CUSHION FOR POSITIONING PATIENTS AND METHOD FOR MAKING IT

Abstract

A cushion for positioning patients, including an outer cover, in which there is a bag, equipped with two separate compartments, which contain two components suitable for mixing with each other to form a polyurethane foam. The outer cover includes an outer surface made of non-woven fabric and an inner surface made of polymeric material, in such a way as to allow sealing of the outline of the outer cover, guaranteeing the impermeability of the cushion.

Claims

1. A cushion for positioning patients, comprising an outer cover, in which there is a bag, equipped with two separate compartments, which contain two components suitable for mixing with each other to form a polyurethane foam, wherein the outer cover comprises an outer surface made of non-woven fabric and an inner surface made of polymeric material, in such a way as to allow sealing of the outline of the outer cover.

2. The cushion according to claim 1, wherein the components comprise: a polymeric isocyanate; a formulated polyol system constituted at least of a mixture of propoxylated polyether polyols, a flame retardant, silicone, a catalyst, an expanding agent.

3. The cushion according to claim 1, wherein the outer surface is made of polypropylene.

4. The cushion according to claim 1, wherein the outer surface is made of polyester.

5. The cushion according to claim 2, wherein the polymeric isocyanate is a mixture of 4,4-methylene diphenyl diisocyanate and homologues, having a NCO content ranging from 30 to 32%, functionality from 2.70 to 2.85, viscosity from 150 to 800 mPa.Math.s at 25 C.

6. The cushion according to claim 2, wherein the propoxylated polyether polyols have a functionality ranging from 3 to 4.5, acidity from 30 to 500 mg KOH/g, viscosity from 400 to 8,500 mPa.Math.s at 25 C.

7. The cushion according to claim 2, wherein the flame retardant contains chlorophosphates and has a specific weight of from 1.06 to 1.30 g/cm.sup.3 and viscosity from 1.5 to 100 mPa.Math.s at 25 C.

8. The cushion according to claim 2, wherein the silicone contains polydimethylsiloxane chains modified with polyethers and has a specific weight of from 1.01 to 1.10 g/cm.sup.3 and viscosity from 500 to 2,000 mPa.Math.s at 25 C.

9. The cushion according to claim 2, wherein the catalyst comprises tertiary amine catalysts and dilute metal salts and has a specific weight of from 0.70 to 1.30 g/cm.sup.3 and viscosity from 5 to 20 mPa.Math.s at 25 C.

10. The cushion according to claim 2, wherein the expanding agent is carbonic dioxide.

11. The cushion according to claim 1, wherein the inner surface is made of polyethylene.

12. The cushion according to claim 1, wherein the inner surface is made of polyurethane.

13. A method for making a cushion for positioning patients, wherein it comprises at least the following steps: coupling a non-woven fabric and a polymeric film in such a way as to form an outer cover with an outer surface made of non-woven fabric and an inner surface made of polymeric film; inserting a bag in the outer cover, the bag being equipped with two compartments separated by a seal, containing two components suitable for mixing with each other to form a polyurethane foam; hermetically sealing the outer cover, in such a way as to limit the expansion space of the polyurethane foam; mixing the components for approximately 1 minute by breaking the seal separating the two compartments and formation of the polyurethane foam; breaking of the bag and spreading of the foam inside the outer cover; manual distribution of the foam for approximately 2 minutes until it begins to solidify; positioning of the patient for the desired shaping during solidification and having the patient stay still for approximately 4 minutes; achieving complete solidification and final modelling in approximately 5 minutes;

14. The cushion according to claim 1, wherein the bag comprises three layers in different materials: an outer layer in polyester, an intermediate layer in aluminum, and an inner layer in polyethylene.

15. The cushion according to claim 1, wherein at least the inner surface of the outer cover is concerned by pinholes having a diameter of 0.451.60 millimeters, and preferably of 0.60.8 millimeters.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] Further advantages and features of the invention are more apparent in the detailed description which follows, with reference to the accompanying drawings, which illustrate an example of it without limiting the scope of the invention, in which:

[0017] FIG. 1 illustrates a first step of making the invention;

[0018] FIG. 2 illustrates the invention during a second step of making it;

[0019] FIG. 3 illustrates several possible forms of the invention;

[0020] FIG. 4 illustrates a detail of the invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0021] As can be seen in the figures, the invention relates to a cushion for positioning patients, comprising an outer cover 11, in which there is a bag 12, equipped with two separate compartments 12a, 12b, which contain two components suitable for mixing with each other to form a polyurethane foam. The outer cover 11 comprises an outer surface 11a made of non-woven fabric and an inner surface 11b made of polymeric material, in such a way as to allow sealing of the outline of the outer cover 11.

[0022] As shown in FIG. 4, the bag 12 is preferably made by three layers 12g, 12i, 12f in different materials: an outer layer 12g in polyester, an intermediate layer 12i in aluminum, and an inner layer 12f in polyethylene, directly concerned by several seals 12c, 12d, 12e, among which the lateral seal 12c is very resistant.

