NL1042622B1 - Smart mattress with adjustable patient support. - Google Patents

Abstract

Supporting smart mattress (20) for special medical patient (22) treatment, wherein said smart mattress (20) has an adaptable software control structure. The smart mattress (20) is essentially made up of two layers. A layer of foam rubber (23) with a layer consisting of plastic cross cells (1-15) filled with adjustable air pressure for a suitable patient (22) support, also for "sagging". Said cross cells (1-15) are individually air pressure controlled and have an elliptical cross section and are placed against each other and at an angle of 45 degrees with the horizontal plane. The whole is placed in a plastic cover (25) with a double bottom layer, in which individually inflatable longitudinal cells (16, 17) are placed for creating a transverse slope of the smart mattress (20). Said smart mattress (20) can easily be placed on conventional hospital beds.

Description

Smart mattress with adjustable patient support,

The invention relates to a smart mattress for supporting a patient, which has a length L and a width B and which is provided at the top with plastic cells inflatable in width direction B, which cells are mounted on a desired air with the aid of compressed air or air pump. tension, wherein in the longitudinal direction L. under the mattress two adjacent inflatable cells are arranged, said smart mattress being usable on a normal hospital bed.

A mattress being an air mattress, in which a pair of main sections can be brought to a certain tension, wherein the mattress is designed in a transverse direction in ripples and wherein the whole is tiltable in the longitudinal direction, is known from US patent specification US 2009 / 01Ö6908A1, entitled : "Self-Contained Gatching and adjustable Foot Section Mattress" with the inventors; Sohrab Soltalne, Charleston (USA); Joel T. Jusiak, Holland NY (USA) and Karl H. Cazzini, Lindenhurst (USA).

It is a self-contained gatching (named after the idea of the surgeon / professor Willis Dow Gatch in the USA), ie a mattress in a single plane and has no notches in the mattress, which can cause a flexible tube to buckle, which protrudes from a bed section and goes to the next section. This was soluble in the patent specification with a single distribution system with valves connected to a pressure cylinder in the foot section of the mattress or otherwise stored.

The gatching mattress according to US 2009 / 0106908A1 has the following structure: a flexible sleeping deck, a first inflatable pillow, a second inflatable pillow, wherein both pillows consist of an inflatable pillow with ribs filled with air at the top, a control box, a pipe distribution unit, a sliding bridge at lift. foot end with a corrugated inflatable cushion on top. This is to adjust the bed length.

The gatching mattress can be lengthwise by inflating the cushion under the head and torso, inflating the cushion under the back and hips, and lifting the corrugated cushion under the foot end.

Furthermore, under the first and second cushion with. the upper side provided with transverse ribs and two channels arranged in the longitudinal direction of the mattress to allow the mattress to tilt in the transverse direction. The pivot point hereby lies at some distance from the bed edge in order not to cause the patient to roll against it or to prevent the patient from falling out of the bed. With the control box under the vozizone on the sleeping deck, the various cushions can be inflated with compressed air.

The whole is securely framed and enclosed in the named bed of the sleeping deck. The sleeping deck has the baking mold in the longitudinal direction, which is bending-stiff.

There are a number of drawbacks to this Self-Contained Gatching Mattress of US2009 / Ö108906A1, namely: the cushions with simultaneously inflated transverse ribs only want to be brought to the same tension, so that the individual transverse ribs are not pressure-adjustable for a patient with, for example, bedsores on certain places; retracting and withdrawing the corrugated cushion at the foot end is certainly not pleasant for patients with bedsores at the feet. In short, this mattress cannot provide correct support for patients with bedsores; the transverse tilting of the patient is effected by further inflating one of the two or both length channels. A more downward pivot point creates annoying support for the patient. the vibrations from a pump or press cylinder go through the bending-rigid sleeping deck to the actual mattress section of the patient, who in turn experiences this as very unpleasant; the movements of the patient cannot be followed, due to the complete inflation of the cushions with transverse ribs.

The object of the present invention is to provide such a modified and improved smart mattress which does not have the aforementioned drawbacks and which can be marketed in an economically responsible manner.

To this end, a smart mattress according to the invention is further developed such, characterized in that said smart mattress with length L and width B is made up of a layer of foam rubber with thickness D1 with a layer thereon to be brought to desired tension in width direction B at an angle below a corner alpha with the horizontal plane and abutting plastic transverse cells with a working thickness D2 is arranged, the whole being placed in a closable cover of plastic, wherein at said angle on an connectable plastic cloth in longitudinal direction L. at least two adjacent to each other separately inflatable longitudinal bars are provided for placing the smart mattress at an angle, the pump / control unit with lines and the like for control software being placed in the foam layer at the foot end of the smart mattress.

