Pressure Checking and/or Adjustment Method and Device for a Tire-Wheel Assembly

What is claimed is: 1 . A method for monitoring and/or adjusting the internal pressure of a mounted assembly for a vehicle, the mounted assembly having a tire mounted on a rim and inflated to an initial pressure, the tire having an inner surface forming a wall of a cavity of the tire, the wall of the cavity being in contact with internal air of the tire, the wall of the tire cavity being at least partially covered with a self-sealing material, the method comprising: indirectly measuring the internal pressure without contact with internal air of the tire; comparing the measured internal pressure with a rated pressure for the tire; and if the indirectly measured internal pressure does not equal a rated pressure for the tire: introducing an inflation interface into the tire cavity by piercing a hole in the wall of the tire cavity in an area covered by the self-sealing material, adjusting, by the inflation interface, the pressure of the tire to a final pressure at least equal to the rated pressure, and extracting the inflation interface from the tire cavity after the adjusting, wherein the pierced hole in the wall of the tire cavity is sealed spontaneously by the self-sealing material after the extraction of the inflation interface. 2 . The method of claim 1 , wherein the tire is a tubeless tire. 3 . The method of claim 1 , wherein the inflation interface is introduced into the tire cavity after the indirect pressure measurement if the indirectly measured pressure is below a warning pressure, and wherein the pressure is adjusted to a final pressure, which is at least equal to the rated pressure, by the inflation interface. 4 . The method of claim 3 , wherein the rated pressure is at least equal to the warning pressure increased by 0.75 bar. 5 . The method of claim 1 , wherein the internal pressure is measured indirectly by measuring the deformation of the tire, in a direction of flattening of the tire, at two points, of which one at least is located on the outer surface of the tire in contact with the atmospheric air, and by determining the internal pressure using a model developed previously, which relates deformation to pressure. 6 . The method of claim 5 , the tire comprising a crown extended by two sidewalls and being symmetrical with respect to an equatorial plane passing through the center of the crown, wherein the tire is flattened between two points, one of which is located on the outer surface of each sidewall, the points being symmetrical with respect to the equatorial plane. 7 . The method of claim 5 , the tire comprising a crown extended by two sidewalls and being symmetrical with respect to an equatorial plane passing through the center of the crown, wherein the tire is flattened between two points, located, respectively, on the outer surface of the crown and on the radially inner surface of the rim, and positioned in the equatorial plane. 8 . The method of claim 1 , the tire comprising a crown extended by two sidewalls and being symmetrical with respect to an equatorial plane passing through the center of the crown, wherein the inflation interface is introduced into the tire cavity by piercing the crown of the tire, the corresponding part of the wall of the tire cavity being covered by the self-sealing material. 9 . A device for monitoring and/or adjusting the internal pressure of a mounted assembly for a vehicle, the mounted assembly being comprised of a tire mounted on a rim and inflated to an initial pressure, the tire comprising an inner surface forming the wall of the tire cavity, in contact with internal air of the tire, the wall of the tire cavity being at least partially covered with a self-sealing material, the device comprising: an indirect tire pressure measuring device configured to indirectly measure inflation pressure without coming into contact with the internal air of the tire; and an inflation interface configured to be introduced into the tire cavity by piercing a hole in the wall of the tire cavity in an area covered by the self-sealing material. 10 . The device of claim 9 , wherein the inflation interface is a hollow tube with an outside diameter of not more than 4 mm. 11 . The device of claim 9 , wherein the indirect tire pressure measurement device operates by measuring the deformation of the tire in a direction of flattening of the tire. 12 . The device of claim 11 , wherein the indirect tire pressure measurement device measures deformation in the direction of flattening of the tire comprises two interfaces for applying flattening to the tire, adapted to come into contact with two points, at least one of which is located on the outer surface of the tire in contact with the atmospheric air. 13 . The device of claim 9 , wherein the inflation interface is integrated with the at least one interface for applying the flattening force of the indirect tire pressure measurement device. 14 . The device of claim 9 , wherein the tire is a tubeless tire. 15 . The device of claim 9 , wherein the inflation interface is a hollow tube with an outside diameter of not more than 1.5 mm.