[0023] The two compartments 12a, 12b are separated by a central seal 12c not very resistant, whose break allows the mixing of the components inside content, and both are separated from the inside of the outer cover 11 by a seal 12d medium resistant, whose break allows the foam spreads inside the cushion 1.

[0024] The components located inside the two compartments 12a, 12b of the bag 12 comprise, respectively, a polymeric isocyanate and a formulated polyol system, constituted of at least one mixture of propoxylated polyether polyols, a flame retardant, silicone, a catalyst, an expanding or blowing agent.

[0025] Whereas functionality means the number of reactive hydroxyl groups per molecule, and the units of measurement used are millipascal-seconds (mPa.Math.s) for viscosity, milligrams of potassium hydroxide per gram (mgKOH/g) for acidity and grams per cubic centimeter (g/cm.sup.3) for specific weight, the ranges for the various components are linked to the different desired consistency to be obtained for the polyurethane foam.

[0026] The polymeric isocyanate is a mixture of 4,4-methylene diphenyl diisocyanate and homologues, having a NCO (isocyanate functional group) content ranging from 30 to 32%, functionality from 2.70 to 2.85, viscosity from 150 to 800 mPa.Math.s at 25 C.

[0027] The propoxylated polyether polyols have functionality from 3 to 4.5, acidity from 30 to 500 mgKOH/g, and viscosity from 400 to 8,500 mPa.Math.s at 25 C.; the flame retardant contains chlorophosphates and has a specific weight from 1.06 to 1.30 g/cm.sup.3 and viscosity from 1.5 to 100 mPa.Math.s at 25 C.; the silicone contains modified polydimethylsiloxane chains with polyethers and has specific weight from 1.01 to 1.10 g/cm.sup.3 and viscosity from 500 to 2,000 mPa.Math.s at 25 C.; the catalyst comprises tertiary amine catalysts and dilute metal salts and has specific weight from 0.70 to 1.30 g/cm.sup.3 and viscosity from 5 to 20 mPa.Math.s at 25 C.; the blowing agent is carbon dioxide.

[0028] For the outer surface 11a of the cover 11 of the cushion 1 it is preferable to use a polypropylene or polyester non-woven fabric; whilst for the inner surface 11b it is preferable to use polyethylene or polyurethane as a polymer.

[0029] Amongst the possible combinations of the above-mentioned components, the one that has given the best results involves the use of polyester for the outer surface 11a and polyurethane for the inner surface 11b.

[0030] In fact, the use of a polyester microfiber fabric for the outer surface 11a, comparable to cotton, washable and sanitizable, is the most comfortable for the patient, whilst the use of a polyurethane film for the inner surface 11b, of the same type as the polyurethane foam, allows maximum adherence and cohesion between said foam and the outer cover 11 of the cushion and avoids a relative sliding of them; and in addition, the sealing between these two materials is much stronger relative to heavy loads, for example, as may be the case with very heavy patients.

[0031] Moreover, the high elasticity of the polyurethane film compared with that of other polymers, allows an adaptation to the expanded foam which results in a limitation of puckering, wrinkling and creases on the outer wall of the cushion 1 in contact with the patient, greatly benefiting comfort and mold precision.

[0032] Finally, with sealing of the final side of the outer cover 11, the polyurethane film creates an electromagnetic field which causes expulsion of the remaining air and prevents it from going back in: thanks to this, at the time of final molding of the cushion 1, there are no air bubbles inside it and the shape of the mold is smoother.

[0033] In order to better guarantee this result, the outer cover 11 preferably comprises several pinholes 13, at least concerning the inner surface 11b: said pinholes 13 have a diameter of 0.451.60 millimeters, and preferably of 0.60.8 millimeters, so as to allow the air outflow, but avoiding the foam outflow.

[0034] The method for making the cushion 1 for positioning patients comprises first, as shown in FIG. 1, coupling a non-woven fabric and a polymeric film in such a way as to form an outer cover 11 with an outer surface 11a made of non-woven fabric and an inner surface 11b made of polymeric film; then, a bag 12 is inserted in the outer cover 11, the bag being provided with two compartments 12a, 12b separated by a seal 12c, containing two components suitable for mixing with each other to form a polyurethane foam, as shown in FIG. 2. Hermetically sealing the outer cover 11 allows the polyurethane foam expansion space to be restricted or limited, therefore preventing the components that generate it from in any way coming into contact with, or being inhaled by, the operators and patients.

[0035] At this point, the components are mixed for around 30-40 seconds by breaking the separating seal 12c between the two compartments 12a, 12b with consequent formation of the polyurethane foam, whose thrust breaks the bag 12 in correspondence with the seal 12d facing on the inside of the outer cover 11, where happens the spreading of the foam. The foam is manually distributed for around 1 minute until the start of solidification, then the patient is positioned on the cushion 1, staying still for the desired shaping for approximately 3 minutes during the solidification. Completion of solidification and of final modelling to obtain the desired shape (FIG. 3 shows several of them) require approximately another 5 minutes.