Electric furnace equipment and method for manufacturing molten metal

1 . Electric furnace equipment comprising: a body part having an inner space capable of processing a raw material; an electrode part installed to be inserted into the inner space of the body part; an input part installed in the body part to be capable of inputting the raw material to the inner space of the body part; a photographing part installed in the body part to be capable of photographing an area around the electrode part in the inner space of the body part; and an input control part which detects a spacing distance (D m ) between the electrode part and a raw material pile generated by the raw material piled around the electrode part by using a photograph image acquired by the photographing part and controls an input of the raw material input to the body part from the input part according to the detected spacing distance (D m ). 2 . The electric furnace equipment of claim 1 , further comprising a supply part configured to supply the raw material to the input part and connected to the input part to, adjust an amount of raw material supplied to the input part, wherein the input control part is configured to control an operation of the supply part according to the detected spacing distance (D m ). 3 . The electric furnace equipment of 1 , wherein the input control part is configured to control the input of the raw material input to the body part according to the spacing distance (D m ) between the pile of the raw material piled around the electrode part and the electrode part and controls the input of the raw material input closer to an inner wall of the body part than the electrode part using data different from the spacing distance (D m ). 4 . The electric furnace equipment of claim 3 , wherein the body part comprises: a furnace body having the inner space; and a cover configured to cover an upper portion of the furnace body, wherein the electrode part and the input part are installed to pass through the cover in a vertical direction, and the photographing part is installed to a sidewall of the furnace body, to photograph the inner space of the body part. 5 . The electric furnace equipment of claim 4 , wherein a hole, which passes through the sidewall of the furnace in a thickness direction, is defined, the photographing part is installed to be inserted to the hole, a transmissive window is installed to one end of the hole facing the inner surface of the furnace body, and the photographing part is installed to face the window. 6 . The electric furnace equipment of claim 4 , wherein the photographing part is installed to be inclined so that a height thereof decreases toward one end facing the inner space. 7 . The electric furnace equipment of claim 4 , wherein the input part comprises: a first input part installed to be disposed around the electrode part; and a second input part installed outside the first input part to be farther from the electrode part than the first input part, wherein the photographing part is installed to acquire the photograph image comprising a first raw material pile, which is generated by inputting the raw material input from the first input part inside the body part, and the electrode part. 8 . The electric furnace equipment of claim 7 , wherein the supply part comprises: a first supply part configured to supply the raw material to the first input part; and a second supply part configured to supply the raw material to the second input part, wherein the input control part comprises: a first input control part configured to detect the spacing distance (D m ) between the electrode and the first raw material pile by using the photograph image, thereby controlling an operation of the first supply part by using the detected spacing distance (D m ); and a second input control part configured to control an operation of the second supply part. 9 . The electric furnace equipment of claim 8 , wherein the first input control part comprises: an identification image generator configured to identify the electrode part and the first raw material pile in the photograph image to generate an identification image in which the electrode part and the first raw material pile, which are identified, are distinguished from each other; a distance detector configured to detect the spacing distance (D m ) between the electrode part and the first raw material pile by using the identification image; and a first input controller configured to control the operation of the first supply part based on the spacing distance (D m ) detected by the distance detector, wherein the first input controller is determined to determine a method of inputting the raw material from the first input part as one of maintenance, increase and decrease of the input amount, or stopping of the input, by using the detected spacing distance (D m ) and a preset reference spacing distance. 10 . The electric furnace equipment of claim 9 , further comprising a first sensor unit disposed at one side of the first input part to detect the spacing distance between the first raw material pile and the cover, wherein the first input control part comprises a first height detector configured to detect a height (H cm ) of the first raw material pile by using the spacing distance between the first raw material pile and the cover, which is detected by the first sensor unit, and the first input controller is configured to determine the input amount of raw material to be input through the first input part by using the height (H cm ) of the first raw material pile, when the input method from the first input part is determined as one of the increase and decrease of the input amount. 11 . The electric furnace equipment of claim 9 , wherein the first input control part comprises a second height detector configured to detect a height (H cm ) of the first raw material by using the identification image, and the first input controller is configured to determine the input amount of raw material to be input through the first input part by using the height (H cm ) of the first raw material pile, when the input method from the first input part is determined as one of the increase and decrease of the input amount. 12 . The electric furnace equipment of claim 9 , wherein the first input controller is configured to determine the input amount of raw material to be input through the first input part by using a difference between the detected spacing distance (D m ) and the reference spacing distance, when the input method from the first input part is determined as one of the increase and decrease of the input amount. 13 . The electric furnace equipment of claim 8 , further comprising a second sensor unit disposed at one side of the second input part to detect a spacing distance between a second raw material pile, which is generated by the raw material input from the second input part inside the body part, and the cover, wherein the second input control part comprises: a third height detector configured to detect a height (H sm ) of the second raw material pile by using the spacing distance between the second raw material pile and the cover, which is detected by the second sensor unit; and a second input controller configured to control an operation of the second supply part, thereby controlling at least one of whether to input the raw material from the second input part or the input amount of raw material, based on the detected height (H sm ) of the second raw material pile. 14 . A method of manufacturing molten metal, the method comprising: inputting a raw material to an electric furnace; supplying power to an electrode part disposed in the electric furn