10 in a
finished or final form. To facilitate description of the diaper 10
embodying the invention, the description refers to a longitudinally
extending axis AA, a laterally extending central axis BB, a pair of
longitudinally extending side edges 90, and a pair of end edges 92
which extend between side edges 90 (see FIG. 3). Along the
longitudinal axis AA, the diaper 10 includes a first end region or
front waist region 12, a second end region or back waist region 14,
and a crotch region 16 disposed therebetween. Each of the front and
back waist regions 12, 14 is characterized by a pair of ear regions
or ears 18, which are located on either side of a central body
portion 20 and extend laterally from the side edges 90. A fastening
structure 26 (e.g., a conventional tape fastener) is affixed to
each of the ears 18 along the back waist region 14 of diaper
10.
[0058] As shown in FIG. 3, the diaper 10 is characterized by a
generally hourglass shape wherein an intermediate portion of side
edges 90 (generally in the area of the crotch region 16) is biased
generally upwardly (i.e., to partially form upwardly disposed
longitudinal walls 34). When the diaper 10 is worn about the waist,
the front waist region 12 is fitted adjacent the front waist area
of the wearer, the back waist region 14 is fitted adjacent the back
waist area, and the crotch region 16 fits about and underneath the
crotch area. To properly secure the diaper 10 to the wearer, the
ears 18 of the back waist region 14 are brought around the waist of
the wearer and toward the front and into alignment with the ears 18
of the front waist region 12. The securing surface may be located
on or provided by the interior or exterior surface of the front
waist region 12. Alternatively, the fasteners 26 may be located on
the ears 18 of the front waist region 12 and made securable to the
ears 18 of the back waist region 14.
[0059] FIG. 4 is an exploded view of the diaper in FIGS. 2 and 3. A
diaper structure suitable for the present invention typically
employs at least four layers. These four layers include a backsheet
60, an absorbent core 46, an acquisition layer 48, and a topsheet
50. The diaper structure also includes a pair of containment walls
or leg cuffs 34 disposed upwardly from the topsheet 50 and
preferably equipped at least with one or more spaced apart,
longitudinally elastic members 38. It will be shown below that any
of these diaper elements or a combination of these elements may be
constructed with or using the prefabricated absorbent composite
200.
Backsheet
[0060] The diaper 10 employs a backsheet 60 that covers the core 46
and preferably extends beyond the core 46 toward the side edges 90
and end edges 92 of the diaper 10. In one aspect of the invention,
the inventive backsheet 60 is constructed from a single-layered
material sheet of a prefabricated absorbent composite 200. As
discussed above, such a material sheet includes a low density,
absorbent layer 208 of hydratable fine fibers in the form of
microfibril 204 obtained from cellulose or a derivative thereof and
absorbent polymer particles 202 (SAP) intermixed in and bonded
together by the microfibril 204 (see FIG. 1). This absorbent layer
208 is applied as a coating on a nonwoven SMS substrate 206.
Preferably, fine particles (e.g., <100 mm) of a soft, low
cross-link (i.e., fast absorbent rate) or low gel strength SAP is
provided, such that the SAP is adapted to gel block on the nonwoven
substrate upon wetting (see earlier discussion). The nonwoven
substrate side of the composite sheet 200 is positioned as an outer
surface of the backsheet 60, while the SAP side of the sheet 200 is
positioned as an inner surface of the backsheet 60 and faces the
absorbent core 46. The nonwoven substrate 206 may be provided with
printed graphics as is known in the art.
[0061] To render a backsheet impermeable according to the
invention, various inter-dependent variable or properties may be
considered. A lower gel strength SAP (e.g., provided by lower
cross-linking or other construction practices) causes the gel
particles (i.e., the swollen, wetted SAP particles) to "fit
together" thereby preventing leakage of these particles through the
"joints" of the sheet structure. It should be noted, however, that
too low of a gel strength can cause the gel particles to ooze out
of the sheet under pressure (and, thereafter, allow liquid to pass
through the sheet). Alternatively, a higher AUL SAP will cause
swelling gel particles to press against one another and resist
passing of liquid therethrough.
[0062] Additionally, the size of pores in the substrate, the basis
weight of the SAP and of the substrate, and higher free swell SAP
(which correlates with cross-linking) will affect the
permeability/impermeabilit- y of the inventive backsheet. The net
inventive result is a backsheet which, upon activation, exhibits a
useful rising column strike through (RCST) without leaking. An RCST
value as low as about 2 inches may be adequate for the inventive
disposable article, although values closer to about 36 inches will
probably ensure prevention of blotting through (i.e., when the
wearer sits down on the article) and therefore, are more
preferable.
