Note: Descriptions are shown in the official language in which they were submitted.
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BACKGROUND OF THE INVENTION
The present invention relates to elastic garments, and
more particularly to therapeutic stockings.
In the recent past, therapeutic stockings have been pre-
scribed on a relatively wide scale to prevent possible embolismin a patient. When a patient is confined to bed, for example,
after an operation, the likelihood of thrombus is markedly
inereased due to a decrease in the velocity of blood flow in the
patient's legs during confinement. Therapeutic or anti-embolism
stDckings cause application of a compressive pressure against the
patient's leg which gradually decreases from the ankle toward the
upper part of the leg. Such stockings increase the velocity of
blood flow in the legs, and minimize the possibility of thrombo-
embolism.
The stockings are frequently worn in a hospital en~ir-
onment, and are commonly worn by the patients without slippers
or shoes. Many of the patients who wear the stockings are rela-
tively weak and unsta~le on their feet, and it h~s been found
that the patients may slip on the waxed hospital floors while
walking or while leaving their beds. It is thus desirable to
provide such stockings with a lower surface which prevents slip-
page on the floors. Since the stockings are periodically laun-
dered, the stockings must be capable of withstanding the elevated
temperatures during launderings without loss or degradation of
the non-slip surface. Also, the non-slip surface should not
impair the desired stretch characteristics of the stocking.
SUMMARY OF THE INVENTION
A principal feature of the present invention is the
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provision of a therapeutic stocking of simplified construction
which minimizes slippage by a patient on a floor.
The stocking of the present invention comprises, a
boot portion, and a circumferentially elastic foot portion for
covering the foot of the patient. The stocking has a lower non-
slip or frictional region of the foot portion comprising, sheet
~eans of a thermoplastic material fused to the outside of a cir-
cumferentially prestretched area of the foot portion underlying
the foot.
A featur,e of the present invention is that the region
is loc~ted to contact the floor beneath the patient's foot and
provide a relatively high friction surface to minimize slippage ~-
by the patient on the floor.
Another feature of the present invention is that the
stocking may be subjected to repeated launderings without degrad-
ing the frictional characteristics of the region and without
severing the sheet means from the stocking.
Still another feature of the present invention is that
the sheet means does not impair circumferential elasticity of
the stocking foot portion adjacent the sheet means.
~ nother feature of the present invention is the provi-
sion of a method of forming a non-slip region on the stocking
foot portion.
Further features will become more fully apparent in
the following description of the embodiments of this invention
and from the appended claims.
DESCRIPTION OF THE DRAWINt`7S
In the drawings:
Fig. 1 is a front elevational vi~w of a therapeutic
stocking of the present invention;
Fig. 2 is a front elevational view of another embodi-
ment of a therapeutic stocking of the present invention;
Fig. 3 is a lower plan view of a stocking foot portion
showing a non-slip region on the foot portion;
Fig. 4 is a fragmentary sectional view taken substanti-
ally as indicated along the line 4-4 of Fig. 3;
Fig. 5 is a fragmentary side elevational view of the
stocking of Fig~ 3;
Fig. 6 is a lower plan view of another embodiment of
the stocking of the present invention;
Fig.-7 is a lower plan view of another embodiment of
the stocking of the present invention;
Fig. 8 is a typical elastic fabric for the stocking
foot portion;
Fig. 9 is a schematic view of an apparatus for forming
a non-slip region on the stocking foot portion according to a
method of the present invention; and
Figs. 10 and 11 are schematic views showing another
apparatus ~or forming the non-slip region according to a method
of the present invention.
