 |
Description  |
|
|
This application is a division of an application entitled "Support Pad for
Nonambulatory Persons", having U.S. Ser. No. 195,968, filed May 19, 1988,
which is in turn a continuation-in-part of an application entitled
"Support Pad For Nonambulatory Persons" and having U.S. Ser. No. 123,052,
filed on Nov. 19, 1987, (now abandoned).
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to specialty pads or cushions, and more
particularly pertains to padding used by nonambulatory persons as bed pads
or chair pads to distribute the contact between parts of their body and a
reclining surface and further, to maximize aeration of body parts in
contact with the pad. Proper weight distribution and adequate aeration can
prevent the occurrence of decubitus ulcers.
2 Description of the Prior Art
Those concerned with manufacturing and selling pads to be used by
nonambulatory persons as bed pads or chair pads, for example, have been
aware of the need for providing for ample air circulation around the
injured or immobile areas of the body. Actually, an injured area of the
body requires more air circulation than a healthy part which is simply
immobile.
An open-cell foam pad that has been cut to form an alternating array of
projections and ventilated depressions has been found to be most
beneficial in preventing the formation of decubitus ulcers. U.S. Pat. No.
4,686,724 issued to Bedford on Aug. 16, 1987, describes in detail the
advantages of such a paid.
Alternative designs, in addition to methods of manufacture, are disclosed
in U.S. Pat. No. 4,603,445 issued to Spann on Aug. 5, 1986.
Those designs that provide for adequately distributed support do not
provide for adequate access of fresh outside air to the supported portions
of the anatomy. The movement of fresh outside air towards the interior of
the pad, for the most part, is limited to passive diffusion through the
open-cell foam structure of the pad. No clear path is available, and no
additional boost of this flow is provided nor can a means for generating
this boost be accommodated. In addition, no means for adjusting the
temperature of any incoming air is provided nor can a means for achieving
this adjustment be easily accommodated.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a pad that both
maximizes weight distribution of an anatomy in repose thereon and provides
for significantly increased aeration of the skin areas in contact with the
pad.
It is a further object of the present invention to provide for boosted
airflow within the pad. Another object is to be able to cool or heat the
air flowing towards the supported skin areas.
According to the present invention, these objectives are achieved and the
shortcoming of the prior art are overcome by a multi-layered foam support
pad. The upper layer, which is intended to contact the anatomy, has a
series of protuberances and valleys thereon. A middle layer accommodates
an electrically driven fan. A lower layer has a series of grooves on its
bottom face to enhance airflow towards the interior of the pad. Air
channels interconnect the bottom face of the lower layer with the top face
of the upper layer. Reticulated foam material having an especially open
structure is used in the lower layer and thereby maximizes airflow from
the outside through the bottom layer and up to the skin areas in contact
with the support pad. Alternatively, ice packs or heating pads are
accommodated in the lower layer so that a desired temperature adjustment
can be achieved.
BRIEF DESCRIPTION OF THE DRAWINGS
Many of the attendant advantages of this invention will be readily
appreciated as the invention becomes better understood by reference to the
following detailed description when considered in conjunction with the
accompanying drawings in which like reference numerals designate like
parts throughout the figures thereof and wherein:
FIG. 1 illustrates an exploded, perspective view of the structure of a
preferred embodiment of this invention;
FIG. 2 shows the bottom face of the lower layer of FIG. 1.
FIG 3 shows a cross-section of the structure illustrated in FIG. 1
supporting a person in repose thereon;
FIG. 4 illustrates a cross-section of an alternative embodiment;
FIG. 5 is a bottom plan view of another alternative embodiment of the
present invention;
FIG. 6 is perspective of an alternate embodiment according to the present
invention; and
FIG. 7 is a cross-section of the structure in FIG. 6.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
FIG. 1, illustrates a preferred embodiment of the nonambulatory support
pad, shows an exploded, perspective view of the structure of the pad. The
support pad is composed of three foam layers, an upper layer 11, a middle
layer 13 and a lower layer 15. The upper layer 11 has a uniform array of
protuberance or hills 17 and valleys 19 across the top face. The hills 17
have tops 21 and each valley has an air channel 23 extending from the
bottom of the valley through the body of the foam pad. This top face of
the upper layer is intended to contact the anatomy of the individual in
repose upon the pad. The described arrangement provides for the least
amount of pressure to any one part of the body while providing for maximum
air circulation to those areas of the body contacting the surface of the
pad. The area of each valley 19 is about 11/2 inches by 11/2 inches. The
depth of each valley from the plane described by the protuberances 21 to
the floor of the valley is about 1 inch. Each area 21 is at least 1/2
inch by 1/2 inch. The overall height of this layer from its bottom face to
the projections is about 13/4 inches. The airflow channels 23 throughout
the pad are at least 5/8 inch in diameter. In order to support heavier
individuals, the areas 21 may be increased in area and in no event,
however, shall they exceed a diameter larger than 11/4 inches. This is the
upper size limit of the contact surface for the individual hills 21. It
has been discovered that a skin area of 11/4 inches in diameter, even
though denied air circulation, can sustain itself from air circulating in
adjacent areas whereas larger areas cannot. By limiting the individual
contact surfaces to this size or smaller, the user of the pad is assured
of obtaining sufficient oxygen to all parts of his body surface. This
virtually eliminates the occurrence of decubitus ulcers even for the most
immobile patients.
The middle layer consisting of open-cell foam material is about 21/2 inches
thick and is joined to the bottom face of the upper layer via a suitable
adhesive. Air channels 23 extend completely through this layer and
coincide with the air channels in the upper layer 11. A cutout 25 in the
center of the middle layer accommodates an electrically driven fan 27.
