Method and apparatus for controlling a surface scanning coordinate measuring machine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01B-005/004
G05B-019/401
G01B-005/008
G05B-019/404
G01B-021/04
출원번호
US-0814278
(2011-09-13)
등록번호
US-9217997
(2015-12-22)
국제출원번호
PCT/US2011/051295
(2011-09-13)
§371/§102 date
20130306
(20130306)
국제공개번호
WO2012/037059
(2012-03-22)
발명자
/ 주소
Racine, Paul P.
출원인 / 주소
Hexagon Technology Center GmbH
대리인 / 주소
Sunstein Kann Murphy & Timbers LLP
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
A method improves surface scanning measure machine speed while minimizing tip touchdown impact on the surface of the object being measured. Specifically, the method controls a surface scanning measuring machine having a probe head with a distal probe tip that contacts the surface of an object to be
A method improves surface scanning measure machine speed while minimizing tip touchdown impact on the surface of the object being measured. Specifically, the method controls a surface scanning measuring machine having a probe head with a distal probe tip that contacts the surface of an object to be measured. To that end, the method selects a nominal initial contact point (on the surface) having a normal vector, and then moves the distal probe tip toward the nominal initial contact point along an approach path. The approach path has a generally linear portion that generally linearly extends from the nominal initial contact point to some non-contacting point spaced from the surface. The generally linear portion forms an angle of between about 20 degrees and about 60 degrees with the normal vector.
대표청구항▼
1. A method of controlling a surface scanning measuring machine having a probe head with a distal probe tip, the distal probe tip being configured for contacting the surface of an object to be measured, the method comprising: selecting a nominal initial contact point on the surface, the nominal init
1. A method of controlling a surface scanning measuring machine having a probe head with a distal probe tip, the distal probe tip being configured for contacting the surface of an object to be measured, the method comprising: selecting a nominal initial contact point on the surface, the nominal initial contact point having a normal vector; andmoving the distal probe tip toward the nominal initial contact point along an approach path from a release path of a previous contact with the surface of the object, the approach path having a generally linear portion that generally linearly extends from the nominal initial contact point to a non-contacting point spaced from the surface between the release path and the approach path, the generally linear portion forming an angle with the normal vector of between about 20 degrees and about 60 degrees. 2. The method as defined by claim 1 further comprising: moving the distal probe tip along an offset path and to an initial scan point from a contact point related to the nominal initial contact point;moving the distal tip along a scan path from the initial scan point and along the surface of the object, the distal probe tip moving continually along and between the approach path, the offset path, and the scan path. 3. The method as defined by claim 1 wherein the generally linear portion forms an angle with the normal vector of between about 20 and about 55 degrees. 4. The method as defined by claim 1 further comprising: moving the distal probe tip along a release path where the tip moves away from contact with the surface of the object, the release path beginning after the scan path,the distal probe tip moving continually along and between the scan path and the release path. 5. The method as defined by claim 4 further comprising: selecting a second nominal initial contact point on the surface, the second nominal initial contact point having second normal vector; andafter moving the distal probe tip from the release path, moving the distal probe tip into contact with the second nominal initial contact point along a second approach path, the second approach path having a second generally linear portion that generally linearly extends from the second nominal contact point to some second non-contacting point spaced from the surface, the second generally linear portion forming an angle with the second normal vector of between about 20 degrees and about 59 degrees. 6. The method as defined by claim 5 wherein the distal probe tip moves continually along and between the release path and the second approach path. 7. The method as defined by claim 1 further comprising: moving the probe head downwardly and settling at an offset after moving the distal probe tip into contact with a contact point related to the nominal initial contact point, the probe head overshooting the offset before settling at the offset. 8. The method as defined by claim 1 further comprising: moving the probe head downwardly and settling at an offset after moving the distal probe tip into contact with a contact point related to the nominal initial contact point, the probe head oscillating above and below the offset before settling at the offset. 9. A method of controlling a surface scanning measuring machine having a probe head with a distal probe tip, the distal probe tip being configured for contacting the surface of an object to be measured, the method comprising: selecting a nominal initial contact point on the surface, the nominal initial contact point having a normal vector;moving the distal probe tip toward the nominal initial contact point along an approach path from a release path of a previous contact with the surface of the object, the approach path having a generally linear portion that generally linearly extends from the nominal initial contact point to a non-contacting point spaced from the surface between the release path and the approach path, the generally linear portion forming an angle with the normal vector of less than about 60 degrees; andmoving the distal probe tip along an offset path to an initial scan point,the distal probe tip moving continually along and between the approach path and the offset path. 10. The method as defined by claim 9 wherein the generally linear portion forms an angle with the normal vector of between about 0 and about 5 degrees. 11. The method as defined by claim 9 further comprising moving the distal probe tip into contact with an actual contact point on the surface, the actual contact point being related to the nominal initial contact point, the offset path beginning at the actual contact point. 12. The method as defined by claim 11 further comprising: moving the probe tip through the nominal initial contact point without contacting the actual contact point; andreducing the angle of the approach path relative to the normal vector after the probe tip passes through the nominal initial contact point and before the probe tip contacts the actual contact point. 13. The method as defined by claim 12 wherein the approach path has a logarithmic shape after the probe tip passes through the nominal initial contact point and before the probe tip contacts the actual contact point. 14. A surface scanning measuring machine for contacting the surface of an object to be measured, the surface scanning measuring machine comprising: a probe head with a distal probe tip;a controller operatively coupled with the probe head, the controller being configured to select a nominal initial contact point on the surface, the nominal initial contact point having a normal vector; anda drive mechanism operatively coupled with the controller, the drive mechanism being configured to cooperate with the controller to move the distal probe tip toward the nominal initial contact point along an approach path from a release path of a previous contact with the surface of the object, the approach path having a generally linear portion that generally linearly extends from the nominal initial contact point to a non-contacting point spaced from the surface between the release path and the approach path, the generally linear portion forming an angle with the normal vector of between about 20 degrees and about 60 degrees. 