Furnace, refractory installing method, and refractory block

The invention claimed is: 1. A refractory installing method for lining refractories with an inside surface of a steel shell of a cylindrical furnace, where a refractory includes hexagonal cone trapezoid refractory blocks and half-blocks that have a shape obtained by dividing the refractory blocks, the method comprising: using a refractory block which includes a hot-face end surface which has a hexagonal shape and a cold-face end surface which has a hexagonal shape larger than the hot-face end surface, and the refractory blocks are formed such that two surfaces among the six surfaces present at a barrel portion surface are trapezoid shapes that expand from the hot-face end surface toward the cold-face end surface and the facing surfaces are parallel; using half-blocks which include a block shape made by cutting the refractory blocks so that the hot-face end surface and the cold-face end surface are each equally divided into two trapezoids at surfaces that are parallel to the two trapezoid surfaces of the barrel portion surface; including, in the refractory block, a block arrangement jig having a metallic plate that is provided on only the hot-face end surface of the refractory block and directly fixed to the hot-face end surface of the refractory block by both an adhesive and a bolt, and a metallic grip that is provided on a surface of the metallic plate and extends from a substantially center portion of the surface of the metallic plate to an inside in the radial direction of the furnace, the metallic grip being straight shaped; arraying a plurality of the refractory blocks such that each position of the hot-face end surface is positioned along the radial direction of the furnace is aligned with a predetermined reference position; stacking the plurality of refractory blocks along the circumferential direction of the steel shell inner surface and the trapezoid face of the barrel portion surface faces a direction perpendicular to the axial direction of the cylindrical body of a furnace in a honeycomb manner; and arraying, at the bottom portion of the steel shell of the cylindrical furnace when stacking, a plurality of half-blocks at predetermined intervals along a circumferential direction such that the end surface shape form a trapezoid in which the lower base is longer than the upper base, disposing the refractory blocks so as to fit between half-blocks, stacking the refractory blocks in a honeycomb manner, and at the top of the steel shell of the cylindrical furnace, arraying in plurality half-blocks so as to form a trapezoid in which the end surface shape is longer at the upper base than the lower base, wherein before the arraying and the stacking, the metallic plate of the block arrangement jig is directly fixed to the hot-face end surface of the refractory block, the block arrangement jig and the refractory block are fixed together, and the whole cold-face end surface of the refractory block is exposed, and in the arraying and the stacking, the refractory blocks to which the block arrangement jig is fixed in a cantilever manner are lifted and installed by grasping the metallic grip.