U.S. patent application number 09/778018 was filed with the patent office on 2001-09-06 for orthopedic head and neck support pillow that requires no break-in period.
Invention is credited to Walpin, Lionel A..
Application Number | 20010018777 09/778018 |
Document ID | / |
Family ID | 23974349 |
Filed Date | 2001-09-06 |
United States Patent
Application |
20010018777 |
Kind Code |
A1 |
Walpin, Lionel A. |
September 6, 2001 |
Orthopedic head and neck support pillow that requires no break-in
period
Abstract
An orthopedic pillow that comprises several components of
varying densities, which in combination provide improved and more
immediate comfortable support for the head and neck region, while
enhancing the multi-alignment features for the spine, head, and
neck of a user in back-lying and side-lying body positions, and do
not require the user to endure a break-in period to allow the
pillow to conform to the shape of the user's head. The pillow
comprises a firm core comprising a first and second lengthwise
edge, a top surface, and a bottom surface; a recess located on the
top surface of the core; a layer of soft, viscoelastic foam located
within the recess; a layer of soft, Dacron fiber located along a
top surface of the layer of foam; and a soft, C-shaped layer of
viscoelastic foam wrapped around the core, whereby the C-shaped
layer of foam covers the first lengthwise edge of the core, the
bottom surface of the core, and the second lengthwise edge of the
core.
Inventors: |
Walpin, Lionel A.; (Los
Angeles, CA) |
Correspondence
Address: |
LYON & LYON LLP
SUITE 4700
633 WEST FIFTH STREET
LOS ANGELES
CA
90071-2066
US
|
Family ID: |
23974349 |
Appl. No.: |
09/778018 |
Filed: |
February 5, 2001 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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09778018 |
Feb 5, 2001 |
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09496834 |
Feb 2, 2000 |
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6182312 |
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Current U.S.
Class: |
5/636 |
Current CPC
Class: |
A47G 9/10 20130101; A47G
2009/003 20130101 |
Class at
Publication: |
5/636 |
International
Class: |
A47C 020/02 |
Claims
We claim as follows:
1. A pillow, comprising: a core comprising a first and second
lengthwise edge, a top surface, and a bottom surface; a recess
located on the top surface of the core; a foam layer located within
the recess; a cushion layer located on a top surface of the foam
layer; and a C-shaped outer layer wrapped around the core, whereby
the C-shaped outer layer covers the first lengthwise edge of the
core, the bottom surface of the core, and the second lengthwise
edge of the core.
2. The pillow of claim 1, wherein the recess extends from a first
widthwise edge of the core to a second widthwise edge of the
core.
3. The pillow of claim 2, wherein the recess is located closer in
proximity to the first lengthwise edge than to the second
lengthwise edge.
4. The pillow of claim 1, wherein the recess is concave.
5. The pillow of claim 4, wherein the recess is also circular.
6. The pillow of claim 4, wherein the recess is also
elliptical.
7. The pillow of claim 1, wherein the recess is formed by cutting a
rectangular prism shaped section of foam out of the top surface of
the core.
8. The pillow of claim 1, wherein the first and second lengthwise
edges are rounded.
9. The pillow of claim 1, wherein the core is formed from a high
density polyurethane foam.
10. The pillow of claim 1, wherein the foam layer is formed from a
viscoelastic memory foam.
11. The pillow of claim 1, wherein the cushion layer is formed from
a soft fiber.
12. The pillow of claim 1, wherein the C-shaped outer layer is
formed from a viscoelastic memory foam.
13. The pillow of claim 1, further comprising an extra support
layer located along the bottom surface of the recess between the
core and the foam layer.
14. The pillow of claim 13, wherein the extra support layer
comprises a high density polyurethane foam.
Description
FIELD OF THE INVENTION
[0001] This invention pertains to the field of orthopedic pillows,
in particular, orthopedic support pillows that provide support for
the head and neck region.
BACKGROUND OF THE INVENTION
[0002] Today, pillows come in a wide variety of forms. Traditional,
non-orthopedic pillows typically consist of rectangular, fabric
enclosures filled with feathers, down, chipped foam, or a polyester
fill. These pillows may be shaped by the user to provide reasonably
adequate support for the user while the user falls asleep. However,
many people suffer from an uncomfortable night's sleep because of
the inadequate support that their head and neck receive while using
these traditional pillows throughout the night. This is because
traditional pillows either have a body that is so soft that the
neck support area compresses to result in no support, or the body
is so firm that the head sits considerably higher than the
shoulders of the user, resulting in an abnormal sleeping position.
Chronic neck pain or stiffness and a tense upper back are often the
result of these inadequate forms of support these traditional
pillows provide.