15. The surface scanning machine as defined by claim 14 wherein the drive mechanism is configured to cooperate with the controller to move the distal probe tip from an actual contact point related to the nominal initial contact point along an offset path and to an initial scan point, the drive mechanism also being configured to cooperate with the controller to move the distal tip along a scan path from the initial scan point and along the surface of the object, the distal probe tip moving continually along and between the approach path, the offset path, and the scan path. 16. The surface scanning machine as defined by claim 14 wherein the generally linear portion forms an angle with the normal vector of between about 20 and about 55 degrees. 17. The surface scanning machine as defined by claim 14 wherein the drive mechanism is configured to cooperate with the controller to move the distal probe tip along a release path where the tip moves away from contact with the surface of the object, the release path beginning after the scan path, the distal probe tip moving continually along and between the scan path and the release path. 18. The surface scanning machine as defined by claim 17 wherein the drive mechanism is configured to cooperate with the controller to 1) select a second nominal initial contact point on the surface, the second nominal initial contact point having second normal vector, and 2) after moving the distal probe tip from the release path, move the distal probe tip into contact with the second contact point related to the second nominal initial contact point along a second approach path, the second approach path having a second generally linear portion that generally linearly extends from the second contact point to some second non-contacting point spaced from the surface, the second generally linear portion forming an angle with the second normal vector of equal to or greater than about 20 degrees and less than about 59 degrees. 19. The surface scanning machine as defined by claim 18 wherein the distal probe tip moves continually along and between the release path and the second approach path. 20. The surface scanning machine as defined by claim 14 wherein the drive mechanism is configured to cooperate with the controller to move the probe head downwardly and settle at an offset after moving the distal probe tip into contact with an actual contact point related to the nominal initial contact point, the probe head overshooting the offset before settling at the offset. 21. The surface scanning machine as defined by claim 14 wherein the drive mechanism is configured to cooperate with the controller to move the probe head downwardly and settle at an offset after moving the distal probe tip into contact with an actual contact point related to the nominal initial contact point, the probe head oscillating above and below the offset before settling at the offset. 22. A computer program product for use on a computer system for controlling a surface scanning measuring machine having a probe head with a distal probe tip, the distal probe tip being configured for contacting the surface of an object to be measured, the computer program product comprising a tangible computer usable medium having computer readable program code thereon, the computer readable program code comprising: program code that selects a nominal initial contact point on the surface, the nominal initial contact point having a normal vector; andprogram code that moves the distal probe tip into contact with the nominal initial contact point along an approach path from a release path of a previous contact with the surface of the object, the approach path having a generally linear portion that generally linearly extends from the nominal initial contact point to a non-contacting point spaced from the surface between the release path and the approach path, the generally linear portion forming an angle with the normal vector of between about 20 degrees and about 60 degrees. 23. The computer program product as defined by claim 22 further comprising: program code that moves the distal probe tip from an actual contact point related to the nominal initial contact point along an offset path and to an initial scan point;program code that moves the distal tip along a scan path from the initial scan point and along the surface of the object,the distal probe tip moving continually along and between the approach path, the offset path, and the scan path. 24. The computer program product as defined by claim 22 wherein the generally linear portion forms an angle with the normal vector of between about 20 and about 55 degrees. 25. The computer program product as defined by claim 22 further comprising: program code that moves the distal probe tip along a release path where the tip moves away from contact with the surface of the object, the release path beginning after the scan path,the distal probe tip moving continually along and between the scan path and the release path. 26. The computer program product as defined by claim 25 further comprising: program code that selects a second nominal initial contact point on the surface, the second nominal initial contact point having second normal vector; andprogram code that moves the distal probe tip into contact with a second actual contact point along a second approach path after moving the distal probe tip from the release path, the second approach path having a second generally linear portion that generally linearly extends from the second actual contact point to some second non-contacting point spaced from the surface, the second generally linear portion forming an angle with the second normal vector of equal to or greater than about 20 degrees and less than about 59 degrees. 27. The computer program product as defined by claim 26 wherein program code that moves has program code that causes the distal probe tip to move continually along and between the release path and the second approach path. 28. The computer program product as defined by claim 22 further comprising: program code that moves the probe head downwardly to settle at an offset after moving the distal probe tip into contact with an actual contact point related to the nominal initial contact point, the probe head overshooting the offset before settling at the offset. 29. The computer program product as defined by claim 22 further comprising: program code that moves the probe head downwardly to settle at an offset after moving the distal probe tip into contact with an actual contact point related to the nominal initial contact point, the probe head oscillating above and below the offset before settling at the offset. 30. The method as defined by claim 1 further comprising: moving the distal tip along a scan path along the surface of the object;defining a plurality of zones that are spaced from the surface; andassigning a tag to a plurality of points of the object surface along the scan path, each tag being assigned as a function of the tag's point and the plurality of zones.
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이 특허에 인용된 특허 (10)
Ruck Otto,DEX ; Bernhardt Ralf,DEX ; Wimmer Martin,DEX, Coordinate measuring apparatus and method for controlling the same.
Breyer Karl-Hermann (Heidenheim DEX) Kammleiter Berndt (Oberkochen DEX) Ruck Otto (Pfahlheim DEX), Method of measuring elemental shapes of a workpiece on a coordinate measuring machine.
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