Method for the weight-dependent control of the internal pressure of a supporting body loaded by a weight load or a payload

The invention claimed is: 1. A method for the weight-dependent control of the internal pressure of a supporting body loaded by a weight load or payload, wherein the internal pressure is produced by means of an electric-motor-driven compressor, characterized in that the weight load or payload which is present and which acts on a supporting body in the form of a mass m Load under the effect of acceleration due to gravity g is determined in that a reduction and a subsequent increase in the internal pressure take place, wherein the increase in the internal pressure causes the position of an application point of the weight load or payload to change by a position difference ΔZ, wherein the following further method steps are carried out: during the increasing of the internal pressure by means of the compressor, the motor current I Load of the drive motor of the compressor is measured with a constant motor voltage U and integrated over the time of the increase in pressure, wherein the electrical work W Load which is necessary for the change in position is determined as a product of the motor voltage and integrated motor current, the electrical W Load is compared with a characteristic value of the electrical work W 0 from a characteristic diagram in which the values for the electrical work for achieving a normal position or standard position of the application point under normal load are stored in accordance with a normal load acting in the form of a normal mass m 0 under the effect of acceleration due to gravity g, and further parameters of the supporting body, the change in position ΔZ, the difference in mass Am and the difference in payload ΔF Z are determined from the difference AW between W Load and W 0 by means of the relationships Δ W=ΔF Z ·ΔZ and m LOAD −m 0 =Δm and Δ F Z =g·Δm and in turn the weight load or payload which is present after the pressure increase is determined therefrom, from the mass m LOAD = U g · Δ ⁢ ⁢ Z ⁡ [ ∫ ⁢ I LOAD ⁡ ( t ) ⁢ dt - W 0 ] + m 0 taking into account the acceleration due to gravity g, after which the compressor is switched off in accordance with the weight load or payload which is determined in this way, when an internal pressure which is predefined for the determined weight load or payload on the basis of the parameters of the supporting body is reached. 2. The method as claimed in claim 1 , in which the electric-motor-driven compressor is controlled by means of an electronic motor control unit, the motor voltage and motor current are acquired and processed in such a way that the product of the motor voltage and integrated motor current is determined and compared with values of a characteristic diagram stored in an electronic memory of the motor control unit, wherein an electronic motor driver apparatus for the drive motor of the compressor is actuated in accordance with the weight load or payload which is also determined by the motor control unit, and after comparison with values of a characteristic diagram, stored in a further electronic memory of the motor control unit, for the internal pressure which is predefined for the respective weight load or payload. 3. The method as claimed in claim 1 , in which the electric-motor-driven compressor is provided with a pressure sensor which detects the internal pressure of the supporting body, or with a corresponding pressure-sensitive evaluation of the motor characteristic variables, as result of which a signal which is proportional to the internal pressure is transmitted to the electronic motor control unit and/or to the electronic motor driver apparatus. 4. The method as claimed in claim 1 , which at least the determined weight load or payload and the determined internal pressure in the supporting body are transmitted as signals to further control or monitoring apparatuses of surrounding systems. 5. The method as claims in claim 1 , wherein the supporting body is an air spring bellows of a vehicle pneumatic suspension system.