Blades of the fan rotate about a vertical axis and boost airflow from
below up through the foam support pad to maximize air flowing to the skin
areas contacting the pad. This fan is preferably driven by a low-voltage
DC motor powered by either an incorporated battery pack or a remote power
supply.
For the lower level 15, a reticulated foam material is used. Reticulated
foam is the product of a process in which open-cell foam material is
subjected to a cleansing process that clears out much of the membrane
structure and leaves an especially open structure. This feature is, of
course, especially suited for incorporation in the present invention as it
allows greater freedom of air movement throughout the body of this layer.
In addition, the air channels 23 can be extended through this lower level,
their positions coinciding with the position of the air channels in the
layers above.
Another feature of the present invention is the addition of an array of
grooves 29 on the bottom face of the lower layer of foam. The grooves, 1/8
to 1/4 inch wide and about 1/2 inch deep, interconnect the air channels 23
and extend to the periphery of the support pad to provide for even greater
airflow towards and throughout the interior of the support pad. FIG. 2
more clearly shows the bottom face 22 of the lower layer 15 of the support
pad. The grooves 29 run the full length or width of the support pad and
interconnect the air channels 23.
An alternative embodiment combines only the upper layer 11 and the lower
layer 15 without incorporating the middle layer 13 and fan 27. FIG. 3
illustrates a cross-section of the pad illustrated in FIG. 1. A person 40
on repose on the pad compresses the protuberances 17 and the profile
thereof prevents the protuberances from folding over and closing off the
air channels 23. The fan 27 draws fresh outside air in through a number of
paths; 33 illustrates the path of least resistance. Fresh outside air flow
is conducted in from the periphery of the pad via the grooves 29 up
through the air channels 23 past the fan 27 and on up through the upper
layer 11. The open structure of the reticulated foam layer 15 does not
preclude air movement throughout the body of this layer and 31 thereby
illustrates another possibility of fresh outside air flow. In addition,
air channels not blocked off by parts of the anatomy in contact with the
support pad can conduct air flow first downwardly towards the reticulated
layer, as illustrated by 35, and then over towards and up through the fan
on towards the skin areas in contact with the pad.
While the air channels enhance airflow throughout the support pad, airflow
is not limited to these channels. The open-cell foam structure allows air
movement throughout the body of the foam. Additional air channels,
although not directly involved in the main airflow as boosted by the fan
27, participate in the aeration of skin areas in contact with the pad.
Fresh air movement within the reticulated foam layer 15 continuously
replenishes air at the bottom of such channels which is subsequently moved
up in contact with the body via passive thermocline airflow.
Often it is desirable, either for medical reasons or to enhance the comfort
of the person in repose on the pad, to either heat or cool the airflow
being conducted towards the skin areas in contact with the pad. FIG. 4
illustrates a cross-section of a pad similar to that pictured in FIG. 1
and FIG. 3 but with the addition of a cutout 43 in the lower layer of the
pad to accommodate a cold pack 45. Air flowing by the cold pack, as it is
drawn in by the fan 27 and directed upwardly towards the skin areas in
contact with the pad, is thereby cooled. Alternatively, if it is necessary
or desirable to warm the incoming air, a heating pad can be similarly
positioned. Alternatively, as illustrated in FIG. 5, a plurality of cold
packs or heating pads can be accommodated in cutouts positioned near the
periphery of the pad to affect the air temperature as it is drawn into the
pad towards the fan 27.
An alternate preferred embodiment for an upper layer 11 of a multi-layered
support pad shown in FIG. 1, is illustrated in FIG. 6. This pad besides
having great utility as an upper layer of a multi-layered pad as shown in
FIG. 1 also finds considerable utility and has great advantage over the
prior art as a single layer pad. The foam pad of FIG. 6 may have a foam
body 11 made out of a variety of materials including a foam material sold
as INSULITE by Uniroyal or any other open or closed cell foam material,
which has a somewhat denser consistency.
The foam pad of FIG. 6 is shown as having a plurality of hills 17 with
valleys 19 therebetween. Each of the valleys, as illustrated, has an air
channel 23 extending from the bottom of the valley through the body of the
foam pad to the bottom face or second major side 51. The first major side
on the top face of the foam pad of FIG. 6 is the tops of the hills 21.
Some of the hills 17 are shown as having an air channel core 49 extending
from the second major side 51 to the first major side of the foam pad.
Referring now to FIG. 7, which illustrates a cross-section taken along line
7--7 of FIG. 6, it can be seen that certain of the hills 17 have air
channel cores 53 extending from the second major side 51 into the interior
of the foam body towards the peaks of the hills on the first major side
but terminating short of reaching the first major side.
Both the air channel cores 49 that extend completely through the foam pad
from one major side 51 to the other major side 21 and the air channel
cores 53 which extend from the second major side through the body but
terminate short of the first major side 21 function to reduce contact
pressure. The dimensions of the air channel cores 49 and 53 may be varied
depending on the size of the hills 17 and the thickness of the pad itself.
Air channel core 49 provides for additional air flow through the pad to
the anatomy surface contacting the pad whereas air channel core 53 tends
to, especially in those foam pads which are made of closed cell foam, trap
air therein creating an air cushion effect in support of the anatomy in
contact therewith.
The features described in the above embodiments can be incorporated in full
size bed pads or in cushions to be used with wheelchairs.
Obviously, many modifications and variations of the present invention are
possible. In light of the above teachings, it is therefore to be
understood that within the scope of the appended claims, the invention may
be practiced otherwise than as specifically described.
* * * * *
|
|
 |
|
 |
Description |
|
