Fastening tool with magnetic piston holder

The invention claimed is: 1. A fastener driving tool, comprising a hand-held housing, containing a drivably movable piston element for transferring energy to a fastening element, wherein the piston element is guided in a cylinder and can be accelerated against the fastening element by a driving force, wherein the piston element can be held in an initial position by means of a magnetic force from a retaining element, wherein the retaining element has a first magnetically conductive stop and a second magnetically conductive stop, wherein the magnetic stops are connected in a retained state of the piston element by a magnetically conductive mating piece arranged on the piston element, and wherein an excitation magnet is arranged between the magnetically conductive stops. 2. The fastener-driver tool according to claim 1 , wherein the excitation magnet is a permanent magnet. 3. The fastener-driver tool according to claim 2 , wherein the excitation magnet is arranged circularly about a central axis (A) of the piston element. 4. The fastener-driver tool according to claim 3 , wherein the first stop and the second stop each form a circular ring concentric with the excitation magnet, wherein one of the stops has a smaller radius than the excitation magnet, and the respective other stop has a larger radius than the excitation magnet. 5. The fastener-driver tool according to claim 4 , wherein the stops adjoin and contact the excitation magnet, wherein part of the magnetic field lines from the excitation magnet enter radially into the stops. 6. The fastener-driver tool according to claim 3 , wherein the stops adjoin and contact the excitation magnet, wherein part of the magnetic field lines from the excitation magnet enter radially into the stops. 7. The fastener-driver tool according to claim 2 , wherein the stops adjoin and contact the excitation magnet, wherein part of the magnetic field lines from the excitation magnet enter radially into the stops. 8. The fastener-driver tool according to claim 2 , wherein a defined gap is provided between the stops and the excitation magnet, wherein a magnetically conductive coupling element connects the stops and the excitation magnet to one another on a side facing away from the piston element. 9. The fastener-driver tool according to claim 1 , wherein the excitation magnet is arranged circularly about a central axis (A) of the piston element. 10. The fastener-driver tool according to claim 9 , wherein the first stop and the second stop each form, a circular ring concentric with the excitation magnet, wherein one of the stops has a smaller radius than the excitation magnet, and the respective other stop has a larger radius than the excitation magnet. 11. The fastener-driver tool according to claim 10 , wherein the stops adjoin and contact the excitation magnet, wherein part of the magnetic field lines from the excitation magnet enter radially into the stops. 12. The fastener-driver tool according to claim 10 , wherein a defined gap is provided between the stops and the excitation magnet, wherein a magnetically conductive coupling element connects the stops and the excitation magnet to one another on a side facing away from the piston element. 13. The fastener-driver tool according to claim 9 , wherein the stops adjoin and contact the excitation magnet, wherein part of the magnetic field lines from the excitation magnet enter radially into the stops. 14. The fastener-driver tool according to claim 9 , wherein a defined gap is provided between the stops and the excitation magnet, wherein a magnetically conductive coupling element connects the stops and the excitation magnet to one another on a side facing away from the piston element. 15. The fastener-driver tool according to claim 1 , wherein the stops adjoin and contact the excitation magnet, wherein part of the magnetic field lines from the excitation magnet enter radially into the stops. 16. The fastener-driver tool according to claim 1 , wherein a defined gap is provided between the stops and the excitation magnet, wherein a magnetically conductive coupling element connects the stops and the excitation magnet to one another on a side facing away from the piston element. 17. The fastener-driver tool according claim 1 , wherein the excitation magnet is covered on a side facing the piston element by a magnetically conductive foil. 18. The fastener-driver tool according to claim 17 , wherein the foil magnetically conductively connects the two stops. 19. The fastener-driver tool according to claim 17 , wherein the foil is underneath the excitation magnet, and has a thickness of less than 0.5 mm. 20. The fastener-driver tool according to claim 1 , wherein a retaining force F of the retaining element is at least F/d=25 N/cm relative to a diameter d of the piston element.