Rotation detection device and method of manufacturing rotation detection device

The invention claimed is: 1. A rotation detection device comprising: a magnet for detection mounted on a rotating body rotating about a rotation axis; and a detector configured to detect rotation of the rotating body, the detector comprising: a multi-layer circuit board disposed opposite to the magnet for detection; a combined magnetic wire provided at an interlayer of the multi-layer circuit board, disposed on an extension of the rotation axis, and exhibiting a large Barkhausen effect; a pickup coil comprising wirings on the multi-layer circuit board, and a conductor with which through holes provided in the multi-layer circuit board are filled, the pickup coil surrounding the combined magnetic wire; and a groove provided in the interlayer of the multi-layer circuit board, having a center on the extension of the rotation axis, being orthogonal to the rotation axis, and extending to an edge of a periphery of the interlayer. 2. The rotation detection device according to claim 1 , wherein the pickup coil is disposed around the groove. 3. The rotation detection device according to claim 1 , wherein the pickup coil comprises: an inner layer coil surrounding the combined magnetic wire; and an outer layer coil surrounding the inner layer coil, and the inner layer coil and the outer layer coil are connected in series. 4. The rotation detection device according to claim 1 , wherein the groove comprises a first groove provided at a fixed distance from a second groove on the extension of the rotation axis, the first groove extends in a first direction orthogonal to a second direction in winch the second groove extends, the combined magnetic wire further comprises: a first combined magnetic wire incorporated in the first groove; and a second combined magnetic wire incorporated in the second groove, and the pickup coil comprises: a first pickup coil surrounding the first combined magnetic wire; and a second pickup coil surrounding the second combined magnetic wire. 5. The rotation detection device according to claim 1 , wherein the multi-layer circuit board comprises a multi-layer wiring structure in which a wiring layer and an insulating layer are stacked alternately, the rotation detection device further comprises a stopper fitted in an end of the groove, and a length of the groove from a center of the multi-layer circuit board to the stopper is L/2, where L is a length of the combined magnetic wire. 6. The rotation detection device according to claim 5 , wherein the stopper is a ferrite embedded layer. 7. A rotation detection device comprising: a magnet for detection mounted on a rotating body rotating about a rotation axis; and a detector configured to detect rotation of the rotating body, the detector comprising: a multi-layer circuit board disposed opposite to the magnet for detection; a combined magnetic wire provided at an interlayer of the multi-layer circuit board, disposed on an extension of the rotation axis, and exhibiting a large Barkhausen effect; a pickup coil comprising wirings on the multi-layer circuit board, and a conductor with which through holes provided in the multi-layer circuit board are filled, the pickup coil surrounding the combined magnetic wire; and cylindrical soft magnetic bodies fitted to both ends of the combined magnetic wire. 8. The rotation detection device according to claim 4 , wherein the multi-layer circuit board is a disk-shaped substrate having a center axis on the extension of the rotation axis, the first pickup coil is orthogonal to the second pickup coil on the center axis of the circuit board, and the first pickup coil and the second pickup coil are uniformly wound respectively around the first combined magnetic wire and the second combined magnetic wire along an entire length of the first combined magnetic wire and the second combined magnetic wire. 9. The rotation detection device according to claim 1 , wherein the multi-layer circuit board comprises a soft magnetic layer on a first main surface opposite to the magnet for detection. 10. The rotation detection device according to claim 1 , wherein the multi-layer circuit board comprises soft magnetic layers on both sides of the multi-layer circuit board. 11. The rotation detection device according to claim 1 , further comprising a processing circuit configured to process a pulse voltage that is generated from the pickup coil, and to count a number of revolutions, the processing circuit being mounted on the multi-layer circuit board. 12. A method of manufacturing a rotation detection device that comprises: a magnet for detection mounted on a rotating body rotating about a rotation axis; and a detector disposed opposite to the magnet for detection, to detect rotation of the rotating body, the detector comprising: a multi-layer circuit board; a groove provided in an interlayer of the multi-layer circuit board, having a center on an extension of the rotation axis, and being orthogonal to the rotation axis; a combined magnetic wire incorporated in the groove and exhibiting a large Barkhausen effect; and a pickup coil comprising wirings on the multi-layer circuit board, and a conductor with which through holes are filled, the pickup coil surrounding the combined magnetic wire, the method of manufacturing the rotation detection device comprising: manufacturing the multi-layer circuit board, the manufacturing the multi-layer circuit board comprising: forming the pickup coil comprising the wirings and the conductor with which the through holes are filled; forming a laminated body comprising the groove for insertion into which the combined magnetic wire is inserted; and inserting the combined magnetic wire into the groove comprised in the laminated body. 13. The method of manufacturing a rotation detection device according to claim 12 , wherein the forming the laminated body comprises: stacking and firing a plurality of ceramic green sheets on which wiring layers are formed together with a dummy rod interposed between the wiring layers; and pulling out the dummy rod after the firing of the plurality of ceramic green sheets to form a cavity corresponding to the groove. 14. The method of manufacturing a rotation detection device according to claim 13 , wherein the inserting the combined magnetic wire comprises: covering a periphery of the combined magnetic wire with an insulating film; and inserting the combined magnetic wire having the periphery covered with the insulating film into the cavity. 15. The rotation detection device according to claim 1 , further comprising a stopper fitted in an end of the groove.