Drive-in device

The invention claimed is: 1. A drive-in device comprising a hand-held housing with a piston element received therein for transmitting energy to a fastening element to be driven in, the piston element having a starting position; a propellant charge; a combustion chamber arranged between the propellant charge and the piston element and extending about a center axis (A), and a control element for adjustably changing the starting position of the piston element for changing energy being transmitted by the propellant charge to the piston element, the the control element having an operating element that can pivot about the center axis (A), wherein pivoting the operating element changes the energy being transmitted by the propellant charge to the piston element, and removal of the piston element is reversibly blocked by the operating element, wherein the operating element is coupled via a mechanical forced control to a stop element adjustable in the direction of the center axis (A), wherein the control element comprises a slider track and a slider running in the slider track. 2. The drive-in device according to claim 1 , wherein the piston element is movably accommodated in a piston guide such that it is axially displaceable in relation to the hand-held housing of the drive-in device. 3. The drive-in device according to claim 1 , wherein the starting position of the piston element is set relative to the piston guide in the course extending the piston guide forward in a drive-in direction. 4. The drive-in device according to claim 1 , wherein the operating element comprises an annular sleeve, the sleeve encircling the center axis (A). 5. The drive-in device of claim 1 , comprising a locking element blocking the piston element, wherein the locking element can be unlocked only in one of multiple positions of the operating element. 6. The drive-in device of claim 5 , wherein the operating element has a recess, the locking element being movable in radial direction when the locking element is covered by the recess. 7. A drive-in device comprising a hand-held housing with a piston element received therein for transmitting energy to a fastening element to be driven in, the piston element having a starting position; a propellant charge; a combustion chamber arranged between the propellant charge and the piston element and extending about a center axis (A), and a control element for adjustably changing the starting position of the piston element for changing energy being transmitted by the propellant charge to the piston element, the the control element having an operating element that can pivot about the center axis (A), wherein pivoting the operating element changes the energy being transmitted by the propellant charge to the piston element, and removal of the piston element is reversibly blocked by the operating element, wherein the piston element is movably accommodated in a piston guide such that it is axially displaceable in relation to the hand-held housing of the drive-in device, wherein a distance (d) between a first stop element acting on the piston guide and a second stop element acting on the piston element can be adjustably set through the control element. 8. The drive-in device as claimed in claim 7 , wherein the first and second stop elements act on the piston element and on the piston guide in the same direction. 9. The drive-in device according to claim 7 , wherein the starting position of the piston element is set relative to the piston guide in the course extending the piston guide forward in a drive-in direction. 10. The drive-in device according to claim 8 , wherein the operating element comprises an annular sleeve, the sleeve encircling the center axis (A). 11. The drive-in device according to claim 7 , wherein the operating element comprises an annular sleeve, the sleeve encircling the center axis (A). 12. The drive-in device of claim 7 , comprising a locking element blocking the piston element, wherein the locking element can be unlocked only in one of multiple positions of the operating element. 13. The drive-in device of claim 12 , wherein the operating element has a recess, the locking element being movable in radial direction when the locking element is covered by the recess. 14. A drive-in device comprising a hand-held housing with a piston element received therein for transmitting energy to a fastening element to be driven in, the piston element having a starting position; a propellant charge; a combustion chamber arranged between the propellant charge and the piston element and extending about a center axis (A), and a control element for adjustably changing the starting position of the piston element for changing energy being transmitted by the propellant charge to the piston element, the the control element having an operating element that can pivot about the center axis (A), wherein pivoting the operating element changes the energy being transmitted by the propellant charge to the piston element, and removal of the piston element is reversibly blocked by the operating element, wherein the piston element is movably accommodated in a piston guide such that it is axially displaceable in relation to the hand-held housing of the drive-in device, wherein the starting position of the piston element is set relative to the piston guide in the course extending the piston guide forward in a drive-in direction. 15. The drive-in device according to claim 14 , wherein the operating element comprises an annular sleeve, the sleeve encircling the center axis (A). 16. The drive-in device as claimed in claim 15 , wherein the sleeve is held in at least one defined position by a catch element. 17. The drive-in device as claimed in claim 14 , comprising a locking element blocking the piston element, wherein the locking element can be unlocked only in one of multiple positions of the operating element. 18. The drive-in device as claimed in claim 17 , wherein the operating element has a recess, the locking element being movable in radial direction when the locking element is covered by the recess. 19. The drive-in device according to claim 17 , wherein the operating element comprises an annular sleeve, the sleeve encircling the center axis (A).