[0003] For this reason, many people turn to orthopedic pillows in
an attempt to furnish them a more comfortable and healthier night's
sleep. Orthopedic pillows are designed to provide users with proper
support and alignment of their head and neck. A multitude of
different orthopedic pillow designs exist, many of which offer
different methods for improved positioning of users heads and necks
as they sleep. The many different cervical pillows do this to one
extent or another through different designs. Cervical pillows in
general work by providing a raised surface under the back of a
user's neck, thereby supporting the neck forward and allowing the
head to fall back, thus maintaining the lordotic neck curve while
the user is back-lying, and to support the head and neck in the
side-lying position. This action provides support to underlying
muscles in the cervical spine region that tend to be weak, and it
correctly aligns the spine, head, and neck. A well known and
exemplary model of a cervical pillow is the Wal-Pil-O.RTM. pillow
by Roloke Company, which utilized U.S. Pat. No. 3,521,310 issued to
Greenawalt. This pillow allows the user four different combinations
of head and neck support in both back-lying and in side-lying
positions.
[0004] Many of these orthopedic pillows use a resilient foam
material, such as a flexible polyurethane foam, to provide the
necessary support to the head and neck. Another foam used in
manufacturing the pillows is viscoelastic memory foam. Viscoelastic
memory foam is designed to retain the shape or form of the user's
head as the user sleeps on the pillow every night. This function of
retaining the shape of a user's head aids in providing a more
comfortable sleeping experience for the user.
[0005] One major drawback of ordinary polyurethane foam cervical
pillows is that they typically have to be broken in before the
pillows achieve their greatest level of comfort. "Breaking in" a
pillow simply refers to the process of repeatedly compressing the
foam of a pillow during its initial usage. The compression is
caused by the weight of a user's head sleeping on the foam night
after night. This repeated compression of the foam every time the
user is sleeping compresses the internal structure of the foam and
pushes air out from within the structure. The polymers of the foam
tend to "remember" this compressed structure, and this "memory"
makes the polymers tend to bias towards the compressed structure.
Through this breaking-in process, the foam becomes softer and more
resilient in the area of the compressed structure, and because the
area of the compressed structure corresponds to the area where the
user's head is pushing down on the foam, the foam is thus
"conforming" to the shape of the user's head.
[0006] This break-in period can last anywhere from several days to
a week or more before the foam adequately and comfortably retains
the shape of a user's head. This long of a break-in period may be
unacceptable to potential users who require the head and neck
support these pillows offer, but are unable to endure the stiffness
of a non-broken-in foam due to their medical conditions. For
instance, users that have chronic or acute neck disorders, or that
have suffered a recent head trauma or neck injury typically cannot
withstand any length of a break-in period.
[0007] Accordingly, there is a need for a foam, orthopedic pillow
that provides comfortable head and neck support, correctly aligns
the spine, head, and neck, and requires no break-in period.
SUMMARY OF THE INVENTION
[0008] The present invention addresses the above mentioned problem.
The orthopedic pillow of the present invention is a pillow that
comprises several components of varying densities, which in
combination provide improved support for the head and neck region,
correctly align the spine, head, and neck of a user for
comfortable, therapeutic benefits, and do not require the user to
endure a break-in period to allow the pillow to conform to the
shape of the user's head.
[0009] The present invention comprises a firm core comprising a
first and second lengthwise edge, a top surface, and a bottom
surface; a recess located on the top surface of the core; a layer
of soft, viscoelastic foam located within the recess; a layer of
soft, Dacron fiber located along a top surface of the layer of
foam; and a soft, C-shaped layer of viscoelastic foam wrapped
around the core, whereby the C-shaped layer of foam covers the
first lengthwise edge of the core, the bottom surface of the core,
and the second lengthwise edge of the core.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] FIG. 1 is a three dimensional diagram of the pillow of the
present invention.
[0011] FIG. 2 is a cross-sectional diagram of an alternate
embodiment of the present invention.
DETAILED DESCRIPTION OF THE INVENTION
[0012] Turning to FIG. 1, the pillow 60 of the present invention
contains a core 10. The core 10 is preferably formed from a foam
material, such as a polyurethane foam, foam rubber, viscoelastic
foam, or any other foam known in the art to be satisfactory for
this use. It is preferred that the foam used for core 10 be a firm
foam that has a high density relative to the materials used in
constructing the other components of the present invention. In a
currently preferred embodiment of the present invention, 180/28
polyurethane foam is used (also known in the industry simply as
18/28 foam) for the core 10.
[0013] Core 10 is preferably a rectangular shape with rounded
lengthwise edges 14 and 16. The top surface 20 of the core 10
preferably contains a recess 18. In a preferred embodiment, recess
18 is rectangular in shape, as shown in FIG. 1, and extends the
length of the pillow 60. It is preferred that during manufacture of
the present invention, core 10 initially be formed without recess
18, and that recess 18 then be formed by cutting away a rectangular
prism section of foam from top surface 20. In alternate
embodiments, the recess 18 may take the form of other shapes,
including a concave-circular depression, a concave-elliptical
depression, or a concave depression that extends the length of the
pillow 60.