The advantage is a really "smart" mattress, in which it optimally supports the patient and especially patients with bedsore symptoms and which smart mattress can also precisely follow the movements of the patient due to pressure differences of certain cells.

Furthermore, the smart mattress according to the invention is further developed such that the length L of the smart mattress varies from approximately 1.30 m to approximately 2.2 m and that the width B varies from approximately 0.90 m to approximately 1.20 m, 1.40 m and so on and that the number of transverse cells is dependent on said length L and is approximately 8 per m length of the smart mattress, wherein the thickness D1 is approximately 10 cm and the thickness D2 approximately 11-12 cm is.

The advantage is that several mattress sizes can be supplied with the control software and other equipment, so this matrss is suitable for many applications.

The smart mattress according to the invention is then further developed, characterized in that the usual pressure or tension in the transverse cells varies from approximately 8 mm Hg - 80 mm Hg, preferably approximately 15-20 mm Hg mercury pressure) and that the pressure or tension in the transverse cells after application of the patient by pressure sensors in the pipes of the pump / control unit is kept at said pressure or voltage.

The advantage is that the smart mattress adjusts ideally to the patient's external contour.

Furthermore, the smart mattress according to the invention is further developed, characterized in that said transverse cells have an elliptical cross-section in height direction with a longitudinal axis of approximately 18 cm and said angle alpha is approximately 45 degrees. the transverse cells lie against each other in an inflated state.

This prevents the skin parts of the patient from sagging, because the patient can never get back on the foam rubber layer between the cells.

The control software of the pump control unit can then be adjusted as required to enable new uses of the smart mattress. The control software can also be implemented in various ways and with other programming languages. Telematics is also possible to monitor the patient remotely.

On the basis of a preferred embodiment, the smart mattress according to the invention is further described with reference to the figures below. Herein: figure 1 shows a top view of the smart mattress, with the top side of the cover removed; figure 2 shows a longitudinal section along the line INI of figure 1, wherein the smart mattress can be placed with its flat underside on a usual hospital bed; Figures 3A and 3B show a cross-section over the line III-III of Figure 1, successively in horizontal planar form and in inflated left longitudinal cell in oblique planar form; and figure 4 shows a cut-away top view of the pump-control unit provided with control software, according to the invention and mounted on the foot end of the smart mattress.

Figure 1 shows a top view of the smart mattress 20 with removable cover 25, in accordance with a preferred embodiment of the invention. The further numbering is selected from 20 onwards, because in the software package of the pump / control unit 21, the transverse cells 1 to 15 and the longitudinal cells 16, 17 are used and some space in numbering is desired. The dimensions of the smart mattress 20 are L and B, where L can vary as desired 1.30 m from approximately 2.20 m and B can vary from 0.90 m to approximately 1.20 m, 1.40 m and so on . This variation can be adjusted to the dimensions of the patient 22 (see Figure 2). The transverse cells 1 to 15 are individually controllable for voltage by the software of the pump control unit 21.

The longitudinal cells 16 and 17 are individually inflatable by the software of the pump control unit 21 to obtain a maximum transverse slope of the mattress of approximately 30 degrees for special treatment of the patient 22 (see also Figure 3B). The dimensions C and D of the pump control unit 21 are initially 800 mm and 200 mm, but may be reduced in the future, hence the minimum width B of the smart mattress of 0.90 m to cover it with the foam layer 23 to be properly surrounded at the foot end 24 of the smart mattress 20 to prevent the transmission of vibrations. The vertical structure of the smart mattress 20, according to the invention, is indicated in Figure 2.

An adjustable plastic cloth 26 with the longitudinal legs 16 and 17 on it, which are separately inflatable for special therapy of the patient 22. The cover 25 with the layer of foam rubber 23 therein and at the foot end 24 the built-in pump / control unit 21 is placed. layer of foam rubber 23, the transverse cells 1 to 15 (or as much more as is required for the length L of the Smart Mattress) are placed. The thickness D1 of the layer of foam rubber 23 is approximately 10 - 12 cm. The cross section of the transverse cells 1 to 15 are elliptical in the inflated state and are at an angle alpha with the longitudinal axis at 45 degrees with the horizontal plane. This is to prevent the patient sagging too far between the other cross cells. The pressure in one or more cells can also be reduced in the case of a sagging peak. Furthermore, in the inflated state, the transverse cells 1 to 15 with the short axis of the elliptical cross-section are in contact with each other in the inflated state. The cover 25 encloses the actual smart mattress 20, the thickness D2 being approximately 11-12 cm and therefore the smart mattress 20 is called a total thickness of D1 + D2 of approximately 24 cm. The transverse cells 1 to 15 are preferably initially brought to an overpressure of approximately 15-2.0 mm Hg (mercury pressure). When the patient 22 is placed on the smart mattress 20, the overpressure in the transverse cells 1 to 15 is adjusted such that the back pressure is uniform over the entire body (back or side). A lower overpressure can also be automatically given in the event of continuation of the patient 22 concerning transverse cells.

