Heat exchanger and production method of the heat exchanger

The invention claimed is: 1. A heat exchanger comprising: a case having a side plate portion through which a first hole portion penetrates, a heating medium being supplied into the case; a heat transfer tube, an end portion of the heat transfer tube being inserted into the first hole portion; a header constituting member provided on an outer face side of the side plate portion, the header constituting member having a second hole portion into which the end portion of the heat transfer tube is inserted; and a first annular convex portion and a second annular convex portion that are provided for the heat transfer tube, outer diameters of the first and the second annular convex portions being partially expanded, the first and the second annular convex portions relatively fixing the side plate portion of the case, the heat transfer tube, and the header constituting member, wherein the first annular convex portion is positioned on an inner face side of the side plate portion and is engaged with a circumferential edge portion of the first hole portion, or the first annular convex portion is positioned in the first hole portion and contacts under pressure with an inner circumferential face of the first hole portion, and the second annular convex portion is positioned on an outer face side of the header constituting member and is engaged with a circumferential edge portion of the second hole portion. 2. The heat exchanger as set forth in claim 1 , further comprising at least one header for water inflow or water outflow of the heat transfer tube, the header comprising: a header base member having a first base plate portion in a flat shape and a first flange portion in an annular shape, the first base plate portion being arranged along the outer face of the side plate portion of the case, the first flange portion being connected to an outer circumferential edge of the first base plate portion and rising outward; and a header cover member having a second base plate portion in a flat shape and a second flange portion in an annular shape, the second base plate portion facing the first base plate portion, the second flange portion being connected to an outer circumferential edge of the second base plate portion and being fitted to the first flange portion, wherein the first base plate portion is provided with the second hole portion and the header base member comprises the header constituting member. 3. The heat exchanger as set forth in claim 1 , the first annular convex portion has a tapered portion extending in an axial length direction of the heat transfer tube in such a manner that an outer diameter of the tapered portion is reduced toward an inner side of the case. 4. The heat exchanger as set forth in claim 3 , wherein the side plate portion and the header constituting member are arranged so as to be apart from each other in the axial length direction of the heat transfer tube, a part of the first annular convex portion close to an outer side of the case is positioned on an outer side of the side plate portion and is engaged with an inner face side of the header constituting member, so that a part of the header constituting member is interposed between the first and the second annular convex portions, and the tapered portion of the first annular convex portion contacts under pressure with the inner circumferential face of the first hole portion. 5. The heat exchanger as set forth in claim 4 , wherein a spacer is interposed between the side plate portion and the header constituting member, the spacer having a third hole portion into which the heat transfer tube is inserted, and the tapered portion also contacts under pressure with an inner circumferential face of the third hole portion. 6. The heat exchanger as set forth in claim 1 , wherein the heat transfer tube comprises an inner heat transfer tube arranged in the case and an outer heat transfer tube arranged outside of the case so as to contact with an outer face portion of the case, and the first and the second annular convex portions are provided for each of the inner heat transfer tube and the outer heat transfer tube. 7. The heat exchanger as set forth in claim 6 , wherein the inner and the outer heat transfer tubes are communicated with each other and are configured in such a manner that water supplied into one of the inner and the outer heat transfer tubes passes through the other of the inner and the outer heat transfer tubes. 8. The heat exchanger as set forth in claim 1 , wherein the header constituting member is configured to contact with an outer face portion of the side plate portion, and a part of the header constituting member and a part of the side plate portion are respectively interposed between the first and the second annular convex portions. 9. A production method of a heat exchanger, the production method comprising the steps of: inserting an end portion of a heat transfer tube into a first hole portion provided for a side plate portion of a case in which a heating medium is supplied and into a second hole portion of a header constituting member arranged on an outer face side of the side plate portion; and relatively fixing the side plate portion, the heat transfer tube, and the header constituting member; wherein, in the fixing step a first annular convex portion and a second annular convex portion are provided by partially expanding at least two portions of the heat transfer tube, the first annular convex portion being positioned on an inner face side of the side plate portion and being engaged with a circumferential edge portion of the first hole portion, or the first annular convex portion being positioned in the first hole portion and contacting under pressure with an inner circumferential face of the first hole portion, the second annular convex portion being positioned on an outer face side of the header constituting member and being engaged with a circumferential edge portion of the second hole portion. 10. The production method of the heat exchanger as set forth in claim 9 , wherein the heat transfer tube is expanded by a split punch, and the split punch has a deformable portion divided into a plurality of segments around a central axis, and an outer circumferential face of the deformable portion has a first convex portion and a second convex portion for respectively forming the first and the second annular convex portions. 11. The production method of the heat exchanger as set forth in claim 10 , wherein the split punch has the first convex portion at a tip end portion, and the first convex portion has a tapered portion extending in an axial length direction of the split punch in such a manner that an outer diameter of the tapered portion is reduced toward a tip end side. 12. The production method of the heat exchanger as set forth in claim 10 , wherein the heat transfer tube comprises an elliptic tube, and the split punch is configured in such a manner that outlines of the first and the second convex portion are elliptic corresponding to the elliptic tube seen along an axial length direction, and a slit for dividing the deformable portion into the segments is in a shape of cross with a long axis and a short axis of ellipse. 13. The production method of the heat exchanger as set forth in claim 10 , wherein a plurality of heat transfer tubes are used as the heat transfer tube, and a plurality of split punches are used as the split punch and are simultaneously expand the plurality of heat transfer tubes.