Method for monitoring an air pressure in at least one tyre of a motor vehicle

The invention claimed is: 1. A method for monitoring an air pressure in at least one tire of a motor vehicle and alerting a user to the monitored air pressure, the method comprising: measuring air pressure in the at least one tire by at least one measuring electronics unit present in the tire; transmitting data by the at least one measuring electronics unit to a control unit at a first transmission frequency during a normal operation; actuating, by the control unit, components of the motor vehicle as a function of the data to generate and output optical signals and/or acoustic signals indicating the monitored air pressure during the normal operation; implementing, by the at least one measuring electronics unit, an operating mode change in response to detection of a limiting value of a pressure change in the tire in a specific time period being reached or exceeded; wherein, in response to an ignition of the motor vehicle being shut off, the control unit is switched into a run-on mode only for a specific time period in which the control unit is configured to continue to receive data from the at least one measuring electronics unit and configured to actuate motor vehicle components as a function of the data to generate and output optical signals and/or acoustic signals indicating the monitored air pressure, wherein implementing the operating mode change includes transmitting, by the at least one measuring electronics unit, data to the control unit at a second transmission frequency that is higher than the first transmission frequency. 2. The method of claim 1 , wherein the transmission of data at increased second transmission frequency causes the control unit to go into an assistance mode, which assists an active change in tire pressure, and for this purpose, to actuate, by a vehicle-specific bus system, motor vehicle components to generate optical signals and/or acoustic signals. 3. The method of claim 2 , further comprising the control unit actuating at least one travel direction indicator during the assistance mode to indicate activation of the assistance mode, wherein the at least one travel direction indicator is firstly actuated to flash at a specific frequency, and, in response to the at least one measuring electronics unit detecting a change in tire pressure and transmitting corresponding data to the control unit, the control unit controls flashing frequency to change in one direction, starting from a specific frequency, as a setpoint pressure is increasingly approached, wherein the control unit controls the flashing frequency to change in another direction as the distance from the setpoint pressure increases, and wherein, in response to the setpoint pressure being reached, the control unit controls the at least one travel direction indicator to be actuated as a continuous light for a specific time period. 4. The method of claim 3 , further comprising, the control unit actuating the at least one travel direction indicator to flash at a specific frequency which is higher than a highest frequency at which the at least one travel direction indicator has flashed before the setpoint pressure is reached in response to the at least one measuring electronics unit detecting that a permissible pressure range for the tire has been exceeded or undershot. 5. The method of claim 2 , further comprising extending the run-on mode by a specific time period in response to the control unit going into the assistance mode once. 6. The method of claim 1 , further comprising placing the at least one measuring electronics unit into a specific operating mode in which measuring frequency is increased compared to the normal operation in response to ignition of the motor vehicle being shut off for a specific time period. 7. The method of claim 3 , further comprising, in response to the setpoint pressure being reached, the control unit controls an on-board buzzer, at least one electric window lifter, a door closing system, at least one windshield wiper, one rear-view minor adjustment system or a voice output system to be activated to indicate that the setpoint pressure has been reached. 8. A motor vehicle that monitors an air pressure in at least one tire and alerts a user to the monitored air pressure, the motor vehicle comprising: a control unit; and at least one measuring electronics unit, present in the at least one tire, for (i) measuring air pressure in the at least one tire, (ii) transmitting data of the at least one measuring electronics unit to the control unit at a first transmission frequency during a normal operation, and (iii) implementing an operating mode change in response to detection of a limiting value of a pressure change in the tire in a specific time period being reached or exceeded, wherein the control unit controls components of the motor vehicle as a function of the data transmitted from the at least one measuring electronics unit to generate and output optical signals and/or acoustic signals indicating the monitored air pressure during the normal operation, wherein, in response to an ignition of the motor vehicle being shut off, the control unit is switched into a run-on mode only for a specific time period in which the control unit is configured to continue to receive data from the measuring electronics unit and actuate components of the motor vehicle as a function of the data to generate and output optical signals and/or acoustic signals indicating the monitored air pressure, and wherein, in response to an implementation of the operating mode change, the at least one measuring electronics unit is configured to transmit data to the control unit at a second transmission frequency that is higher than the first transmission frequency. 9. The motor vehicle of claim 8 , wherein the transmission of data at increased second transmission frequency causes the control unit to go into an assistance mode, which assists an active change in tire pressure, and for this purpose, to actuate, by a vehicle-specific bus system, motor vehicle components to generate optical signals and/or acoustic signals. 10. The motor vehicle of claim 9 , wherein the control unit actuating at least one travel direction indicator during the assistance mode to indicate activation of the assistance mode, wherein the at least one travel direction indicator is firstly actuated to flash at a specific frequency, and, in response to the at least one measuring electronics unit detecting a change in tire pressure and transmitting corresponding data to the control unit, the control unit controls flashing frequency to change in one direction, starting from a specific frequency, as a setpoint pressure is increasingly approached, wherein the control unit controls the flashing frequency to change in another direction as the distance from the setpoint pressure increases, and wherein, in response to the setpoint pressure being reached, the control unit controls the at least one travel direction indicator to be actuated as a continuous light for a specific time period. 11. The motor vehicle of claim 10 , wherein the control unit actuates the at least one travel direction indicator to flash at a specific frequency which is higher than a highest frequency at which the at least one travel direction indicator has flashed before the setpoint pressure is reached in response to the at least one measuring electronics unit detecting that a permissible pressure range for the tire has been exceeded or undershot. 12. The motor vehicle of claim 9 , wherein the run-on mode is extended by a specific time period in response to the control unit going into the assistance mode once. 13. The motor vehicle of claim 9 , wh