Figure 3A shows the cross-section 11f-111 of Figure 1 in a flat state. The longitudinal legs 16 and 17 are then in an empty (without excess pressure) state. The numbering of the other parts is always the same.

Figure 3B shows the cross-section Ill-Ill of figure 1, wherein the extension cell 17 is inflated in such a way that a maximum transverse inclination of the smart mattress 20 of approximately 30 degrees is possible. It can be seen here how the plastic cloth 26 changes its shape.

Figure 4 shows the software-controlled pump control unit 21 schematically. The various components are a vent inlet opening 30, flow direction valves 31, wedge valves 32, air manifold with 15 valves 33, first main pump 34, spare second pump 35, air pressure control electronics and temperature sensors 36, air outlet opening 37. The whole is with software package sent.

In the foregoing, only a preferred embodiment has been described, but it is obvious that modifications are possible without departing from the scope of this patent specification.

Claims (10)

A smart mattress for supporting a patient, which has a length L and a width B and which is provided at the top with plastic inflatable in width direction B, which can be brought to a desired tension by means of compressed air or air pump, in the longitudinal direction L below the mattress two adjacent inflatable cells are arranged, said smart mattress being usable on a normal hospital bed, characterized in that said smart mattress (20) with length L and width B is made up of a layer of foam rubber (23) with thickness D1 with a layer to be brought to the desired tension in width direction B at an angle at an angle alpha (α) with the horizontal plane and abutting plastic crossways (1-15) with a working thickness D2, wherein the whole is placed in a closable cover (25) of plastic, wherein under said cover (25) on a connectable plastic cloth (26) in the longitudinal direction L two juxtaposed separately inflatable length lines (16, 17) are arranged for placing the smart mattress (20) at an angle beta (S), wherein at the foot end (24) of the smart mattress (20) in the layer of foam rubber ( 23) the pump / control unit (21) with lines and the like for control software is placed. Smart mattress according to claim 1, characterized in that the length L of the smart mattress (20) varies from approximately 1.30 m to approximately 2.20 m and that the width B varies from approximately G, 9 m to approximately 1.20 m, 1.40 m and so on and that the number of transverse sections (1-15) depends on said length L and is approximately 8 per m of the smart mattress (20), the thickness D1 being approximately 10-12 cm and the thickness D2 is approximately 11-13 cm. Smart mattress according to claims 1-2, characterized in that the usual pressure or tension in the transverse sections (1-15) varies from approximately 6 mm Hg - 60 mm Hg, preferably approximately 15 - 20 mm Hg (mercury pressure) and that the pressure or tension in the transverse cells (1-15) after application of the patient (22) is maintained at said pressure or voltage by pressure sensors in pipes of the pump / control unit (21), Smart mattress according to claims 1-3, characterized in that a higher or lower pressure can be set for operating said transverse cells (1-15) by means of controllable software of the pump / control unit (21). A smart mattress according to claims 1-4, characterized in that said transverse cells (1-15) have an elliptical cross-section in height direction with a longitudinal axis of approximately 18 cm and said angle alpha (α) is approximately 45 degrees and that the transverse cells (1-15) lie against each other when inflated. A smart mattress according to claim 1, characterized in that said length cells (18, 17) can be inflated separately with the control software control panel of the pump control unit (21) to approximately 10 liters in 30 seconds. Smart mattress according to claim 1, characterized in that the contents of the transverse cells (1-15) are approximately 10 liters for a conventional mattress width B = 0.90 m and an inflation time of all transverse cells (1-15) is approximately 8 minutes required for installation and a control time of 1-3 sec. of the cross cells (1-15). Smart mattress according to claims 1-7, characterized in that the material of said plastic transverse and length cells (1-17) is a TPU material (Thermoplastic Polyurethane). Smart mattress according to claims 1-4, characterized in that the pressure or tension in said transverse cells (1-15) is monitored three times approximately every minute, A smart mattress according to claims 1-4, characterized in that the pressure or tension in said transverse cells (1-15) is monitored every four minutes to detect or alert bed out, leakage and the like with the control software. telemetrle is feasible.