Gas mixer

The invention claimed is: 1. A gas mixer for an internal combustion engine for mixing air with at least one admix gas, comprising a first duct segment having a first tube section and a first cone section, and a second duct segment having a second tube section and a second cone section, characterized in that the first and second duct segments are stacked onto each other such that, a main gas conduit is formed by the first and second tube sections and an admix gas conduit is formed between the first cone section and the second duct segment, wherein the admix gas conduit, in a stacked state, comprises a stepped portion forming a gas chamber and a fin forming a constriction downstream of the gas chamber. 2. The gas mixer according to claim 1 , wherein the admix gas conduit is formed between the first cone section and the second tube section, preferably wherein the second tube section comprises a tapered end in the shape of a nozzle, preferably such that the admix gas conduit leads into the main gas conduit at an angle of 10-45°. 3. The gas mixer according to claim 1 , wherein the main gas conduit is configured to convey air and the admix gas conduit is configured to convey a gas to be admixed to the air, wherein in a stacked state, the admix gas conduit is fluidly connected to the main gas conduit by an annular gap. 4. The gas mixer according to claim 1 , wherein the gas mixer further comprises a further duct segment having a further tube section and a further cone section, wherein the further duct segment is stackable with the any one of the first and second duct segments such that in a stacked state, the main gas conduit is formed by the first second and further tube sections and a further admix gas conduit is formed between the second cone section and the further tube section. 5. The gas mixer according to claim 1 , wherein one, some or all of the duct segments comprise a gas inlet port. 6. The gas mixer according to claim 1 , wherein a duct segment comprises a tube section flange and a cone section flange. 7. The gas mixer according claim 6 , wherein the duct segment comprises a mid-section flange which is configured such that it is connectable with a cone section flange of another duct segment. 8. The gas mixer according to claim 1 , wherein the duct segments are substantially identical. 9. The gas mixer according to claim 1 , wherein the gas mixer comprises at least one admix gas conduit suitable for conveying a gas comprising natural gas, biogas, hydrogen, crankcase ventilation gas, exhaust gas recirculation gas or a compressor bypass gas. 10. A method for producing a gas mixer according to claim 1 , comprising the steps of: for a predetermined mass flow of a gas to be admixed to air, calculating a flow cross section; machining at least one inner surface of an admix gas conduit such that at any position, the admix gas conduit comprises at least the calculated flow cross section; stacking two duct segments to provide the gas mixer. 11. The method according to claim 10 , wherein the step of machining comprises rolling, curving, cutting, grinding, turning, milling, drilling and surface finishing. 12. The method according to claim 10 , wherein the step of stacking comprises stacking a further duct segment to the two duct segments to provide a gas mixer with a further gas to be admixed to air. 13. The method according to claim 10 , wherein the step of stacking further comprises placing a spacer in between two adjacent duct segments. 14. The method according to claim 10 , wherein the step of stacking further comprises fastening two stacked duct segments at their flanges by means of screws or by welding two stacked duct segments to one another. 15. A duct segment for being used in a gas mixer for an internal combustion engine for mixing air with at least one admix gas, comprising a tube section and a cone section.