Plasma device for production of metal powder

The invention claimed is: 1. A plasma device for production of metal powder, comprising: a reaction vessel to which a metal starting material is supplied; a plasma torch which produces plasma between the plasma torch and the metal starting material in the reaction vessel so as to evaporate the metal starting material and produce a metal vapor; a carrier gas supply unit which supplies into the reaction vessel a carrier gas for carrying the metal vapor; and a cooling tube which cools the metal vapor transferred from the reaction vessel with the carrier gas so as to produce the metal powder, wherein the cooling tube is provided with: an indirect cooling section where the metal vapor transferred from the reaction vessel with the carrier gas and/or the metal powder are indirectly cooled; and a direct cooling section where the metal vapor and/or the metal powder are directly cooled, the direct cooling section being continuous with the indirect cooling section, and at least on a part of an inner wall of the indirect cooling section, a projection and/or a recess are disposed. 2. The plasma device for production of metal powder according to claim 1 , wherein the projection and/or the recess are disposed on the inner wall on an upstream side from a position where a metal nucleus starts to be precipitated in the indirect cooling section. 3. The plasma device for production of metal powder according to claim 1 , wherein a plurality of the projections and/or a plurality of the recesses are disposed on the inner wall in the indirect cooling section. 4. The plasma device for production of metal powder according to claim 3 , wherein the plurality of the projections and/or the plurality of the recesses are disposed on the inner wall in the indirect cooling section spirally in a longitudinal direction of the cooling tube. 5. The plasma device for production of metal powder according to claim 1 , wherein the indirect cooling section is a section where the metal vapor and/or the metal powder are cooled by cooling a periphery of the cooling tube with a cooling fluid without making the cooling fluid directly contact the metal vapor and/or the metal powder, and the direct cooling section is a section where the metal vapor and/or the metal powder are cooled by making a cooling fluid directly contact the metal vapor and/or the metal powder. 6. A method for producing metal powder, comprising the steps of: supplying the metal starting material to the reaction vessel of the plasma device for production of metal powder according to claim 1 ; producing the plasma between the plasma torch and the metal starting material in the reaction vessel so as to evaporate the metal starting material and produce the metal vapor; and indirectly cooling the metal vapor transferred from the reaction vessel with the carrier gas and/or the metal powder in the indirect cooling section of the cooling tube and thereafter directly cooling the metal vapor and/or the metal powder in the direct cooling section of the cooling tube, wherein in the step of cooling, a mixed gas composed of the carrier gas and the metal vapor is stirred with the existence of the projection and/or the recess, which are disposed at least on the part of the inner wall of the indirect cooling section.