Powder manufacturing apparatus and powder forming method

The invention claimed is: 1. A powder manufacturing apparatus comprising: a molten steel chamber supplying molten steel; and a cooling fluid ejector disposed below the molten steel chamber and ejecting water to the molten steel supplied from the molten steel chamber to atomize the molten steel, wherein the cooling fluid ejector comprises: a guide comprising a truncated cone part pointed downward so that the molten steel flowing downward from the molten steel chamber passes through a center region of the truncated cone part to form a first stream to cool and atomize the molten steel and a second stream to create a descending air current for the molten steel; and a jet nozzle pointed toward an outer surface of the truncated cone part so that the water is ejected toward the outer surface of the truncated cone part, wherein the truncated cone part has a spiral on the outer surface of the truncated cone part to induce the second stream which swirls downward around the molten steel flowing downward, and wherein the spiral induces the descending air current at a point at which extension lines drawn from a slope of the truncated cone part intersect each other. 2. The powder manufacturing apparatus of claim 1 , wherein the spiral is a groove in a surface of the guide. 3. The powder manufacturing apparatus of claim 1 , wherein a plurality of spirals are symmetrically arranged on the guide. 4. The powder manufacturing apparatus of claim 1 , wherein the cooling fluid ejector is configured so that the first stream flows at a rate greater than a rate at which the second stream flows. 5. The powder manufacturing apparatus of claim 1 , wherein the jet nozzle is a straight jet nozzle. 6. The powder manufacturing apparatus of claim 5 , wherein the jet nozzle is located above the truncated cone part of the guide, and an angle between the jet nozzle and a vertical line is greater than an angle between a slope of the truncated cone part and the vertical line.