Roller bearing having sensor, motor, and actuator

摘要

A sensor (20) arranged in a deep groove ball bearing (10) includes an encoder (22) attached at an inner ring (1) to be rotatable integrally with the inner ring (1), and a magnetism detecting element (24) attached at an outer ring (2) via a sensor housing (26) to face the encoder (22) with a sensor gap. Then, the magnetism detecting element (24) is capable of measuring a rotating state of the encoder (22) rotating in the rotating state identical to that of the inner ring (1) in conjunction with a rotation of the inner ring (1). The deep groove ball bearing (10) includes a foreign material entering prevention portion that prevents a foreign material from entering the inside of the bearing from a gap between the inner ring (1) and the sensor housing (26). The size of the gap between the inner ring (1) and the sensor housing (26) is substantially identical to the sensor gap between the magnetism detecting element (24) and the encoder (22), and the gap configures non-contact seal and functions as the foreign material entering prevention portion.

主权项

1. A rolling bearing having a sensor, comprising:
a rotating ring configured to be rotatable; a fixed ring configured to rotatably support the rotating ring; a plurality of rolling elements rollably arranged between a raceway face of the rotating ring and a raceway face of the fixed ring; and a sensor configured to measure a rotating state of the rotating ring, wherein following conditions A, B, C, D, and M are satisfied, condition A: the sensor comprises: a detected object portion attached to the rotating ring to be rotatable integrally with the rotating ring; and a detecting portion attached to the fixed ring to face the detected object portion with a sensor gap, wherein the detecting portion is configured to measure the rotating state of the detected object portion in conjunction with a rotation of the rotating ring, condition B: the detecting portion is attached to the fixed ring via a sensor housing having a substantially ring shape configured to hold the detecting portion, and the sensor housing is attached at an end portion in an axial direction of the fixed ring, condition C: a foreign material entering prevention portion configured to prevent a foreign material from entering the inside of the rolling bearing from a gap between the rotating ring and the sensor housing is arranged, condition D: the foreign material entering prevention portion is non-contact seal configured by the rotating ring and the sensor housing facing each other via the gap between the rotating ring and the sensor housing, and a size of the gap between the rotating ring and the sensor housing is substantially identical to a size of the sensor gap, and condition M: a protrusion configured to protrude toward an inner side of the rolling bearing in the axial direction is arranged at an end face of the sensor housing in the axial direction, and the non-contact seal is configured by a side face of the protrusion and an outer circumferential face of the rotating ring facing each other via the gap between the rotating ring and the sensor housing in a radial direction.