Method for operating a premix burner, and a premix burner for carving out the method

The invention claimed is: 1. A method for operating a premix burner for gas turbines, comprising: injecting a gas-air mixture into a flame chamber as main fuel via a swirler and a quantity of main nozzles; injecting a first partial stream of a diffusion fuel centrally into the flame chamber radially inside the swirler by a quantity of first nozzles having a first orientation at an inclination to a longitudinal axis of the premix burner and arranged in a burner bottom radially between the longitudinal axis of the premix burner and the swirler and configured as one of a bore, a groove, and a longitudinal slit; and injecting a second partial stream of the diffusion fuel centrally into the flame chamber radially inside the swirler by a quantity of second nozzles having a second orientation arranged in the burner bottom parallel to the longitudinal axis of the premix burner and radially between the quantity of first nozzles and the swirler and configured as one of a bore, a groove, and a longitudinal slit, wherein the first orientation and the second orientation are different, and wherein the premix burner comprises twice as many second nozzles as first nozzles. 2. The method according to claim 1 , wherein the second partial stream is injected substantially transverse to a flow direction of the main fuel flow in the flame chamber, and the first partial stream is injected substantially in the flow direction of the main fuel flow. 3. The method according to claim 2 , wherein the main fuel is injected radially. 4. The method according to claim 3 , wherein a gas-air ratio of the main fuel is controlled by an air supply. 5. The method according to claim 1 , wherein a gas-air ratio of the main fuel is controlled by an air supply. 6. A premix burner for gas turbines comprising: a flame chamber having a burner bottom; a main injector having a number of main nozzles and configured to inject a gas-air mixture as a main fuel into the flame chamber as a main fuel flow; a swirler configured to swirl the main fuel; and a central pilot gas system arranged in the burner bottom radially inside the swirler for injecting a diffusion fuel, comprising: a plurality of inclined diffusion nozzles each arranged in the burner bottom radially between a longitudinal axis of the premix burner and the swirler and configured to inject a first partial stream of diffusion fuel at an inclination to the longitudinal axis of the premix burner; and a plurality of axial diffusion nozzles each arranged in the burner bottom radially between the plurality of inclined diffusion nozzles and the swirler and configured to inject a second partial stream of the diffusion fuel parallel to the longitudinal axis of the premix burner and transverse to the main fuel flow in the flame chamber; and, wherein the plurality of axial diffusion nozzles and the plurality of inclined diffusion nozzles have different orientations, wherein each of the axial and inclined diffusion nozzle is configured as at least one of a bore, a groove, and a longitudinal slit, and wherein there are twice as many axial diffusion nozzles as inclined diffusion nozzles. 7. The premix burner according to claim 6 , wherein each of the plurality of inclined diffusion nozzles is inclined with respect to the flow direction of the main fuel flow. 8. The premix burner according to claim 7 , wherein: the plurality of axial diffusion nozzles are a plurality of radially outer axial diffusion nozzles; and the plurality of inclined diffusion nozzles are a plurality of radially inner inclined diffusion nozzles, the plurality of inner nozzles inclined with respect to the flow direction of the main fuel flow. 9. The premix burner according to claim 8 , wherein the plurality of axial diffusion nozzles and the plurality of inclined diffusion nozzles are arranged in two concentric circles whose common center lies on the longitudinal axis of the premix burner. 10. The premix burner according to claim 9 , wherein the plurality of axial diffusion nozzles have a different geometry than the plurality of inclined diffusion nozzles. 11. The premix burner according to claim 6 , wherein at least one axial diffusion nozzle of the plurality of axial diffusion nozzles has a different geometry than at least one inclined diffusion nozzle of the plurality of inclined diffusion nozzles. 12. The premix burner according to claim 11 , wherein the at least one axial diffusion nozzle and the at least one inclined diffusion nozzle are configured as bore holes. 13. The premix burner according to claim 6 , wherein the flame chamber is radially defined in a vicinity of the burner bottom by the swirler and by a cylindrical flame tube. 14. The premix burner according to claim 6 , wherein the number of main nozzles corresponds to a quantity of first nozzles.