Linear valve drive and valve

The invention claimed is: 1. A linear valve drive for connection to a valve body, which valve body includes a valve seat and had has at least one flow passage with at least one inlet and at least one outlet, wherein the linear valve drive comprises a drive housing with a drive unit accommodated therein, an actuating element axially shiftable by the drive unit, which is coupled with a valve closing element to be pressed against the valve seat to open or close the flow passage, and a supporting unit surrounding the actuating element designed to be attached to the valve body, wherein a spring system loaded by actuating the linear valve drive is provided on the supporting unit, which spring system in dependence on the compression path has different spring rates, wherein the spring system comprises overload protection and comprises two or more spring subsystems, wherein the spring subsystems are aligned to be compressible by forces from the same axial direction, and at least two spring subsystems have different spring rates. 2. The linear valve drive according to claim 1 , wherein a linear bearing is provided at the valve body along a power flow path extending via the supporting unit from the drive unit to a coupling point of the linear valve drive, the linear bearing allowing an axial relative displacement of two portions of the linear valve drive relative to each other, wherein the spring system attempts to press the two portions into a starting position in a first direction, and wherein the spring system is arranged such that it transmits axial forces in a maximally extended position of the actuating element. 3. The linear valve drive according to claim 1 , wherein the supporting unit is a component separate from the drive housing, wherein a linear bearing and the spring system are arranged between the supporting unit and the drive housing. 4. The linear valve drive according to claim 3 , wherein the supporting unit is a tube enclosing the actuating element, wherein a housing-side end of the tube extends into an opening in an end wall of the drive housing, in order to be mounted therein. 5. The linear valve drive according to claim 4 , wherein the spring system engages at the housing-side end of the tube, the housing-side end being supported on the inside of the housing. 6. The linear valve drive according to claim 2 , wherein the supporting unit has at least two portions axially movable relative to each other and connected via the linear bearing, between which the spring system acts. 7. The linear valve drive according to claim 6 , wherein the two portions axially movable relative to each other are telescopically pushed into each other. 8. The linear valve drive according to claim 1 , wherein the spring system comprises at least one first spring subsystem and one second spring subsystem, the spring subsystems having different spring rates wherein the first and second spring subsystems are connected in series. 9. The linear valve drive according to claim 8 , wherein the first spring subsystem is a closing system, which with a non-activated drive unit urges the actuating element in direction of the closed position, and the second spring subsystem is an overload protection which is compressed when the linear valve drive not coupled with a valve body moves the actuating element maximally outside and against an internal stop. 10. The linear valve drive according to claim 8 , wherein the second spring subsystem has a higher spring rate than the first spring subsystem. 11. The linear valve drive according to claim 8 , wherein the second spring subsystem has a spring rate between 400 N/mm and 16000 N/mm and/or the first spring subsystem has a spring rate between 0.1 N/mm and 600 N/mm. 12. The linear valve drive according to claim 8 , wherein the first and/or the second spring subsystem is/are formed of several spring elements. 13. The linear valve drive according to claim 12 , wherein the several spring elements are connected in series. 14. The linear valve drive according to claim 8 , wherein the first spring subsystem and the second spring subsystem each are formed of at least one disk spring surrounding the actuating element, wherein the disk springs of the spring subsystems are stacked on top of each other. 15. The linear valve drive according to claim 1 , wherein at least one spring travel limiter present in the spring system is provided, which limits the spring travel of the spring system. 16. The linear valve drive according to claim 1 , wherein the actuating element is a valve tappet at whose end the valve closing element is provided. 17. The linear valve drive according to claim 2 , wherein the linear bearing additionally forms a pivot bearing which rotatably supports two portions of the linear valve drive relative to each other. 18. A valve with a valve body which includes at least one inlet, at least one outlet, at least one flow passage and at least one valve seat, as well as a linear valve drive for connection to said valve body, wherein the linear valve drive comprises a drive housing with a drive unit accommodated therein, an actuating element axially shiftable by the drive unit, which is coupled with a valve closing element to be pressed against the valve seat to open or close the flow passage, and a supporting unit surrounding the actuating element designed to be attached to the valve body, wherein a spring system loaded by actuating the linear valve drive is provided on the supporting unit, which spring system in dependence on the compression path has different spring rates, wherein the spring system comprises overload protection and comprises two or more spring subsystems, wherein the spring subsystems are aligned to be compressible by forces from the same axial direction, and at least two spring subsystems have different spring rates. 19. The valve according to claim 18 , wherein the supporting unit is attached to the valve body, wherein a linear bearing and the spring system are provided between the supporting unit and the valve body.