Method and device for continuous thin strip casting

The invention claimed is: 1. A method for continuous thin strip casting comprising: providing molten steel by pouring the molten steel from a ladle through a long nozzle into a tundish; and heating the molten steel by heating a channel inside the tundish through which the molten steel flows to maintain the molten steel at an approximately constant temperature during the pouring, wherein a first induction heater is disposed outside of a nozzle disposed at a first side of the tundish, wherein further, the molten steel flows below a weir located at the first side of the tundish; the molten steel passes a first dam and enters the channel, the channel having a second induction heater for induction heating of the molten steel, wherein further, a temperature of the molten steel after induction heating is 30˜50° C. higher than that of the molten steel provided into the tundish; and the induction heated molten steel flows out from an outlet at a second side opposite the first side of the tundish to the nozzle for casting the induction heated molten steel. 2. The method for continuous thin strip casting according to claim 1 , wherein a distance between the first induction heater disposed outside of the nozzle and an upper port of the nozzle is approximately ½ to approximately ⅔ of the distance between an inlet and an outlet of the tundish. 3. The method for continuous thin strip casting according to claim 1 , wherein the molten steel after induction heating passes a second dam and the molten steel flows out from the outlet at the second side of the tundish for casting. 4. A tundish for continuous thin strip casting, wherein the tundish comprises a tundish inlet, a weir, a first dam, a retaining wall separating the tundish into two chambers, a tundish outlet, and a nozzle disposed proximate to the tundish outlet; wherein the retaining wall is provided inside the tundish with a channel which impenetrates two chambers; wherein the channel is surrounded by a first induction heater, the first induction heater comprising an iron core, a coil, a refractory material and a tube; and wherein a second induction heater is disposed outside of the nozzle; wherein the tundish is further configured such that, molten steel flows below the weir located at a first side of the tundish; the molten steel passes the first dam and enters the channel, where the first induction heater induction heats the molten steel, wherein further, a temperature of the molten steel after the induction heating by the first induction heater is 30˜50° C. higher than that of the molten steel provided into the tundish; and the induction heated molten steel flows out from the tundish outlet at a second side opposite the first side of the tundish to the nozzle for casting the induction heated molten steel. 5. The tundish for continuous thin strip casting according to claim 4 , wherein the tundish further comprises a second dam. 6. The tundish used for continuous thin strip casting according to claim 4 , wherein a distance between the tundish inlet and the retaining wall is approximately ½ to approximately ⅔ of a distance between the tundish inlet and the tundish outlet. 7. The tundish for continuous thin strip casting according to claim 4 , wherein a distance between the retaining wall and the tundish outlet is approximately ¼ to approximately ⅔ of a distance between the tundish inlet and the tundish outlet. 8. The tundish for continuous thin strip casting according to claim 4 , wherein a distance between the weir and the retaining wall is approximately ⅓ to approximately ⅔ of a distance between the tundish inlet and the retaining wall. 9. The tundish for continuous thin strip casting according to claim 4 , wherein a distance between the first dam and the retaining wall is approximately ¼ to approximately ½ of a distance between the tundish inlet and the retaining wall.