Vehicle wheel supporting rolling bearing unit

The invention claimed is: 1. A vehicle wheel supporting rolling bearing unit comprising: an outer diameter side bearing ring member having an outer ring raceway on an inner peripheral surface; an inner diameter side bearing ring member having an inner ring raceway on an outer peripheral surface; and a plurality of rolling elements rollably provided between the outer ring raceway and the inner ring raceway, wherein one of the outer diameter side bearing ring member and the inner diameter side bearing ring member is a stationary side bearing ring member which is supported and fixed to a suspension device and non-rotatable in a use state, and the other bearing ring member is a rotation side bearing ring member which is coupled and fixed to a vehicle wheel and is configured to rotate together with the vehicle wheel, and wherein a part of the rotation side bearing ring member is provided with at least three acceleration sensors including a first acceleration sensor, a second acceleration sensor, and a third acceleration sensor which are fixed on a virtual plane orthogonal to a center axis of the rotation side bearing ring member, the first acceleration sensor and the second acceleration sensor are arranged on a virtual line passing through a rotation center of the rotation side bearing ring member with a same distance from the rotation center in a state where detection directions thereof are directed in a radial direction of the rotation side bearing ring member and are opposite to each other in the radial direction, and the third acceleration sensor is arranged such that a detection direction thereof is non-parallel to the detection directions of the first acceleration sensor and the second acceleration sensor. 2. The vehicle wheel supporting rolling bearing unit according to claim 1 , wherein the detection direction of the third acceleration sensor is arranged to be directed in the radial direction of the rotation side bearing ring member. 3. The vehicle wheel supporting rolling bearing unit according to, claim 1 , wherein the third acceleration sensor is arranged on a second virtual line which passes through the rotation center and is orthogonal to the virtual line on which the first acceleration sensor and the second acceleration sensor are arranged. 4. The vehicle wheel supporting rolling bearing unit according to claim 3 , wherein a distance from the rotation center to the third acceleration sensor is equal to the distance from the rotation center to the first and second acceleration sensors. 5. The vehicle wheel supporting rolling bearing unit according to claim 4 , further comprising: a fourth acceleration sensor, wherein the third acceleration sensor and the fourth acceleration sensor are arranged on the second virtual line with a same distance from the rotation center in a state where detection directions thereof are directed in the radial direction of the rotation side bearing ring member and are opposite to each other in the radial direction. 6. The vehicle wheel supporting rolling bearing unit according to claim 1 further comprising: a rotation angle detection device configured to detect a rotation angle of the rotation side bearing ring member. 7. The vehicle wheel supporting rolling bearing unit according to claim 1 , further comprising: an electric generator which includes a stator and a rotator concentrically arranged with each other and is configured to generate electric power to be supplied to each of the acceleration sensors based on relative rotation between the stator and the rotator. 8. A vehicle wheel supporting rolling bearing unit comprising: an outer diameter side bearing ring member having an outer ring raceway on an inner peripheral surface; an inner diameter side bearing ring member having an inner ring raceway on an outer peripheral surface; and a plurality of rolling elements rollably provided between the outer ring raceway and the inner ring raceway, wherein one of the outer diameter side bearing ring member and the inner diameter side bearing ring member is a stationary side bearing ring member which is supported and fixed to a suspension device and non-rotatable in a use state, and the other bearing ring member is a rotation side bearing ring member which is coupled and fixed to a vehicle wheel and is configured to rotate together with the vehicle wheel, and wherein a part of the rotation side bearing ring member is provided with at least two acceleration sensors including a first triaxial acceleration sensor and a second triaxial acceleration sensor which are fixed on a virtual plane orthogonal to a center axis of the rotation side bearing ring member, and the first triaxial acceleration sensor and the second triaxial acceleration sensor are arranged on a virtual line passing through a rotation center of the rotation side bearing ring member with a same distance from the rotation center in a state where a first detection direction among three detection directions of the first triaxial acceleration sensor and a first detection direction among three detection directions of the second triaxial acceleration sensor are directed in a radial direction of the rotation side bearing ring member and are opposite to each other in the radial direction.