[0014] The recess 18 is preferably positioned closer to lengthwise
edge 16 than to lengthwise edge 14. This results in lengthwise edge
14 being wider than lengthwise edge 16. This variation in the
widths of the lengthwise edges 14 and 16 provides users with two
options as to how they can orient the pillow 60, thus users with
longer necks may find that use of lengthwise edge 14 provides
greater support and comfort, and users with shorter necks may find
that lengthwise edge 16 is better suited for their bodies. In
alternate embodiments, the two lengthwise edges may be made of
equal widths.
[0015] The core 10 is preferably eleven to fifteen inches in width,
and preferably one to four inches in height (not accounting for the
recess 18). Preferably, the length of core 10 is anywhere from
twenty to thirty inches. Recess 18 is preferably anywhere from half
an inch to three inches deep at its deepest point.
[0016] In a preferred embodiment, recess 18 contains a foam layer
30. This foam layer 30 is preferably anywhere from one-quarter of
an inch to two inches in thickness. Foam layer 30 comprises a foam
that is preferably softer and less dense than the foam used for
core 10. Preferably, the foam used in foam layer 30 is a memory
foam, such as a viscoelastic memory foam. In a currently preferred
embodiment of the present invention, foam layer 30 is comprised of
three pound viscoelastic memory foam. In alternate embodiments,
foam layer 30 may comprise a foam rubber, a polyurethane foam, or
any other foam known in the art that is suitable for use in this
invention.
[0017] Foam layer 30 tends to provide a comfortable transition
between the firm core 10 and a user's head. In addition, use of a
viscoelastic foam for manufacturing the foam layer 30 is designed
to allow the pillow to quickly conform to the shape of a user's
head without the need for a break-in period. This is because
viscoelastic foam requires little to no break-in period to conform
to the shape of a user's head.
[0018] A cushion layer 40 is preferably located atop the foam layer
30. In a presently preferred embodiment, this cushion layer 40 is
anywhere from one-quarter to two inches in thickness. Cushion layer
40 is designed to provide a soft surface against which a user's
head will rest while utilizing the pillow 60. In a currently
preferred embodiment of the present invention, 1.1 oz. low-melt
Dacron fiber is used. In alternate embodiments, cushion layer 40
may comprise a polyester fiber material, a cotton fiber material,
goose feathers or down, or other soft fiber, foam, or other
materials known in the art that are suitable for this purpose.
[0019] In a preferred embodiment of the present invention, a
C-shaped outer layer 50 wraps around the core 10. The C-shaped
outer layer 50 preferably covers the first lengthwise edge 14, the
second lengthwise edge 16, and the bottom surface 12 of the core
10. In a preferred embodiment, the C-shaped outer layer may be
anywhere from one-quarter of an inch to two inches in thickness.
This C-shaped outer layer 50 is designed to provide better comfort
for a user's neck and shoulder region. This C-shaped outer layer 50
also enhances the multi head and neck alignment feature of the
pillow 60.
[0020] Preferably, the C-shaped outer layer 50 comprises a
viscoelastic memory foam, thereby enabling it to conform to the
shape of a user's head and neck region with no need for a break-in
period. In a currently preferred embodiment of the present
invention, three pound viscoelastic memory foam is used in forming
the C-shaped outer layer 50. In alternate embodiments, the C-shaped
outer layer 50 may comprise a polyurethane foam, foam rubber, or
other foams that are known in the art that would be suitable for
use in this invention.
[0021] The C-shaped outer layer 50 enhances an important design
advantage of this pillow 60, which is allowing the head and neck to
be placed in four different alignments in back-lying and side-lying
body positions. When the lengthwise edges 14 and 16 are of unequal
widths, there is a choice of four alignments in back-lying and
side-lying positions. Alternately, when the lengthwise edges 14 and
16 are of equal widths, there is a choice of two alignments in
back-lying and side-lying positions.
[0022] Turning to FIG. 2, an alternate embodiment of the present
invention is shown wherein an extra support layer 70 is positioned
on the bottom 72 of the recess 18, sandwiched between the core 10
and the foam layer 30. This extra support layer 70 provides added
support for users that require a firmer pillow 60. The extra
support layer 70 preferably comprises a high density polyurethane
foam, which is higher in density than core 10. In a presently
preferred embodiment of the present invention, extra support layer
70 comprises 180/33 polyurethane foam (also known as 18/33 foam).
In alternate embodiments, extra support layer 70 may comprise a
foam rubber, a viscoelastic foam, or any other foam known in the
art that may be suitable for use with the present invention.
[0023] Thus, an orthopedic head and neck support pillow utilizing
foams of varying densities for providing support to maintain the
normal lordotic curve of a user's neck, aligning the spine, head,
and neck of a user, and with no break-in period has been described.
While embodiments, applications, and advantages of the invention
have been shown and described, as would be apparent to ones skilled
in the art, many more embodiments, applications, and advantages are
possible without deviating from the inventive concepts described
herein. The invention, therefore, is not to be restricted except in
accordance with the spirit of the appended claims.
* * * * *