Valve for medical instrument

What is claimed is: 1. A valve for medical instruments for insulating a canal configured in the medical instrument and serving as input for at least one additional medical instrument from a distal-end fluid, the valve comprising: a valve housing, the valve housing able to be inserted at least partially into the canal; at least one fluid opening configured in the valve housing; and at least one insulating body positioned in the valve housing, the at least one insulating body including: a peripheral flange positioned at the proximal end of the insulating body and within the valve housing; a peripheral flange at the distal end of the insulating body and within the valve housing; two insulating lips positioned opposite to one another on the inside of the at least one insulating body; and stiffening webs arranged on the outside of the two insulating lips, the stiffening webs serving to press the insulating lips towards one another in a sealing manner by means of the internal tension of the stiffening webs in such a way that the insulating lips are pressed against each other when no additional medical instrument is arranged in the valve housing, wherein the at least one fluid opening is configured so that the distal-side fluid can be conducted out of the canal to the outside of the insulating body in such a way that the distal-side fluid reshapes the insulating body inward, insulating it, to be essentially perpendicular to the longitudinal direction of the insulating body, wherein the insulating lips are pressed against the outer surface of the additional medical instrument when inserted in the valve housing, wherein the distance from the free upper surface of the stiffening webs to the outer surface of the insulating body varies along the longitudinal direction of the stiffening webs in such a way that the distance is largest in an insulating area of the insulating lips, wherein the insulating body is secured free of tension and unspreaded in the longitudinal direction in a fixed position in the valve housing via one of the integrally formed flanges. 2. The valve of claim 1 , wherein the at least one fluid opening is configured as a slit running in the axial direction of the valve housing. 3. The valve of claim 2 , wherein in the valve housing there are configured several, preferably three, slits evenly distributed around the circumference of the valve housing and extending as far as the distal-side end of the valve housing. 4. The valve of claim 1 , wherein the surface of the outside of the insulating body standing in contact with the fluid is greater than the distal-side inside surface of the insulating body that is impacted with the fluid. 5. The valve of claim 1 , wherein the two insulating lips configured and are in contact with one another in the closed position at least in linear shape insulating the canal. 6. The valve of claim 5 , wherein the insulating lips are configured in one-piece construction with the insulating body. 7. The valve of claim 5 , wherein the insulating body and the insulating lips are made of the same material. 8. The valve of claim 5 , wherein the insulating lips are configured to be convex in cross-section and essentially pointing toward the middle of the valve housing. 9. The valve of claim 5 , wherein run-up slopes are configured on both sides of the insulating lips. 10. The valve of claim 1 , wherein the insulating body is secured immovably in the valve housing by means of at least one reshaped flange. 11. The valve of claim 1 , wherein at least one additional insulating element is secured in the valve housing on the proximal side before the insulating body. 12. The valve of claim 11 , wherein the at least one additional insulating element is configured as a disk insulation equipped with an opening positioned essentially centrally. 13. The valve of claim 12 , wherein the diameter of the opening configured in the disk insulation is smaller than the outer diameter of a medical instrument that is to be inserted through this opening. 14. The valve of claim 11 , wherein the additional insulating element is configured as a one-piece unit with the insulating body. 15. The valve of claim 1 , wherein at least one insulating element is positioned on the outside of the valve housing. 16. The valve of claim 15 , wherein the insulating element positioned on the outside of the valve housing is configured as an insulating ring that is secured in a circular groove configured in the valve housing. 17. The valve of claim 16 , wherein the insulating ring is an O-ring made of silicon. 18. The valve of claim 1 , wherein run-up slopes are formed on at least the proximal side of the valve housing. 19. The valve of claim 1 , wherein the stiffening webs are configured in one piece construction within the insulating body. 20. The valve of claim 1 , wherein the stiffening webs extend substantially along the outside of the insulating lips from approximately a proximal end of the insulating lips to approximately a distal end of the insulating lips. 21. The valve of claim 1 , wherein the stiffening webs have a smaller width than the insulating lips along the longitudinal direction of the insulating body. 22. The valve of claim 1 , wherein there are only two stiffening webs arranged on the outside of the two insulating lips, each of the two stiffening corresponding to a respective insulating lip. 23. A valve for medical instruments for insulating a canal configured in the medical instrument and serving as input for at least one additional medical instrument from a distal-end fluid, the valve comprising: a valve housing, the valve housing able to be inserted at least partially into the canal; at least one fluid opening positioned in the valve housing, the at least one insulating body including: a peripheral flange at the proximal end of the insulating body and within the valve housing; a peripheral flange at the distal end of the insulating body and within the valve housing; two insulating lips positioned opposite to one another on the inside of the at least one insulating body; and stiffening webs arranged on the outside of the two insulating lips, the stiffening webs serving to press the insulating lips towards one another in a sealing manner by means of the internal tension of the stiffening webs in such a way that the insulating lips are pressed against each other when no additional medical instrument is arranged in the valve housing, wherein the at least one fluid opening is configured so that the distal-side fluid can be conducted out of the canal to the outside of the insulating body in such a way that the distal-side fluid reshapes the insulating body inward, insulating it, to be essentially perpendicular to the longitudinal direction of the insulating body, wherein the insulating lips are pressed against the outer surface of the additional medical instrument when inserted in the valve housing, wherein the distance from the free upper surface of the stiffening webs to the outer surface of the insulating body varies along the longitudinal direction of the stiffening webs in such a way that the distance is largest in an insulating area of the insulating lips, wherein the insulating body is secured free of tension and unspreaded in the longitudinal direction in a fixed position in the valve housing via one of the integrally formed flanges, wherein at least one additional insulating element can be secured in the valve housing on the proxi