Tire module with piezoelectric transducer

What is claimed is: 1. An arrangement comprising a tire module for attachment to an inner side of a pneumatic tire for vehicles, and a cover, which accommodates the tire module, wherein the tire module comprises: a top side and an underside; a device for measuring and/or monitoring the air pressure in the pneumatic tire; a transmitter for transmitting radio signals that contain information on the air pressure in the pneumatic tire; a mechanical-electrical transducer disposed on or close to the underside of the tire module and configured to change its shape from a deformation of the pneumatic tire during a shuffle of the pneumatic tire when it is rolling, wherein the mechanical-electrical transducer converts changes in its shape into electrical energy; and and an accumulator for the electrical energy; and wherein the cover comprises: a flange which extends outwardly away from the tire module and has an underside for attachment to the inner side of the pneumatic tire, said flange forming the edge of the interior space of the cover, and the inner height of the cover is equal to the height of the tire module measured from the underside to the top side thereof; wherein the flange has an inwardly directed projection which engages beneath a portion of the tire module, wherein the underside of the tire module lies higher up in the region of the projection of the flange than it does in a central region of the underside of the tire module and wherein the mechanical-electrical transducer is disposed at least partially within a space encompassed by at least the inwardly directed projection. 2. The arrangement according to claim 1 , wherein the projection and the higher-up region of the underside of the tire module extend around the entire inner periphery of the flange or around the entire periphery of the tire module, respectively. 3. The arrangement according to claim 1 , wherein the projection engages beneath the tire module in a form-fit manner. 4. The arrangement according to claim 1 , wherein the projection and the region of the tire module accommodating the projection have a stepped design. 5. The arrangement according to claim 1 , wherein the projection tapers continuously in a direction from the outside toward the inside to a minimum height. 6. The arrangement according to claim 5 , wherein the projection tapers continuously to a minimum height of zero. 7. The arrangement according to claim 1 , wherein the cover is made of an elastomeric material. 8. The arrangement according to claim 1 , wherein the tire module comprises a trough, as an integral component, which accommodates the rest of the components of the tire module, including a casting compound. 9. The arrangement according to claim 8 , wherein the trough is formed from a plastic foil. 10. The arrangement according to claim 8 , wherein the trough has a bottom that is so thin that it deforms along with the deformation of the tire and transmits said deformation to the mechanical-electrical transducer while said mechanical-electrical transducer passes the shuffle of the tire when said tire is rolling. 11. The arrangement according to claim 8 , wherein the trough is formed by deep drawing a foil. 12. The arrangement according to claim 1 , wherein the mechanical-electrical transducer comprises a bendable piezoelectric element. 13. A pneumatic tire for vehicles, on the inner side of which an arrangement according to claim 1 is fastened in that the flange of the cover is directly or indirectly connected to the inner side of the tire by adhesive bonding or by vulcanization. 14. The pneumatic tire according to claim 13 , wherein the flange of the cover is fastened on the inner side of the tread of the tire. 15. The pneumatic tire according to claim 13 , wherein a rubber disk is located between the cover and the inner side of the tire, which is connected via vulcanization to the flange on one side and, on the other side, to the inner side of the tire. 16. The pneumatic tire according to claim 15 , wherein the diameter of the rubber disk is the same as the outer diameter of the flange. 17. The pneumatic tire according to claim 15 , wherein the rubber disk is 0.3 mm to 1.3 mm thick. 18. The pneumatic tire according to claim 15 , wherein the rubber disk is 0.4 mm to 0.6 mm thick. 19. The pneumatic tire according to claim 13 , wherein also the inwardly directed projection of the flange is directly or indirectly connected to the inner side of the tire by adhesive bonding or by vulcanization. 20. The pneumatic tire according to claim 13 , wherein the tire module presses onto the projection of the flange. 21. The arrangement according to claim 1 , wherein the mechanical-electrical transducer is configured to be located between the inner side of the pneumatic tire on one side and the on the other side the transmitter and/or the device for measuring and/or monitoring the air pressure in the pneumatic tire. 22. An arrangement comprising a tire module for attachment to an inner side of a pneumatic tire for vehicles, and a cover, which accommodates the tire module, wherein the tire module comprises: a top side and an underside; a device for measuring and/or monitoring the air pressure in the tire; a transmitter for transmitting radio signals that contain information on the air pressure in the tire; a mechanical-electrical transducer disposed on or close to the underside of the tire module and configured to change its shape from a deformation of the pneumatic tire during a shuffle of the pneumatic tire when it is rolling, wherein the mechanical-electrical transducer converts changes in its shape into electrical energy; and an accumulator for the electrical energy; and wherein the cover comprises: a flange which extends outwardly away from the tire module and has an underside for attachment to the inner side of the tire, said flange forming the edge of the interior space of the cover, and the inner height of the cover is less than the height of the tire module measured from the underside to the top side thereof such that the tire module projects beyond the underside of the flange of the cover; wherein the flange has an inwardly directed projection which engages beneath a portion of the tire module, wherein the underside of the tire module lies higher up in the region of the inwardly directed projection of the flange than it does in a central region of the underside of the tire module and wherein the mechanical-electrical transducer is disposed at least partially within a space encompassed by at least the inwardly directed projection.