[0001] The present invention relates to an article of manufacture, said article being especially
useful for cleansing surfaces, especially skin. While the article herein is suitable
for a variety of uses where a high loft fabric with extremely low compressibility
and very high usable void volume is desirable, the present article is especially useful
for removing feces from the perineal region of infants or other incontinent persons.
[0002] Maintaining optimal hygiene in the perineal region of infants and incontinent patients,
especially non-ambulatory or geriatric patients, has always been a difficult and unpleasant
task. Of course, the perineal region can be adequately cleansed after defecation using
soap and water, but this is inconvenient. Accordingly, common practice is to use disposable
paper products, generally referred to as toilet tissue, for anal cleansing.
[0003] One problem associated with the use of common, dry toilet tissue for cleansing elderly
and ill,incontinent patients is that such dry products are not very effective for
removing fecal residues. Common practice is for the attendants caring for such patients
to increase wiping pressure to remove stubborn fecal residues, but that can result
in discomfort and skin irritation for the patient.
[0004] A variety of "pre-moistened", disposable, tissue-type wiping articles are commercially
available, and have been taught for use in cleansing the perineal area. However, these
products suffer from the disadvantage that, being made from relatively thin, low-loft,
paper structures, they do not have a high retention capacity for solid fecal matter.
As a result, multiple sheets and multiple wipes must be used to remove the high fecal
loads often encountered with geriatric patients, for example. Moreover, multiple wiping
with a single sheet is rather ineffective since the fecal matter is spread over the
skin. These
' problems are overcome by means of the high retention capacity of the present articles,
and the oleaginous cleansing agent which does.not undesirably dilute and smear the
fecal matter.
[0005] U.S. Patent 4,112,167, to T. W. Dake, J. S. Clunie, and A. D. Early, issued September
5, 1978, described the problems associated with perineal cleansing, and discloses
a skin cleansing product containing a lipophilic cleansing emollient, said product
being designed to overcome some of the problems associated with the dry, high-density
tissue-paper products commonly used for removing fecal matter from the perineal skin.
[0006] The present invention provides a cleansing article whose extremely high loft (as
compared with the article of U.S. Patent 4,112,167) wiping surface provides an extremely
high retention capacity for fecal matter. This high-capacity wiping surface, used
in conjunction with an oleaginous cleansing agent, provides an extremely convenient
article which completely and quickly rids the skin of large amounts of fecal matter
with, essentially, a single wipe.
BACKGROUND ART
[0007] Anal cleansing products with high void volumes (relative to standard, high density
toilet tissue) and lipophilic cleansing emollients are disclosed in U.S. Patent 4,112,167,
cited hereinabove.
[0008] A number of U.S. patents cited.in U.S. Patent 4,112,167 relate, in a general way
to webs used for skin cleansing and/or various cleansing materials. See, for example,U.S.
2,902,395; 2,999,265; 3,150,049; 3,310,454; 3,366,532; 3,595,731; 3,708,435; 3,759,775;
3,818,105; 3,823,057; 3,829,563; 3,881,210; 3,896,807; 3,949,130; 3,993,820 and 3,994,771.
SUPMMARY OF THE INVENTION
[0009] According to the present invention there is provided a cleansing article comprising
a web of fibrous material of basis weight in the range from 17 g/m
2-70g/m
2 releasably containing an oleaginous substantially water-free cleansing agent wherein
the web (1) comprises (a) a high loft wiping surface formed of resilient fibers, the
web having a high usable void volume under compression and (b) a web backing material
(2) secured to the web.
[0010] Preferred articles herein are those wherein the fibers which comprise said web are
crimped.
[0011] Typical articles herein are characterized by a web having an uncompressed thickness
in the range from 2 mm to 15 mm, or thicker. The articles herein are characterized
by a web having a basis weight in the range from 17 g/m
2 to 70 g/m
2. Preferred articles are those wherein the web has an uncompressed thickness in the
range from 4 mm to 5 mm and a density which increases on compression from
0.01 g/cm
3 3 uncompressed to
0.04 g/c
m 3 when compressed under hand pressure; highly preferred are articles having the aforesaid
preferred range of thickness and density, and wherein the fibers comprising the web
are crimped.
