Patent ID: 8395104
Filing Date: 2013-03-12
Classification: G01V

Abstract:
1. A multi-optical axis photoelectric sensor having a light projector and a light receiver, the light projector being equipped with a plurality of light projecting elements, the light projecting elements being arranged inside a light projecting housing having a longitudinal direction and a width direction, and being adapted to project light to outside through a front surface of the light projecting housing, said plurality of light projecting elements being arranged in a line in the longitudinal direction of the light projecting housing, and the light receiver being equipped with a plurality of light receiving elements, the light receiving elements being arranged inside a light receiving housing having a longitudinal direction and a width direction, and being adapted to receive light from the light projecting elements of the light projector through a front surface of the light receiving housing, said plurality of light receiving elements being arranged in a line in the longitudinal direction of the light receiving housing, the light projector and the light receiver being disposed so that light from each of the light projecting elements is projected to the corresponding each of the light receiving elements to thereby constitute multi-optical axes; wherein at least the light projector or the light receiver is provided with a display portion for displaying an operation state of the multi-optical axis photoelectric sensor at a side position in the width direction in the vicinity of the light projecting portion or the light receiving portion of the front surface of the corresponding housing, the display portion including a light emitting element arranged facing the front surface of the corresponding housing in the corresponding housing, and a light guiding body for guiding light emitted by the light emitting element to the front surface of the corresponding housing; and wherein the light guiding body is configured by an incident end face for entering the light of the light emitting element into the light guiding body; an exit end face parallel to the incident end face for exiting the light from inside the light guiding body; and a light guiding path for guiding a light flux entered from the incident end face to the exit end face, the incident end face being arranged to face the light emitting element, the exit end face being arranged to face the front surface of the corresponding housing, a shape of the exit end face of the light guiding body being formed to be longer in a predetermined direction than a shape of the incident end face, and the light guiding body including, in the light guiding path, at least two reflection surfaces for diffusing some of the light flux in a direction of the exit end face by sequentially changing an advancing path of the light; wherein the reflection surfaces are configured by a first reflection surface for reflecting some of the light flux entered from the incident end face in the direction of the exit end face, and a second reflection surface for reflecting the light flux reflected by the first reflection surface in the direction of the exit end face, the second reflection surface being inclined with respect to the first reflection surface such that the light flux reflected by the first reflection surface diffuses in the predetermined direction of the exit end face and reflects in the direction of the exit end face, the first reflection surface being formed such that part of the light flux is reflected by the first reflection surface towards the second reflection surface and any remaining part of the light flux which entered the incident end face advances in the light guiding path without being reflected, thereby, orthogonally to the exit end face, exiting the exit end face.