Anti-separating structure of sensing magnet for EPS motor

What is claimed is: 1. An anti-separating structure of a sensing magnet for an EPS motor, the structure comprising: a disk-shaped plate centrally inserted by a rotation shaft; a ring-shaped sensing magnet coupled to an upper side of the plate and including a through hole at a center thereof, wherein a periphery of the through hole includes an arc portion and an irregular portion, and wherein a first support surface is formed at a middle of the irregular portion and a second support surface is formed across the first support surface at the irregular portion; a holder member inserted into the through hole and coupled to an upper side of the second support surface; and a fixing unit fixing the holder member coupled to the sensing magnet to the plate; wherein the disk-shaped plate includes a magnet support rib protruded toward the sensing magnet to grip the first support surface of the sensing magnet, wherein the holder member includes a magnet support surface configured to be disposed at both sides of the magnet support rib, wherein the second support surface of the sensing magnet is formed with a slant surface of a predetermined area to allow surface-contact with the magnet support surface of the holder member, wherein the fixing unit comprises a hook protrusively formed at the holder member toward the plate, and a hitching unit penetratively formed at a position corresponding to the hook of the plate; wherein each of the first and the second support surfaces is provided in a pair facing each other and symmetrically formed relative to the center of the sensing magnet, wherein the hook is engaged with the hitching unit, and wherein the magnet support rib is disposed between the first support surface and the hook. 2. The structure of claim 1 , wherein the hook is integrally formed with the holder member and the bent portion of the hook is extended to a direction of the other side of the magnet support surface of the holder member. 3. The structure of claim 1 , wherein the holder member is centrally formed with a void space inserted by the rotation shaft. 4. The structure of claim 1 , wherein the fixing unit includes a fastening member coupled to a second through hole penetratively formed at the plate after passing through a first through hole penetratively formed at the holder member. 5. The structure of claim 4 , wherein the fastening member includes any one of a screw or a rivet. 6. The structure of claim 4 , wherein the holder member is provided in a thin metal plate of an elastic material to be elastically deformed when fastened to the fastening member. 7. The structure of claim 1 , wherein the second support surface is more protrusively formed than the first support surface at both sides of the first support surface at the irregular portion and extends toward the center of the sensing magnet. 8. The structure of claim 1 , wherein each first support surface is formed in a shape of a concave portion corresponding to that of the magnet support rib. 9. The structure of claim 1 , wherein the hitching unit is provided in a pair of separate through holes symmetrically formed relative to a center of the plate and is configured to be coupled with the hook. 10. An EPS motor having an anti-separating structure of a sensing magnet for the EPS motor, the EPS motor comprising: a housing; a stator disposed in the housing and wound with a coil; and a rotor centrally formed in the stator and rotatable by the rotation shaft, wherein the anti-separating structure comprises: a disk-shaped plate centrally inserted by a rotation shaft; a ring-shaped sensing magnet coupled to an upper side of the plate and including a through hole at a center thereof, wherein a periphery of the through hole includes an arc portion and an irregular portion, and wherein a first support surface is formed at a middle of the irregular portion and a second support surface is formed across the first support surface at the irregular portion; a holder member inserted into the through hole and coupled to an upper side of the second support surface; and a fixing unit fixing the holder member coupled with the sensing magnet to the plate; wherein the disk-shaped plate includes a magnet support rib protruded toward the sensing magnet to grip the first support surface of the sensing magnet, wherein the holder member includes a magnet support surface disposed at both sides of the magnet support rib, wherein the second support surface of the sensing magnet is formed with a slant surface of a predetermined area to allow surface-contact with the magnet support surface of the holder member, wherein the fixing unit comprises a hook protrusively formed at the holder member toward the plate, and a hitching unit penetratively formed at a position corresponding to the hook of the plate; wherein each of the first and the second support surfaces is provided in a pair facing each other and symmetrically formed relative to the center of the sensing magnet, wherein the hook is engaged with the hitching unit, and wherein the magnet support rib is disposed between the first support surface and the hook. 11. The EPS motor of claim 10 , further comprising a cover member coupled to an upper surface of the housing. 12. The EPS motor of claim 11 , wherein the second support surface is protrusively formed at both sides of the first support surface at the irregular portion and extends toward the center of the sensing magnet. 13. The EPS motor of claim 10 , wherein the fixing unit includes a fastening member coupled to a second through hole penetratively formed at the plate after passing through a first through hole penetratively formed at the holder member. 14. The EPS motor of claim 13 , wherein the fastening member includes any one of a screw or a rivet. 15. The EPS motor of claim 10 , wherein the holder member is provided with at least one rib groove disposed at a position opposite to the magnet support rib of the plate. 16. The structure of claim 10 , wherein the magnet support surface is provided in a pair facing each other across the rib groove and symmetrically formed relative to the center of the sensing magnet.