Tire pressure monitoring system for a vehicle

The invention claimed is: 1. A tire pressure monitoring system for a vehicle for ascertaining tire-specific parameters, the tire pressure monitoring system including a valve body, at least one fastening element, and a tire inflation pressure sensor having a housing in which is accommodated a sensor for determining at least one tire-specific parameter and for wirelessly transmitting the at least one tire-specific parameter to a control unit on the vehicle, wherein the housing has a fastening region, and the valve body includes a fastening section, wherein the fastening section of the valve body is detachably engaged with the fastening region of the housing with the aid of a fastening element, wherein the fastening element and the housing of the tire inflation pressure sensor are integrally formed from a thermoplastic plastic, and wherein the fastening section of the valve body includes a ramp-like inclined surface that is molded on a circumferential surface of the valve body and over which an elastically supported fastening element can be pushed during installation of the valve body on the tire inflation pressure sensor in order to bring the fastening section of the valve body into engagement with the fastening element of the housing. 2. The tire pressure monitoring system according to claim 1 , wherein the fastening element has at least one latching hook that extends in a longitudinal direction of the valve body when the valve body is installed. 3. The tire pressure monitoring system according to claim 2 , wherein, after installation of the valve body on the tire inflation pressure sensor, the at least one latching hook of the fastening element engages a recess formed on the fastening section of the valve body. 4. The tire pressure monitoring system according to claim 2 , wherein, after installation of the valve body on the tire inflation pressure sensor, the at least one latching hook of the fastening element interlocks with a molded-on flange on the fastening section of the valve body. 5. The tire pressure monitoring system according to claim 2 , wherein the at least one latching hook is held on the fastening region by at least one elastically deformable bearing arm such that it is movable relative to the housing. 6. The tire pressure monitoring system according to claim 5 , wherein the at least one bearing arm extends transversely to the longitudinal direction of the valve body when the valve body is installed, wherein the at least one bearing arm includes a torsion bar configured to bring the at least one latching hook out of engagement with the fastening section of the valve body upon a rotating motion about an axis of rotation of the at least one bearing arm. 7. The tire pressure monitoring system according to claim 5 , wherein the at least one bearing arm is parallel to the longitudinal direction of the valve body when the valve body is installed, wherein the at least one bearing arm includes an end supported on the housing by its lengthwise end that faces away from the latching hook, and includes a spring arm that brings the at least one latching hook out of engagement with the valve body upon a rotating motion away from the longitudinal direction of the valve body. 8. The tire pressure monitoring system according to claim 7 , wherein the at least one latching hook is designed as an elastically rotatable, U-shaped clip that grips a fastening projection molded on the fastening section of the valve body after installation of the valve body on the tire inflation pressure sensor. 9. The tire pressure monitoring system according to claim 1 , wherein the fastening element has a locking cap having a cover, which is connected to the housing by a living hinge, wherein the locking cap is detachably fastened to a box-like fastening region of the housing after installation of the valve body on the tire inflation pressure sensor, and in the process is engaged with the fastening section of the valve body. 10. The tire pressure monitoring system according to claim 9 , wherein the box-like fastening region of the housing has at least one locking bar that extends transversely to a longitudinal direction of the valve body when the valve body is installed, and at least one locking opening designed to be complementary to the at least one locking bar is formed in the locking cap, wherein the locking cap is fastened to the housing by a clamped connection that is formed by the locking bar clamped in the at least one locking opening after the installation of the locking cap on the fastening region, attaching the fastening section of the valve body in a locking manner. 11. The tire pressure monitoring system according to claim 9 , wherein a locking projection, which extends from the locking cap transversely to a longitudinal direction of the valve body when the valve body is installed, interlocks with a tab molded on the fastening section of the valve body in such a manner that motion of the valve body in its longitudinal direction away from the housing is prevented. 12. The tire pressure monitoring system according to claim 1 , wherein the fastening section of the valve body has, at least in sections, a flattening, and the fastening region of the housing has a plug-in receptacle designed to be complementary to the flattening so that the fastening section of the valve body can be inserted into the plug-in receptacle in a twistproof manner for installing the valve body on the tire inflation pressure sensor. 13. The tire pressure monitoring system according to claim 1 , wherein the thermoplastic plastic is polyamide, polypropylene, or polybutylene terephthalate. 14. The tire pressure monitoring system according to claim 1 , wherein the thermoplastic plastic is filled with a filler, wherein the filler has hollow glass spheres or glass fibers or a mixture of hollow glass spheres and glass fibers. 15. The tire pressure monitoring system according to claim 1 , further comprising an elastically-deformable bearing arm coupled to, and integrally formed with, the fastening element and the housing. 16. The tire pressure monitoring system according to claim 15 , wherein the fastening element is configured to rotate about an axis of rotation, and wherein the bearing arm is configured to twist about an axis parallel to the axis of rotation upon rotation of the fastening element about the axis of rotation. 17. A tire pressure monitoring system for a vehicle for ascertaining tire-specific parameters, the tire pressure monitoring system including a valve body, at least one fastening element, and a tire inflation pressure sensor having a housing in which is accommodated a sensor for determining at least one tire-specific parameter and for wirelessly transmitting the at least one tire-specific parameter to a control unit on the vehicle, wherein the housing has a fastening region, and the valve body includes a fastening section, wherein the fastening section of the valve body is detachably engaged with the fastening region of the housing with the aid of a fastening element, wherein the fastening element and the housing of the tire inflation pressure sensor are integrally formed from a thermoplastic plastic, and wherein the fastening element has at least one latching hook that extends in a longitudinal direction of the valve body when the valve body is installed. 18. The tire pressure monitoring system according to claim 17 , wherein, after installation of the valve body on the tire inflation pressure sensor, the at least one latching hook of the fastening element engages a recess formed on the fastening