Optoelectronic sensor for recognizing object edges
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01D-005/26
G01B-011/02
출원번호
US-0270737
(2014-05-06)
등록번호
US-9677914
(2017-06-13)
우선권정보
EP-13167070 (2013-05-08)
발명자
/ 주소
Merettig, Gerhard
Bergbach, Roland
Schonstein, Matthias
Horsch, Ingolf
Gotz, Matthias
Bohli, Alexander
출원인 / 주소
SICK AG
대리인 / 주소
Nath, Goldberg & Meyer
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
An optoelectronic sensor for recognizing object edges of objects comprises at least three light transmitters which are arranged such that at least two different spacings result between two respective light transmitters. For recognizing an object edge, an evaluation unit is configured to carry out a
An optoelectronic sensor for recognizing object edges of objects comprises at least three light transmitters which are arranged such that at least two different spacings result between two respective light transmitters. For recognizing an object edge, an evaluation unit is configured to carry out a common evaluation of an image taken by a light receiver of a light spot generated by the transmitted light beams of a first light transmitter and of an image taken by a light receiver of a light spot generated by the transmitted light beams of another light transmitter. The pair of light transmitters to be used for the common evaluation can be selected in dependence on a selection criterion from at least two differently spaced apart pairs of light transmitters.
대표청구항▼
1. An optoelectronic sensor (11) for recognizing object edges (29) of objects (23), comprising at least three light transmitters (15) for generating respective collimated or focused transmitted light beams (21), wherein the light transmitters (15) are arranged such that at least two different spacin
1. An optoelectronic sensor (11) for recognizing object edges (29) of objects (23), comprising at least three light transmitters (15) for generating respective collimated or focused transmitted light beams (21), wherein the light transmitters (15) are arranged such that at least two different spacings (D1, D2, D3) result between two respective light transmitters (15) of the at least three light transmitters (15);comprising at least one light receiver (17) for taking light spots generated by the transmitted light beams (21) on an object (23); andcomprising an evaluation unit (25) which is configured,for the recognition of an object edge (29), to carry out a common evaluation(i) of an image taken by a light receiver (17) of a light spot generated by the transmitted light beams (21) of a first light transmitter (15) of the at least three light transmitters (15); and(ii) of an image taken by a light receiver (17) of a light spot generated by the transmitted light beams (21) of another light transmitter (15) of the at least three light transmitters (15),wherein the pair of light transmitters (15) to be used for the common evaluation is selected in dependence on a selection criterion from at least two differently spaced apart pairs of light transmitters (15);wherein the selection criterion comprises at least one of an expected radius of curvature of an object edge (29) and a quality signal generated with reference to the reception intensities of the images of the light spots taken by the light receivers (17). 2. The sensor in accordance with claim 1, wherein, for recognizing an object edge (29), the sensor (11) is configured to carry out respective common evaluations simultaneously or consecutively for at least two differently spaced apart pairs of light transmitters (15). 3. The sensor in accordance with claim 2, wherein the sensor (11) is configured to use each of the carried out common evaluations for recognizing an object edge (29). 4. The sensor in accordance with claim 1, wherein at least four light transmitters (15) spaced apart from one another are provided, with the evaluation unit (25) being able to carry out a respective common evaluation for at least two differently spaced apart pairs of light transmitters (15). 5. The sensor in accordance with claim 1, wherein exactly four light transmitters (15) spaced apart from one another are provided, with the evaluation unit (25) being able to carry out a respective common evaluation for at least two differently spaced apart pairs of light transmitters (15). 6. The sensor in accordance with claim 1, wherein the light transmitters (15) are arranged on a line. 7. The sensor in accordance with claim 6, wherein the line extends transversely to an expected object edge (29). 8. The sensor in accordance with claim 6, wherein the light transmitters (15) are arranged on a straight line. 9. The sensor in accordance with claim 6, wherein the light transmitters (15) are arranged at a uniform spacing on the line. 10. The sensor in accordance with claim 1, wherein a separate transmission optics (20) is associated with each of the at least three light transmitters (15). 11. The sensor in accordance with claim 10, wherein the separate transmission optics (20) is a transmission lens. 12. The sensor in accordance with claim 1, wherein a common transmission optics (20′) is associated with the at least three light transmitters (15). 