Segmented core and method for molding an impeller

The invention claimed is: 1. A method for molding an impeller the method comprising the steps of: providing a molding tool; providing a core comprising at least three identical segments, which each comprise connection means for connecting the segments with the adjacent segments, wherein the at least three identical segments are directly connected to each adjacent segment; assembling of the core and placing the core in the molding tool; molding the impeller; ejecting core and impeller out of the molding tool; removing the core from the impeller. 2. The method according to claim 1 , wherein after the molding process the core is chemically and/or thermally removed. 3. The method according to claim 1 , wherein the core segments are made by injection molding by molding a thermoplastic polymer or a tin/bismuth alloy. 4. The method according to claim 1 , wherein the impeller is made by metal injection molding. 5. The method according to claim 4 , wherein the impeller is baked-out, and sintered, after removing the core. 6. The method according to claim 1 , wherein the impeller is made by plastic injection molding and the impeller is finished after removing of the core and after plastic injection molding. 7. The method according to claim 1 , wherein each of the at least three identical segments has an upper surface and a lower surface, each of the upper surface and the lower surface extending continuously, without interruption, from one end of one of the at least three identical segments to another end of the one of the at least three identical segments. 8. A method for molding an impeller the method comprising the steps of: providing a molding tool; providing a core comprising at least three identical segments, which each comprise connection means for connecting the segment with the adjacent segments, wherein the at least three identical segments are directly connected together only by the connection means; assembling the core and placing the core in the molding tool; molding the impeller; removing the core and the impeller from the molding tool; removing the core from the impeller. 9. The method according to claim 8 , wherein after the molding process the core is chemically and/or thermally removed. 10. The method according to claim 8 , wherein the core segments are made by injection molding by molding a thermoplastic polymer or a tin/bismuth alloy. 11. The method according to claim 8 , wherein the impeller is made by metal injection molding. 12. The method according to claim 11 , wherein the impeller is baked-out, and sintered, after removing the core. 13. The method according to claim 8 , wherein the impeller is made by plastic injection molding and the impeller is finished after removing of the core and after plastic injection molding. 14. The method according to claim 8 , wherein each of the at least three identical segments has an upper surface and a lower surface, each of the upper surface and the lower surface extending continuously, without interruption, from one end of one of the at least three identical segments to another end of the one of the at least three identical segments. 15. A method for molding an impeller the method comprising the steps of: providing a molding tool; providing a core comprising at least a first core segment, a second core segment and a third core segment, the first core segment, the second core segment and the third core segment being identical to each other, the first core segment comprising a first core segment upper surface and a first core segment lower surface located opposite the first core segment upper surface, the first core segment upper surface and the first core segment lower surface extending continuously, without interruption, from one end of the first core segment to another end of the first core segment, the second core segment comprising a second core segment upper surface and a second core segment lower surface located opposite the second core segment upper surface, the second core segment upper surface and the second core segment lower surface extending continuously, without interruption, from one end of the second core segment to another end of the second core segment, the third core segment comprising a third core segment upper surface and a third core segment lower surface located opposite the third core segment upper surface, the third core segment upper surface and the third core segment lower surface extending continuously, without interruption, from one end of the third core segment to another end of the third core segment; wherein each of the first core segment, the second core segment and the third core segment comprises a connection means, wherein each of the first core segment, the second core segment and the third core segment is connected to an adjacent core segment exclusively by the connection means; assembling the core and placing the core in the molding tool; molding the impeller; removing the core and impeller from the molding tool; removing the core from the impeller. 16. The method according to claim 15 , wherein the first core segment comprises a first core segment first connection means and a first core segment second connection means, the second core segment comprising a second core segment first connection means and a second core segment second connection means, the third core segment comprising a third core segment first connection means and a third core segment second connection means, wherein the first core segment, the second core segment and the third core segment are connected to each other exclusively by the first core segment first connection means, the first core segment second connection means, the second core segment first connection means, the second core segment second connection means, the third core segment first connection means and the third core segment second connection means. 17. The method according to claim 15 , wherein after the molding process the core is chemically and/or thermally removed. 18. The method according to claim 15 , wherein the core segments are made by injection molding by molding a thermoplastic polymer or a tin/bismuth alloy. 19. The method according to claim 15 , wherein the impeller is made by plastic injection molding and the impeller is finished after removing of the core and after plastic injection molding.