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Claims  |
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We claim:
1. Patient support apparatus comprising:
(a) a frameless inflatable flexible bag structure including a patient
support limb connected at a junction to a jacking limb,
(b) said limbs being configured and connected to assume a stable load
bearing inverted V-shaped configuration in which the patient support limb
is propped-up by the jacking limb when fully inflated, and to collapse to
a substantially planar configuration in which the patient support limb at
least partially overlies the jacking limb when the flexible structure is
deflated; and
(c) each of the limbs includes an outer end portion remote from the
junction and two substantially rectangular panels connected internally of
the limb by internal flexible inelastic links, and
(d) the flexible links include elongate inelastic webs bonded to the
panels.
2. Apparatus as claimed in claim 1 wherein
the structure comprises a single bag providing both limbs.
3. Apparatus as claimed in claim 1 wherein
the outer end portion of the limbs remote form the junction are linked by
flexible inelastic tethering means.
4. Patient support apparatus comprising:
(a) an inflatable flexible bag structure including a hollow patient support
limb and a jacking limb having one end portion connected to the patient
support limb to form a connection at a junction so as to serve as a pivot
during inflation and deflation;
(b) each said limb including a lower outer end portion which is remote from
said junction,
(c) said lower outer end portions being linked to each other by tethering
means for causing the jacking limb to fold between its lower end portion
and the junction during deflation, and
(d) each of the limbs comprises two substantially rectangular panels
connected internally of the limb by internal flexible inelastic links, and
(e) the flexible links include elongate inelastic webs bonded to the
panels.
5. Apparatus as claimed in claim 4 further including
basal spacing means extending beyond said connection between the jacking
limb and the tethering means.
6. Apparatus as claimed in claim 1 or 4 wherein
said internal flexible links are arranged in rows across the limbs, and are
bonded to extend between said panels of the bag structure.
7. Apparatus as claimed in claim 6 wherein
each limb is formed from a sheet of impervious, inelastic-flexible
material, folded to provide a fold situated at a free end of said outer
end portion, so that said free end is seam-free, flexible and of minimal
thickness.
8. Back support apparatus comprising:
(a) a pneumatically inflatable bag structure and backrest panel means for
being raised from a horizontal condition to an inclined position by said
pneumatically inflatable bag structure,
(b) said backrest panel means being effective to raise a person lying on a
bed from a prone position to a sitting-up position,
(c) said backrest panel means including a flexible panel surface of a
backrest limb of the bag structure,
(d) said backrest limb being pneumatically connected at a junction to an
inflatable jacking limb,
(e) said backrest and jacking limbs each having an outer end portion remote
from said junction and being structurally connected to assume a stable
load bearing inverted V-shaped configuration when said limbs are fully
inflated, and to collapse to a substantially planar configuration in which
the backrest limb at least partially overlies the jacking limb when said
limbs are deflated, and
(f) tethering means connected to said outer end portions to limit movement
of said outer end portions away from each other.
9. Apparatus as claimed in claim 8 further including an attached inflatable
leg support apparatus.
10. Leg support apparatus comprising:
(a) legrest panel means for being raised from a horizontal condition to an
inclined position by a pneumatically inflatable bag structure,
(b) said legrest panel means being effective to raise a person's legs on a
bed from a prone position to a raised position,
(c) said legrest panel means including a flexible panel surface of an
inflatable legrest limb of the bag structure,
(d) said legrest limb being pneumatically connected at a junction to an
inflatable jacking limb,
(e) said legrest and jacking limbs each having an outer end portion remote
from the junction a being structurally connected to assume a stable load
bearing inverted V-shaped configuration when said limbs are fully
inflated, and to collapse to a substantially planar configuration in which
the legrest limb at least partially overlies the jacking limb when said
limbs are deflated, and
(f) tethering means connected to said outer end portions to limit movement
of said outer end portions away from each other.
