Method for adjusting brake pressures, brake system of a motor vehicle for carrying out such method, and motor vehicle comprising such a brake system

The invention claimed is: 1. A method for adjusting brake pressures on wheel brakes in a pneumatic brake system of a motor vehicle, the method comprising: providing, in a normal braking mode and as a function of a driver's braking demand determined by a driver of the motor vehicle, brake pressures to the wheel brakes in the pneumatic brake system of the motor vehicle; determining, during the normal braking mode, a pressure distribution ratio starting value between a front axle and a rear axle; storing the pressure distribution ratio starting value in a memory; adjusting, by a brake control unit in a pressure control mode, the brake pressures on the wheel brakes to implement a drive stability function and/or external braking demands, wherein the adjusting includes adjusting an ideal pressure distribution ratio of brake pressures at wheel brakes of the front axle to brake pressures at wheel brakes of the rear axle according to a control function, the control function receiving, as input, the pressure distribution ratio starting value. 2. The method as claimed in claim 1 , wherein the determining, during the normal braking mode, the distribution ratio starting value comprises: detecting a first revolution rate measurement value of the front axle and a second revolution rate measurement value of the rear axle; determining a reference value of a motion variable of the motor vehicle; determining, based on the first revolution rate measurement value and the reference value of the motion variable, a first slip value for the front axle and determining, based on the second revolution rate measurement value and the reference value of the motion variable, a second slip value for the rear axle, determining, based on a ratio of the first slip value to the second slip value, a distribution index, and determining, by combining the distribution index with a specified pressure distribution ratio, the distribution ratio starting value. 3. The method as claimed in claim 2 , the determining the first slip value and the determining the second slip value are further based on a determined motion variable value corresponding to the motion variable of the motor vehicle and combined with the reference value of the motion variable. 4. The method as claimed in claim 2 , wherein a vehicle speed is the motion variable. 5. The method as claimed in claim 2 , wherein a vehicle acceleration is the motion variable. 6. The method as claimed in claim 1 , wherein the determining, during the normal braking mode, the pressure distribution ratio starting value is carried out while performing braking in the normal braking mode with an acceleration in a range of −1 m/s 2 to −1.5 m/s 2 . 7. The pneumatic brake system of the motor vehicle for carrying out the method as claimed in claim 1 , the pneumatic brake system comprising: one pneumatic brake cylinder and one pressure control valve per wheel; one activation valve per brake circuit that has a signal transmission connection to the brake control unit configured to receive control signals during the pressure control mode, and a service brake valve configured to be actuated by a driver of the motor vehicle, wherein the brake control unit is configured to adjust the brake pressures in the pneumatic brake cylinder in the normal braking mode by operating the service brake valve according to the driver's braking demand, wherein the brake control unit is configured to adjust each respective brake pressure in each respective pneumatic brake cylinder in the pressure control mode via a respective activation valve and a respective pressure control valve. 8. The pneumatic brake system as claimed in claim 7 , wherein the pressure control valves are disposed in one or more respective brake circuits, each respective brake circuit being connected, via the respective activation valve, to a respective pressure medium reservoir, each respective activation valve per brake circuit being electrically connected to the brake control unit and being configured to be switched by the brake control unit, wherein each respective pressure control valve of a respective wheel of a respective axle are connected to the respective pressure medium reservoir via a common brake circuit with the respective activation valve. 9. A motor vehicle with the pneumatic brake system as claimed in claim 7 . 10. The method according to claim 1 , further comprising activating the pressure control mode by switching an activation valve from a first valve setting provided for the normal braking mode to a second valve setting provided for the pressure control mode. 11. The method according to claim 10 , further comprising comparing a wheel slip of a respective wheel with a threshold value and determining that the wheel slip exceeds the threshold value, wherein the switching the activation valve from the first valve setting to the second valve setting is performed in response to the determining that the wheel slip exceeds the threshold value. 12. The method according to claim 1 , wherein the ideal pressure distribution ratio is an approximated ratio of a brake pressure distribution at wheel brakes of the front axle to wheel brakes of the rear axle, wherein the approximated ratio provides a same slip value for the front axle and the rear axle. 13. The method according to claim 12 , wherein the approximated ratio is approximated for a current load state of the motor vehicle, and is cumulatively approximated based on each adjustment of the ideal pressure distribution ratio. 14. The method according to claim 1 , wherein adjusting, by the brake control unit in the pressure control mode, the brake pressures on the wheel brakes to implement the drive stability function and/or external braking demands further comprises: adjusting the brake pressures on the wheel brakes closer to the brake pressures of the ideal pressure distribution ratio.