'
DESCRIPTION OF T~E PREFERRED EMBODIMENTS
Referring now to Figs. 1 and 2, there are shown thera-
peutic stockings generally desianated 20 for a patient having a
circumferentially elastic foot portion 22 and a circumferenti-
ally elastic boot portion 24 extending from the patient's ankle
toward the top of the stocking. The foot and boot portions 22
and 24, respectively~ may be made From a knitted fabric contain-
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ing elastomeric yarns to exert a compressive pressure against
the patient's leg which gradually decreases from the patient's
ankle toward the top of the stocking, although the thigh-length
stocking of Fig. 1 may exert a reduced compressive pressure in
the region of the knee. The thigh-length stocking of Fig. 1 may
also have an elastic band 26 which extends partially around the
patient's upper thigh,'and which is separated by an area 28 of ~ -
circ~mferentially elastic fabric. The stocking of Fig. 2 extends
to a location below the patient's knee. As shown in Figs. 1-3,
the stockings 20 may have a welt 30 which defines an opening 32
beneath the patient's toes to permit inspection of the toes while
the stockings are worn. In one form, the stocking toe may com-
prise a non-elastomeric fabric which is attached to the welt 30.
As shown in Fig. 8, the stocking foot portion 22 may
hav~ alternating courses of jersey knit stitches of non-elasto-
meric yarns 44 and 46. The yarns 44 are preferably of Z-twist
stretch nylon, such as 70/1, 17 filament Z-twist nylon 66 yarn,
while the yarns 46 are preferab~y of S-twist stretch nylon, such
as 70/1, 17 filament S-twist nylon 66 yarn. A covered elastomeric
yarn 48, such as a single covered elastomeric yarn having a 280
denier spandex core and a covering of 70/1, 34 filament nylon
6 yarn, is preferably inlaid into every other course of the ~er-
sey stitches. The elastomeric yarns may be inlaid into either
course of S-twist or Z-twist yarns, as desired. If aesired, the
elastomeric yarns 48 may be inlaid in every course of the jersey
stitches to provide a greater compressive pressure against the
foot. Other suitable fabrics may be used for the foot portion 22.
As shown in Figs. 3-5, the stocking 20 has non-slip
regions 34a and 34b positioned on the foot portion 22 beneath the
patient's foot and defining an exterior high friction surface
for contacting the floor. The lateral region 34a is located
adjacent the ball 36 of the patient'~ foot and adjacent the welt
30. The longitudinal region 34b is located beneath the patient's
heel 38, and, as best shown in Fig. 5, includes an ena portion
extending from beneath the patient's foot upwardly along the
back of the patient's heel. Thus, the regions 34a and b are
located on raised parts of th~ foot portion 22 when the stocking
is worn in order that the regions contact the floor and minimize
slippage by the patient while walking on the floor without slip-
pers or shoes. The end portion 40 of the heel region 34b pro-
vides a non-slip surface behind the heel for contacting the floor
as ~he patient leaves a bed.
As will be discussed below, the non-slip regions 34a
;and b may comprise relatively inelastic strips or sheets of a
thermoplastic material which are fused into the fabric of the
foot portion 22 in order to bond the strips to the fabric. The
strips have a high coefficient of friction relative the stocking
fabric, and provide the non-slip surface on the bottom of the
stocking foot portion 22. The areas of the foot portion underly-
ing the strips are circumferentially stretched before the strips
are bonded to the fabric, such that the strips do not impair the
circumferential elasticity of the foot portion adjacent the strips.
Thus, after the strips are fused to the fabric and the prestretch-
ed fabric is released, the fabric will wrinkle along the sides ofthe strips and permit stretching of the fabric circumferentially
adjacent the strips when the stocking is placed on the patient's
foot. The stocking foot portion has a modified two-way stretch,
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and the foot portion may be stretched slightly in a direction
transverse to the circumferential direction prior to attachment
of the sheets, if desired. It has been found that the bonded
strips withstand repeated launderings without degradation of
their frictional characteristics, and do not sever from the
stocking during launderings or normal use.
The non-slip strips preferably comprise an internally
plasticized thermoplastic material such as a film of vinyl chlor-
ide homopolymer sold as Product No. 1-114-1 by Plymouth Rubber
Company, Inc., Canton, Massachusetts, which is internally plasti- -
cized with a 4 to 13 carbon alcohol ester of acids and/or acid
anhydrides, containing standard organic stabilizers, fillers,
pigments, processing aids and lubricants. Another suitable exam-
ple of a material for the strips are films sold as product Nos.
