Casting delivery nozzle

What is claimed is: 1. A method of continuously casting metal strip comprising: (a) assembling a pair of casting rolls laterally disposed to form a nip between them and adapted to maintain a casting pool of molten metal supported by the casting rolls adjacent side dams, (b) assembling an elongated metal delivery nozzle extending along and above the nip, the delivery nozzle having: at least one segment having a main portion, the main portion having a plurality of outlets direct converging downwardly toward the nip adapted to deliver molten metal in the casting pool longitudinally along the metal delivery nozzle directed downwardly toward the nip; and, a restrictive baffle positioned above the outlets adapted to alter the velocity of the molten metal flowing through the main portion of the delivery nozzle and tapered sidewalls and/or passages below the baffle enabling molten metal to flow below the baffle to converge toward the nip, (c) introducing molten metal from a metal delivery system through the elongated metal delivery nozzle downwardly toward the nip forming a casting pool of molten metal supported on the casting rolls above the nip, and (d) counter-rotating the casting rolls so as to form shells on the casting surfaces of the casting rolls brought together at the nip to cast metal strip downwardly from the nip. 2. The method of continuously casting metal strip as claimed in claim 1 where the elongated metal delivery nozzle further comprises an end portion adjacent side dams having a reservoir portion having at least one pair of passages adapted to deliver molten metal into a molten metal pool adjacent the side dams to converge below the reservoir portion. 3. The method of continuously casting steel strip as claimed in claim 2 where the plurality of outlets of the main portion of the elongated metal delivery nozzle are a pair of rows of outlets disposed longitudinally along the elongated metal delivery nozzle directed downwardly toward the nip such that the directions of flow of the pair of outlets converge below the main portion. 4. The method of continuously casting metal strip as claimed in claim 2 where the reservoir portion in the end portion of each segment has laterally extending weir adapted to allow molten metal to flow over the weirs between the reservoir portion and the main portion. 5. The method of continuously casting metal strip as claimed in claim 2 where the main portion extends beneath the reservoir portion into the end portion of each segment. 6. The method of continuously casting metal strip as claimed in claim 2 where outlets of each passage of the at least one pair of passages in the reservoir portion are positioned between 40 and 160 millimeters apart. 7. An method of continuously casting metal strip as claimed in claim 2 where the angle of convergence of the at least one pair of passages is between 5 and 60 degrees substantially centered about a vertical centerline through the elongated metal delivery nozzle. 8. The method of continuously casting steel strip as claimed in claim 2 , where the plurality of outlets is at least one channel extending longitudinally along each segment. 9. The method of continuously casting steel strip as claimed in claim 8 , where the channel has substantially parallel sides. 10. The method of continuously casting steel strip as claimed in claim 8 , where the channel has tapered sides. 11. The method of continuously casting steel strip as claimed in claim 8 , where the main portion has one or more passages above the channel, adapted to deliver molten metal to the channel. 12. The method of continuously casting steel strip as claimed in claim 11 , where a bottom portion of the main portion is tapered toward the one or more passages. 13. The method of continuously casting steel strip as claimed in claim 11 , where the one or more passages are below the restrictive baffle. 14. The method of continuously casting metal strip as claimed in claim 1 where the restrictive baffle is adapted to cause the molten metal to flow laterally within the main portion of the delivery nozzle. 15. The method of continuously casting metal strip as claimed in claim 1 where the restrictive baffle is adapted to reduce the velocity of the molten metal flowing through the main portion of the delivery nozzle. 16. The method of continuously casting metal strip as claimed in claim 1 where the restrictive baffle is adapted such that a pool of molten metal is formed in the main portion of the delivery nozzle above the baffle. 17. The method of continuously casting steel strip as claimed in claim 1 where the elongated delivery nozzle has segments positioned end to end adapted to deliver molten metal in the casting pool along the metal delivery nozzle directed downwardly toward the nip. 18. The method of continuously casting steel strip as claimed in claim 1 where the plurality of outlets of the main portion of the elongated metal delivery nozzle are one or more pairs of rows of outlets disposed longitudinally along the elongated metal delivery nozzle directed downwardly toward the nip such that the directions of flow of the pair of outlets converge below the main portion. 19. The method of continuously casting steel strip as claimed in claim 18 , where the at least one pair of outlets are angled such that their directions of flow converge below the reservoir portion. 20. The method of continuously casting steel strip as claimed in claim 19 where the angle of convergence of the outlets is between 5 and 60 degrees substantially centered about a vertical centerline through the elongated delivery nozzle. 21. The method of continuously casting steel strip as claimed in claim 1 , where a bottom portion of the main portion is tapered toward the plurality of outlets. 22. The method of continuously casting steel strip as claimed in claim 1 , where the restrictive baffle is removable. 23. The method of continuously casting steel strip as claimed in claim 1 , where the restrictive baffle comprises passages adapted to allow molten metal to flow through the passages. 24. An apparatus for continuously casting metal strip comprising: (a) a pair of casting rolls laterally disposed to form a nip between them and adapted to maintain a casting pool of molten metal supported by the casting rolls between side dams and adapted to counter rotate to form shells on the casting rolls brought together at the nip to cast metal strip downwardly from the nip, (b) an elongated metal delivery nozzle extending along and above the nip, the delivery nozzle having: at least one segment having a main portion, the main portion having a plurality of outlets direct converging downwardly toward the nip positioned along the delivery nozzle adapted to deliver molten metal in the casting pool longitudinally along the metal delivery nozzle directed downwardly toward the nip; and, a restrictive baffle positioned above the outlets adapted to alter the velocity of the molten metal flowing through the delivery nozzle and tapered sidewalls and/or passages below the baffle enabling molten metal to flow below the baffle to converge toward the nip, and (c) a metal delivery system adapted to introduce molten metal through the segments of the elongated metal delivery nozzle downwardly toward the nip forming the casting pool of molten metal supported on the casting rolls above the nip, and forming cast strip downwardly from the nip. 25.