Ultrasonic sensor arrangement comprising an ultrasonic sensor in the radiator grill, motor vehicle and corresponding method

The invention claimed is: 1. An ultrasonic sensor arrangement for a motor vehicle comprising a trim element, in particular a bumper, comprising a radiator grill, and at least one first and one second ultrasonic sensor each comprising a membrane for emitting and/or receiving ultrasonic signals, wherein the first ultrasonic sensor is arranged with its membrane on a back side of the trim element so that the membrane of the first ultrasonic sensor is configured for emitting and/or receiving the ultrasonic signals through the trim element and the second ultrasonic sensor is arranged on the radiator grill, characterized by detuning means for detuning the second ultrasonic sensor and hereby for adapting an emission and/or receiving behaviour of the second ultrasonic sensor to the emission and/or receiving behaviour of the first ultrasonic sensor. 2. The ultrasonic sensor arrangement according to claim 1 , characterized in that the first and the second ultrasonic sensors are sensors of the same design with same resonant frequencies in the unmounted state. 3. The ultrasonic sensor arrangement according to claim 1 , characterized in that by the detuning means a frequency of the ultrasonic signals emitted by the second ultrasonic sensor is adapted to the frequency of the ultrasonic signals emitted by the first ultrasonic sensor. 4. The ultrasonic sensor arrangement according to claim 1 , characterized in that the detuning means comprise a disk-like detuning element, which for detuning the second ultrasonic sensor is arranged to contact a front surface of the membrane of the second ultrasonic sensor. 5. The ultrasonic sensor arrangement according to claim 4 , characterized in that the detuning element is glued together with the front surface of the membrane. 6. The ultrasonic sensor arrangement according to claim 4 , characterized in that the detuning element is formed from plastic. 7. The ultrasonic sensor arrangement according to claim 4 , characterized in that the detuning element is formed from the same material as the trim element. 8. The ultrasonic sensor arrangement according to claim 4 , characterized in that the trim element has the same thickness as the trim element in the region with which the membrane of the first ultrasonic sensor is in contact. 9. The ultrasonic sensor arrangement according to claim 4 , characterized in that the ultrasonic sensor arrangement comprises a ring-shaped stiffening element, which is in particular formed from ceramic and which is arranged around the pot-shaped membrane of the second ultrasonic sensor, wherein the detuning element is arranged to contact both the front surface of the membrane of the second ultrasonic sensor as well as a front side of the stiffening element. 10. The ultrasonic sensor arrangement according to claim 1 , characterized in that the detuning means comprise an electronic control device, which for detuning the second ultrasonic sensor is configured to operate same sensor at a resonant frequency that is different from the excitation frequency. 11. The ultrasonic sensor arrangement according to claim 10 , characterized in that the control device is configured to set the excitation frequency to a value at which the frequency of the ultrasonic signals emitted by the second ultrasonic sensor is equal to the frequency of the ultrasonic signals emitted by the first ultrasonic sensor. 12. A motor vehicle comprising an ultrasonic sensor arrangement according to claim 1 . 13. A method for operating at least two ultrasonic sensors of a motor vehicle, in which a first ultrasonic sensor is arranged with its membrane on the back side of a trim element, in particular of a bumper, of the motor vehicle so that the membrane of the first ultrasonic sensor emits and/or receives ultrasonic signals through the trim element and the second ultrasonic sensor is arranged on a radiator grill of the motor vehicle, characterized in that by detuning means the second ultrasonic sensor is detuned and hereby its emission and/or receiving behaviour adapted to the emission and/or receiving behaviour of the first ultrasonic sensor.