981 and S1114-X16 by Harte & Company, Inc., 16 E. 34th Street,
New York, New York, which is internally plasticized with diiso-
decyl phthalate, epoxy plasticizer, polymeric plasticizer, organic-
metallic stabilizer and stearic acid lubricant. The films are
internally plasticized in order that the plasticizers are not
removed during launderings of the stockings, and to provide rela-
tively soft strips which do not have a slippery surface. The
films may have a thickness in the range of 4 to 14 mils, preferably
-approximately 9 mils, and may be colored white. Of course, the
strips should be non-toxic, non-irritating, and hypoallergenic.
In an alternative form, the non-slip strips or sheets
may be elastic with relative modulii of the strips and the stock-
ing foot portion being such that the strips do not impair or limit
expansion of the stocking foot portion when the stocking is worn.
Examples of such a material are heat expandable, washfast water
- (
.
based or solvent based coatings or print-on applications of a
polyacrylic acid ester and polystyrene latex blend containing a
blowing agent and with an expansion ratio of 6 to 12, such as a
material sold under the name "Foamcoat" (trademark) Nos. 50 or
- 55 by Pierce and Stevens Corporation, 710 ~hio Street, Buffalo,
Ncw York. Such a material may be applied to the stocking foot
portion by screen, roller, or block printing, and are dried and
expanded under heat to produce tough non-slip surfaces. Elastic
strips may be applied to the stocking foot portion without pre-
stretching the stocking foot portion, if desired.
Another embodiment of the stocking of the present inven-
tion is illustrated in Fig. 6, in which like reference numerals
designate like parts. In this embodiment, the foot portion 22
has a welt 30 defining a toe inspection opening 32, as previously
descri~ed. However, in this embodiment, the region 34 extends
from the ball 36 of the patient's foot to the patient's heel 38.
As before the region 34 provides a non-slip surface beneath
raised parts of the foot when the stocking is worn to minimize
slippage by the patient while walking.
Another embodiment of the stocking of the present inven-
tion is illustrated in Fig. 7, in which like reference numerals
designate like parts. In this embodiment, the non-slip region
34 extends from a location beneath the patient's toes 42 to the
heels 38, and extends substantially between the sides of the
patient's foot. The region 34 provides a non-slip surface for
minimizing slippage by the patient on the floor, in ~a manner as
previously described.
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In a suitable example of the stocking of the present
invention, strips of the thermoplastic material, sold by Plymouth
Rubber Company, Inc., as described above, having a thickness of
9 mils were positioned on the stocking foot portion. The strips
were heated to approximately 375 F. while applying a pressure
against the strips and fabric of approximately 100 lbsjsq.in.
for a time period of approximately 5 seconds. It has been found
that if the strips are applied in the absence of sufficient heat,
pressuxe, or time, the strips do not properly bond to the fabric,
while if the strips are applied in the presence of an excessive
temperature or during an excessive time period, the elastomeric
or nylon yarns of the fabric may be destroyed or degraded in
function.
Referring now to Fig. 9, there is shown an apparatus gen-
6r?.l ly designated 50 for forming non-slip regions on the stocking
foot portion according to a method of the present invention. The
apparatus 50 has a plurality of foot forms 52a, b, c, d, e, f, g,
and h extending from a central member 54 which is intermittently
driven in a clockwise direction and carries the foot forms. As
best shown in connection with the foo* form 52a, the form has a
groove 56 to receive the stocking welt, and has an upper release
surface 58, such as a Teflon~coated fiberglas fabric, such as
the product Fluorglas (trademark) 2815-6, sold by Dodge Indus-
tries, Inc. of ~oosick Falls, New York. As shown in connection
with the foot form 52b, the stocking is placed on the form before
or after boarding with the welt 30 being located in the form
groove 56, and with the lower part of the foot P~rtion 22 being ~
located above the release surface 58. ~he fo~t forms are suffi-
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ciently wide to circumferentially stretch the fitocking foot por-
tions 22 when they are placed on the foot forms.