11. Support apparatus comprising:
(a) back support apparatus, leg support apparatus and flexible connection
means attaching them together,
(b) said back support apparatus including a fist pneumatically inflatable
bag structure and backrest panel means for being raised from a horizontal
condition to an inclined position by said pneumatically inflatable bag
structure,
(c) said backrest panel means being effective to raise a person lying on a
bed from a prone position to a sitting-up position,
(d) said backrest panel means including a flexible panel surface of a
backrest limb of the first bag structure,
(e) said backrest limb being pneumatically connected at a backrest junction
to an inflatable backrest jacking limb,
(f) said backrest and backrest jacking limbs each having an outer end
portion remote from said backrest junction and being structurally
connected to assume a stable load bearing inverted V-shaped configuration
when said limbs are fully inflated, and to collapse to a substantially
planar configuration in which the backrest limb at least partially
overlies the backrest jacking limb when said limbs are deflated,
(g) said leg support apparatus including legrest panel means for being
raised from a horizontal condition to an inclined position by a second
pneumatically inflatable bag structure,
(h) said legrest panel means being effective to raise the person's legs
from a prone position to a raised position,
(i) said legrest panel means including a flexible panel surface of an
inflatable legrest limb of the second bag structure,
(j) said legrest limb being pneumatically connected at a legrest junction
to an inflatable legrest jacking limb,
(k) said legrest and legrest jacking limbs each having an outer end portion
remote from the legrest junction and being structurally connected to
assume a stable load bearing inverted V-shaped configuration when said
limbs are fully inflated, and to collapse to a substantially planar
configuration in which the legrest limb at least partially overlies the
legrest jacking limb when said limbs are deflated, and
(l) tethering means connected to said outer end portions of said backrest
limb, backrest jacking limb, legrest limb and legrest jacking limb, to
limit movement of said outer end portions away from each other.
12. Apparatus as claimed in claim 10 wherein
the leg support apparatus includes a foot support limb connected to the leg
support limb by a hinge portion and further supported by a foot jacking
limb.
13. Apparatus as claimed in claim 11 further including
an inflation and control system comprising an electrically operated pump
unit which is remote controlled by a hand operated unit for selectively
inflating and deflating said backrest support apparatus and said leg
support apparatus (60).
14. Patient support apparatus comprising:
(a) frameless inflatable flexible bag means including an inflatable patient
support limb pneumatically connected at a junction to an inflatable
jacking limb,
(b) means for inflating said limbs,
(c) said support and jacking limbs having outer end portions and being
structurally connected at said junction to assume a stable load bearing
inverted V-shaped configuration in which the patient support limb is
propped-up by the jacking limb when said limbs are fully inflated, and to
collapse to a substantially planar configuration in which the patient
support limb at least partially overlies the jacking limb when said limbs
are deflated, and
(d) tethering means connected to said outer end portions to limit movement
of said outer end portions away from each other for maintaining a stable
load bearing inverted V-shaped configuration.
15. Apparatus as claimed in claim 14 wherein
the bag means includes a single bag having both said support and jacking
limbs.
16. Apparatus as claimed in claim 14 wherein
said tethering means includes flexible inelastic band means. |
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Claims |
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Description |
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This invention concerns an inflatable patient support apparatus for use,
for example, on beds.
A form of support apparatus which serves as a backrest and comprises a
backrest panel capable of being raised from a horizontal condition to an
inclined position by a pneumatically inflatable bag structure, for raising
a person lying on a bed from a prone position to a sitting up in bed
position is disclosed in U.S.A. 3606623 by J. R. Aymar. In this apparatus
the backrest panel is rigid, and the bag structure comprises a plurality
of approximately wedge shaped bags which are secured together and are
disposed between rigid upper and lower boards which are pivotally
connected so that the upper board provides the backrest panel and is
stabelized by the pivotal connection, e.g. during inflation and deflation
to vary the angle included between the boards. The upper surface of the
backrest panel is thus unyielding and moves about a fixed pivot axis.
In use the known backrest apparatus can give rise to considerable
discomfort for its users, because, for example, a thick resilient mattress
is required above the rigid plate, so that the axis of the person's hips
is spaced above the pivot axis of the backrest which generates an
uncomfortable, and sometimes painful, conflict of. geometry during lifting
which can only be partially mitigated by increasing the comformability of
the mattress. As well as this problem of user discomfort, the apparatus
imposes structurally harmful loads upon the mattress by bending it about a
fixed axis at a small radius of curvature, thus giving rise to the problem
of damage to the mattress and high replacement costs. Said apparatus is
also heavy and unsuitable for use on top of a mattress.
In GB 2 231 790A there is disclosed a patient support apparatus which can
be laid on a bed and which provides a frameless inflatable bag structure.
