Rolling bearing

The invention claimed is: 1. A rolling bearing comprising: an outer race; an inner race; rolling elements mounted between the outer race and the inner race so as to define a bearing space between the outer race and the inner race, the bearing space having a first axial end opening at a first axial end of the rolling bearing and a second axial end opening at a second axial end of the rolling bearing; a seal ring formed with an oil passage hole, the seal ring covering at least one of the first axial end opening and the second axial end opening; a filter mounted to the seal ring so as to cover the oil passage hole of the seal ring, and configured to catch foreign matter contained in lubricant oil; a magnetic member mounted axially inwardly of the filter toward the rolling elements, and configured to attract foreign matter to the magnetic member due to a magnetic force of the magnetic member; and wherein the magnetic member is exposed to an inner surface of the oil passage hole. 2. The rolling bearing according to claim 1 , wherein a space is defined between an axial inner surface of the filter and an axial outer surface of the magnetic member such that, due to the magnetic force of the magnetic member, the magnetic member is more likely to attract to the magnetic member foreign matter mixed in lubricant oil existing axially inwardly of the filter toward the rolling elements than to attract to the magnetic member foreign matter mixed in lubricant oil existing axially outwardly of the filter away from the rolling elements. 3. The rolling bearing according to claim 2 , wherein the filter and the magnetic member are formed integrally with the seal ring by insert molding. 4. The rolling bearing according to claim 3 , wherein the magnetic member is exposed to an inner surface of the oil passage hole. 5. The rolling bearing according to claim 3 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir. 6. The rolling bearing according to claim 2 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir. 7. The rolling bearing according to claim 1 , wherein the filter and the magnetic member are formed integrally with the seal ring by insert molding. 8. The rolling bearing according to claim 7 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir. 9. The rolling bearing according to claim 1 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir. 10. A rolling bearing comprising: an outer race; an inner race; rolling elements mounted between the outer race and the inner race so as to define a bearing space between the outer race and the inner race, the bearing space having a first axial end opening at a first axial end of the rolling bearing and a second axial end opening at a second axial end of the rolling bearing; a seal ring formed with an oil passage hole, the seal ring covering at least one of the first axial end opening and the second axial end opening; a filter mounted to the seal ring so as to cover the oil passage hole of the seal ring, and configured to catch foreign matter contained in lubricant oil; a magnetic member mounted axially inwardly of the filter toward the rolling elements, and configured to attract foreign matter to the magnetic member due to a magnetic force of the magnetic member; and wherein the magnetic member is provided axially inwardly of the filter toward the rolling elements and adjacent to the filter. 11. The rolling bearing according to claim 10 , wherein a space is defined between an axial inner surface of the filter and an axial outer surface of the magnetic member such that, due to the magnetic force of the magnetic member, the magnetic member is more likely to attract to the magnetic member foreign matter mixed in lubricant oil existing axially inwardly of the filter toward the rolling elements than to attract to the magnetic member foreign matter mixed in lubricant oil existing axially outwardly of the filter away from the rolling elements. 12. The rolling bearing according to claim 11 , wherein the filter and the magnetic member are formed integrally with the seal ring by insert molding. 13. The rolling bearing according to claim 12 , wherein the magnetic member is exposed to an inner surface of the oil passage hole. 14. The rolling bearing according to claim 12 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir. 15. The rolling bearing according to claim 11 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir. 16. The rolling bearing according to claim 10 , wherein the filter and the magnetic member are formed integrally with the seal ring by insert molding. 17. The rolling bearing according to claim 16 , wherein the magnetic member is exposed to an inner surface of the oil passage hole. 18. The rolling bearing according to claim 16 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir. 19. The rolling bearing according to claim 10 , further comprising a foreign matter reservoir located axially inwardly of the magnetic member toward the rolling elements, the foreign matter reservoir being configured such that if foreign matter attracted to the magnetic member separates from the magnetic member, the foreign matter is caught and retained in the foreign matter reservoir.