Steering column having an energy absorption device

What is claimed is: 1. A steering column for a motor vehicle, comprising: a steering shaft, an inner casing tube which rotatably supports the steering shaft, an outer casing unit in which the inner casing tube is received movably in the axial direction and is fixable, and an energy absorption device which is arranged functionally between the casing tube and the casing unit, in which a portion of the energy occurring in the event of a crash can be absorbed when the casing tube is moved telescopically relative to the casing unit, wherein the energy absorption device comprises: a brake element, a deformation strip configured to move through and be deformed by the brake element in a crash event, and a carrier plate, on which the deformation strip is fastened, the carrier plate fastened to the casing tube. 2. The steering column of claim 1 , wherein the carrier plate projects in the axial direction beyond the casing tube. 3. The steering column of claim 2 , wherein a portion of the carrier plate projecting beyond the casing tube with the deformation strip passes axially through an opening of the outer casing unit in the event of a crash. 4. The steering column of claim 3 , wherein the opening is arranged radially outside a bearing for the steering shaft. 5. The steering column of claim 1 , wherein the carrier plate is fastened by rivet connections to the casing tube. 6. The steering column of claim 1 , wherein two deformation strips are fastened to the carrier plate, which interact with two brake elements. 7. The steering column of claim 6 , wherein the two deformation strips are arranged one on top of the other, a first of the deformation strips lying on top narrower than a second of the deformation strips lying underneath, the first of the deformation strips embraced and clamped by a narrower first brake element and the second of the deformation strips by a broader second brake element. 8. The steering column of claim 7 , wherein the brake elements are joined by a toothed plate to the outer casing unit, a locking element provided with teeth is joined to the outer casing unit by a clamping device, which presses the locking element against the toothed plate in order to fix it immovably on the casing unit during driving operation, so that a displacement of the casing tube with respect to the casing unit in the event of a crash is only possible by activating the energy absorption device. 9. The steering column of claim 8 , wherein the first brake element is joined by a releasable coupling to the second brake element and the toothed plate and the coupling is releasable by a pyrotechnical switch, so that in the event of a crash only the second brake element deforms the second deformation strip. 10. The steering column of claim 1 configured such that energy absorbed by the brake element deforming the deformation strip in a crash event is the primary source of energy absorption in the energy absorption device. 11. A steering column comprising: a steering shaft; an inner casing tube that rotatably supports the steering shaft; an outer casing unit in which the inner casing tube is received movably in an axial direction and is fixable; an adapter that is disposed within the outer casing unit and includes a ball bearing for rotatably supporting the steering shaft, wherein the steering shaft, the inner casing tube, and the adapter are disposed eccentrically within the outer casing unit such that an opening exists between the adapter and a wall of the outer casing unit; and an energy absorption device disposed operatively between the inner casing tube and the outer casing unit, in which a portion of the energy occurring in a crash event can be absorbed when the inner casing tube moves telescopically relative to the outer casing unit, wherein the energy absorption device includes a deformation strip that is disposed within the outer casing unit and either extends through or is configured in a crash event to extend through the opening between the wall of the outer casing unit and the adapter. 12. The steering column of claim 11 wherein the energy absorption device comprises: a brake element, wherein the deformation strip is configured to move through and be deformed by the brake element in a crash event; and a carrier plate on which the deformation strip is fastened, the carrier plate being fastened to the inner casing tube. 13. The steering column of claim 12 wherein the carrier plate is disposed radially between the adapter and the deformation strip. 14. The steering column of claim 11 wherein the carrier plate either extends through or is configured in a crash event to extend through the opening between the wall of the outer casing unit and the adapter. 15. The steering column of claim 11 wherein the carrier plate projects in the axial direction beyond the inner casing tube. 16. A steering column comprising: a steering shaft; an inner casing tube that rotatably supports the steering shaft; an outer casing unit in which the inner casing tube is received movably in an axial direction and is fixable; an energy absorption device disposed operatively between the inner casing tube and the outer casing unit, in which a portion of the energy occurring in a crash event can be absorbed when the inner casing tube moves telescopically relative to the outer casing unit, wherein the energy absorption device includes a deformation strip; and a brake element that comprises a first pair of rounded projections that opposes a second pair of rounded projections, wherein in a crash event the first and second pairs of rounded projections are configured to deform the deformation strip as the deformation strip moves through the brake element. 17. The steering column of claim 16 wherein the energy absorption device comprises a carrier plate on which the deformation strip is fastened, the carrier plate being fastened to the inner casing tube. 18. The steering column of claim 16 wherein the deformation strip is a first deformation strip and the brake element is a first brake element, wherein the energy absorption device comprises a second deformation strip, with the second brake element comprising a first pair of rounded projections that opposes a second pair of rounded projections, wherein in a crash event the first and second pairs of rounded projections of the second brake element are configured to deform the second deformation strip as the second deformation strip moves through the second brake element. 19. The steering column of claim 18 wherein the first and second deformation strips are arranged one on top of the other, the first deformation strip lying on top being narrower than the second deformation strip lying underneath. 20. The steering column of claim 18 wherein projections of the first pair of rounded projections of the first brake element are spaced farther apart than projections of the first pair of rounded projections of the second brake element.