[0063] Accordingly, a backsheet of the inventive disposable
absorbent article is relatively thin and provides improved
flexibility. When dry, the backsheet is soft and breathable, but
upon wetting, a thin, gel blocked layer is formed (i.e., on the
inner surface of the backsheet) which renders the backsheet
substantially liquid impervious.
[0064] In yet another aspect of the invention, the thin, liquid
impervious gel layer is formed (upon wetting) between the absorbent
core 46 and the nonwoven material, thereby eliminating the need of
a traditional, poly-film layer under the core (e.g, on the
backsheet at the crotch region). However, unlike the prior art
disposable absorbent article that employs a poly-film layer, that
area of the inventive article is normally breathable (i.e., when
wet) and more flexible and comfortable. Moreover, due to the
elimination of the poly-film layer, a thinner, simpler diaper
structure is produced.
[0065] The absorbent composite 200 for the backsheet 60 in the
Figures preferably employs SAP in a concentration of about 20
g/m.sup.2 to 100 g/m.sup.2 suspended in MFC. The absorbent
composite 200 also employs a nonwoven layer of spun bond/melt
blown/spun bond (SMS) having a total basis weight of about 20 to 45
g/m.sup.2.
Topsheet
[0066] When the diaper 10 is worn, the topsheet 50 is placed in
close proximity to the skin of the wearer. The topsheet 50 is
preferably soft, compliant, exhibits good strikethrough and a
reduced tendency to rewet from a liquid pervious material. In this
way, such a topsheet 50 permits bodily discharges to rapidly
penetrate it so as to flow toward the core 46 more quickly, but not
allowing such discharges to flow back through the topsheet 50. The
topsheet 50 may be constructed from any one of a wide range of
liquid and vapor permeable hydrophilic materials. The topsheet 50
may consist of or include nonwoven webs of natural fibers (e.g.,
wood or cotton) or synthetic fibers (e.g., polypropylene or
polyester), or a combination of such webs or fibers, or apertured
film.
[0067] One topsheet material suitable for the inventive garment is
a 15 g/m.sup.2 spun bond polypropylene available from Avgol
nonwovens of Holon, Israel. The surface (s) of the topsheet may be
treated with a surfactant so as to facilitate liquid transfer
therethrough, especially at a central zone or area of the topsheet
located over the core and an inner surface of the core. The
topsheet may also be coated with a substance having rash preventing
or rash reducing properties (e.g., aloe vera).
[0068] In one embodiment, the topsheet 50 is formed from a
single-layered material sheet that covers substantially the entire
area of the disposal absorbent article 10, including substantially
all of the front waist region 12, back waist region 14, and cross
regions 16. Further, the ear layer of the inner region 18 is formed
from the same single topsheet material and, thus, may be referred
to as being unitary with the topsheet 50 in forming lateral
extensions of the topsheet material. Alternatively, the topsheet 50
may be formed from multiple different materials which vary across
the width of the topsheet 50 such a multiple piece design allows
for creation of preferred properties and different zones of the
topsheet.
[0069] Referring now to FIG. 5, in one particular embodiment of the
invention, the topsheet 50 is raised or spaced, at least partially,
above the core 46 by a plurality of longitudinally extending
elastic strands 102. The strands 102 form spaced apart ridges 152
on the topsheet 50 in valleys or depressions 154 between the ridges
152. The valleys 154 are tacked down to the core 46 at bond points
106 or to the acquisition layer (not shown). Such a "tented"
topsheet 50 directs liquid received therein into the valleys or
depressions 154. As will be further explained below, the core 46
according to the invention is preferably constructed from the
prefabricated absorbent composite 200. The core 46 is designed to
absorb liquid received below the topsheet 50 and to swell upon
wetting such that the SAP fill the zones or voids under the
topsheet 50 (see FIG. 6). The swelling SAP also further reinforces
the three-dimensional tented structure. Preferably, the core 46 is
comprised of a plurality of longitudinally-extending, laterally
spaced-apart core segments (see description of core structures
below) each of which are disposed under the "tented" topsheet
(i.e., in the void areas). Alternatively, the core 46 may be a
single sheet structure having distinctly higher SAP concentrations
in the void areas than along the bond points (see FIGS. 6 and 7).
