Surface-mounted reactor and manufacturing method therefor

The invention claimed is: 1. A surface mountable reactor, comprising: a coil; a first magnetic core comprising an axial portion around which the coil is disposed and flange portions at both ends of the axial portion; a second magnetic core that is disposed outside the coil to connect the flange portions of the first magnetic core; and a resin mount disposed outside the coil, wherein the second magnetic core comprises a plurality of components separable toward outside the coil, a circumference of the coil is surrounded by the second magnetic core and the resin mount, the coil is housed in a space surrounded by (i) the flange portions of the first magnetic core, (ii) the second magnetic core, and (iii) the resin mount, and the coil has end portions disposed outside the resin mount to form mount terminals. 2. The surface mountable reactor according to claim 1 , wherein the coil is an edgewise coil comprising a flat conductor wire, and the end portions of the coil are extended through holes of the resin mount to form the mount terminals. 3. The surface mountable reactor according to claim 2 , wherein the mount terminals are formed of both end portions of the coil that are allowed to protrude out of the resin mount and bent in opposite directions from protruding parts of the end portions to an outer or inner part of the resin mount along a winding axis direction of the coil. 4. The surface mountable reactor according to claim 3 , wherein the two mount terminals are located in a 180-degree rotationally symmetric manner in a plane where the mount terminals are disposed. 5. The surface mountable reactor according to claim 1 , which has a hexahedral structure, wherein he flange portions of the first magnetic core form two opposed faces of the hexahedral structure, the second magnetic core forms other three faces, and the resin mount covers another side surface of the coil between the flange portions of the first magnetic core and forms remaining one face. 6. The surface mountable reactor according to claim 1 , wherein the resin mount comprises a pair of wall portions that are so located that the coil is placed between the wall portions along a winding axis direction of the coil; magnetic core receiving portions provided outside the wall portions; and a coil receiving portion provided between the wall portions. 7. The surface mountable reactor according to claim 6 , wherein the resin mount has openings at end surfaces opposed in a winding axis direction of the coil, and front ends of end portions of the coil are inserted in the openings. 8. The surface mountable reactor according to claim 1 , wherein the first magnetic core comprises a component serving as the axial portion and components serving as the flange portions, and the components serving as the flange portions each have a recess in which an end of the component serving as the axial portion is engaged. 9. The surface mountable reactor according to claim 1 , wherein the flange portions of the first magnetic core each have a peripheral surface in contact with an inner surface of the second magnetic core facing the coil. 10. The surface mountable reactor according to claim 1 , wherein the flange portions of the first magnetic core are each a plate-shaped member having, at a periphery, two parallel sides and other sides linked to the two parallel sides, one component of the second magnetic core has a cross-section comprising: an inner linear portion along one of the two parallel sides; and an inner curved portion along one of the other sides, wherein the cross-section is perpendicular to a winding axis direction of the coil, another component of the second magnetic core has a cross-section comprising: an inner linear portion along another of the two parallel sides; and an inner curved portion along one of the other sides, wherein the cross-section is perpendicular to the winding axis direction of the coil, and the one component and the another component are assembled to form the second magnetic core. 11. The surface mountable reactor according to claim 10 , further comprising a sealing member provided to connect the components of the second magnetic core. 12. The surface mountable reactor according to claim 1 , further comprising a cover member provided to fix the first magnetic core and the second magnetic core to the resin mount. 13. The surface mountable reactor according to claim 1 , wherein the first magnetic core comprises a dust core comprising a magnetic metal material, and the second magnetic core comprises a ferrite magnetic core comprising a ferrite material. 14. A method for fabricating a surface mountable reactor according to claim 1 , the method comprising a first step comprising assembling a first magnetic core, one component for forming a second magnetic core, and another component for forming the second magnetic core, wherein the first magnetic core comprises an axial portion around which the coil is disposed and flange portions that are each a plate-shaped member having, at a periphery, two parallel sides and other sides linked to the two parallel sides, the one component for forming the second magnetic core has a cross-section comprising: an inner linear portion along one of the two parallel sides; and an inner curved portion along one of the other sides, wherein the cross-section is perpendicular to a winding axis direction of the coil, the another component for forming the second magnetic core has a cross-section comprising: an inner linear portion along another of the two parallel sides; and an inner curved portion along one of the other sides, wherein the cross-section is perpendicular to the winding axis direction of the coil, and the first magnetic core, the one component for forming the second magnetic core, and the another component for forming the second magnetic core are assembled in such a manner that peripheral surfaces of the flange portions of the first magnetic core are brought into contact with an inner surface of the second magnetic core facing the coil. 15. The method according to claim 14 , further comprising, after the first step, a second step comprising inserting end portions of the coil into holes provided in the resin mount. 16. The method according to claim 15 , further comprising, after the second step, a third step comprising forming mount terminals by bending both end portions of the coil, which protrude out of the resin mount, in opposite directions from protruding parts of the end portions to an outer or inner part of the resin mount along a winding axis direction of the coil. 17. The surface mountable reactor according to claim 1 , wherein the second magnetic core has an alphabet U-shaped cross-section in a direction perpendicular to the winding axis direction of the coil. 18. The surface mountable reactor according to claim 17 , wherein the second magnetic core is composed of assembled components having an alphabet L-shaped cross-section.