Force transducer forming a capacitive load cell

The invention claimed is: 1. A force transducer, comprising: a spring body including two carrier parts separated by a gap, the spring body deforming upon loading with a force or load to be measured, said two carrier parts being moved out of a rest position upon loading of the spring body; and a capacitive displacement transducer for detecting a relative movement of the two carrier parts, the capacitive displacement transducer comprising two electrode combs held respectively on one carrier part of the two carrier parts and each having a plurality of electrode fingers; wherein the two electrode combs are held on mutually parallel planar mounting surfaces of the two carrier parts in alignment parallel to one another and parallel to the mounting surfaces, and the electrode fingers of one electrode comb of the plurality of electrode combs move in finger interspaces of another electrode comb upon loading of the spring body; wherein the planar mounting surfaces holding the two electrode combs are formed on the two carrier parts such that they are moved vertically with respect to their plane upon loading of the spring body; wherein each electrode finger of the plurality of electrode fingers of the electrode combs has a different parallel offset with respect to the mounting surfaces, such that, upon loading the spring body, the electrode fingers of one electrode comb dip into the finger interspaces of the other electrode comb; and wherein a difference in a parallel offset of the plurality of electrode fingers of the two electrode combs with respect to their mounting surfaces is less than or equal to a height/thickness of the plurality of electrode fingers. 2. The force transducer as claimed in claim 1 , wherein the capacitive displacement transducer is formed integrally in a manner consisting of the two electrode combs and at least one flexible web interconnecting the two electrode combs. 3. The force transducer as claimed in claim 1 , wherein the capacitive displacement transducer is formed integrally in a manner comprising the two electrode combs and at least one flexible web interconnecting the two electrode combs. 4. The force transducer as claimed in claim 1 , wherein the two electrode combs each comprise a fragment of a near finished product integral design of the capacitive displacement transducer. 5. The force transducer as claimed in claim 1 , wherein the two electrode combs are held on a flexible carrier film and are fitted with the flexible carrier film on the two carrier parts of the spring body. 6. The force transducer as claimed in claim 5 , wherein the flexible carrier film is formed as a film printed circuit board which is electrically contact-connected to the two electrode combs. 7. The force transducer as claimed in claim 5 , wherein the carrier film is formed of two carrier plates supporting the two electrode combs and connected to one another via fracture webs. 8. The force transducer as claimed in claim 6 , wherein the carrier film is formed of two carrier plates supporting the two electrode combs and connected to one another via fracture webs. 9. The force transducer as claimed in claim 5 , wherein the carrier film forms part of a flexible enclosure accommodating the two electrode combs. 10. The force transducer as claimed in claim 1 , further comprising: a further structurally identical displacement transducer parallel to the displacement transducer and held on the two carrier parts; and an evaluation device which combines signals of the further structurally identical displacement transducer and the displacement transducer to form at least one of a summation signal and difference signal. 11. The force transducer as claimed in claim 1 , further comprising: at least one additional capacitive displacement transducer held on the two carrier parts and for detecting at least one movement component of the carrier parts which extends perpendicularly to the relative movement of the two carrier parts which is to be detected by one of (i) the displacement transducer and (ii) the one displacement transducer and the further displacement transducer; and an evaluation device configured to correct one of (i) a signal of the displacement transducer and (ii) at least one of a summation and a difference signal of the displacement transducer and the further displacement transducer with a signal of the additional displacement transducer. 12. The force transducer as claimed in claim 11 , wherein the additional capacitive displacement transducer is arranged parallel to the displacement transducer and comprises two electrode combs held respectively on one of the two carrier parts, electrode fingers of which electrode combs with the spring body being unloaded, being positioned without a parallel offset with respect to one another but asymmetrically-eccentrically in the finger interspaces respectively of the other electrode comb. 13. The force transducer as claimed in claim 1 , wherein the force transducer is a load cell.