Patent Grant
7406736
The present invention is directed to a cushion unit capable of having a portion of the cushion raised and lowered in relation to at least other portions of the cushion.
Gaymar Industries, Inc., the assignee of this application, is a manufacturer of cushion like devices. These cushions which have at least one bladder are designed to contain fluids. In many cases the fluid is aqueous solutions and/or air. These cushions are used as seat cushions, mattresses, overlays and any other cushion designed to have a patient positioned thereon. Most of the cushions made by Gaymar are designed for therapeutic purposes.
Inflatable therapeutic cushions for patients have been known for many years. Many therapeutic cushions are designed to reduce “interface pressures”; the pressure encountered between a cushion and a patient's skin positioned on the cushion. It is known that interface pressures can significantly affect the well-being of immobile patients in that higher interface pressures can reduce local blood circulation, tending to cause bed sores and other complications. With inflatable cushions, such interface pressures depend (in part) on the air pressure within the inflatable support cushions.
There are numerous types of inflatable cushion designs. These designs have combinations of bladders that can (1) vibrate, (2) rotate, (3) create wave motions, (4) provide percussion, (5) provide support, and (6) combinations thereof (hereinafter referred to as “Objectives”) to a user of the cushion. These designs have been incorporated in numerous cushion designs by Gaymar Industries, Inc. as of the filing of this application.
In particular, those cushion designs have been used in numerous Gaymar mattress systems. Those mattress systems 200, as illustrated in
We are making this limitation because the present invention is directed solely to self-contained mattress systems. Self-contained mattress systems are preferred in hospital settings because they are easier to clean—no disconnecting of hoses from the control unit and the bladder(s).
Self-contained mattress systems have the control unit 220 normally and preferably at the foot of the system 240, a plurality of bladders 210 designed to accomplish at least one Objective, and a plurality of conduits 230 that interconnect the bladders 210 to the control unit 230. In all prior Gaymar mattress systems and those known to Gaymar, there is a single control unit 220.
That single control unit 220, as illustrated in
There are numerous problems with such self-contained mattress systems 200. One of these problems is that such mattress systems can remain horizontal 201 and/or incline from the horizontal position 201 to about a 45° incline 202 relative to the horizontal position 201 and from a bend point 203. The mattress systems with the above-identified technology is unable to effectively and reliably continue to obtain the Objectives and simultaneously convert the mattress system from a horizontal position to a chair-like position (having an angle greater than 75° (line 75) and less than 180° (line 180) relative to the horizontal position and taken from the bend point 203, and hereinafter referred to as the “Conversion”).
Conventional mattress systems are unable to reliably make the Conversion because the one control unit, normally positioned at and/or near one of the ends 235, 240, has a plurality of conduits extending the length (L) of the mattress system 200. When the mattress system is converted from the horizontal position 201 and/or the inclined position 201 to a chair like conformation (greater than 75°) the conduits 230 kink, become deformed, and do not properly transfer the desired amount of fluid to the bladder(s) 210. And if the bladder(s) 210 fail to receive the desired amount of fluid, the bladder(s) 210 do not complete its Objective.
The present invention solves this problem and others.
The present invention is directed to a stand alone integrated mattress. The system has a self-contained mattress unit, at least one inflatable bladder, at least one fluid source, at least one dispersion unit and at least one control unit. The self-contained mattress unit has at least a head section and a foot section, and is capable of converting from a horizontal position or an inclined position to a chair-like conformation. There is at least one inflatable bladder in each section of the self-contained mattress unit. There is also at least fluid source. In addition there is at least one dispersion unit in each section and each dispersion unit provides a fluid, obtained from the fluid source, to a conduit which directs the fluid into the inflatable bladder positioned in the section of the dispersion unit. The control system is positioned in one of the sections and interconnected to each dispersion unit to control the dispersion of the fluid to the inflatable bladders in each section.
a-e illustrate alternative embodiments of the present invention.