Variations of this type of core design, each of which is suitable
for the "tented" topsheet configuration, are discussed further
below.
[0070] In any one of the embodiments of inventive disposable
absorbent article, the SAP absorbent layer may be coated with a
miscible, hydrophobic material. The coating acts as a barrier or
membrane that initially slows the liquid uptake, thereby saving SAP
capacity for additional or secondary discharges. In this regard,
the coating evens out the absorbency rates between discharges. The
coating may take the form of any type of miscible, hydrophobic
material film or membrane.
[0071] In one embodiment, a light coating of mineral oil is applied
over the SAP absorbent layer (e.g., over the surface of the SAP
granules). The coating retards the initial uptake of the SAP and
allows more time for the liquid to spread out in the article.
Preferably, the mineral oil is applied at a concentration of about
0.11 g/g of SAP to about 1.0 g/g of SAP (depending on the
particular product design). Alternatively, the mineral oil may be
applied in specific target zones. In this way, the received liquid
is encouraged to initially spread to uncoated areas before the
coated areas are activated and begin to swell.
[0072] In one embodiment, the prefabricated absorbent composite 200
includes a topsheet layer (e.g., over the low density layer 206).
The prefabricated absorbent composite 200 is disposed in the crotch
region of the disposable absorbent article (i.e., over the
backsheet and provides both the topsheet and core (i.e., in one
material sheet) for the article. The topsheet or a section thereof
may also provide the nonwoven substrate 206 for the absorbent
composite 200.
Absorbant Core
[0073] An absorbent core 46 employed by the disposable absorbent
article 10 according to the invention is preferably constructed
with the prefabricated absorbent composite 200 (previously
discussed). More particularly, such an absorbent composite 200 for
the core 46 typically consists of a relatively high loft, nonwoven
material coated with a super absorbent polymer structure. A core
according to the invention is therefore, nearly as thin as a
typical nonwoven substrate raw material, but has an SAP basis
weight found in a regular diaper core. FIGS. 7-12 depict various
embodiments of the invention, wherein the above described absorbent
composite 20 is utilized as the primary or unitary element of the
core structure, and wherein like elements are identified by like
reference numerals. As shown in these drawings, the inventive core
46 may employ a uniform layer of the absorbent composite 200, a
non-uniform structure layer in which the low density SAP layer is
applied in a segmented layer or in, otherwise, distinct space-apart
zone layers, in multi-tiered layers, or in other variations.
[0074] Each of FIGS. 7-9 depicts a continuous sheet 700, 800, 900
(including a core structure) constructed of a prefabricated
absorbent composite having a plurality of distinct, spaced-apart or
segmented SAP concentrations or layers deposited on a nonwoven
substrate.
[0075] The plan view of FIG. 7 depicts a composite structure 700
(and prefabricated absorbent composite) in which the low-density
SAP layers or concentrations (with MFC) is applied over a nonwoven
substrate 703 in longitudinally-extending segments. Such a design
provides uncoated bands or zones 701 between the SAP segments 705.
The wicking zones 101 are particularly adapted to wicking (i.e.,
wicking zones 701) and allow the SAP. segments 700 freedom to
expand or wick in the lateral directions without gel blocking. In
this manner, the absorbent capacity of the SAP is maximized or
fully utilized. More specifically, this segmented design ensures
that the SAP layer will be fully wetted out and also reduces
pressure between the SAP particles (thereby allowing liquid to flow
therebetween and promoting complete saturation). Preferably, the
width of the core segments 705 is in the range of about 1-15 mm,
and the wicking zones have a width in the range of about 1-25
mm.
[0076] In the embodiment depicted in the plan view of FIG. 8, the
composite structure 800 (or prefabricated absorbent composite)
includes a nonwoven substrate layer 803 onto which distinct,
spaced-apart SAP concentrations or SAP layers 805 are applied. The
SAP concentrations are formed by distinct dotted or rounded layers
805 of the high-density SAP material and MFC. Similar to the
longitudinally-extending segmented layer design of FIG. 7, the
spaces between the dots 805 are uncoated wicking zones 801 which
allow the SAP dots 805 freedom to expand or wick in all directions
without gel blocking. Again, such a design allows full utilization
of the absorbent capacity of the SAP by ensuring complete wetting
and reducing the pressure between the SAP particles. Preferably,
the SAP dots 805 will have diameters in the range of about 2 to 20
mm, and are spaced from one another by an average distance of about
1 mm to 10 mm. Also, the arrangement of the SAP dots 805 is
preferably a staggered pattern as shown in FIG. 8, such that the
areas of the wicking zones 801 are generally uniform and equally
maximized.
