Percussion drilling device

The invention claimed is: 1. A percussion drilling device for drilling in earth, comprising: at least one housing section for a main piston; and a ring insert arranged in the housing section in front of the main piston, and attached to the housing section by a shrink-fit connection, wherein the ring insert is arranged one of: (1) around an adjacent end of a drilling head tip configured to be directly impacted by the main piston when the main piston is driven in the forward direction, or (2) forward of a shoulder defined at one end by an anvil end of the drilling head tip, the shoulder configured to directly impact the ring insert, wherein the ring insert is configured to transmit at least part of the energy of the main piston onto the housing section. 2. The percussion drilling device according to claim 1 , wherein: the housing section has an internal contour, wherein, when the housing section and the ring insert are at the same temperature, and the ring insert is external to the housing section, the internal contour of the housing section is smaller than an outer contour of the ring insert. 3. The percussion drilling device according to claim 1 , wherein the housing section has a circular diameter. 4. The percussion drilling device according to claim 1 , wherein the ring insert comprises an opening for the drilling head tip, and a base area defining a conically tapering, hollow space. 5. The percussion drilling device according to claim 1 , wherein the ring insert is ring-shaped. 6. The percussion drilling device according to claim 1 , wherein the ring insert is disposed at least in part in the housing section for the drilling head tip. 7. The percussion drilling device according to claim 1 , wherein the ring insert is made of a first material, and the housing section is made of a second material different from the first material. 8. The percussion drilling device according to claim 1 , wherein the ring insert is made of a heat treated material. 9. The percussion drilling device according to claim 1 , wherein the ring insert is arranged around the adjacent end of the drilling head tip configured to be directly impacted by the main piston when the main piston is driven in the forward direction. 10. The percussion drilling device according to claim 1 , wherein the ring insert is arranged forward of the shoulder defined at one end by the anvil end of the drilling head tip, the shoulder configured to directly impact the ring insert, wherein the ring insert is configured to transmit at least part of the energy of the main piston onto the housing section. 11. A method for the manufacture of a percussion drilling device for drilling in earth, comprising: inserting a ring insert in a housing section of the percussion drilling device, in front of a section for a main piston, and arranging the ring insert one of: (1) around an adjacent end of a drilling head tip configured to be directly impacted by the main piston when the main piston is driven in the forward direction, or (2) forward of a shoulder defined at one end by an anvil the end of the drilling head tip, the shoulder configured to directly impact the ring insert; and attaching the ring insert to the housing section by a shrink-fit connection, so that, responsive to forward motion of the main piston, the ring insert transmits at least part of the energy of the main piston onto the housing section. 12. The method for the manufacture of the percussion drilling device of claim 11 , wherein attaching the ring insert to the housing section by the shrink-fit connection comprises generating a temperature difference between the ring insert and the housing section effective to cause at least one of a temporary increase in an internal diameter of the housing section, or a temporary reduction in size of an outer contour of the ring insert, sufficient to permit fitting of the ring insert into the housing section. 13. The method for the manufacture of the percussion drilling device of claim 12 , wherein generating the temperature difference between the ring insert and the housing section comprises applying, to one or both of the ring insert or the housing section, heat or cold. 14. The method for the manufacture of the percussion drilling device of claim 11 , wherein the ring insert is arranged around the adjacent end of the drilling head tip configured to be directly impacted by the main piston when the main piston is driven in the forward direction. 15. The method for the manufacture of the percussion drilling device of claim 11 , wherein the ring insert is arranged forward of the shoulder defined at one end by the anvil end of the drilling head tip, the shoulder configured to directly impact the ring insert, wherein the ring insert is configured to transmit at least part of the energy of the main piston onto the housing section. 16. A percussion drilling device for drilling in earth, comprising: at least one housing section for a main piston; and a ring insert arranged in the housing section in front of the main piston, and attached to the housing section by a shrink-fit connection, wherein the ring insert is arranged one of: (1) around an end of a drilling head tip configured to be directly impacted by the main piston when the main piston is driven in the forward direction, or (2) forward of a shoulder at the end of the drilling head tip which is configured to directly impact the ring insert, wherein the ring insert is configured to transmit at least part of the energy of the main piston onto the housing section. 17. The percussion drilling device of claim 16 , wherein: the housing section has an internal contour, wherein, when the housing section and the ring insert are at the same temperature, and the ring insert is external to the housing section, the internal contour of the housing section is smaller than an outer contour of the ring insert. 18. The percussion drilling device of claim 16 , wherein the ring insert is made of a heat treated material.