Reduced iron production method

The invention claimed is: 1. A method for producing reduced iron, the method comprising: successively charging a plurality of reduced-iron raw materials each containing a carbonaceous reducing agent and an iron oxide into a reduction-melting furnace having a hearth that travels in a horizontal direction and a hearth covering material formed of powder laid on the hearth and letting the reduced-iron raw materials fall onto the hearth covering material to set the reduced-iron raw materials on the hearth covering material; and successively reducing each of the reduced-iron raw materials on the hearth covering material along with travel of the hearth to thereby produce reduced iron and discharging the reduced iron produced to outside of the reduction-melting furnace, wherein the hearth covering material is constituted by carbon materials each having a particle diameter of 5 mm or less, wherein at least 7 mass % of the carbon materials have respective particle diameters each being 0.1 mm or less, wherein the reduced-iron raw materials are spherical, wherein the successively charging comprises ejecting the reduced-iron raw materials downward from a lower surface of a ceiling located above the hearth and letting the reduced-iron raw materials fall onto the hearth covering material while giving a horizontal velocity, which is in the same direction as a travel direction of the hearth and greater than a moving speed of the hearth, to the reduced-iron raw materials to thereby roll the reduced-iron raw materials on the hearth covering material in a direction of the horizontal velocity, wherein the successively charging comprises letting the reduced-iron raw material fall on the heath along a slope surface formed internally of the ceiling, and wherein the slope surface has an inclination angle of from 36° to 60° with respect to ceiling. 2. The method of claim 1 , further comprising, prior to the successively charging: preparing the hearth covering material by adding fine-particle carbon materials each having particle diameters of 0.1 mm or less to carbon materials each having a particle diameter of 5 mm or less. 3. The method of claim 1 , wherein the carbon materials are anthracite or coke. 4. The method of claim 1 , wherein the reduced-iron raw materials fall onto the hearth covering material at a horizontal velocity corresponding to an inclination angle of a slope surface formed internally of the ceiling in addition to a downward velocity due to gravity. 5. The method of claim 1 , wherein the slope surface is a curved surface as viewed from sides of the reduction-melting furnace.