[0012] The present articles are characterized by a usable void volume under a compression
of from 7.75 g/cm
2 to 15.5 g/cm
2 of at least 90%. The highly preferred articles of the present type wherein the fibers
are crimped can have usable void volumes which are frequently at least 95% even when
compressed under typical hand wiping pressure (7.75 g/cm -15.5 g/cm
2).
[0013] In the process aspect of the invention a process for cleaning fecal matter from skin
comprises contacting said fecal matter with sufficient of a substantially water-free
oleaginous cleansing agent to assist in the removal of the fecal matter from the skin
and wiping the skin with an article comprising a web of fibrous material to remove
said fecal matter wherein the skin is wiped with an assembly comprising a) a web having
a high loft wiping surface composed of resilient fibers, said web having a high usable
void volume under compression, and b) a web-backing material affixed to said web.
[0014] The resilient fibers used to manufacture the web portion of the articles of this
invention are preferably hydrophobic. Fibers having an average fiber diameter from
0.009 mm to 0.075 nm are especially useful; a preferred diameter range is from 0.0185
mm to 0.037 mm. Commercially- available hydrophobic polyester fibers or polyolefin
fibers are conveniently used. Crimped polyester fibers having an average diameter
from 0.0185 mm to 0.037 mm, especially fibers having an average length, in the crimped
state, in the range from 7.6 cm to 15.5 cm, are especially useful, for reasons described
more fully hereinafter. Tow (continuous strands of fibers ) can also be advantageously
used in this invention.
[0015] By "high loft wiping surface" herein is meant the surface of the article designed
to pick up and retain particulate soils, e.g., fecal matter. The term "high loft"
denotes that the web comprising the wiping surface is substantially thicker in the
Z-direction (on the order of millimeters, as disclosed hereinabove) than the more
typical toilet tissues, which have a much thinner Z-dimension (on the order of fractions
of a millimeter) than articles of the present type.
[0016] By "web" herein is meant a carded or otherwise entangled network of fibers. Carded
webs suitable for use in the practice of the present invention can have the fibers
all aligned substantially unidirectionally, although interwoven and cross-lapped webs
can be used.
[0017] Examples of non-carded webs useful in the invention are airlaid webs, webs made by
the well-known Rando-Web Process which uses equipment marketed by Rando Machine Corporation
of Macedon, New York, and, in general, nonwoven webs of any type having the requisite
high loft. Should tow be used in this invention, the web can be prepared by any of
the well known techniques used to open or disoric
llt the crimped fiber tow.
[0018] By "resilient fibers" herein is meant fibers which resist compression, and which
return to substantially their original confirmation when compression is released.
The web of resilient fibers employed in this invention which are resistant to compression
in the Z direction are to be contrasted with fabrics such as cashmere, which, although
having a relatively high loft, readily collapse on use since the fibers are aligned
substantially parallel to the Z-direction. High loft fabrics such as cashmere are
not usable herein since their collapse in- use renders them non-retentive to the high
loads of solid waste matter that the articles of the present type are designed to
pick-up and retain.
[0019] By "releasable containing" is meant that, in use, the oleaginous cleansing agent
is released from the wiping surface onto the waste matter present on the surface being
wiped and the underlying surface.
[0020] The "oleaginous cleansing agent" and the "web-backing material" are defined and exemplified
hereinafter.
[0021] By manufacturing the high loft wiping surface of the present articles from a web
of resilient fibers, the articles of the present invention are provided with a high
usable void volume, even under compression, especially under typical hand pressures,
as would be encountered in cleansing the perineal region of a patient.
[0022] By "void volume" is meant the volume of. the substrate which is not occupied by the
fibers or oleaginous cleansing agent (and which varies somewhat with applied pressure).
[0023] By "high usable" is meant that the void volume is highly accessible to solid residues,
such as feces, due to the large continuous void spaces in the web structure, even
under hand pressure, such as would be encountered in a typical perineal cleansing
procedure, or the like. The high usable void volume of the web provides high pick-up
and retention for solid waste, especially fecal matter. For example, articles of the
present type having a web ca 2 mm thick (compressed. under hand pressure) pick-up
and retain ca 0.04-0.2 g of feces/cm
2 in a single wipe (i.e., under non-equilibrium conditions).
[0024] All percentages herein are by weight, unless otherwise specified.