The present invention is directed to a mattress system 10 capable of being converted from the horizontal position 201 to a chair-like position 205, which has an angle of greater than 75° relative to the horizontal position 201 and the bend point 203. That in itself is not novel. There are plenty of such Conversion mattress systems and the mechanics of how the system moves from one position to another position is well known to those of skill in the art and therefore is not a part of the scope of this application. None of the conversion mattress systems, however, are self-contained systems that use inflatable bladders. The reasons are simple, self-contained mattress systems that use conduits kink, and disrupt the fluid dynamics in the conduits 230 to the inflatable bladders 210. That problem is solved by the present invention.
The present Conversion mattress system 10 has at least two inflatable bladders 210a, 210b and each is capable of performing an Objective, the same or different. The first inflatable bladder 210a is located at and/or between the distal end 235 and at least one of the bend point(s) 203; while the second inflatable bladder 210b is located at and/or between the proximal end 240 and at least one of the bend point(s) 203. The inflatable bladders 210a, 210b are capable of performing the Objective when each inflatable bladder receives a fluid. Each inflatable bladder 210a, 210b receives the fluid through a conduit 230a,b from at least one of two fluid dispersion units 227a, 227b. The fluid is obtained from a reservoir 224a,b. The reservoirs 224a,b can be the same or different and can provide the same or different fluids. The fluids can be an aqueous solution and/or a gas, like air.
The dispersion units 227a is positioned at or near the distal end 235, and the dispersion unit 227b is positioned at or near the proximal end 240. They are positioned near the ends 235, 240 because the normal human being who will be using the Stand alone integrated mattress system 10 applies and receives the least amount of pressure at these positions.
By having two dispersion units 227a,b the present invention (1) decreases the length of the conduit 230a,b to the respective bladder(s) 210a,b from the dispersion unit 227a,b, (2) generates less vibration, heat, and noise (less distance to push and/or pull the fluid), (3) decreases the chances of kinks and air occlusion in the conduits 230a,b, and (4) increases the reliability of the inflatable bladders 210a,b in the self-contained with inflatable bladder stand alone integrated mattress system 10.
The two dispersion units 227a,b are interconnected together through a control system 229. The control system 229 merely incorporates the input system 221 and the microprocessor unit 222 of the conventional control unit 220. Except in the present system 10, the control system 229 transmits its signals that control the units 223a,b through respective transmission lines 228a,b. Transmission lines 228a,b can become kinked and not adversely affect (1) the transmission of the signal from the microprocessor 222 to the dispersion units 227a,b, and (2) the operation of the system 10 when it converts from the horizontal position 201 to anything up to and including the chair-like position 205. Obviously, the control system 229 can be incorporated with the either dispersion unit 227a or dispersion unit 227b. Alternatively, each dispersion unit 227a,b could have control system 229, but that is undesired because it increases the cost of the unit and the technical ability to operate the system.
In addition, the input system 221 can have various designs. The input system 221 can be an integrated part of a control system box 229a which contains at least the microprocessor 222 and possibly the dispersion units 227a,b, as illustrated in
To avoid any misinterpretation of terms, it should be noted:
A “dispersion unit” operates differently from a conduit. Control unit 220, as illustrated in
As a reminder, the first conduits and the first dispersion unit are only in either the head or foot section, not both sections, of the mattress while the second conduits and the second dispersion unit are in the opposite section of the mattress. The conduits in the present invention do not (a) pass the boundary between notches, in many cases, a notch is positioned between the head section and the foot section and (b) protrude outside the boundary of the conversion mattress system 10—otherwise the mattress is not a self-contained mattress as claimed. In other words the conduits are within the mattress system 10 and are not exposed so a patient or its visitor can see the conduits.
Conduits and dispersion units operate differently—conduits merely transport a fluid from one point to another point, while the claimed dispersion unit (a) operates in conjunction with electrical signals (instructions) and fans or pumps from the control system and (b) have fans or pumps that push or pull the fluid into and out of the dispersion unit.
The present invention uses electrical signals to communicate between the two different sections (foot and head) of the mattress. No cited reference disclose using such an electrical system in conjunction with the first dispersion unit and corresponding first conduits exclusively in the section of the mattress without the control system and the second dispersion unit and corresponding second conduits exclusively in the section of the mattress with the control system.