In this structure various individual bags are secured upon a flexible bed
cover. The bags are individually inflatable to serve as cushions to
support various parts of a patient, and include an optional backrest
cushion and an optional knee cushion. Each cushion comprises a single bag
and its shape and size is determined by the inflated shape and volume of
the bag. Because of the necessarily large volumes of the bags, the time
taken to inflate and deflate the bags is very great, unless a high
capacity compressed air supply is available e.g. from an industrial size
compressed air installation. This presents a serious problem to persons
wishing to employ such an apparatus for domestic use.
An object of the present invention is to enable these problems to be
avoided or reduced.
The present invention generally provides a patient support apparatus
comprising a frameless inflatable flexible bag structure which comprises a
patient support limb connected at a junction to a jacking limb, said limbs
being configured and connected to assume a stable load bearing inverted
V-shaped configuration in which the patient support limb is propped-up by
the jacking limb when fully inflated, and to collapse to a substantially
planar configuration in which the patient support limb at least partially
overlies the jacking limb when the flexible structure is deflated.
More particularly, and with reference to GE 2 231 790A the limbs can thus
be made relatively thin in relation to their length and breadth so as to
have only a relatively small volume, and the entire volume of the bag
structure can be made much less than the overall space cccupied over the
bed by the apparatus, thus reducing the volume of air required to such as
can be provided in a reasonable amount of time by a portable air pump
unit.
According to one form of the present invention there is provided a back
support apparatus comprising a backrest panel capable of being raised from
a horizontal condition to an inclined position by a pneumatically
inflatable bag structure, for raising a person lying on a bed from a prone
position to a sitting-up position in bed characterized in that the
backrest panel is provided by a flexible panel surface of the bag
structure, and in that the bag structure comprises a backrest limb
connected at a junction to a jacking limb, said limbs being configured and
connected to assume a stable load bearing inverted V-shaped configuration
when fully inflated, and to collapse to a substantially planar
configuration in which the backrest limb at least partially overlies the
jacking limb when the flexible structure is deflated.
The invention employing a volume reducing form of bag structure further
particularly provides a leg support apparatus comprising a legrest panel
capable of being raised from a horizontal condition to an inclined
position by a pneumatically inflatable bag structure, for raising the legs
of a person lying on a bed from a prone position to a raised position
characterized in that the legrest panel is provided by a flexible panel
surface of a legrest limb of the bag structure; and in that the legrest
limb is connected at a junction to a jacking limb, said limbs being
configured and connected to assume a stable load bearing inverted V-shaped
configuration when fully inflated, and to collapse to a substantially
planar configuration in which the legrest limb at least partially overlies
the jacking limb when the flexible structure is deflated.
The bag structure may comprise a single bag providing both limbs.
Alternatively, each limb may comprise a single bag. The limbs are
preferably simultaneously inflatable via a single air inlet or common
supply line.
The junction may be formed so as to determine the angle between the limbs
when fully inflated.
The ends of the limbs remote from the junction are preferably linked or
connected by flexible inelastic tethering means to limit, maintain or
further determine said angle.
The junction may be of pivotal form with the maximum angle between the
limbs, when inflated, being limited by said tethering means.
The invention further provides a patient support apparatus comprising an
inflatable flexible bag structure which comprises a hollow patient support
limb and a jacking limb having one end portion connected to the patient
support limb at a junction so as to serve as a pivot during inflation and
deflation; wherein the lower end portion of each of the limbs, which
portions are remote from the connection between the limbs, are linked to
each other by tethering means, so that the jacking limb is caused to fold
between its ends during deflation.
A further problem has arisen in that the aforementioned bag structure, when
repeatedly inflated and deflated, tends to "walk" on the bed, and in order
to solve this problem the apparatus preferably further comprises basal
spacing means extending beyond the connection between the jacking limb and
the tethering means in a direction away from the patient support limb.
The jacking limb is preferably configured to taper e.g. so as to increase
in thickness from a mid-portion or the lower end portion to the other end
portion connected to the patient support limb.
Each of the limbs may comprise an individual bag, which bags are preferably
pneumatically linked for simultaneous inflation.
The spacing means preferably comprises longitudinal battens extending
within extensions of the tethering means, and, optionally in some
embodiments, a cross-batten transverse to the ends of the longitudinal
battens remote from the jacking limb.
The lower end port on so the patient support limb preferably includes a
transverse narrow cushion chamber of lesser inflated thickness than the
remainder of the limb or at least a main chamber of the limb.
In all embodiments each of the limbs preferably comprises two substantially
rectangular panels connected internally of the limb either directly by
bonding or by internal flexible inelastic links.
