Gas generator and assembling method thereof

1 . A gas generator, comprising: a housing provided with a gas discharge port; an igniter assembly and a gas generating agent accommodated in the housing, the igniter assembly including an igniter main body which includes an ignition portion and an electro-conductive pin, being integrated with a metallic collar by a resin; the metallic collar having, a fixing portion including an insertion portion inserted into a hole in a bottom surface of the housing, and a guide portion formed by the resin and being axially in connection with the fixing portion; a metallic cylindrical member having an inner circumferential wall surface fitted to an outer circumferential wall surface of the fixing portion, the metallic cylindrical member covering the igniter assembly and defining a charging chamber for charging the gas generating agent, a portion of the metallic cylindrical member corresponding to the fixing portion and the guide portion having a constant inner diameter, the metallic cylindrical member and the metallic collar satisfying, D 1 =D 5 , where D 1 is an outer diameter of the fixing portion and D 5 is an outer diameter of the guide portion, and D 1 =D 5 ≧R 1 , where R 1 is an inner diameter of the metallic cylindrical member; and the metallic cylindrical member being fixed in a state in which an inner circumferential wall surface of the metallic cylindrical member and an outer circumferential wall surface of the fixing portion are press-fitted, and the inner circumferential wall surface of the metallic cylindrical member and an outer circumferential wall surface of the guide portion are abutted against each other. 2 . The gas generator according to claim 1 , wherein the metallic cylindrical member is made from stainless steel, and the metallic collar is made from aluminum. 3 . A method for assembling the gas generator according to claim 1 , comprising a step of fitting and fixing the metallic cylindrical member to the igniter assembly that is fixed to the bottom surface of the housing, wherein, the fitting and fixing step further includes, aligning a central axis of the metallic cylindrical member and a central axis of the igniter assembly when the metallic cylindrical member is fitted to the igniter assembly from a side of the ignition portion thereof, inserting and fixing an opening of the metallic cylindrical member to the fixing portion through the guide portion, and correcting a displacement of the central axis of the metallic cylindrical member and a central axis of the igniter assembly while inserting the opening of the metallic cylindrical member through the guide portion, when the central axis of the metallic cylindrical member and the central axis of the igniter assembly are displaced with respect to each other. 4 . A gas generator, comprising: a housing provided with a gas discharge port; an igniter assembly and a gas generating agent accommodated in the housing, the igniter assembly and a gas generating agent accommodated in the housing, the igniter assembly including an igniter main body, which includes an ignition portion and an electro-conductive pin, being integrated with a metallic collar by a resin; the metallic collar having, a fixing portion including an insertion portion inserted into a hole in a bottom surface of the housing, and a guide portion formed by the resin and being axially in connection with the fixing portion, a portion of the metallic cylindrical member corresponding to the fixing portion and the resin having a constant diameter; the guide portion including a second guide portion formed axially in contact with the fixing portion, and a first guide portion formed axially in contact with the second guide portion; the metallic cylindrical member and the metallic collar satisfying D 1 =D 6 , where D 1 is an outer diameter of the fixing portion and D 6 is an outer diameter of the first guide portion, D 1 >D 7 , where D 7 is an outer diameter of the second guide portion, D 1 =D 6 ≧R 1 , where R 1 is an inner diameter of the metallic cylindrical member; and the metallic cylindrical member being fixed in a state in which an inner circumferential wall surface of the metallic cylindrical member and an outer circumferential wall surface of the fixing portion are press-fitted, and an annular gap is formed between the inner circumferential wall surface of the metallic cylindrical member and an outer circumferential wall surface of the second guide portion, and the inner circumferential wall surface of the metallic cylindrical member and an outer circumferential wall surface of the first guide portion are abutted against each other. 5 . The gas generator according to claim 4 , wherein the metallic cylindrical member is made from stainless steel, and the metallic collar is made from aluminum. 6 . A method for assembling the gas generator according to claim 4 , comprising a step of fitting and fixing the metallic cylindrical member to the igniter assembly that is fixed to the bottom surface of the housing, wherein, the fitting and fixing step further includes, aligning a central axis of the metallic cylindrical member and a central axis of the igniter assembly when the metallic cylindrical member is fitted to the igniter assembly from a side of the ignition portion thereof, inserting and fixing an opening of the metallic cylindrical member to the fixing portion through the guide portion, and correcting a displacement of the central axis of the metallic cylindrical member and a central axis of the igniter assembly while inserting the opening of the metallic cylindrical member through the guide portion, when the central axis of the metallic cylindrical member and the central axis of the igniter assembly are displaced with respect to each other. 7 . A gas generator, comprising: a housing provided with a gas discharge port; an igniter assembly and a gas generating agent accommodated in the housing, the igniter assembly including an igniter main body which includes an ignition portion and an electro-conductive pin, being integrated with a metallic collar by a resin; the metallic collar having, a fixing portion including an insertion portion inserted into a hole in a bottom surface of the housing, and a guide portion formed by the resin and being axially in connection with the fixing portion; the guide portion including a cylindrical portion and a plurality of protruding portions protruding radially from an outer circumferential surface of the cylindrical portion, a portion of the metallic cylindrical member corresponding to the fixing portion and the guide portion having a constant inner diameter; the metallic cylindrical member and the metallic collar satisfying D 1 =D 8 , where D 1 is an outer diameter of the fixing portion and D 8 is an outer diameter of an imaginary circle defined by connecting tips of the protruding portions of the guide portion, D 1 =D 8 ≧R 1 , where R 1 is an inner diameter of the metallic cylindrical member; and the metallic cylindrical member being fixed in a state in which an inner circumferential wall surface of the metallic cylindrical member and an outer circumferential wall surface of the fixing portion are press-fitted, and the inner circumferential wall surface of the metallic cylindrical member and an outer circumferential wall surface of the protruding portions of the guide portion are abutted against each other. 8 . The gas generator according to claim 7 , wherein the metallic cylindrical member is made from stainless steel, and the metallic collar is made from aluminum. 9 . A method for assembling the gas generator according to claim 7 , comprising a step of fitting and fixing the metallic cylindrical member to the igniter assembly