The present invention is not directed nor are the claims directed to a non-conversion, self-contained mattress. A non-conversion mattress has at least one mattress surface remain in a single plane, and has no notch in the mattress (as present in conversion mattresses) that allow the mattress to convert into a chair like conformation from a horizontal mattress, as claimed. Those notches are known to those in ordinary skill in the art to kink fluid hoses that protrude from one end of the bed to the other. The present invention avoids kinking by using an electrical signal through transmission lines and using fluid conduits only in particular sections of the mattress. Prior art embodiments (like Tappel in U.S. Pat. No. 5,542,136) have conduits that stretch the entire length of a non-conversion mattress. The length of those conduits if used in a conversion mattress (the present invention) would subject the conduits to kinking.
Tappel also discloses a single dispersion unit (manifold and valves) in the foot section of the mattress and no where else in the mattress. A single dispersion unit is only in one section of a self-contained mattress is applicable only for non-conversion mattresses and conversion mattresses that want kinks in conduits. Since kinks in hoses are undesirable, a single dispersion unit in a conversion, self-contained mattress is undesirable and contrary to the claimed invention.
The claimed invention calls for a conversion, self-contained mattress. Tappel does not disclose such a mattress. The use of a single dispersion unit (a manifold and valves) does not allow Tappel's mattress to be a self-contained conversion mattress because the fluid conduits that extend from the single dispersion unit will be kinked if it is ever converted to a conversion mattress. Moreover, contrary to the claimed invention Tappel has the conduits (or dispersion units as defined by the examiner) extend from one end of the mattress to the other end. That disclosure teaches away from the claimed invention.
In Tappel, item 113 is an “L-shaped tube.” Tubes are conduits. Pursuant to the claim language, a dispersion unit is not and is never just a conduit and/or tube, it also contains a fan or pump that pushes or pulls the fluid into the dispersion unit and out of the dispersion unit through manifolds and/or valves. Accordingly, a mere tube, conduit or pipe is not a dispersion unit in the present invention.
Suzuki et al. (U.S. Pat. No. 6,108,843) disclose a conventional non-conversion (the bottom surface remains in a single plane) mattress that is unable to convert, or able to convert, from a horizontal mattress to a chair conformation as claimed. Instead, Suzuki et al.'s mattress is able to be altered from a horizontal mattress to just an inclined mattress wherein the bottom surface remains in a single plane—that is not a conversion mattress as claimed.
Suzuki et al. disclose “An air bed 10 . . . has five air chambers 10a, 10b, 10c, 10d and 10e each composed of an air-impermeable sheet . . . . On/off valves 11a to 11e are arranged on outer surfaces of the air chambers 10a to 10e, respectively. The on/off valves 11a to 11e are in gas communication with an air pump 13 through an air tube 12. The air pump 13 supplies compressed air to the air chambers 10a to 10e through the on/off valves 11a to 11e.” The air tube 12 system essentially traverses the length of the mattress from the single fluid source. Suzuki et al. fail to disclose (a) a first set of air tubes extending from a first dispersion unit wherein the first set of air tubes and the first dispersion unit are positioned exclusively in the section of the mattress not having the control system, (b) the second set of air tubes extend from a second dispersion unit wherein the second set of air tubes and the second dispersion unit are positioned exclusively in the section of the mattress having the control system, (c) the control system transmits electrical signals to each dispersion unit to control the operation of each dispersion unit, (d) the mattress is a conversion mattress, and (e) a self-contained mattress system, as claimed.
While the preferred embodiment of the invention has been illustrated and described, it will be clear that the invention is not so limited. Numerous modifications, changes, variations, substitutions and equivalents will occur to those skilled in the art without departing from the spirit and scope of the present invention as defined by the appended claims.
This application is a continuation-in-part of U.S. patent application Ser. No. 10/608,649 that was filed on June 27, 2003, now abandoned.
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| Number | Date | Country | |
|---|---|---|---|
| 20070056115 A1 | Mar 2007 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 10608649 | Jun 2003 | US |
| Child | 11595165 | US |
