Rotary kiln

1 . A rotary kiln, comprising: a substantially hollow cylindrical heating tube; a material feeding unit disposed on a first end of the heating tube; a material collection unit disposed on a second end of the heating tube; an inner cylinder supported at the second end of the heating tube with the inner cylinder being inserted in a central portion of the heating tube; a plurality of branch tubes disposed inside the heating tube and circumferentially on an outer circumferential surface of the inner cylinder, each of the branch tubes branching from the inner cylinder at a respective branching location proximal to the second end of the heating tube and distal to the first end of the heating tube, and each of the branch tubes extending from its respective branching location toward the first end of the heating tube in an axial direction along an inner circumferential surface of the heating tube; a hot air supply tube supported to be relatively rotatable with respect to the inner cylinder with the hot air supply tube being inserted in one end of the inner cylinder that extends outside the heating tube; and a drive mechanism rotating the heating tube. 2 . The rotary kiln according to claim 1 , further comprising: an exhaust duct, wherein the branch tubes extend outside the heating tube from a part of the heating tube on the first end, and wherein the exhaust duct disposed outside the part of the heating tube on the first end and covers an outlet of each of the branch tubes. 3 . The rotary kiln according to claim 1 , further comprising: an exhaust duct, wherein the branch tubes extend outside the heating tube at an intermediate portion of the heating tube, and wherein the exhaust duct covers an outlet of each of the branch tubes that extends outside the heating tube. 4 . The rotary kiln according to claim 3 , further comprising: a manifold disposed at a central portion of the heating tube and connected to the branch tubes; and at least one exhaust tube extending outside the heating tube from the manifold. 5 . The rotary kiln according to claim 3 , wherein the exhaust duct is an annular duct that is circumferentially continuous on the intermediate portion of the heating tube. 6 . The rotary kiln according to claim 1 , wherein each of the branch tubes is a hollow cylindrical tube. 7 . The rotary kiln according to claim 1 , wherein the inner cylinder is a hollow cylindrical tube. 8 . The rotary kiln according to claim 1 , wherein the branch tubes branch off from the inner cylinder at different positions in the length direction of the inner cylinder. 9 . The rotary kiln according to claim 1 , further comprising: a tunnel-shaped furnace body; and a heater disposed in the furnace body, wherein the heating tube penetrates the furnace body and is configured to be rotatable with respect to the furnace body. 10 . The rotary kiln according to claim 9 , wherein the branch tubes branch at a location where the heating tube enters the furnace body. 11 . The rotary kiln according to claim 1 , wherein the heating tube is configured to deliver powdery material from a part of the heating tube adjacent to the first end toward the second end in association with its circumferential rotation. 12 . The rotary kiln according to claim 1 , wherein the first end of the heating tube is arranged to be higher than the second end. 13 . The rotary kiln according to claim 12 , wherein the heating tube includes a slope extending between the first end and the second end and having an angle of slope of 0.5 degrees to 1 degree. 14 . The rotary kiln according to claim 1 , further comprising: a spiral blade disposed on the inner circumferential surface of the heating tube.