Percussive power tool

The invention claimed is: 1. A percussion machine tool, comprising a tool holder for holding a percussion tool on a working axis; a motor; a percussion mechanism, which comprises a guide tube having an interior; an exciter piston that is forced to move periodically in a percussion direction along the working axis inside the guide tube by the motor; a percussion piston that slides along the working axis inside the guide tube; a pneumatic chamber, which is enclosed by the exciter piston and the percussion piston inside the guide tube, for coupling the percussion piston to the movement of the exciter piston; a rivet header and a seat for the rivet header, the rivet header having a percussion surface; wherein the percussion mechanism comprises a point of percussion for the percussion piston, the point of percussion being defined by the percussion surface of the rivet header that faces the percussion piston when the rivet header rests against the seat counter to the percussion direction; a throttle opening comprising a radial opening in the guide tube; and, a check valve, having an outlet opening that is arranged in the guide tube and a closure mechanism for closing the check valve with respect to a flow of air passing out of the interior of the guide tube, wherein the outlet opening is arranged along the working axis such that the percussion piston seals the outlet opening with respect to the pneumatic chamber when the percussion piston is in front of the point of percussion in the percussion direction, and such that the pneumatic chamber overlaps the outlet opening when the percussion piston moves beyond the point of percussion in the percussion direction, and wherein a cross-sectional area of the throttle opening is less than 6% of a size of a cross-sectional area of the outlet opening. 2. The percussion machine tool according to claim 1 , wherein the closure mechanism comprises at least one resilient flap. 3. The percussion machine according to claim 2 , wherein the flap is prestressed into a position that closes the check valve. 4. The percussion machine tool according to claim 1 , wherein the closure mechanism comprises a resilient sealing element, which rests against an inlet opening of the check valve as a result of internal stress of the resilient sealing element. 5. The percussion machine tool according to claim 1 , wherein a cross-sectional area of the throttle opening is smaller than a cross-section area of the outlet opening of the check valve. 6. The percussion machine tool of claim 5 , wherein the throttle opening is arranged on the guide tube downstream of a reversal point of the percussion piston by between 2 mm and 5 mm in the percussion direction. 7. The percussion machine tool according to claim 1 , wherein the guide tube guides the piston. 8. The percussion machine tool of claim 1 , wherein the throttle opening is arranged on the guide tube downstream of a reversal point of the percussion piston by between 2 mm and 5 mm in the percussion direction. 9. A percussion machine tool, comprising a tool holder for holding a percussion tool on a working axis; a motor; a percussion mechanism, which comprises a guide tube having an interior; an exciter piston that is forced to move periodically in a percussion direction along the working axis inside the guide tube by the motor; a percussion piston that slides along the working axis inside the guide tube; a pneumatic chamber, which is enclosed by the exciter piston and the percussion piston inside the guide tube, for coupling the percussion piston to the movement of the exciter piston; a rivet header and a seat for the rivet header, the rivet header having a percussion surface; wherein the percussion mechanism comprises a point of percussion for the percussion piston, the point of percussion being defined by the percussion surface of the rivet header that faces the percussion piston when the rivet header rests against the seat counter to the percussion direction; a throttle opening comprising a radial opening in the guide tube, wherein the throttle opening is arranged on the guide tube downstream of a reversal point of the percussion piston by between 2 mm and 5 mm in the percussion direction; and, a check valve, having an outlet opening that is arranged in the guide tube and a closure mechanism for closing the check valve with respect to a flow of air passing out of the interior of the guide tube, wherein the outlet opening is arranged along the working axis such that the percussion piston seals the outlet opening with respect to the pneumatic chamber when the percussion piston is in front of the point of percussion in the percussion direction, and such that the pneumatic chamber overlaps the outlet opening when the percussion piston moves beyond the point of percussion in the percussion direction.