Nozzle unit and coating apparatus including the same

What is claimed is: 1. A coating apparatus comprising: a support unit configured to support a coating object; and a spray assembly configured to spray a fluid which includes a coating material to be coated by the coating object supported on the support unit, wherein the spray assembly comprises, a nozzle unit where the fluid is sprayed, and a fluid supply unit configured to supply the fluid to the nozzle unit, wherein the nozzle unit comprises, a body including a passageway for the fluid therein and a dielectric unit provided with a dielectric material, and a plasma source for generating plasma from the fluid which flows to an area adjacent to an inner lateral surface of the dielectric unit, wherein the plasma source comprises, a power electrode configured to apply a power, and a ground electrode configured to be grounded, wherein the power electrode and the ground electrode are mounted on the dielectric unit, wherein the power electrode surrounds a center shaft of the body and is in a helical shape having a plurality of turns arranged along a lengthwise direction of the body, wherein the ground electrode surrounds the center shaft of the body and is in a helical shape having a plurality of turns arranged along the lengthwise direction of the body, and wherein each of the turns of the power electrode and the turns of the ground electrode are departed from each other, when viewed from a lateral side. 2. The coating apparatus of claim 1 , wherein the power electrode and the ground electrode are placed apart from each other in the dielectric unit. 3. The coating apparatus of claim 1 , wherein the turn of the power electrode is provided closer to a turn which is closer to a spray hole where the fluid of the body is sprayed among the turns of the ground electrode. 4. The coating apparatus of claim 3 , wherein each distance between the turns close to each other of the power electrode is the same, and each distance between the turns close to each other of the ground electrode is the same. 5. The coating apparatus of claim 4 , wherein the distance between the turns close to each other of the power electrode and the distance between the turns close to each other of the ground electrode are the same. 6. The coating apparatus of claim 1 , wherein the power electrode is placed such that an outer lateral surface of the power electrode is further apart from the inner lateral surface of the dielectric unit with respect to a center shaft of the body. 7. The coating apparatus of claim 1 , wherein the power electrode is provided to the inner lateral surface of the dielectric unit, and the ground electrode is provided to an outer lateral surface of the dielectric unit. 8. The coating apparatus of claim 6 , wherein the dielectric unit forms a power electrode groove inserted with the power electrode in the inner lateral surface and forms a ground electrode groove inserted with the ground electrode in the outer lateral surface. 9. The coating apparatus of claim 1 , wherein the power electrode and the ground electrode are provided in an outer lateral surface of the dielectric unit. 10. The coating apparatus of claim 9 , wherein the dielectric unit includes a power electrode groove inserted with the power electrode and a ground electrode groove inserted with the ground electrode in the outer lateral surface. 11. The coating apparatus of claim 10 , wherein the nozzle unit further comprises an insulator surrounding the outer lateral surface of the dielectric unit so that the power electrode and the ground electrode are not expose to outside. 12. The coating apparatus of claim 1 , wherein the fluid supply unit comprises: a coating material supply member configured to supply the coating material; and a gas supply member configured to supply a pressure gas for applying a power to spray the coating material. 13. The coating apparatus of claim 12 , wherein the coating material is provided with a powder form.