Suspension anchoring in an elevator system

The invention claimed is: 1. A support fastening for a plurality of supports in an elevator installation, wherein each support of the plurality of supports is connected with a respective associated tie rods of a plurality of tie rods by a respective end connection, the support fastening comprising: a rollable body supporting all of the respective associated tie rods; and a mounting plate carrying said rollable body wherein the support fastening is adaptable to deflections of the plurality of supports in correspondence with a deflection angle, wherein said rollable body rolls on a flat rolling surface of sold mounting plate in dependence on the deflection angle. 2. The support fastening according to claim 1 including a force storage element arranged at the respective associated tie rods and acting on said rollable body. 3. The support fastening according to claim 2 wherein said force storage element is a gas compression spring with a cylinder and a piston rods and said piston rod functions as said respective associated tie rod and is connected with the end connection. 4. The support fastening according to claim 3 wherein said piston rod has a pivot eye and the end connection is pivotably arranged in said pivot eye. 5. The support fastening according to claim 3 wherein said rollable body is integrated in said cylinder. 6. The support fastening according to claim 1 wherein said mounting plate has a conical bore through which the respective associated tie rods are led. 7. The support fastening according to claim 1 wherein said mounting plate has a bore formed therein with at least two stepped and concentrically arranged individual bores with different diameters and the respective associated tie rods are led through the bore. 8. The support fastening according to claim 1 wherein said mounting plate has a bore formed as a slot through which the respective associated tie rods are led. 9. The support fastening according to claim 1 wherein said rollable body is rollable by a curved rolling surface formed on said rollable body. 10. The support fastening according to claim 9 wherein said rollable body rolling surface and said mounting plate rolling surface are formed with interengaging toothing. 11. The support fastening according to claim 9 wherein said rollable body rolling surface has a sectional profile corresponding with a parabola according to an equation f(x)=a x n , wherein at least one of 0<a<1 and n is an even number. 12. The support fastening according to claim 9 wherein said rollable body rolling surface has a sectional profile with a central section having a radius greater than radii of two sections flanking the central section. 13. The support fastening according to claim 9 wherein said rollable body rolling surface has at least two abutments formed adjacent thereto. 14. The support fastening according to claim 1 wherein the support fastening is adapted to be arranged at any of a stationary fastening point in an elevator shaft, an elevator car and a counterweight. 15. The support fastening according to claim 1 , further comprising a plurality of parallel support means, where each support means is coupled to a respective associated tie rods. 16. A support fastening for a plurality of supports in an elevator installation, wherein each support, of the plurality of supports is connected with a respective associated tie rods of a plurality of tie rods by a respective end connection, the support fastening comprising: a rollable body supporting all of the respective associated tie rods and having a curved rolling surface formed on said rollable body; and a mounting plate carrying said rollable body wherein the support fastening is adaptable to deflections of the plurality of supports in correspondence with a deflection angle, wherein said curved rolling surface of said rollable body rolls on a flat rolling surface of said mounting plate in dependence on the deflection angle. 17. The support fastening according to claim 16 wherein said rollable body rolling surface has a sectional profile corresponding with a parabola according to an equation f(x)=a x n , wherein at least one of 0<a<1 and n is an even number. 18. The support fastening according to claim 16 wherein said rollable body rolling surface has a sectional profile with a central section having a radius greater than radii of two sections flanking the central section. 19. The support fastening according to claim 16 wherein said rollable body rolling surface has at least two abutments formed adjacent thereto. 20. The support fastening according to claim 16 , further comprising a plurality of parallel support means, where each support means is coupled to a respective associated tie rods.