Description of the Drawings
[0025]
Figure 1 is a perspective view of a preferred article 10 of the present type, said
article comprising a fibrous web 1, said web being sealed to web-backing 2 with web
seals 3 in a rectilinear pattern. In the article depicted, an optional, but preferred,
scrim-4 is also affixed to the web backing. In the article depicted, the composite
web/web-backing/scrim is sealed around three-fourths of its periphery with a peripheral
seal 5 to optional, but preferred, rear backing 6, thus providing the convenient mitt-like
article shown in Figure 1, with an un-sealed area 7 into which the user's hand fits.
Figure 2 is a perspective view of the individual elements of the preferred article
10 showing the sequence of assembly of the fibrous web 1, web backing 2, and scrim
4 to form the composite layer 11 which is then sealed to rear backing 6, as previously
described, to form article 10.
Figure 3 is an enlarged cross sectional view taken along section line 3-3 of Figure
1, showing one area of the fibrous web 1, web backing 2, web seal 3 and peripheral
seal 5, scrim 4, rear backing 6, and a portion of the peripheral un-sealed area 7
into which the user's hand can be placed.
Figure 4 is a microscopic picture (100X; scanning electron microscope) of a typical
web of fibers of the type used in the present article. The fibers in Figure 4 are
not coated with the oleaginous cleansing agent.
Figure 5 is a microscopic view (100X; scanning electron microscope fitted with an
environmental cell) of the fibers coated with the oleaginous cleansing agent. Note
that the cleansing agent depicted in Figure 5 is non-drippy.
Figure 6 is a graph of the thickness vs. pressure curve for the present product (curve
A), as compared with the article of U.S. Patent 4,112,167, cited above (curve B).
The typical hand-pressure region is described by the vertical dashed lines.
[0026] The following describes the preparation of a preferred perineal cleansing "mitten"
and means for constructing same. It will be appreciated by those skilled in the art
that cleansing articles of various types can be constructed in similar fashion, without
departing from the scope of this invention.
[0027] A preferred article of the present type is characterized by a fibrous web wiping
surface having the approximate dimensions of .20.3 cm X 25.4 cm (8 in. X 10 in.) bonded
to a web-backing, scrim, and rear backing to provide a mitten, and coated with an
oleaginous cleansing agent, all as described in the Figures.
[0028] In the manufacture of the fibrous web, it is preferred that the fibers be as long
as possible, since the longer the fiber, the fewer the bonds required to affix the
fibrous web to the backing surface; and, the fewer the bonds, the higher the loft
of the wiping surface. On a commercial basis, fibers in the size length of 7.6 cm
to 20.3 cm (3 in.-8 in. uncrimped length) are passed through a standard Davis and
Furber carding machine to provide a fibrous web comprising crimped fibers. The crimped
fibers are of a length about 60% that of their original length in the relaxed state
(ca. 8-16 crimps per 2.54 cm).
[0029] As disclosed hereinabove, it is preferred that the fibers be hydrophobic, and polyester
fibers are convenient and preferred. For skin comfort, it is preferred that the fibers
be in the range from 6 denier (0.0185m diameter) to 12 denier (0.037 nun) although
fiber diameters outside this range, such as fibers as fine as 3 denier or less, can
be used, according to the desires of the manufacturer, without departing from the
spirit of this invention. For use on human skin, the 6 denier polyester fiber is quite
comfortable and is preferred.
[0030] Using standard carding technology, the fibrous web of 6 denier polyester fiber is
formed into a web having a basis weight of 25 grams per square meter. This type of
web has a density in the frange from 0.0128 g/cm in the uncompressed state, increasing
to 0.04 g/cm
3 when compressed under ordinary hand pressure (7.75 g/cm
2 to 15.5 g/cm
2). Thickness is 6 mm to 8 mm (uncompressed).
[0031] The web-backing material can be selected from any suitable sheet substrate. The backing
should be impermeable to feces or oleaginous materials, or, preferably, both, to provide
protection for the user's hands. Flexible (0.02 mm to 0.06 mm thick) polyethylene
is preferred for use as the web-backing.
