Plasma spraying apparatus

1 . A plasma spraying apparatus, comprising: a main torch comprising: a first electrode comprising a spraying material discharge hole at a tip center of a central axis; a first mantle that surrounds the first electrode; and a first insulator that insulates the first electrode and the first mantle from each other and comprises a first plasma gas introducing port; and an auxiliary torch comprising: a second electrode; a second mantle that surrounds the second electrode; and a second insulator that insulates the second electrode and the second mantle from each other and has a second plasma gas introducing port, the auxiliary torch having a central axis that intersects with a central axis of the main torch, wherein the spraying material discharge hole supplies a spraying material to an axial center of plasma that is formed on the central axis of the first electrode by the first electrode and the second electrode, the spraying material is melted and sprayed on a base material to form a coating, the first mantle comprises an opening part and a tapered part provided between the opening part and the first insulator, and the first mantle comprises, on an inlet side of the opening part and/or the tapered part, a gas introducing part that introduces gas. 2 . The plasma spraying apparatus according to claim 1 , wherein the first electrode is an anode, and the second electrode is a cathode. 3 . The plasma spraying apparatus according to claim 2 , wherein the opening part comprises a third insulator at the center, and the auxiliary torch is provided closer to an outlet side than the third insulator of the opening part. 4 . The plasma spraying apparatus according to claim 2 , wherein the main torch and the auxiliary torch are arranged so that a plasma arc is formed on the outside. 5 . The plasma spraying apparatus according to claim 4 , further comprising a plurality of auxiliary torches, wherein the plurality of auxiliary torches are arranged so that central axes of the plurality of auxiliary torches intersect at one point of the central axis of the main torch outside the main torch. 6 . The plasma spraying apparatus according to claim 3 , wherein an anode spot of the first electrode and the spraying material discharge hole do not to interfere with one another. 7 . The plasma spraying apparatus according to claim 3 , wherein a tip surface of the first electrode is formed in an inwardly protruding shape on the central axis. 8 . The plasma spraying apparatus according claim 3 , wherein a tip of the first electrode is provided with a gas ejection hole that prevents adhesion of the spraying material. 9 . The plasma spraying apparatus according to claim 1 , wherein the gas introducing part of the first mantle comprises, on an inlet side of the opening part and/or the tapered part, a gas ejection hole that introduces gas. 10 . The plasma spraying apparatus according to claim 1 , wherein the gas introducing part of the first mantle comprises a gas ejection hole through which gas is ejected to have a circumferential velocity component with respect to the central axis so that the gas is allowed to be a swirl flow inside the opening part and the tapered part. 11 . The plasma spraying apparatus according to claim 1 , wherein the first mantle is a porous metal, and the gas introducing part ejects gas introduced from the outside through holes in the porous metal only in an inside direction of the first mantle. 12 . The plasma spraying apparatus according to claim 4 , wherein an anode spot of the first electrode and the spraying material discharge hole do not to interfere with one another. 13 . The plasma spraying apparatus according to claim 5 , wherein an anode spot of the first electrode and the spraying material discharge hole do not to interfere with one another. 14 . The plasma spraying apparatus according to claim 4 , wherein a tip surface of the first electrode is formed in an inwardly protruding shape on the central axis. 15 . The plasma spraying apparatus according to claim 5 , wherein a tip surface of the first electrode is formed in an inwardly protruding shape on the central axis. 16 . The plasma spraying apparatus according to claim 4 , wherein a tip of the first electrode is provided with a gas ejection hole that prevents adhesion of the spraying material. 17 . The plasma spraying apparatus according to claim 5 , wherein a tip of the first electrode is provided with a gas ejection hole that prevents adhesion of the spraying material. 18 . The plasma spraying apparatus according to claim 2 , wherein the gas introducing part of the first mantle comprises a gas ejection hole through which gas is ejected to have a circumferential velocity component with respect to the central axis so that the gas is allowed to be a swirl flow inside the opening part and the tapered part. 19 . The plasma spraying apparatus according to claim 3 , wherein the gas introducing part of the first mantle comprises a gas ejection hole through which gas is ejected to have a circumferential velocity component with respect to the central axis so that the gas is allowed to be a swirl flow inside the opening part and the tapered part. 20 . The plasma spraying apparatus according to claim 4 , wherein the gas introducing part of the first mantle comprises a gas ejection hole through which gas is ejected to have a circumferential velocity component with respect to the central axis so that the gas is allowed to be a swirl flow inside the opening part and the tapered part.