Apparatus for manufacturing molten metal

The invention claimed is: 1. An apparatus for manufacturing molten metal, comprising: a stationary non-tilting electric furnace capable of electric heating, an exhaust gas duct and a raw material charging chute connected to a furnace top of the furnace, a secondary combustion burner in the furnace top, and a shock generator within the furnace, wherein the raw material charging chute is in one end of the furnace in a width direction, an electric heating region is spaced from the raw material charging chute in the width direction, a material layer having a sloping surface extending downward in the width direction from the one end of the furnace having the raw material charging chute toward the electric heating region, the sloping surface supporting a metal agglomerate raw material layer, wherein the shock generator is provided at least partially within the material having the sloping surface and extends to the sloping surface, to be in contact with the metal agglomerate raw material layer, and to mechanically overcome hanging of the metal agglomerate raw material layer on the sloping surface. 2. An apparatus for manufacturing molten metal, comprising: a stationary non-tilting electric furnace capable of electric heating, an exhaust gas duct and at least two raw material charging chutes connected to a furnace top of the furnace, a secondary combustion burner in the furnace top, and a shock generator within the furnace, wherein the raw material charging chutes are in either end of the furnace in a width direction, an electric heating region in a center position of the furnace in the width direction, material layers having sloping surfaces and respectively extending downward in the width direction from a respective end of the furnace toward the electric heating region, the sloping surfaces each supporting a metal agglomerate raw material layer, wherein the shock generator is provided at least partially within the material layers having the sloping surface and extends to one of the sloping surfaces, to be in contact with the metal agglomerate raw material layer, and to mechanically overcome hanging of the metal agglomerate raw material layer on the one of the sloping surfaces. 3. An apparatus according to claim 1 or 2 , wherein the metal agglomerate raw material charged from the raw material charging chute into the furnace comprises 2 mass % or more of small grains having a size that is 90% or less of an average size of all grains of the metal agglomerate raw material, and wherein the shock generator is at a height between a lower end of the raw material charging chute and a height that is lower than the lower end of the raw material charging chute by ⅓ of a distance between the lower end of the raw material charging chute and a lower end of the material layer having the sloping surface. 4. An apparatus according to claim 1 or 2 , wherein the shock generator comprises: a shaft having a rotational axis in a longitudinal direction of the furnace and a disintegrating member protruding from a surface of the shaft. 5. The apparatus of claim 4 , wherein the shock generator is at a height higher than the surface of the molten slag layer by ⅓ of a distance between the surface of the molten slag layer and a lower end of the material layer having the sloping surface. 6. An apparatus according to claim 1 or 2 , further comprising a partition wall suspended in the furnace. 7. An apparatus according to claim 1 or 2 , wherein the furnace is capable of arc heating by an electrode. 8. An apparatus according to claim 1 , wherein said material layer having the sloping surface includes a carbonaceous material. 9. An apparatus according to claim 2 , wherein said material layers having the sloping surfaces includes a carbonaceous material.