[0032] In a highly preferred, but optional, mode, a scrim is affixed to the web backing
on the side of the backing away from the fibrous web as shown in Figure 2. The scrim
provides additional reinforcement, but, more importantly, provides purchase for the
user's hands against the slick polyethylene web-backing, thereby helping maintain
control of the wiping mitten during use. There is no particular limitation on the
type of scrim employed, but a nylon scrim covered with any convenient thermoplastic
material having a melting point near that of polyethylene is convenient.
[0033] Manufacture of the present article can be carried out by simply laying the polyester
web onto the polyethylene web-backing, which is on top of the optional scrim. The
polyester web is sealed around its edges to the web-backing and scrim by impulse heating
using a heat sealer (120-150°C) or other convenient means. The web is then sealed
in a rectilinear pattern to spot-bond it to the web-backing. In the heating process,
both the web-backing and-coating on the scrim melt to provide bonding; the polyester
fibers comprising the web are not melted at these temperature ranges. Sealing patterns
other than rectilinear can be used, according to the desires of the manufacturer,
but an unduly large number of seals can unnecessarily flatten the fibrous web, thereby
undesirably diminishing its capacity to retain solids. In article 10 of Figure 1,
the seals are ca 2.54 cm on a side.
[0034] The assembly comprising the web/web-backing/scrim prepared in the foregoing manner
can then be heat sealed around, for example, three-fourths, of its periphery to a
rear backing material. The preferred rear-backing material is a standard paper toweling,
manufactured under the trademark BOUNTY. The assembly can be heat sealed to the paper
backing. Of course, other types of rear backing materials can be employed, but it
is convenient, and preferred, for hospital use that the rear backing be one which
can absorb both water and oil, thereby being of assistance in patient cleansing, as
may be required. Assembly is as depicted in Figure 2.
[0035] The fibrous web which comprises the wiping surface of articles of the foregoing type
is releasably impregnated with an oleaginous cleansing agent. Impregnation can be
done at any convenient time during manufacture, preferably after the component parts
of the mitten are assembled and bonded together. A variety of oleaginous materials
are suitable for this use; however, in order that the completed article be non-drippy,
it is preferred that the cleansing agent be in solid or semi-solid form up to about
32°C. It. is also preferred that the agent be an emollient for human skin. Any of
the lipophilic cleansing agents of the type described in U.S. Patent 4,112,167, cited
hereinabove, can be used for this purpose. A preferred oleaginous cleansing agent
comprises the following mixture: Brij 72 (polyoxyethylene (2) stearyl ether; ICI America,
Inc.) 10%; mineral oil 66%; hexadecanol 8%; and octadecanol 16%.
[0036] The cleansing agent is applied to the fibrous web at a rate of 4 grams per article
(20.3 cm X 25.4 cm web).
[0037] Any convenient means of application can be used, but it is preferred that the cleansing
agent be sprayed on the pad using a Wagner Airless sprayer, with the agent in molten
form. Typically, using an Airless sprayer at a distance between spray nozzle and web
surface of 10 cm provides good, non-drippy, uniform coverage of the fibrous web. Other
application rates can be used (e.g., 2-8 g for an article of the foregoing dimensions)
depending on the intended use of the article.
[0038] In use, an article of the foregoing type is simply wiped (usually, a single wipe
suffices) across the surface being cleansed, and excellent r.emoval of solid soil
(e.g., fecal matter) is secured.
[0039] The cleansing articles of the present invention comprise: (1) a fibrous web having
a high loft and high usable void volume, as disclosed hereinabove; (2) said web being
stabilized by a web-backing material; and (3) an oleaginous cleansing agent.
The Web
[0040] The web which comprises the wiping surface of the present articles and the containment
means for particulate soil can be fashioned from a wide variety of resilient fibers
which are commercially available. Among such fibers there can be mentioned, for example,
polyesters, nylons, rayons, polyethylene, polypropylene, and the like. The selection
of the chemical composition of the fibers is not particularly important to the practice
of this invention, so long as the fibers are resilient to compression and are stable
to the cleansing agent.
[0041] The fiber diameter can also vary over a wide range (from 0.01 mm to 0.05 mm) depending
on the intended end- use of the article. Fibers below 0.009 mm in diameter may be
so fragile that they may be too compressed under 'normal hand pressure; fibers above
0.05 mm diameter may be perceived as "rough" when used on a sensitive surface such
as skin. •
[0042] The fibrous web can be made using standard carding techniques to provide a network
of fibers having a void volume in the range from 90% to 99%, preferably 98%. Preferably,
the fibers are not bonded together in the web, since bonding decrease loft.
