Electric furnace and method for producing valuable metal

1 . An electric furnace for heating and melting a raw material containing a valuable metal, comprising: a furnace body, and a plurality of electrodes provided so as to hang down from a top section of the furnace body to an interior thereof, the electric furnace heating and melting the raw material in the furnace body by applying an electric current to the electrodes to generate a molten material consisting of slag and metal, the electric furnace being made so that an overall heat transfer coefficient of a side wall of the furnace body which is to come into contact with a layer of the metal formed in a lower layer in gravity separation of the molten material obtained is lower than an overall heat transfer coefficient of a side wall of the furnace body which is to come into contact with a layer of the slag formed in an upper layer of the gravity separation of the molten material. 2 . The electric furnace according to claim 1 , wherein a metal hole to discharge the metal is provided on a side wall of the furnace body corresponding to a position where the layer of the metal is formed, and the electric furnace is made so that an overall heat transfer coefficient of a side wall of the furnace body below an upper end of the metal hole is lower than an overall heat transfer coefficient of a side wall of the furnace body above the upper end of the metal hole. 3 . The electric furnace according to claim 1 , wherein the side wall of the furnace body comprises at least an iron shell, a first refractory layer formed by an unshaped refractory or a shaped refractory, and a second refractory layer formed by a shaped refractory in order from outside thereof. 4 . The electric furnace according to claim 1 , wherein the electric furnace is used for producing a valuable metal from a raw material comprising waste lithium ion batteries. 5 . A method for producing from a raw material containing a valuable metal comprising copper (Cu) the valuable metal, comprising: a reduction melting step of charging the raw material into a melting furnace and performing a reduction melting treatment of the raw material to obtain a molten material comprising slag and metal containing the valuable metal, the electric furnace according to claim 1 being used as the melting furnace. 6 . The method for producing a valuable metal according to claim 5 , wherein, in the molten material obtained by the reduction melting treatment in the reduction melting step, a value obtained by dividing a thickness of a layer of the slag formed in an upper layer in the gravity separation of the molten material by a thickness of a layer of the metal formed in a lower layer in the gravity separation is 1 or more. 7 . The method for producing a valuable metal according to claim 5 , wherein the raw material comprises waste lithium ion batteries. 8 . The method for producing a valuable metal according to claim 5 , wherein the metal obtained after the reduction melting step contains 30 mass % or more of copper. 9 . The method for producing a valuable metal according to claim 5 , wherein in the reduction melting step, the reduction melting treatment is performed so that a metal temperature is 1300° C. or higher and 1400° C. or lower and a slag temperature is 1500° C. or higher and 1600° C. or lower.