Forming tool for the production of a hollow component, and method for operating the forming tool

The invention claimed is: 1. A forming tool for producing a hollow component by sheet-metal forming, the forming tool comprising: an upper tool and a lower tool; a mandrel; an auxiliary mandrel repositionable relative to the mandrel; a spring-elastic actuator; and an auxiliary spring-elastic actuator, wherein the mandrel and the auxiliary mandrel are coupled to the upper tool by the spring-elastic actuator and the auxiliary spring-elastic actuator, respectively, when the upper tool is being lowered toward the lower tool, the mandrel is configured to move into a preform component having a U-shaped cross section to bear on an internal surface of the preform component, when the upper tool is being further lowered toward the lower tool to compress the auxiliary spring-elastic actuator, the auxiliary mandrel is configured to move relative to the mandrel further into the preform component to form the hollow component. 2. The forming tool according to claim 1 , wherein the mandrel has an external contour configured to correspond to an internal contour of the hollow component. 3. The forming tool according to claim 1 , wherein the mandrel has an inclined face, and the auxiliary mandrel is configured to slide across the inclined face. 4. The forming tool according to claim 3 , wherein the inclined face runs at an angle of 10 to 50 degrees, in relation to a press stroke direction of the upper tool in which the upper tool is configured to be lowered or lifted. 5. The forming tool according to claim 3 , wherein the inclined face runs at an angle of 10 to 40 degrees, in relation to a press stroke direction of the upper tool in which the upper tool is configured to be lowered or lifted. 6. The forming tool according to claim 1 , wherein the spring-elastic actuator is a gas pressure spring. 7. The forming tool according to claim 1 , wherein the auxiliary mandrel is at least partially disposed in an opening of the mandrel. 8. The forming tool according to claim 1 , wherein the auxiliary mandrel is coupled to the spring-elastic actuator by a coupling mechanism. 9. The forming tool according to claim 1 , wherein the mandrel in a resting position at which the mandrel is not moved into the preform component is mounted so as to project in relation to the auxiliary mandrel. 10. A forming tool for producing a hollow component by sheet-metal forming, the forming tool comprising: an upper tool and a lower tool; an auxiliary mandrel; and an auxiliary spring-elastic actuator, wherein the auxiliary mandrel is coupled to the upper tool by the auxiliary spring-elastic actuator, when the upper tool is being lowered toward the lower tool, the auxiliary mandrel is configured to move into a preform component having a U-shaped cross section to bear on an internal surface of the preform component, when the upper tool is being further lowered toward the lower tool, the auxiliary spring-elastic actuator is configured to be compressed, the upper tool is openable, and when the upper tool is being opened, the auxiliary mandrel is configured to move out of the formed hollow component, the upper tool is configured to be further lifted to cause the auxiliary mandrel to be conjointly lifted with the upper tool, and the auxiliary spring-elastic actuator is configured to be decompressed when the auxiliary mandrel is moved fully out of the formed hollow component. 11. The forming tool according to claim 10 , further comprising a tool receptacle and a counter bearing, wherein the auxiliary mandrel is movable in a relative manner in the tool receptacle, the tool receptacle is coupled and moveable in a relative manner to the upper tool while incorporating the auxiliary spring-elastic actuator, and when the upper tool is being lowered to bear on the counter bearing, the counter bearing comes to bear on the tool receptacle before the upper tool reaches a lower dead center thereof. 12. The forming tool according to claim 10 , further comprising a mandrel and a spring-elastic actuator, wherein the auxiliary mandrel is repositionable relative to the mandrel, the mandrel is coupled to the upper tool by the spring-elastic actuator, when the upper tool is being lowered toward the lower tool, the mandrel is configured to move into the preform component to bear on the internal surface of the preform component. 13. A method of producing a hollow component by a U-to-O forming tool, the method comprising: providing a sheet-metal blank; preforming the sheet-metal blank into a preform component having a U-shaped cross section; placing the preform component in the forming tool, the forming tool including an upper tool and a lower tool, a spring-elastic actuator and an auxiliary spring elastic actuator, and a mandrel and an auxiliary mandrel repositionable relative to the mandrel, wherein the mandrel and the auxiliary mandrel are coupled to the upper tool by the spring-elastic actuator and the auxiliary spring-elastic actuator, respectively, lowering the upper tool toward the lower tool to move the mandrel into the preform component to bear on an internal surface of the preform component; and then further lowering the upper tool toward the lower tool to compress the auxiliary spring-elastic actuator and cause the auxiliary mandrel to move relative to the mandrel further into the preform component to form the hollow component. 14. The method according to claim 13 , wherein the auxiliary mandrel is moved into the preform component from an end of the preform component in a movement direction, and an angle between at least a part of the movement direction and a press stroke direction of the upper tool in which the upper tool is lowered or lifted is more than 1 degree. 15. The method according to claim 13 , further comprising opening the forming tool after forming the hollow component, wherein the auxiliary mandrel is moved into the preform component from an end of the preform component in a movement direction, and when the forming tool is being opened, the auxiliary mandrel is moved out in an opposite movement direction from the end of the preform component, and the mandrel is then lifted by the auxiliary spring-elastic actuator in a press stroke direction of the upper tool in which the upper tool is lowered or lifted. 16. The method according to claim 13 , wherein the auxiliary mandrel is moved into the preform component from an end of the preform component in a movement direction, and an angle between at least a part of the movement direction and a press stroke direction of the upper tool in which the upper tool is lowered or lifted is more than 10 degrees. 17. The method according to claim 13 , wherein the auxiliary mandrel is moved into the preform component from an end of the preform component in a movement direction, and an angle between at least a part of the movement direction and a press stroke direction of the upper tool in which the upper tool is lowered or lifted is more than 20 degrees.