[0043] As noted hereinbefore, techniques other than carding, such as airlaying, can be used
to make the fibrous web of this invention so long as the web is a high loft web having
the properties herein disclosed.
[0044] The web thickness, as manufactured, is generally in the range from 5 mm to 10 mm
for a typical cleansing article of the present type. Webs having a basis weight in
the range from 17 to 70 g/m
2 are typical.
[0045] Typical webs used herein do not have sufficient inherent strength to maintain their
integrity when used in their intended wiping mode. Accordingly, such webs are bonded
to a web-backing, as disclosed hereinabove. This is conveniently done by heat-sealing.
However, if an inordinately large number of heat seals are employed, the loft of the
web is unnecessarily and undesirably compressed, simply by virtue of the number of
seal points. In order to minimize the number of seal points needed to securely fasten
the web to the web-backing, it is preferred that the longest available fibers be used
to form the web. Fiber tow is quite useful in making the webs of this invention. Also,
in general, fibers in the length from 7 cm to 30 cm (uncrimped length; crimped length
average from about '3 cm to 15 cm) are sufficiently long that, even when heat sealed
to the web-backing, the fibrous web maintains an average thickness across the article
approximately 85-90% that of the original web thickness. For example, an article of
the type depicted in Figure 1 sealed in a rectilinear pattern with the seals an average
of 2.54 cm apart and made from .a web approximately 6 mm in thickness will have a
height of each individual "pillow" of webbing about 4.5-5 mm.
The Web-Backing
[0046] The selection of web-backing material employed herein is not particularly critical
to the invention, and a wide variety of web-backings can be employed. While flexible
backings are preferred for use in parparing mitten-type cleansing articles of the
type shown in the figures, other backings can also be used. One requirement for the
web-backing is that it have sufficient structural integrity that it reenforces the
fibrous web. Another requirement is that the web-backing be impermeable to feces,
oleaginous agents, or both. An impermeable backing sheet which backs substantially
all of the fibrous web is preferred to protect the user's hand from undesired contact
with both the oleaginous cleansing agent and particulate soil being taken up in the
void spaces of the web. Typical web-backings include impermeable (treated) paper,
impermeable woven and non-woven fabrics, plastic and plastic laminates, and the like.
The Cleansing Agent
[0047] The oleaginous cleansing agents typically used herein are nonvolatile, nontoxic,
substantially non- hygroscopic, and well-tolerated by skin.
[0048] In general, oleaginous cleansing.agents useful herein are compounds or mixtures of
compounds which are mainly paraffinic hydrocarbons and their common derivatives (e:g.,
fatty alcohols, acids and esters) which, when applied to the skin (or other surface
being cleansed), spread over the skin's surface because of their low surface tension
against air (less than about 35 dynes per cm at 20°C).
[0049] Preferred oleaginous cleansing agents used with the article of the present invention
are "non-dripping". That is, the agents are selected so that they adhere to the fibers
of the wiping surface until use. Preferred oleaginous cleansing agents have a rheology
typical of pseudoplastic or plastic fluids. When no shear is applied, such plastic
or pseudoplastic oleaginous cleansing agents have the appearance of a semi-solid,
but can be made to flow as the shear rate is increased (e.g., by wiping). These oleaginous
cleansing agents exhibit decreasing viscosity with increasing shear rate. Preferred
oleaginous cleansing agents have a viscosity no greater than 5,000 cps. when measured
at a shear rate of 400 sec
1 at a temperature of 20°C. Included within this definition are silicone oils and waxes
which, although non-paraffinic in origin, satisfy the above specified physical criteria.
These also desirably provide an emolliency benefit to skin being cleansed with the
present articles.