13. The sensor in accordance with claim 12, wherein the common transmission optics (20′) is a transmission lens. 14. The sensor in accordance with claim 1, wherein the at least three light transmitters (15) are formed by respective semiconductor light sources which are arranged on a common semiconductor crystal (31, 33). 15. The sensor in accordance with claim 1, wherein the sensor (11) is configured to control the at least three light transmitters (15) alternatingly. 16. An optoelectronic sensor (11) for recognizing object edges (29) of objects (23), comprising at least three light transmitters (15) for generating respective collimated or focused transmitted light beams (21), wherein the light transmitters (15) are arranged such that at least two different spacings (D1, D2, D3) result between two respective light transmitters (15) of the at least three light transmitters (15);comprising at least one light receiver (17) for taking light spots generated by the transmitted light beams (21) on an object (23); andcomprising an evaluation unit (25) which is configured,for the recognition of an object edge (29), to carry out a common evaluation(i) of an image taken by a light receiver (17) of a light spot generated by the transmitted light beams (21) of the first light transmitter (15) of the at least three light transmitters (15); and(ii) of an image taken by a light receiver (17) of a light spot generated by the transmitted light beams (21) of another light transmitter (15) of the at least three light transmitters (15),wherein the pair of light transmitters (15) to be used for the common evaluation is selected in dependence on a selection criterion from at least two differently spaced apart pairs of light transmitters (15);wherein, for recognizing an object edge (29), the sensor (11) is configured to carry out respective common evaluations simultaneously or consecutively for at least two differently spaced apart pairs of light transmitters (15);wherein the sensor (11) is configured to use only one of the carried out common evaluations for recognizing an object edge (29) in dependence on the selection criterion. 17. An optoelectronic sensor (11) for recognizing object edges (29) of objects (23), comprising at least three light transmitters (15) for generating respective collimated or focused transmitted light beams (21), wherein the light transmitters (15) are arranged such that at least two different spacings (D1, D2, D3) result between two respective light transmitters (15) of the at least three light transmitters (15);comprising at least one light receiver (17) for taking light spots generated by the transmitted light beams (21) on an object (23); andcomprising an evaluation unit (25) which is configured,for the recognition of an objected edge (29), to carry out a common evaluation(i) of an image taken by a light receiver (17) of a light spot generated by the transmitted light beams (21) of a first light transmitter (15) of the at least three light transmitters (15); and(ii) of an image taken by a light receiver (17) of a light spot generated by the transmitted light beams (21) of another light transmitter (15) of the at least three light transmitters (15),wherein the pair of light transmitters (15) to be used for the common evaluation is selected in dependence on a selection criterion from at least two differently spaced apart pairs of light transmitters (15);wherein, for recognizing an object edge (29), the sensor (11) is configured to carry out respective common evaluations simultaneously or consecutively for at least two differently spaced apart pairs of light transmitters (15);wherein the sensor (11) is configured to use each of the carried out common evaluations for recognizing an object edge (29);wherein the sensor (11) is configured to carry out the recognition of an object edge (29) with reference to a logical link of the two common evaluations carried out for the two differently spaced apart pairs of light transmitters (15). 18. A method of recognizing object edges (29) of objects (23), wherein at least two light spots are generated on an object (23) simultaneously or consecutively;the images of the generated light spots are taken by means of at least one light receiver (17); and(i) an image taken by a light receiver (17) of a first light spot of the at least two light spots; and(ii) an image taken by a light receiver (17) of another light spot of the at least two light spotsare jointly evaluated,wherein the light spots are generated by a pair of light transmitters (15) of an arrangement of at least three light transmitters (15) which are arranged such that at least two different spacings (D1, D2, D3) result between two respective light transmitters (15) of the at least three light transmitters (15); and whereinthe pair of light transmitters (15) is selected in dependence on a selection criterion from at least two differently spaced apart pairs of light transmitters (15);wherein at least one of an expected radius of curvature of an object edge (29) and a quality signal generated with reference to the reception intensities of the images of the light spots taken by the light receivers (17) is used as a selection criterion.
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