Method and apparatus for measuring cross sectional dimensions of sectional steel
First Claim
1. A method of measuring cross sectional dimensions of an intermediate product of sectional steel during the course of rolling by simultaneously horizontally reciprocating two laser range finders which are disposed opposite to each other in a vertical direction of the sectional steel, the laser range finders reciprocating in a direction crossing a conveyance line of the sectional steel, comprising the steps of:
- irradiating said sectional steel with a laser beam at a predetermined angle from each of said laser range finders to measure a first plurality of positions of said laser range finders, a first plurality of distances to said sectional steel and a first plurality of irradiation angles in forward traveling, the predetermined angle being in relation to the vertical direction of the sectional steel;
irradiating said sectional steel with a laser beam at an angle different from the predetermined angle in forward traveling to measure a second plurality of positions of said laser range finders, a second plurality of distances to said sectional steel and a second plurality of irradiation angles in backward traveling;
selecting measurement data at a position on said sectional steel from the measurement data obtained to output space coordinates of a section of said sectional steel so that the selected measurement data for the position coincide with each other; and
computing shape information from the space coordinates.
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Accused Products
Abstract
Cross sectional dimensions of an intermediate product of sectional steel are measured in the course of rolling, by simultaneously, horizontally reciprocating, in the direction transverse to a conveyance line of the sectional steel, two laser range finders which are disposed vertically opposite to each other. The method and apparatus are capable of determining, precisely and automatically, a sectional shape of the H-beam in an on-line manner, thereby improving product quality and yield.
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Citations
5 Claims
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1. A method of measuring cross sectional dimensions of an intermediate product of sectional steel during the course of rolling by simultaneously horizontally reciprocating two laser range finders which are disposed opposite to each other in a vertical direction of the sectional steel, the laser range finders reciprocating in a direction crossing a conveyance line of the sectional steel, comprising the steps of:
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irradiating said sectional steel with a laser beam at a predetermined angle from each of said laser range finders to measure a first plurality of positions of said laser range finders, a first plurality of distances to said sectional steel and a first plurality of irradiation angles in forward traveling, the predetermined angle being in relation to the vertical direction of the sectional steel; irradiating said sectional steel with a laser beam at an angle different from the predetermined angle in forward traveling to measure a second plurality of positions of said laser range finders, a second plurality of distances to said sectional steel and a second plurality of irradiation angles in backward traveling; selecting measurement data at a position on said sectional steel from the measurement data obtained to output space coordinates of a section of said sectional steel so that the selected measurement data for the position coincide with each other; and computing shape information from the space coordinates. - View Dependent Claims (2, 3, 4)
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5. An apparatus for measuring cross sectional dimensions of sectional steel comprising:
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a frame, the frame at least partially surrounding a conveyance line of sectional steel; an upper laser range finder tiltably provided at an upper portion of the frame, said upper laser range finder generating a first laser beam and being capable of determining a distance to said sectional steel; upper laser beam irradiation angle detecting means for detecting a first irradiation angle of the first laser beam generated by said upper laser range finder; upper laser range finder moving means supporting said upper laser range finder and said upper laser beam irradiation angle detecting means, said upper laser range finder moving means being movable in a horizontal direction that is transverse to said conveyance line; upper laser range finder position detecting means for detecting a position to which said upper laser range finder is moved; a lower laser range finder tiltably provided at a lower portion of said frame opposite to said upper laser range finder, said lower laser range finder generating a second laser beam and being capable of determining a distance to said sectional steel; lower laser beam irradiation angle detecting means for detecting a second irradiation angle of the second laser beam generated by said lower laser range finder; lower laser range finder moving means supporting said lower laser range finder and said lower laser beam irradiation angle detecting means, said lower laser range finder moving means being movable in a horizontal direction that is transverse to said conveyance line; lower laser range finder position detecting means for detecting a position to which said lower laser range finder is moved; and sectional shape computing means for determining a sectional shape profile of said sectional steel from space coordinates, said space coordinates being obtained based on phase matched measurements of the positions of said upper and lower laser range finders, distances to said sectional steel, and irradiation angles of said upper and lower laser range finders as said upper and lower laser range finder moving means reciprocates transverse to said conveyance line.
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Specification