[0050] Oleaginous cleansing agents are commonly used as oilbased skin cleansers in the cosmetic
art. Specific examples of individual substances included in the term "oleaginous cleansing
agents" are: paraffinic hydrocarbons (straight or branched chain, saturated or unsaturated),
having chain lengths of from 16 to 60 carbon atoms, such as mineral oil (C
16 to C
20) petrolatum (
C16 to C32), paraffin waxes (C20 to C
40) and microcrystalline waxes (C
35 to C
60); alkyl esters derived from monocarboxylic fatty acids having from 12 to 28 carbon
atoms and short chain (C
2 to C
8) monohydric alcohols, such as isopropyl laurate, isopropyl myristate, isopropyl palmitate,
ethyl hexyl palmitate; alkyl esters derived from fatty alcohols (C
12 to C28) and short chain acids, e.g., lactic acid, such as lauryl lactate, cetyl lactate;
fatty acids, fatty alcohols and fatty alcohol ethers having from 12 to 28 carbon atoms
in their fatty chain, such as stearic acid, cetyl alcohol, ethoxylated and propoxylated
fatty alcohols; glycerides, acetoglycerides, and ethoxylated glycerides of C
12 to C
28 fatty acids; other fatty esters of polyhydroxy alcohols; lanolin and its derivatives;
polysiloxanes having a viscosity at 25°C of from 5 to 2,000 centistokes; and mixtures
thereof.
[0051] The aforesaid materials can optionally be used in emulsion form as an oleaginous
cleansing agent herein. For example, cleansing emulsions comprising any of the aforesaid
cleansing agents and water, plus suitable emulsifier, can be prepared in well-known
fashion and used to advantage as the oleaginous cleansing agent in articles of the
present type. However, when used for removing fecal matter from human skin, it is
preferred that the oleaginous cleansing agent be substantially free from water.
[0052] The following examples illustrate other embodiments of articles of the present invention,
but are not intended to be limiting thereof.
EXAMPLE I
[0053] An article of the present type is manufactured in the form of a simple pad by affixing
a 10 cm X 10 cm web of eight denier polyethylene fibers to a 10 cm X 10 cm flexible
polyethylene web-backing sheet. The fibrous web is prepared using standard carding
equipment from crimped fibers having an average length of 7 cm; the web has a basis
weight of 2
0 grams/m and a thickness of 10 mm. The fibrous web is bonded to the web-backing using
a heated rod to provide a web-bonding pattern in the form of three concentric circles
on the face of the article, and a separate bond completely around the four sides of
the web. The average Z-direction'thickness of the web on the resulting web/web-backing
assembly is 8.5 mm.
[0054] The fibrous web of the web/web-backing assembly prepared in the foregoing manner
is uniformly coated with three grams of an oleaginous cleansing agent comprising a
20:50:2 (wt.) mixture of mineral oil:petrolatum:silica gel.
[0055] The article of Example I is suitable for use in a variety of cleaning situations
where it is desirable to leave a oleagrous film on the surface being cleaned, and
where the surface being cleaned is contaminated with substantial amounts of solid
waste. For example, the article of Example I is suitable for perineal cleansing of
infants and incontinent patients, and is conveniently disposable. The article is also
useful for removing cosmetics from the face. Likewise, the article is quite useful
for cleaning muddy metal surfaces, such as automobiles, motor cycles, and the like.
When cleaning metal surfaces, the article is simply wiped across the surface, whereupon
particulate matter present on the surface is removed and contained within the fibrous
web, while a protective oleaginous film is concurrently transferred to the metal surface.
EXAMPLE II
[0056] The articles of the present invention conveniently provide an oleaginous cleansing
agent on their fibrous web wiping surface. When cleaning the perineal region of incontinent
patients and infants, for example, this agent is transferred to fecal matter to aid
in its removal from perineal skin. In a less convenient mode, a web/web-backing pad-type
assembly of the present type which does not contain the oleaginous cleansing agent
can be used for perineal cleaning, and the like. When so doing, an oleaginous cleansing
agent such as mineral oil, or the like, is poured or spread onto the fecal matter,
and, thereafter, the fecal matter is wiped away using the web/web-backing assembly.
[0057] In a typical patient cleansing operation, the perineal region of an incontinent adult
patient is cleansed from fecal residues by applying ca. 4 ml. of medium-grade mineral
oil to the feces and soiled skin area, and, thereafter, wiping the area with a web/web-backing
assembly of the type described in Example I.
[0058] As can be seen from the foregoing, the present invention encompasses a cleansing
process comprising wiping a soiled surface with the herein-described web/web-backing
assembly in the presence of sufficient oleaginous cleanser to assist removing the
solid soil from the surface being cleansed.