[0077] FIG. 9 depicts yet another composite structure 900 embodying
a variation of the segmented absorbent core according to the
invention. The spaced-apart segmented SAP layers 903 each has a
high SAP concentration section 903a and are applied onto a nonwoven
substrate 905. In one respect, such a design may be described as
providing high concentration SAP target areas, wherein the core
exhibits higher absorbent capacity due to the higher SAP
concentration. For example, in FIG. 9, the high concentration or
wider SAP sections 903 will be strategically positioned in the
central crotch region. It should be noted that such target areas
may utilize not only segmented SAP layers of various shapes and
sizes, but also uniform, multi-layered or multi-tiered layer
designs as well (see e.g., FIGS. 10-12).
[0078] FIG. 10 depicts yet another composite structure 1000
embodying a variation of the inventive core wherein a high SAP
concentration is provided in the central crotch region 16. The
absorbent core 46 employs a multi-tiered absorbent composite
structure, and more specifically, a smaller secondary absorbent
composite layer 1002 applied over the larger first absorbent
composite layer 1001. In further embodiments, the secondary
absorbent composite layer 1002 may be replaced with high
concentrations of spaced-apart, longitudinally-extending segmented
layers, dotted layers, and the like, so as to achieve higher
absorbent capacity in the target area, i.e., crotch region. The
composite structure 1000 in FIG. 10 also utilizes a bottom or
substrate layer 1007, e.g., a backsheet.
[0079] The vertical cross-sectional view of FIG. 11 depicts yet
another composite structure 1100 embodying a variation of an
absorbent core according to the invention, and which employs a
prefabricated absorbent composite disposed in a corrugated
configuration. As shown therein, an absorbent composite 1105 is
folded into multiple "V" structures 1103 made up of two folds or
sections 1102 having flexible gaps therebetween. The folds 1102 are
glued together at bond points 1101 so as to keep the pleated layers
or "V" structures 1103 attached to one another. Such a corrugated
structure serves the auxiliary function of increasing the surface
area of the absorbent composite, thereby increasing the speed of
liquid flow into the absorbent materials and increasing the
absorbent capacity of the core. In a relatively wide diaper in the
prior art, when the diaper is worn, the absorbent core folds into a
"V" between the wearer's legs, and the absorbent materials of the
core are held some distance away from the wearer. In the corrugated
core design of FIG. 1, the multiple small "V" folds 1103 hold the
core closer to the wearer than one single, large "V" fold. In this
manner, a relatively narrow core is produced which moves
dynamically with the wearer, rather than move away from the wearer
(as in the prior art).
[0080] FIG. 12 depicts yet another composite structure 1200
embodiment of the inventive disposable absorbent article according
to the invention. In this embodiment, the article employs an
absorbent composite structure 1200 as an absorbent core 1200
configured in a nested doll structure. The nested doll core,
includes a prefabricated sheet of absorbent composite 1240 that is
rolled substantially about a pulp concentration 1230. The pulp
concentration 1230 provides wicking and facilitates liquid
distribution, while the prefabricated absorbent sheet 1240 provides
structural integrity. It should be understood that the absorbent
layer 1240 may employ multiple sheets or layered configurations as
discussed before. For example, the uniform sheet layer in FIG. 12
may be replaced with or supplemented by segmented layers of SAP
concentrations similar to those shown in FIGS. 7-9.
[0081] Moreover, the core according to various embodiments of the
invention may be configured to extend substantially the full length
and/or width of the disposable absorbent article. Preferably,
however, the core is disposed or is otherwise concentrated at the
crotch region of the article. In various embodiments, the core
includes a sheet or layer that extends to the edges of the article
and an absorbent composite(s) is concentrated in the crotch region
or another target zone of the article.
[0082] The core may also include additives which provide specific
properties for the article. For example, baking soda may be added
to provide improved odor absorbency. Further, a nonwoven sheet may
be added to provide added flexibility and stretchability.
