Torque sensor and electric power steering system

The invention claimed is: 1. A torque sensor comprising: a rotary member including a first shaft and a second shaft connected together through a torsion bar; a magnet disposed at the first shaft so as to rotate along with rotation of the first shaft, and having N and S poles alternately arranged in a direction around a rotation axis of the rotary member; a first yoke member disposed at the second shaft so as to rotate along with rotation of the second shaft and made of magnetic material, the first yoke member including first claw portions which are a plurality of magnetic sheets opposed to the magnet, and a first ring portion formed into a circular ring and connecting the first claw portions; a second yoke member disposed at the second shaft so as to rotate along with rotation of the second shaft and made of magnetic material, the second yoke member including second claw portions which are a plurality of magnetic sheets opposed to the magnet, and a second ring portion formed into a circular ring and connecting the second claw portions, the second claw portions being arranged alternately with the first claw portions; a first magnetism collecting member made of magnetic material, and including a first arch-shaped portion extending along the direction around the rotation axis, and a pair of end portions which are a first end portion and a second end portion, the first arch-shaped portion being opposed to and located away from the first ring portion; a second magnetism collecting member made of magnetic material, and including a second arch-shaped portion extending along the direction around the rotation axis, and a pair of end portions which are a first end portion and a second end portion, the second arch-shaped portion being opposed to and located away from the second ring portion; a first magnetic sensor disposed between the first magnetism collecting member and the second magnetism collecting member, and including a detection element configured to detect a change in a magnetic field between the first magnetism collecting member and the second magnetism collecting member; a second magnetic sensor disposed between the first magnetism collecting member and the second magnetism collecting member, and including a detection element configured to detect a change in a magnetic field between the first magnetism collecting member and the second magnetism collecting member; and a retaining portion including a magnetism-collecting-member retaining member made of non-magnetic material and configured to retain the first magnetism collecting member and the second magnetism collecting member, wherein the retaining portion is disposed at the first magnetism collecting member and the second magnetism collecting member in the direction around the rotation axis in such a position that the first magnetic sensor and the second magnetic sensor are arranged with magnetic symmetry by aligning the magnetic sensor with the first and second claw portions, or disposed to retain the first end portion of the first magnetism collecting member, the second end portion of the first magnetism collecting member, the first end portion of the second magnetism collecting member, and the second end portion of the second magnetism collecting member, the torque sensor is configured to detect torque generated in the rotary member, based on output signals of the first magnetic sensor and the second magnetic sensor the first magnetism collecting member includes a first straight portion which is linearly formed along a direction of a tangent to the direction around the rotation axis, the second magnetism collecting member includes a second straight portion which is linearly formed along a direction of a tangent to the direction around the rotation axis, the retaining portion includes: a first magnetism-collecting-member retaining portion disposed in such a position as to retain the first straight portion and configured to limit a relative movement of the first magnetism collecting member with respect to the magnetism-collecting-member retaining member; and a second magnetism-collecting-member retaining portion disposed in such a position as to retain the second straight portion and configured to limit a relative movement of the second magnetism collecting member, the first magnetism-collecting-member retaining portion includes: a first magnetism-collecting-member retaining portion body which extends in a rotation-axis direction of the rotary member and is elastically deformable; and a first axial limiting portion disposed at the first magnetism-collecting-member retaining portion body, opposed to an end surface of the first straight portion, the end surface being located on one side in the rotation-axis direction, the first axial limiting portion being configured to limit a relative movement of the first magnetism collecting member in the rotation- axis direction with respect to the magnetism-collecting-member retaining member, and the second magnetism-collecting-member retaining portion includes: a second magnetism-collecting-member retaining portion body which extends in the rotation-axis direction and is elastically deformable; and a second axial limiting portion disposed at the second magnetism-collecting-member retaining portion body, opposed to an end surface of the second straight portion, the end surface being located on one side in the rotation-axis direction, the second axial limiting portion being configured to limit a relative movement of the second magnetism collecting member in the rotation-axis direction with respect to the magnetism-collecting-member retaining member. 2. The torque sensor of claim 1 , wherein the retaining portion is disposed in a position between the first magnetic sensor and the second magnetic sensor in the direction around the rotation axis, the first magnetic sensor and the second magnetic sensor are positioned symmetrically relative to the yoke members. 3. The torque sensor of claim 1 , wherein the first magnetic sensor and the second magnetic sensor are disposed between the first straight portion and the second straight portion. 4. The torque sensor of claim 3 , wherein the first axial limiting portion includes a first inclined surface disposed on an opposite side to the first magnetism collecting member in the rotation-axis direction and inclined relative to the rotation axis, the first inclined surface is so formed that a distance of the first inclined surface to the first magnetic sensor and the second magnetic sensor in a radial direction relative to the rotation axis decreases as the first inclined surface approaches the first magnetic sensor and the second magnetic sensor in the rotation-axis direction, the second axial limiting portion includes a second inclined surface disposed on an opposite side to the second magnetism collecting member in the rotation-axis direction and inclined relative to the rotation axis, and the second inclined surface is so formed that a distance of the second inclined surface to the first magnetic sensor and the second magnetic sensor in the radial direction relative to the rotation axis decreases as the second inclined surface approaches the first magnetic sensor and the second magnetic sensor in the rotation-axis direction. 5. The torque sensor of claim 4 , wherein the first magnetism collecting member is disposed on an outer side of the second magnetism collecting member in the radial direction relative to the rotation axis, the first magnetism-collecting-member retaining portion body is disposed on a radially opposite side of the first straight portion relative to the first magnetic sensor and the second magnetic sensor, the second magnetism collecting member body is disposed on a radially opposite side of the second straight portion relative to the firs