Optical measuring method

US 4,172,661 A
Filed: 05/23/1978
Issued: 10/30/1979
Est. Priority Date: 05/23/1978
Status: Expired due to Term

First Claim

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1. A method for determining the wear of the surface of an object by making a series of measurements of the relative position of a measured point on the surface of an object in an object related co-ordinate system having coordinate axes where the object is turnable around an axle, said axle being stationary both in said object related co-ordinate system and in an earth related co-ordinate system having co-ordinate axes, said measurements being effected by means of a distance--and angle-measuring device placed in an arbitrary position in said earth related co-ordinate system;

comprising the steps ofa. measuring the position of a mark on the object as the object is tilted in at least three different tilting positions around said axle,b. calculating the perpendicular of a plane going through the measured positions of said mark and the centre of the circle going through said positions, the perpendicular line going through the centre being said axle,c. evaluating the position in said earth related system of a line along one of the co-ordinate axes in said object related co-ordinate system the object being in a fixed position, and establishing the origin of said object related system,d. calculating the other co-ordinate axes of said object related co-ordinate system in said earth related co-ordinate system using a known relation between said axle and said line evaluated in step c, so that said measured point with known co-ordinates in said earth related co-ordinate system is transformed to co-ordinates in said object related co-ordinate system,e. comparing the co-ordinates of said measured point of said object related co-ordinates of said system with the co-ordinates of said measured point taken at an earlier time to determine the change of position of said measured point and hence the wear of the surface of the object.

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Abstract

A method of making a series of measurements of the relative position of a point on the surface of an object in an object related coordinate system is disclosed. The object is turnable around an axle. The point, which moves between each measurement, is measured by an optical distance and angle measuring device which is placed each time in an arbitrary position in an earth-related coordinate system. The measurements of the position of said point are transformed from an earth related coordinate system to the object related coordinate system. By comparing the current measurement of the point with past measurements of the point, the wear on the surface of the object can be determined.

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11 Claims

1. A method for determining the wear of the surface of an object by making a series of measurements of the relative position of a measured point on the surface of an object in an object related co-ordinate system having coordinate axes where the object is turnable around an axle, said axle being stationary both in said object related co-ordinate system and in an earth related co-ordinate system having co-ordinate axes, said measurements being effected by means of a distance--and angle-measuring device placed in an arbitrary position in said earth related co-ordinate system;
- comprising the steps ofa. measuring the position of a mark on the object as the object is tilted in at least three different tilting positions around said axle,b. calculating the perpendicular of a plane going through the measured positions of said mark and the centre of the circle going through said positions, the perpendicular line going through the centre being said axle,c. evaluating the position in said earth related system of a line along one of the co-ordinate axes in said object related co-ordinate system the object being in a fixed position, and establishing the origin of said object related system,d. calculating the other co-ordinate axes of said object related co-ordinate system in said earth related co-ordinate system using a known relation between said axle and said line evaluated in step c, so that said measured point with known co-ordinates in said earth related co-ordinate system is transformed to co-ordinates in said object related co-ordinate system,e. comparing the co-ordinates of said measured point of said object related co-ordinates of said system with the co-ordinates of said measured point taken at an earlier time to determine the change of position of said measured point and hence the wear of the surface of the object.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A method according to claim 1, wherein the evaluation of said line in step d. is made by measuring at least three non-collinear marks on said object having said object clamped in a tilting position showing said marks, said marks having a known relation to an axis of said object going along one of the co-ordinates axes of said object related co-ordinate system.
  - 3. A method according to claim 1, wherein the evaluation of said line in step d. is made by means of measuring to a point of said object with known position in said object related co-ordinate system and by means of the known relation between said line and said axle in said object related co-ordinate system.
  - 4. A method according to claim 1, wherein when the position of said axle in relation to the position of said distance- and angle-measuring device is measured, a second earth related aid co-ordinate system pertaining to said axle is calculated, said aid co-ordinate system preferably having its first co-ordinate axes along said axle, its second co-ordinate axes perpendicular to said axle and a true vertical and its third co-ordinate axes orthogonal to the other two, said aid co-ordinate system preferably having its origin at the intersection point between said axle and a line having the shortest distance between said axle and said line evaluated in step c.
  - 5. A method according to claim 2, wherein as a step e. measuring is made of at least one stable and visible mark on said object in said clamped position and a co-ordinate transformation from said earth related to said object related co-ordinate system is made for the measured position of said point, the result being stored and used at later measuring procedures for evaluating said line in step c. since a calculation of said object related co-ordinates of said mark is a base for resolution of the tilting angle and point measurements.
  - 6. A method according to claim 1, wherein as a further step a measurement is made of at least two marks stationary in said earth related co-ordinate system having determinable relation to the location of said axle in said earth related co-ordinate system and storing the obtained invariable parameter preferably on a permanent computer memory.

7. A method for determining the wear of the surface of an object by making a series of measurements of the relative location of a measured point on the surface of an object in an object related co-ordinate system having co-ordinate axes where the object is turnable around an axle, said axle being stationary both in said object related co-ordinate system and in an earth related co-ordinate system having co-ordinate axes, said measurements being effected by means of a distance--and angle--measuring device placed in an arbitrary position in said earth related co-ordinate system;
- comprising the steps ofa. measuring the location of at least two marks in space with a determinable relation to the location of said axle in said earth related co-ordinate system,b. calculating the related location of said axle and said distance measuring device using the measuring result of said marks measured in step a. in said earth related co-ordinate system,c. measuring the angular position of said object around said axle in relation to a reference position in said earth related co-ordinate system,d. calculating the related location between a line in said object with a predetermined position in said object related co-ordinate system different from the position of said axle and said distance measuring device in said earth related co-ordinate system using the measuring results from the measuring in steps a. and c.,e. measuring said point, whose location is to be determined,f. calculating the position of said point in said object related co-ordinate system using the locations of said axle calculated in step b. and of said line calculated in step c. and the position of said point in said earth related co-ordinate system; and
  
  g. comparing the location of said point in said object related system with the location of said point taken at an earlier time to determine the change in location of said point and hence the wear of the surface of the object.
- View Dependent Claims (8, 9, 10, 11)
- - 8. A method according to claim 7, wherein said marks are two and where a line parallel to said axle is derived from the measuring results of said marks and the position of said axle is determined from the derived direction and the known relation to one of said marks.
  - 9. A method according to claim 7, wherein the measuring of the angular position of said object is made by measurement of a mark on said object with known position in said object related co-ordinate system.
  - 10. A method according to claim 7, wherein the measuring of the angular position of said object is made by reading off an angular measuring device placed on said axle.
  - 11. A method according to claim 7, wherein said marks in space are known in an earth related co-ordinate aid system having one co-ordinate axis along said axle and another co-ordinate axis horizontally directed, said aid system being determined in relation to a natural earth related co-ordinate system with origin at the distance measuring device by the measurement made under step c., and that all calculations regarding the location of said object related co-ordinate system are transformed to said natural system.

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Current Assignee
Geotronics AB
Original Assignee
AGA AB (Linde Plc)
Inventors
Nordstrom, Lennart, Marcus, Holger
Primary Examiner(s)
Buczinski, S. C.

Application Number

US05/908,689
Time in Patent Office

525 Days
Field of Search

356/141, 356/152, 356/5, 364/460
US Class Current

356/4.01
CPC Class Codes

G01B 11/026 by measuring distance betwe...

G01C 15/00 Surveying instruments or ac...

Optical measuring method

First Claim

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Abstract

Citations

11 Claims

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Optical measuring method

First Claim

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Abstract

Citations

11 Claims

Specification

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