Backsheet/Absorbent Core Composite
[0083] Each of FIGS. 17-19 depicts a backsheet/absorbent core
composite 1700, 1800, 1900 utilizing the prefabricated absorbent
composite sheet 200. In these embodiments, the backsheet and
absorbent core composite 1700, 1800, 1900 replaces the traditional
backsheet-poly-film barrier-absorbent core assembly in the prior
art. Referring to FIG. 17, the backsheet 1701 is formed by an SMMS
and SMS liquid barrier layer combination 1701 that extends beyond
the crotch region of the article 10 and preferably to the edges of
the article 10. In the crotch region 16 of the article 10, an
absorbent composite of the SMS nonwoven substrate 1701 and a
low-density, high SAP content absorbent layer 1703 together (i.e.,
applied by hot melt adhesion over the substrate 1701) forms the
absorbent core. In FIGS. 17 and 19, the crotch region 16 of the
article 10 is provided with a single, uniform layer of the
absorbent composite 1700, 1900 including an absorbent layer 1703,
1833 preferably having an SAP content about 180 g/m.sup.2. In the
composite 1900 of FIG. 19, a second SMS and SMMS combination layer
1907 is added (e.g., by hot melt) to the composite for extra
leakage protection.
[0084] In FIG. 18, a plurality of segmented, elongated high SAP
content (e.g., about 120 g/m.sup.2) absorbent composite layers 1803
are provided in the crotch region 16 to form the core. Preferably,
the SMMS backsheet layer 1801 forms about the rounded contour of
the absorbent composites or cores 1803, thereby creating pockets or
channels in which the absorbent composites 1803 are disposed.
[0085] Each of FIGS. 20 and 21 depict a topsheet/absorbent core
composite structure that may be utilized in a disposable absorbent
article 10 according to the invention. These designs eliminate the
need for the traditional three component design of a topsheet,
acquisition layer and absorbent core structure, and provides
instead a single layer of topsheet and absorbent core composite. In
a first embodiment illustrated in FIG. 20, the absorbent composite
2000 includes a two-layer nonwoven with an SAP coating. The
two-layer nonwoven is preferably provided in a concentration of
about 35 g/m.sup.2, while the SAP is preferably provided in a
concentration of about 150 g/m.sup.2.
[0086] The two-layer nonwoven consists of a fine PE/PET bicomponent
fiber layer 2003 and an PET/Rayon layer 2001. The PE/PET
bicomponent is preferably at about 1.5 denier, thermobonded, and
has a basic weight of about 10 g/m.sup.2. The PET/Rayon layer 2001
is preferably 50% PET and 50% Rayon, wherein the PET is at about 5
denier and the Rayon is at about 1.5 denier. Together, the
PET/Rayon mixture is preferably in a concentration of about 25
g/m.sup.2. As shown in FIG. 20, the two-layer nonwoven is
preferably immersed in an SAP slurry coating to produce the
composite 2000. Note that the SAP particles 2005 are positioned
below the PE/PET and on the underside of the composite, thereby
providing the absorbent core of the disposable absorbent article 10
of the invention.
[0087] FIG. 21 illustrates a second embodiment of a
topsheet/absorbent core composite structure that may be utilized in
an inventive disposable absorbent article 10. FIG. 21 also
illustrates the components which make up the composite structure
and how such components are combined to produce the composite
structure. Generally, the composite structure 2100 includes a
nonwoven layer 2102 that is preferably a thermal bonded PE/PET
bicomponent at 3 denier and a basis weight of 40 g/m.sup.2. The SAP
slurry (which provides the SAP) is preferably at a concentration of
about 150 g/m.sup.2 and is coated in a segmented fashion (to the
nonwoven layer 2106) to form a plurality of absorbent layers 2104.
Then, the absorbent composite 2100 may be folded between the
absorbent layer segments 2104 and elastic elements 2106 added so as
to form a tented structure. Elastic elements 2106 are preferably
provided underneath the topsheet at a location corresponding to the
peaks thereof. The absorbent composite 2100 is preferably fixed to
the backsheet 2108 by, for example, hot melt adhesion. It should be
apparent that this tented structure employing the absorbent
composite structure 2100 provides a relatively thin absorption
area, but one having an increased surface area.