As illustrated in connection with the foot form 52~, the
thermoplastic strips 34a and 34b are placed at the desired posi-
tion on top of the lower part of the stocking foot portion 22 andabove the release surface 5~ of the foot form. As shown in connec-
tion with the foot form 52d, the apparatus 50 has a heating member
60 ~ich is preferably coated with a release surface of tetra-
fluorethylene, such as Teflon, a trademark of Ec I. du Pont de
Nemours, and which is movable between a position spaced above the
stocking and a position bearing against the thermoplastic strips
34a and b and the foot form, such that the thermoplastic strips
;~ and stocking are compressed between the heatin~ member 60 and the
~oot form 52d. Thus, when the foot form ~upporting the thermoplas-
tiC strips moves to a location below the heating member and rota-
tion of the central member 54 has been stopped, the heating member
60 moves to its lower position engaging against the thermoplastic
strips 34a and b. The heating member 60 applies~heat and pres-
sure to the thermoplastic strips during a period of time in order
to fuse the strip$ into the fabric of the stocking foot portion,
after which the heating member 60 moves to its spaced upper posi-
tion. The release surface 58 prevents bonding of the thermoplas-
tic material to the foot form, while the foot form itself sepa-
rates the foot portion and prevents bonding of the material to
~5 the upper part of the stocking foot portion below the foot form.
As shown in connection with the foot form 52e, the completed
stocking has the thermoplastic strips 34a and b fused into the
stocking fabric/ and the stocking may be removed from the foot
forms at this time, as will be seen in connection with the empty
foot form 52f.
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Thus, the apparatus 50 intermittently rotates the foot
forms, and tbe stockings may be positioned on the forms when they
are stopped at the location of the foot form 52b, 52f, 52g, 52h,
or 52a As the apparatus rotates to its next position, the
thermoplastic strips may be placed on the stocking foot portion,
after which the stocking foot portion containing the thermoplas-
tic strips rotates to a position beneath the heating member where
the thermoplastic strips are fused to the stocking foot portion.
Finally, the heating member raises from the stoc~ing, and the
stocking foot ~ortion containi~g the fused strips rotates to the
position shown in connection with the foot form 52e, where the
completed stockings may be removed from the foot forms.
Another device generally designated 70 for applying the
therm~plastic strips to the stocking foot portion according to a
method of the present invention is illustrated in Figs. 10 and
11. As shown, the stocking 20 is placed on a boarding form 72,
and separate strips of thermoplastic material 34a and 34b are
positioned on opposite sides of the boarding form against the
stocking foot portion 22. The strips 34a and b may be retained
at their desired position by suitable means, such as by adhesive
on the strips. Next, as shown in Fig. 11, a pair of opposed
heating members 74a and 74b are moved toward the thermoplastic
strips 34a and b. The heating members 74a and b apply heat and
pressure to the strips 34a and b between the heating members and
the boarding form 72 for a period of time, after which the heat-
ing members 74a and b are moved away from the stocking contain-
ing the fused strips. Although the strips are shown as being
retained on the stockin~ foot portion before being fused to the
fabric, it will be apparent that the strips may be retained on
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the heating members 74a and b by suitable means before being
fused, such as by a source of vacuum. Additionally, the boarding
form 72 may have a release surface underlying the thermoplastic
strips and the heating members 74a and b may have suita~le
release surfaces to prevent bonding of the thermoplastic strips
to the boarding form and the heating members, in a manner as pre-
viously describea. The device 70 may be utilizea to fuse the
thermoplastic strips to the stocking foot portion either before
boarding, during boarding, or after boarding, as desired.
Thus, according to a method of the present invention, a
lower area of the stocking foot portion is stretched in a circum-
ferential and/or longitudinal direction, the strips of thermoplas-
tic material are positioned in the stretched area on the outside
of the foot portion, and heat and pressure are applied to the
strips during a period of time to fuse the strips to a region of
the f~t portion. Although in a preferred form the non-slip
strips are fused to the stocking foot portion, it i9 apparent
that the strips, whether elastic, inelastic, or a thermoplastic
material, may be attached to the stocking by other suitable means,
such as by sewing or adhesive.
The foregoing detailed description is given for clear-
ness of understanding only, and no unnecessary limitations should
be understood therefrom, as modifications will be o~vious to those
skilled in the art.