The flexible links are preferably in the form of elongate inelastic webs
bonded to the panels.
The links may be elongate and extend across or along most of the interior
of each limb, or the flexible links may be in the form of bands,
preferably arranged in rows across or along the limbs, each band being
bonded to extend between the panels.
Each limb is preferably formed from a sheet of impervious,
inelastic-flexible material, e.g. a polymer coated woven fabric, folded to
provide the two panels, with the fold situated at one end, so that said
end is seam-free, flexible and of minimal thickness.
The apparatus may be provided with a flexible tie to tether the apparatus
to a mattress.
The leg support apparatus is preferably attached, preferably releasably and
preferably adjustably, to the backrest limb or the tethering means of the
backrest support apparatus.
The inflatable structures of the back support apparatus and the leg support
apparatus are preferably selectively inflatable and deflatable
independently of each other, by means of an inflation and control system
comprising a portable electrically operated pump unit remotely controlled
by means of a hand operated unit.
The invention will be described further, by way of example, with reference
to the accompanying diagrammatic drawings wherein:
FIG. 1 is a perspective view of a first embodiment of patient support
apparatus of the invention in the form of a back support apparatus,
inflated, and, in situ, upon a bed;
FIG. 2 is a perspective view of the apparatus in a substantially deflated
condition;
FIG. 3 shows the back support apparatus partially deflated;
FIG. 4 is a perspective, part sectional, view of the back support apparatus
in an inflated condition;
FIG. 5 is a view similar to FIG. 4 showing a second embodiment of the back
support apparatus, and
FIG. 6 is a perspective view of further embodiments of the apparatus of the
invention including a third embodiment of the back support apparatus and
an embodiment in the form of a leg support apparatus, together with
optional adjustable connecting means connecting the back support apparatus
and the leg support apparatus.
As shown in FIGS. 1 to 4, the first embodiment of the back support
apparatus comprises a frameless pneumatically inflatable bag structure 10
which incorporates a hollow patient support or backrest limb 11 and a rear
jacking limb 12. The two limbs merge at a junction 13 a short way below
the upper end portion 14 of the backrest limb 11 so that the device, when
inflated has a shape generally that of a Y or V (or even a lopsided T) and
is used in a condition in which said shape is inverted with the free ends
15 of the limbs 11,12 lowermost so that the limbs descend from the
junction to assume an inverted-V-shaped configuration in which the
included angle is determined by the junction, and, for added stability,
the free ends 15 are linked by tethering means comprising bands 16 of
flexible inelastic material to limit said angle.
Referring to FIG. 4, the backrest limb 11 comprises a front panel 20 which
extends from top to bottom of the limb, a rear panel 21 which is
interrupted at the junction, and a row of internal webs 22, each of which
extends longitudinally of the limb 11 and is connected to the panels 20,21
to limit the separation thereof when the device is inflated. The jacking
limb 12 similarly comprises a front panel 23 which faces generally towards
the panel 21 and extends up to the junction 13 and a rear panel 24 having
an upper part 25, which part 25 is inclined to the remainder, extends
upwards from the junction 13 to serve as a rear upper panel 21A for the
backrest limb 11, and is connected to the upper portions of the webs 22.
The panels 23 and 24 are connected by a row of internal webs 26, each web
26 extending transversely of the jacking limb 12.
An air supply line 27 is connected to the rear of the limb 11 (or the limb
12).
Referring to FIGS. 1 to 3, in use, the apparatus is simply placed on a
mattress 30 of a bed 31 so that the backrest limb 11 is laid flat with its
upper end portion 14 adjacent the head 32 of the bed, and the jacking limb
12 is folded beneath the upper end portion of the limb 11, as indicated in
FIG. 2. From this condition, upon inflation via the line 27, the apparatus
assumes the configuration shown in FIG. 1. During inflation and deflation
of the apparatus it passes through an intermediate condition in which the
backrest limb 11 remains substantially straight (subject to the
disposition and magnitude of the loads imparted to it by a person
reclining thereon) and the jacking limb 12 is partially folded to assume
an S-shape and provides resilient support for the limb 11, as indicated in
FIG. 3.
In order to provide cushioning for a person's thorax and a slightly raised
resilient pillow, a small amount of air is preferably left in the
apparatus when the backrest limb has been lowered, so that the device
remains slightly pressurized, as shown in FIG. 2.
