Solenoid valve

The invention claimed is: 1. A solenoid valve comprising: a sleeve configured such that a spool is movably arranged in an axial direction in the sleeve; a stationary iron core; a movable iron core; and a solenoid unit fixed to one end of the sleeve in the axial direction and configured to move the spool in the axial direction in accordance with movement of the movable iron core, wherein the sleeve has a groove provided at an outer periphery thereof on a side of the solenoid unit and a through hole communicating with the groove and an inside of the sleeve, an attachment portion adjacent to the groove in the axial direction is provided at the one end of the sleeve in the axial direction, a recess portion having a larger axial dimension than that of the attachment portion is provided at the stationary iron core, the stationary iron core is provided with a flange portion that is formed on one end thereof on a side of the sleeve and that extends toward an outer diameter side, and the sleeve is fixed to the stationary iron core in such a manner that part of the flange portion is swaged to be deformed in an inner diameter direction by driving a swaging tool in the axial direction into the flange portion from the side of the sleeve in a state in which the attachment portion is internally fitted into the recess portion of the stationary iron core. 2. The solenoid valve according to claim 1 , wherein the groove has a larger axial dimension than that of the through hole. 3. The solenoid valve according to claim 2 , wherein the groove has, at least at one end thereof on a side of the attachment portion, a tapered shape in a cross section parallel to the axial direction. 4. The solenoid valve according to claim 2 , wherein the solenoid unit includes a molded solenoid body arranged at an outer periphery of the movable iron core, a solenoid case configured to accommodate the movable iron core and the molded solenoid body, and the stationary iron core arranged inside the molded solenoid body, the stationary iron core has a thin portion formed with a small plate thickness in a circumferential direction, the solenoid case has a load receiving portion configured to receive a load in the axial direction when the swaging tool is driven in the axial direction into the flange portion of the stationary iron core, and the load receiving portion is arranged on an opposite side to the flange portion in the axial direction as well as on the outer diameter side with respect to the thin portion. 5. The solenoid valve according to claim 2 , wherein the sleeve is provided with a large-diameter portion adjoining one end of the groove on an opposite side of the attachment portion, an outer diameter of the large-diameter portion being a maximum outer diameter of the sleeve. 6. The solenoid valve according to claim 5 , wherein the sleeve further has, in addition to the first through hole, a second through hole, wherein the first and second through holes are arranged to be opposite to each other through the large-diameter portion and to be out of phase in circumferential position. 7. The solenoid valve according to claim 1 , wherein the groove has, at least at one end thereof on a side of the attachment portion, a tapered shape in a cross section parallel to the axial direction. 8. The solenoid valve according to claim 7 , wherein the solenoid unit includes a molded solenoid body arranged at an outer periphery of the movable iron core, a solenoid case configured to accommodate the movable iron core and the molded solenoid body, and the stationary iron core arranged inside the molded solenoid body, the stationary iron core has a thin portion formed with a small plate thickness in a circumferential direction, the solenoid case has a load receiving portion configured to receive a load in the axial direction when the swaging tool is driven in the axial direction into the flange portion of the stationary iron core, and the load receiving portion is arranged on an opposite side to the flange portion in the axial direction as well as on the outer diameter side with respect to the thin portion. 9. The solenoid valve according to claim 7 , wherein the sleeve is provided with a large-diameter portion adjoining one end of the groove on an opposite side of the attachment portion, an outer diameter of the large-diameter portion being a maximum outer diameter of the sleeve. 10. The solenoid valve according to claim 9 , wherein the sleeve further has, in addition to the first through hole, a second through hole, wherein the first and the second through holes are arranged to be opposite to each other through the large-diameter portion and to be out of phase in circumferential position. 11. The solenoid valve according to claim 1 , wherein the solenoid unit includes a molded solenoid body arranged at an outer periphery of the movable iron core, a solenoid case configured to accommodate the movable iron core and the molded solenoid body, and the stationary iron core arranged inside the molded solenoid body, the stationary iron core has a thin portion formed with a small plate thickness in a circumferential direction, the solenoid case has a load receiving portion configured to receive a load in the axial direction when the swaging tool is driven in the axial direction into the flange portion of the stationary iron core, and the load receiving portion is arranged on an opposite side to the flange portion in the axial direction as well as on the outer diameter side with respect to the thin portion. 12. The solenoid valve according to claim 11 , wherein the sleeve is provided with a large-diameter portion adjoining one end of the groove on an opposite side of the attachment portion, an outer diameter of the large-diameter portion being a maximum outer diameter of the sleeve. 13. The solenoid valve according to claim 12 , wherein the sleeve further has, in addition to the through hole, another through hole, the two through holes being arranged to be opposite to each other through the large-diameter portion and to be out of phase in circumferential position. 14. The solenoid valve according to claim 1 , wherein the sleeve is provided with a large-diameter portion adjoining one end of the groove on an opposite side of the attachment portion, an outer diameter of the large-diameter portion being a maximum outer diameter of the sleeve. 15. The solenoid valve according to claim 14 , wherein the sleeve further has, in addition to the first through hole, a second through hole, wherein the first and second through holes are arranged to be opposite to each other through the large-diameter portion and to be out of phase in circumferential position.