Rolling bearing device

What is claimed is: 1. A rolling bearing device comprising: a bearing portion that has a stationary ring, a rotary ring on a radially inner or outer side of the stationary ring, and a plurality of rolling elements provided between the stationary ring and the rotary ring; a stationary portion that is stationary together with the stationary ring; a rotary portion provided on a radially inner or outer side of the stationary portion so as to be rotatable together with the rotary ring; and a power generation portion that has a plurality of projecting portions provided on the rotary portion such that the projecting portions are arranged side by side in a rotational direction of the rotary portion, a pair of core members provided on of the stationary portion such that the core members are provided at intervals corresponding to intervals at which the projecting portions are provided, a magnet provided between the core members, and a coil wound around the core member, the power generation portion being configured to generate an induced current in the coil as the projecting portions relatively pass in a vicinity of first side end portions of the core members during rotation of the rotary portion, wherein: magnetism generated by the magnet flows along a first loop path that passes through the first side end portions, the projecting portions, and a center of the coil in a first state in which the projecting portions are close to the first side end portions of the core members; magnetism generated by the magnet flows along a second loop path that passes through second side end portions of the core members and the center of the coil in a second state in which the projecting portions and the first side end portions of the core members are away from each other; a constant gap is provided between the second side end portions of the core members, the constant gap being included in the second loop path; a magnetic resistance through the first loop path is smaller than a magnetic resistance through the second loop path in the first state; and the magnetic resistance through the second loop path is smaller than a magnetic resistance through a loop path that includes a gap formed between the projecting portion and the first side end portions of the core members in the second state. 2. The rolling bearing device according to claim 1 wherein: a constant gap is provided between the second side end portions of the core members; the constant gap is larger than twice a first gap formed between the projecting portion and the first side end portion of the core member in the first state; and the constant gap is smaller than twice a second gap formed between the projecting portion and the first side end portion of the core member in the second state. 3. The rolling bearing device according to claim 1 , wherein: the rotary portion is provided with the projecting portions; and the stationary portion is provided with the core members, the magnet, and the coil. 4. The rolling bearing device according to claim 1 , wherein the core members are attached to a non-magnetic body portion of the stationary portion. 5. The rolling bearing device according to claim 1 , wherein: the rotary portion on which the projecting portions are provided is formed from an annular portion; and a plurality of recessed portions is formed along a peripheral surface of the annular portion, and the projecting portions are each provided between the recessed portions which are adjacent to each other in a circumferential direction. 6. The rolling bearing device according to claim 1 , wherein the pair of core members forms a set, and a plurality of the sets of core members are provided on the stationary portion at equal intervals in a circumferential direction. 7. A rolling bearing device comprising: a bearing portion that has a stationary ring, a rotary ring on a radially inner or outer side of the stationary ring, and a plurality of rolling elements provided between the stationary ring and the rotary ring; a stationary portion that is stationary together with the stationary ring; a rotary portion provided on a radially inner or outer side of the stationary portion so as to be rotatable together with the rotary ring; and a power generation portion that has a plurality of projecting portions provided on the rotary portion such that the projecting portions are arranged side by side in a rotational direction of the rotary portion, a pair of core members provided on the stationary portion such that the core members are provided at intervals corresponding to intervals at which the projecting portions are provided, a magnet provided between the core members, and a coil wound around the core member, the power generation portion being configured to generate an induced current in the coil as the projecting portions relatively pass in a vicinity of first side end portions of the core members during rotation of the rotary portion, wherein: magnetism generated by the magnet flows along a first loop path that passes through the first side end portions, the projecting portions, and a center of the coil in a first state in which the projecting portions are close to the first side end portions of the core members; and magnetism generated by the magnet flows along a second loop path that passes through second side end portions of the core members and the center of the coil in a second state in which the projecting portions and the first side end portions of the core members are away from each other; the magnet is provided between respective intermediate portions, in a longitudinal direction, of the core members; and the coil is provided on each of a first side and a second side, in the longitudinal direction, of the core member with respect to the magnet which is located at a middle of the core member in the longitudinal direction. the rotary portion is provided with the projecting portions; and the stationary portion is provided with the core members, the magnet, and the coil. 8. The rolling bearing device according to claim 7 , wherein: the rotary portion is provided with the projecting portions; and the stationary portion is provided with the core members, the magnet, and the coil. 9. The rolling bearing device according to claim 7 , wherein the core members are attached to a non-magnetic body portion of the stationary portion. 10. The rolling bearing device according to claim 7 , wherein: the rotary portion on which the projecting portions are provided is formed from an annular portion; and a plurality of recessed portions is formed along a peripheral surface of the annular portion, and the projecting portions are each provided between the recessed portions which are adjacent to each other in a circumferential direction. 11. The rolling bearing device according to claim 7 , wherein the pair of core members forms a set, and a plurality of the sets of core members are provided on the stationary portion at equal intervals in a circumferential direction.