Joining method, method of manufacturing liquid cooling jacket, and liquid cooling jacket

What is claimed is: 1. A method of manufacturing a liquid cooling jacket in which a jacket body and a sealing body are joined together by friction stirring to form a liquid cooling jacket comprising: a preparation step of forming the jacket body that includes a bottom part, a peripheral wall part rising from a peripheral edge of the bottom part and a support part erected on the bottom part and formed with a plurality of projecting parts on an end face thereof, and forming a sealing body that is formed with the hole into which the plurality of projecting parts are inserted respectively and that seals an opening of the jacket body; a disposing step of disposing the sealing body on the jacket body to form an overlapped portion in which an end face of the peripheral wall part and a rear face of the sealing body are overlapped with each other, and to define an abutment portion on which an outer peripheral surface of the projecting part and a wall of the hole are abutted on each other; and a joining step of moving a rotary tool along the overlapped portion and each of the abutment portions to perform friction stirring, wherein the rotary tool has a stirring pin of which a length is greater than a thickness of the sealing body; wherein the rotary tool is moved along the overlapped portion with only the stirring pin of the rotary tool being in contact with both of the peripheral wall part and the sealing body so as to join the overlapped portion by friction stirring, or the rotary tool is moved along the overlapped portion with only the stirring pin of the rotary tool being in contact with only the sealing body so as to join the overlapped portion by friction stirring where a movement direction and a rotation direction of the rotary tool are set in such a way that an advancing side of the rotary tool is located on an inner side of the sealing body; and wherein the rotary tool is moved along the abutment portion with only the stirring pin of the rotary tool being in contact with both of the outer peripheral surface of the projecting part and the wall of the hole so as to join each of the abutment portions by friction stirring. 2. The method of manufacturing the liquid cooling jacket according to claim 1 further comprising: wherein in the joining step, a joining condition is set in such a way that burrs are formed at an outer side on the sealing body; and wherein the joining step includes a removing step of removing a surplus piece part of the sealing body with the burrs with a recess formed in a plasticized region as a boundary. 3. The method of manufacturing the liquid cooling jacket according to claim 1 further comprising: a provisional joining step of performing provisional joining on at least either of the overlapped portion and the abutment portion, prior to the joining step. 4. A method of manufacturing a liquid cooling jacket in which a jacket body and a sealing body are joined together by friction stirring to form the liquid cooling jacket comprising: a preparation step of forming a jacket body that includes a bottom part, a peripheral wall part rising from a peripheral edge of the bottom part, a stepped bottom surface formed at a position below by one step from an end face of the peripheral wall part, a stepped side surface rising from the stepped bottom surface, and a support part erected on the bottom surface and formed with a plurality of projecting parts on an end face thereof, and forming a sealing body that is formed with a plurality of holes into which the plurality of projecting parts are inserted respectively and that seals an opening of the jacket body; a sealing body disposing step of disposing the sealing body on the jacket body to abut the stepped side surface on a side surface of the sealing body to form a first abutment portion, and abutting an outer peripheral surface of the projecting part on a wall of the hole to form a plurality of second abutment portions; and a joining step of moving a rotary tool along the first abutment portion and each of the plurality of second abutment portions to perform friction stirring, wherein the rotary tool is moved along the first abutment portion with only a stirring pin of the rotary tool being in contact with both of the stepped side surface and the side surface of the sealing body to join the first abutment portion by friction stirring where a movement direction and a rotation direction of the rotary tool are set in such a way that an advancing side of the rotary tool is located on an inner side of the sealing body; and wherein the rotary tool is moved along the second abutment portion with only the stirring pin of the rotary tool being in contact with both of the outer peripheral surface of the projecting part and the wall of the hole to join each of the plurality of second abutment portions by friction stirring. 5. The method of manufacturing the liquid cooling jacket according to claim 4 further comprising: an auxiliary member disposing step of disposing an auxiliary member along the first abutment portion, wherein in the joining step, the first abutment portion is joined together by friction stirring with only the stirring pin being in contact with the peripheral wall part, the sealing body and the auxiliary member. 6. The method of manufacturing the liquid cooling jacket according to claim 5 , wherein in the joining step, a joining condition is set in such a way that burrs are formed on the auxiliary member; and wherein the joining step includes a removing step of removing the auxiliary member on which the burrs are formed. 7. The method of manufacturing the liquid cooling jacket according to claim 5 , wherein in the joining step, friction stir joining is performed with the rotary tool of which a central axis for rotation being inclined toward an inside of the jacket body. 8. The method of manufacturing the liquid cooling jacket according to claim 4 further comprising: a provisional joining step of performing provisional joining on at least either of the first abutment portion and the second abutment portion, prior to the joining step.