Containment Walls
[0088] Now turning to FIGS. 13 and 14, in yet another aspect of the
invention, the inventive disposable absorbent article 10 utilizes a
pair of containment walls or cuffs 34 which employ a prefabricated
absorbent composite 200. Each containment wall 34 is a
longitudinally extending wall structure preferably positioned on
each side of the core 46 and spaced laterally from the longitudinal
center. The longitudinal ends of the walls 34 may be attached, for
example, to the topsheet 50 in the front and rear waist regions 12,
14. Preferably, the ends of the containment wall 34 are tacked down
inwardly and attached, for example, by adhesive to the web
structure 10a. Such a construction effectively biases the
containment wall 34 inwardly and is generally considered to cause
containment wall 34 to exhibit improved leakage prevention
properties.
[0089] FIG. 13 provides a vertical cross-sectional view of a diaper
10 according to the invention. The diaper 10 includes backsheet 60,
absorbent core 46, acquisition layer 48, and topsheet 50. The
diaper 10 also includes a pair of containment walls or cuffs 34
which are formed by folding topsheet 50 and wrapping it about a
prefabricated absorbent composite 1300. The width of the absorbent
composite 1300 may generally equal the height of the containment
walls 34, while the length of the absorbent composite sheet 1300
may extend the full length of diaper 10 (or at least through the
crotch region 16). Furthermore, the containment walls 34 may be
biased inwardly toward the center.
[0090] Preferably, the containment walls 34 are equipped with
elastic members 38, which extend along a substantial length of the
containment walls 34. In a common application, the elastic members
38 are placed within the containment walls 34, preferably at the
top of the containment walls 34 while in a stretched condition and
then glued to the containment walls at least at their ends. When
released or otherwise allowed relaxing, the elastic members 38
retract inwardly. When the article 10 is worn, the elastic members
38 function to contract the containment walls 34 about the buttocks
and the thighs of the user in a manner, which effects a seal
between the article 10, the buttocks and the thighs.
[0091] FIG. 13 depicts the configuration of the containment walls
34 when it is soft and dry. FIG. 14, on the other hand, depicts the
containment walls after wetting, in which the absorbent composite
1300 (i.e, the SAP) has swollen to dispose the containment walls 34
in a resiliently, erect position. Unlike traditional leg cuffs in
the prior art, the resiliently erect containment walls 34 resists
flattening (e.g., when the wearer sits down) and, thereby, ensures
leakage prevention, especially of explosive, liquefied bowel
movements and rapid discharges of urine.
[0092] In a further embodiment of the invention, the disposable
absorbent article may employ multiple containment walls, including
inner containment walls which are shorter than outer containment
walls (closer to side edges 90).
[0093] FIG. 15 depicts yet another variation of the inventive
disposable absorbent article 10. The article 10 includes
containment walls 34 and an absorbent core formed from a continuous
piece of prefabricated absorbent composite 1500. The absorbent
composite 1500 includes three SAP sections 1500a with a non-SAP
coated band along their intersections (GG). Note that the
intersection GG corresponds to the location where the single
continuous prefabricated sheet 1500 is folded. As described above,
the containment wall 34 which contains the prefabricated absorbent
composite sheet 1500, stays soft when dry (FIG. 15), but swells to
a resilient erect position when wetted (FIG. 16). Accordingly, the
containment walls 34 resist being flattened, like traditional leg
cuffs, when the wearer is in the sitting position, thereby helping
prevent leakage.
[0094] Each of FIGS. 22-24 depicts the use of the prefabricated
absorbent composite 2200, 2300, 2400 in the construction of the leg
gathers (i.e., another type of containment wall) of a disposable
absorbent article 10 according to the invention. In FIG. 22, a
material sheet of the absorbent composite 2200 is used to form the
upstanding containment walls or cuffs, wherein the segmented high
SAP content absorbent layers 2201 are disposed inwardly to face the
crotch region). Conversely, the nonwoven substrate 2203 is located
on the outside or outboard of the crotch region.
[0095] FIG. 23 depicts an alternative embodiment of the leg gathers
employing an absorbent composite 2300, according to the invention.
The absorbent composite employed in this embodiment is similar to
that illustrated and described with respect to FIG. 20 (above).
Further, in this embodiment, an absorbent composite is also
provided (e.g., with the backsheet 60 as to the nonwoven substrate)
as the absorbent core of the diaper.
[0096] FIG. 24 depicts yet another variation of a use of the
absorbent composite 2400 in a disposable absorbent article 10 of
the invention. In this embodiment, a conventional backsheet 60
provides the nonwoven substrate for each of the three absorbent
composites. The absorbent composites 2400 provides not only the
core structure, but an absorbent layer 2401 for each of the cuff
structures.
