Method for assigning identifiers of wheel electronics of a tire pressure monitoring system of a vehicle to the positions of the wheels on the vehicle

What is claimed is: 1. A method for assigning identifiers to positions of wheels of a vehicle having at least two axles, wherein said identifiers are contained in signals which are emitted by wheel electronics of a tire pressure monitoring system of the vehicle, which wheel electronics are mounted on the wheels of the vehicle on which the vehicle travels, wherein the method is carried out for the wheels on the right side of the vehicle separately from the wheels on the left side of the vehicle, the method comprising the steps of: (a) providing the wheel electronics, each wheel electronic comprising: sensing, by a plurality of sensors, one of which responds to a tire pressure of the wheel and another responds to impacts which occur on the wheel; storing, using a memory, in which the individual identifier of the respective wheel electronics is stored; and transmitting, by a transmitter, which transmits signals which contain not only the individual identifier of the respective wheel electronics but also information relating to the occurrence of an impact on the same wheel, to a receiver which is provided or connected with an antenna and with an evaluation unit, to which in addition a speed signal is delivered, which indicates the speed of travel; (b) detecting, by the evaluation unit, the identifiers contained in the signals; (c) measuring, by the evaluation unit, the time span between impact signals which are received consecutively; (d) multiplying, by the evaluation unit, the measured time span with a speed of the vehicle, measured in the same time span and reported to the evaluation unit; (e) comparing, by the evaluation unit, the length formed through this multiplication with a given distance of two axles of the vehicle; (f) wherein when the length within a predetermined tolerance coincides with the given axle distance, the evaluation unit assigns the identifier which was contained in the signal, which contains the information relating to the first of two consecutively detected impacts, to the front axle viewed in the direction of travel, and assigns the identifier which was contained in the signal, which contains the information relating to the second of the two consecutively detected impacts, to the rear axle viewed in the direction of travel, and counts for each identifier the assignments to the front axle separately from the assignments to the rear axle, simultaneously or chronologically overlapping with the steps (b) to (f); (g) measuring, by the evaluation unit, an intensity of the signals received by it; (h) comparing, by the evaluation unit, the intensities of signals which are received consecutively and differ from one other with regard to their identifier; (i) assigning, by the evaluation unit, the identifier of the signal which has the higher intensity, as a result of the comparison, to the axle on which the wheel with the higher intensity wheel electronics is situated, for the signal of which, owing to the given arrangement of the antenna of the receiver and with the same transmission power of the wheel electronics, the likelihood is greater that the received signal with the higher intensity originates from the wheel electronics arranged on it than from a-wheel electronics arranged on the other axle; (j) counting, by the evaluation unit, for each identifier the assignments to the front axle, derived from the comparison of the intensities, separately from the assignments to the rear axle; (k) comparing, by the evaluation unit, for each identifier the frequency of the assignment to a particular axle and namely both for the assignments determined in step (f) and also for the assignments determined in step (j); (1) wherein when in both steps (f) and (j) a trend has formed in favor of one of the assignments, this assignment of an identifier to a particular axle is stored and the method is continued for the other identifiers. 2. The method according to claim 1 , further comprising the steps of: (in) providing a sensor in the wheel electronics delivering information relating to a rotation direction of the respective wheel, which is transmitted to the receiver in the signal which contains the individual identifier of the respective wheel electronics; and (n) detecting, by the evaluation unit, the rotation direction information, differentiating on the basis of the detected rotation direction information between identifiers which belong to wheel electronics on wheels on the left vehicle side and identifiers which belong to wheel electronics on wheels on the right vehicle side, and differentiating on this basis impacts which are reported to it from wheel electronics on the left vehicle side from impacts which are reported to it from wheel electronics on the right vehicle side. 3. The method according to claim 2 , wherein each time the evaluation unit detects an impact signal, a time window is opened by the evaluation unit, the start and end of which are formed taking into consideration a measured vehicle speed, so that the identifier in a subsequent impact signal, which originates from a wheel on the same vehicle side and occurs in the open time window, is assigned to a wheel which is arranged on the same vehicle side in the given axle distance from a wheel arranged further forward on the same vehicle side, to which the identifier, contained in the impact signal which came previously from a wheel electronics arranged on the same vehicle side, is assigned. 4. The method according to claim 1 , wherein when the evaluation unit detects two impact signals simultaneously, which indicate that they originate from two wheels with different rotation direction, the identifiers transmitted with the two impact signals are assigned to two wheels on a shared axle. 5. The method according to claim 1 , wherein a digital output signal of an electric or electronic tachometer of the vehicle is delivered constantly to the evaluation unit during travel. 6. The method according to claim 1 , wherein the assignments are repeatedly formed and statistically evaluated, by assignments which noticeably occur frequently being selected and stored in the memory which is provided in the evaluation unit or in connection with the evaluation unit, and that the assignment method is terminated when the assignments are stored for all received identifiers. 7. The method according to claim 1 , wherein for determining the rotation direction of the wheel, an acceleration sensor is used that responds to tangential accelerations of the wheel. 8. The method according to claim 1 , wherein the sensor which responds to impacts is an acceleration sensor which responds to radial accelerations of the wheel. 9. The method according to claim 1 , wherein in the wheel electronics a check is carried out as to whether the intensity of the impact signal delivered from the impact sensor exceeds a given threshold value and that only when this is the case is the transmitter of the wheel electronics caused to immediately emit a signal, in so far as the assignment method is not terminated. 10. The method according to claim 9 , wherein the threshold value is reduced when no impact signals are transmitted for a lengthy period of time, and that the threshold value is increased when the transmitted impact signals are frequently not correlated with an axle distance present in the vehicle. 11. The method according to claim 10 , wherein when also with a reduced threshold value no impact signals are transmitted from the wheel electronics for a period of predetermined minutes, the impact sensors are switched off for a defined duration. 12. The method according to claim 1 , wherein further impact sensors are arranged on shock absorbers or wheel suspen