Torsion spring bar system for a wheel suspension of a motor vehicle

What is claimed is: 1. A torsion spring bar system for a wheel suspension of a motor vehicle, comprising: torsion spring bars oriented transversely to a vehicle longitudinal center on both vehicles sides, respectively, each of said torsion spring bars acting on a wheel guide element of the wheel suspension with variable pretension via an output lever positioned outwards with respect to the vehicle longitudinal center; an actuator configured to act on the torsion spring bar with a torsional moment; at least one torsion spring element configured to couple the torsion spring bars to one another at axially adjacent ends in the vehicle longitudinal center; and a flexible drive having an output gear in hollow shaft design, each of said torsion spring bars including a solid bar and a tubular bar connected to the solid bar, said actuator including an electric motor and a gearing with a high gear ratio to reduce stress on the flexible drive, said flexible drive being a chain or a toothed belt, and said electric motor being arranged in axis-parallel relation to the torsion spring bar and in driving relation to the tubular bar via the flexible drive with the output gear. 2. The torsion spring bar system of claim 1 , wherein the at least one torsion spring element has a progressive characteristic with a torsional moment increasingly acting on the torsion spring element. 3. The torsion spring bar system of claim 1 , wherein the at least one torsion spring element has an elastomer body which is connected with the adjacent ends of the torsion spring bars, said elastomer body having a rotation-symmetric outer circumference. 4. The torsion spring bar system of claim 1 , wherein the flexible drive is in driving relation to the gearing which is configured in coaxial relation to the torsion spring bars and configured in hollow shaft design and which is in driving relation to the torsion spring bars. 5. The torsion spring bar system of claim 1 , wherein the electric motor and the gearing of the actuator are configured in hollow shaft design and in coaxial driving relation to the torsion spring bars. 6. The torsion spring bar system of claim 1 , wherein each of said torsion spring bars is made of the at least of two parts, one of the parts being a tubular bar extending towards the vehicle longitudinally center, and the other part being a radially inner solid bar, said solid bar being attached to the actuator and extending in backwards direction through the tubular bar for indirect or direct connection to the output lever. 7. The torsion spring bar system of claim 1 , wherein the at least one torsion spring element includes two bearing plates, and an elastomer body which is vulcanized in place between the two bearing plates, said two bearing plates having catches which interact with a plug toothing of the torsion spring bars. 8. The torsion spring bar system of claim 7 , wherein the catches are constructed in the form of internally toothed bearing sleeves which interact with the plug toothings of the torsion spring bars, respectively.