Referring to FIG. 5 (in which the same reference numbers appearing in FIGS.
1 to 4 are used to denote the same or functionally equivalent parts of the
apparatus), the second embodiment of the apparatus differs from that shown
in FIGS. 1 to 4 primarily in that:
(a) The hollow backrest limb 11 has a narrow transverse cushion chamber 50
pneumatically connected to the main chamber 51;
(b) the rear jacking limb 12 tapers in thickness from a maximum adjacent to
its lower free end 15 to a minimum at its upper end portion 52;
(c) the limbs 11 and 12 are formed as separate bags which are pneumatically
connected;
(d) the upper end portion 52 is thin where it is connected to the limb 11
to form the junction 13, so that said junction 13 or at least the portion
52 thereof serves as a hinge during inflation and deflation;
(e) the tethering bands 16 are hollow, are provided with rearwardly
directed extensions 53 and have terminal transversely opening loops 54;
and
(f) the connections 55 between the bands 16 and said end 15 are such that
said limb 12 can pivot during inflation and deflation about said end 15 or
the connections.
Additionally, each hollow band 16 contains an elongate batten 56 (which may
be removable, e.g. by twisting the loop 54 to expose the end of the batten
56), and a transverse batten 57 extends through the loops 54. In use, the
batten 57 abuts the headboard 32 (not shown in FIG. 5) so that the battens
56 and 57 serve as basal spacing means to space the inflatable bag
structure 10 from the headboard 32. The battens and bands 16 also serve as
basal spacing means to maintain the spacing between the lower ends of the
limbs 11 and 12.
The form of construction also gives a reduction of internal volume, thus
reducing inflation time and demand on the air supply system.
The third embodiment of the back support apparatus is similar generally to
the second embodiment, and in FIG. 6 the same reference numbers are again
used to denote the same or functionally equivalent parts. In the third
embodiment the chamber 50 is omitted, and along the lines 59 the front
panel 20 is directly bonded to the rear panel without the webs 22 to
further reduce the internal volume of the backrest limb.
FIG. 6 also shows a leg support apparatus which comprises a pneumatically
inflatable bag structure 60 which incorporates a leg support limb 61, a
leg jacking limb 62, a foot support limb 63 and a foot jacking limb 64 all
of which limbs are inflatable by a single air supply line 67 and have
internal webs, similar to the webs 22,26, to connect their major panels
internally, e.g. along the lines 69 indicated in FIG. 6. The limbs 61 and
63 are formed as a single bag with a flexible intermediate hinge portion
66, and the leg jacking limb 62 is connected to the hinge portion 66.
The lower ends of the limbs 61,62 and 64 are attached to tethering means
again comprising bands 16, which bands have extensions 68 which extend to
connect with the back support apparatus and a connection means, e.g.
comprising "Velcro" tape strips 74, is provided to connect the extensions
68 to the bands 16 below the backrest limb 11. The bands 16 may contain
battens 56 to serve as basal spacing means to maintain the spacing of the
connections between the bands 16 and the limbs 61, 62 and 64.
FIG. 6, also shows an example of a portable air pump unit 70 of two outlet
form, which is remotely controllable by a hand control unit 71 and to
which the lines 27 and 67 are connected. A similar but single outlet form
of the unit 70 and the unit 71 may be employed with the other embodiments
as indicated in broken lines in FIG. 1. The unit contains and is powered
by an electrically rechargeable battery 72 (indicated in broken lines).
In all embodiments of the apparatus, a flexible tie 73 may be attached to
the bands 16 to encircle the bed (or mattress) to hold the apparatus on
the bed, as shown in FIG. 6.
The embodiment shown in FIGS. 1 to 4 may be modified to incorporate any
part or parts of the second or third embodiment.
The device may be covered, e.g. by a sheet, overlay or mattress.
The invention is not confined to details of the foregoing examples and many
variations and modifications are possible within the scope of the
invention. For example, each limb may comprise a bag having an air inlet,
the bags being joined mechanically at the junction.
The limbs may be of other relative lengths and proportions, and the
position of the junction may be varied e.g. moved downwards to nearer to
the center of the backrest limb. The angle included between the limbs may
be varied.
The invention further provides and includes within its scope pneumatic
support apparatus having any novel feature, component, part or function
disclosed herein or in the drawings and any mechanical or functional
equivalent or combination thereof.
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Description |
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