Optional Layers
[0097] The disposable absorbent article according to the invention
may employ additional layers including an acquisition layer or
surge layer, preferably situated between the topsheet and the core
(e.g., FIG. 4). One function of such an acquisition layer is to
spread out or disperse liquid flow so that liquid is distributed
more evenly over the core surface. This serves to slow down the
flow so that the liquid has adequate time to be absorbed by the
core. The acquisition layer also serves to prevent the core from
being saturated locally, while a substantial remainder of the core
is not absorbing any liquid.
[0098] The acquisition layer may be constructed from the absorbent
composite 200. More specifically, the acquisition layer 48 may be
provided by a sheet of the absorbent composite 200 with an SAP
having a high gel strength and a high loft substrate. Such an
acquisition layer sheet advantageously becomes more porous upon
wetting. This property is further improved by providing a high loft
nonwoven substrate such as through-air bonded nonwovens or any
other standard acquisition layer product. Accordingly, typically,
dual layers--an acquisition layer and a distribution layer--are
employed in the prior art. However, in the present invention, the
acquisition layer is provided by the single sheet acquisition layer
constructed from the absorbent composite 200. With the inventive
acquisition layer constructed from the absorbent composite 200,
very stiff granules within the sheet expand upon wetness and
provides pores or passages through the sheet (rather than
collapsing).
Tape Tabs
[0099] The disposable absorbent article must be secured to the
wearer. This is most important with respect to diapers since
diapers are not pulled up by the wearer, like training pants or
incontinent briefs, but are fastened around the wearer. Securing
elements compliment the elastic members by effecting a quasi-seal
between the wearer and the waistband and leg cuffs, so that liquid
is contained within the article which is then absorbed; in other
words, so that it does not leak through gas between the wearer and
the edge of the article. The securing elements may be adhesive,
mechanical fasteners hook and loop features, or conceivably
strings, i.e., anything that will secure one end of the article to
the longitudinally opposite end.
[0100] In the embodiments shown in the Figures (see, e.g., FIG. 4),
the article 10 is affixed to the wearer by tape fasteners 26 which
are permanently affixed to (e.g., sewn directly into) the backsheet
60. Tape fasteners 26 are contacted with the transversely opposite
ear 22 extending from the backsheet, where they remain affixed due
to adhesive compound applied to the fasteners 26.
Waistband
[0101] Waistbands employing elastic members are positioned along
the transverse portion of the article 10 so that when worn, the
waistbands are positioned along the waist of the wearer. Generally,
the waistband preferably creates a quasi-seal against the waist
(transverse elastic members 52) so that liquid waste does not leak
from the regions between the waist elastic and the waist of the
wearer. The quasi-seal is significant because although the liquid
may be eventually absorbed by filler material, the assault of
liquid by the wearer may overwhelm the absorption rate capacity of
the filler material. Hence, the waistbands contain the liquid while
it is being absorbed. Secondly, the waistbands preferably has a
capacity to absorb liquid (see, e.g., U.S. Pat. No. 5,601,544,
which is hereby incorporated by reference).
Article's Shape
[0102] The shape of the article can provide certain attributes. An
article providing a more precise contour around the wearer's crotch
area will less likely bunch up. In this way, The article helps to
prevent pools of liquid from building up and locally saturating
underlying filler material. The article's shape can also be
manipulated to control the seal or the closure of gas between the
edges of the article and the wearer. A narrower profile may be
desirable to achieve a smooth liquid contact zone against the
wearer's crotch (i.e., no bunching). However, a narrower profile
also means less surface area available for filler material thereby
decreasing the article's absorption capacity. Similarly, a larger
profile can more readily accommodate a variety of sizes, whereas a
narrower profile may not be suitable for larger wearers. However, a
larger article may be more costly to manufacture and require a
higher ticket price.
[0103] The present invention is, therefore, well adapted to carry
out the objects and attain the ends and the advantages mentioned,
as well as others inherent therein. While presently preferred
embodiments (in the form of a diaper) have been described, numerous
changes to the details of construction, arrangement of the
article's parts or components, and the steps to the processes may
be made. For example, the various topsheets, backsheet, absorbent
core, containment walls and other absorbent composite structures
may be utilized in other parts of the article or with other
articles other than diapers. Such changes will readily suggest
themselves of those skilled in the art and are encompassed within
the spirit of invention and in the scope of the appended
claims.
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