Track tamping machine having separately stimulated vibrating tamping picks

The invention claimed is: 1. A machine, comprising: a tamping unit for simultaneously tamping at least two sleepers of a track, wherein the sleepers are positioned one following the other with regard to a longitudinal direction of the machine, said tamping unit having: a plurality of tamping levers each mounted for pivoting about a pivot axis on an assembly frame and connected to a squeeze drive; two inner tamping tines provided for simultaneous immersion into a common sleeper crib, said two inner tamping tines being disposed following one another in the longitudinal direction of the machine and being connected to respective said tamping levers; outer tamping tines respectively disposed at either end of said tamping unit with regard to the longitudinal direction of the machine, each said outer tamping tine being connected to a respective said tamping lever and configured for immersion into a respective sleeper crib by itself; and each squeeze drive being mounted on a common eccentric shaft having an eccentricity with respect to an axis of rotation, and wherein said eccentricity causing vibrations of said inner tamping tine is configured differently from said eccentricity causing vibrations of said outer tamping tine. 2. The machine according to claim 1 , wherein said eccentricity for said inner tamping tine is smaller than said eccentricity for said outer tamping tine. 3. A ballast tamping machine, comprising: a tamping unit for simultaneously tamping at least two sleepers of a track, wherein the sleepers are positioned one following the other with regard to a longitudinal direction of the machine, said tamping unit having: a plurality of tamping levers each mounted for pivoting about a pivot axis on an assembly frame and connected to a squeeze drive; two inner tamping tines provided for simultaneous immersion into a common sleeper crib, said two inner tamping tines being disposed following one another in the longitudinal direction of the machine and being connected to respective said tamping levers; outer tamping tines respectively disposed at either end of said tamping unit with regard to the longitudinal direction of the machine, each said outer tamping tine being connected to a respective said tamping lever and configured for immersion into a respective sleeper crib by itself; and an eccentric shaft having an eccentricity with respect to an axis of rotation, said eccentricity including a relatively smaller eccentricity and a relatively greater eccentricity, said eccentric shaft being mounted to drive said tamping tines to vibrate via said tamping levers, and wherein said eccentricity causing vibrations of said inner tamping tine is smaller than said eccentricity causing vibrations of said outer tamping tine.