Wound support for use in vacuum therapy of wounds

We claim: 1. A device for vacuum therapy of a wound, the device comprising: a vacuum dressing that seals the wound space in an essentially vacuum-tight manner; a connecting device, said connecting device having a suction tube to which a vacuum can be applied and a two-dimensional vacuum-tight, flexible support means for the suction tube, said support means being structured for application, in an essentially vacuum-tight manner, to said vacuum dressing, wherein said vacuum dressing overlaps and seals the wound with respect to atmosphere such that said suction tube communicates with the wound space through at least one opening in said support means and in said vacuum dressing; a wound support disposed beneath said vacuum dressing in the wound space, wherein the wound support comprises a flexibly compliant foamed material having through-hole that extends in a direction of a wound depth and a sleeve disposed in said through-hole, said sleeve having a collar on one side or on both sides of said foamed material, said collar resting axially against a side of said foamed material that surrounds said through-hole with respect to a longitudinal axis of said sleeve; and a fluid feed tube, said fluid feed tube structured for introducing a fluid medium to the wound space in order to promote healing of the wound, said fluid feed tube disposed in a same plane as said suction tube and fed to said support means, said fluid feed tube having a thickness which does not exceed a thickness of said suction tube, wherein said fluid feed tube is passed, in a sealed manner, through an opening in said support means to protrude beyond a wound-facing side of said support means and to project through an opening in said vacuum dressing into said sleeve, said sleeve thereby being disposed, structured and dimensioned to guide an end section of said fluid feed tube for conveying liquid through said fluid feed tube into deep regions of the wound without having an end section of said fluid feed tube rest against a base of the wound. 2. The device of claim 1 , wherein said sleeve rests directly against said foamed material of the wound support. 3. The device of claim 1 , wherein said collar is closed around an entire circumference thereof. 4. The device of claim 1 , wherein said sleeve has an adjustable length, said adjustable length adapting said sleeve to a compression or contraction of said foamed material. 5. The device of claim 1 , wherein said sleeve comprises two telescopic sleeve sections that slide toward each other along a longitudinal axis of said sleeve. 6. The device of claim 1 , wherein said sleeve comprises two sleeve parts that are moved toward each other by means of a bellows-type coupling along a longitudinal axis of said sleeve. 7. The device of claim 1 , wherein said flexibly compliant foamed material comprises or consists essentially of an open-cell polyurethane foamed plastic, obtained by conversion of a mixture containing components selected from the group consisting of: (i) polyisocyanate in MDI, PMDI, and/or TDI (ii) polyol or polyesterpolyol, (iii) a gasifying agent, and (iv) a catalyst, wherein, following three days of storage in bovine serum, said open-cell foamed plastic exhibits a tensile strength, measured according to DIN 53571, of between 80 kPa and 300 kPa or of between 150 kPa and 220 kPa. 8. The device of claim 7 , wherein said polyol is polyesterpolyol. 9. The device of claim 8 , wherein said polyesterpolyol is obtained by reaction of a dicarboxylic acid containing 4 to 8 carbon atoms with a dialcohol containing 2 to 6 carbon atoms. 10. The device of claim 7 , wherein said open-cell polyurethane foamed plastic exhibits an elongation at break of 250% to 650% or of 260 to 320%, measured according to DIN 53571. 11. The device of claim 7 , wherein said open-cell polyurethane foamed plastic has an air permeability of 1000 to 8000 1/(m 2 sec) or of 2400 to 3300 1/(m 2 sec), measured according to DIN EN ISO 9237. 12. The device of claim 7 , wherein said open-cell polyurethane foamed plastic has a bulk density of between 15 and 30 kg/m 3 or between 24 and 28 kg/m 3 , measured according to DIN EN ISO 845. 13. The device of claim 7 , wherein said open-cell polyurethane foamed plastic has an aromatic content of 5 to 50% or of 15 to 40%. 14. The device of claim 1 , wherein said suction tube is constituted to be flexible and flat and is, in its intended use, non-detachably and two-dimensionally connected to said support means in a wound-side longitudinal section with at least 70% of a surface thereof projected perpendicularly onto said support means, wherein said support means and said suction tube are mutually parallel with main planes thereof resulting from flat shapes thereof, and wherein a combined thickness of said suction tube and said support means does not exceed 7 mm. 15. The device of claim 1 , wherein an at least three-layer adhesion layer is disposed on a wound-facing side of said support means, said adhesive layer having a middle support layer, a first adhesive layer held on said support layer and facing said support means, and a second adhesive layer held on said support layer and facing away from said support means, wherein said adhesive layer does not block said at least one opening in said support means. 16. A device for vacuum therapy of a wound, the device comprising: a vacuum dressing that seals the wound space in an essentially vacuum-tight manner; a connecting device, said connecting device having a suction tube to which a vacuum can be applied and a two-dimensional vacuum-tight, flexible support means for the suction tube, said support means being structured for application, in an essentially vacuum-tight manner, to said vacuum dressing, wherein said vacuum dressing overlaps and seals the wound with respect to atmosphere such that said suction tube communicates with the wound space through at least one opening in said support means and in said vacuum dressing; a wound support disposed beneath said vacuum dressing in the wound space, wherein the wound support comprises a flexibly compliant foamed material having a through-hole that extends in a direction of a wound depth and a sleeve disposed in said through-hole, wherein said sleeve has an adjustable length, said adjustable length adapting said sleeve to a compression or contraction of said foamed material; and a fluid feed tube, said fluid feed tube structured for introducing a fluid medium to the wound space in order to promote healing of the wound, said fluid feed tube disposed in a same plane as said suction tube and fed to said support means, said fluid feed tube having a thickness which does not exceed a thickness of said suction tube, wherein said fluid feed tube is passed, in a sealed manner, through an opening in said support means to protrude beyond a wound-facing side of said support means and to project through an opening in said vacuum dressing into said sleeve, said sleeve thereby being disposed, structured and dimensioned to guide an end section of said fluid feed tube for conveying liquid through said fluid feed tube into deep regions of the wound without having an end section of said fluid feed tube rest against a base of the wound.