Dimension measuring apparatus
First Claim
1. Apparatus for measuring the distance between two opposite edges of a luminous object, the apparatus comprising first and second cameras arranged to be disposed, in use, on opposite sides of the object with their optical axes substantially aligned and substantially perpendicular to the distance to be measured, each camera containing a respective row of photosensitive devices on which the camera produces, in use, an image of a respective one of said edges, the rows of devices being symmetrically disposed on each side of the common optical axis, and each row of devices being associated with scanning means capable of scanning the devices from the end of the row remote from the common optical axis to the end of the row nearer to the common optical axis, to determine the position therealong of said image and thereby determine the position of the corresponding edge of the object.
1 Assignment
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Accused Products
Abstract
A width gauge for measuring the width of self-radiating (i.e. hot) rolled material comprises a camera containing two linear arrays of photodiodes, the camera being arranged to produce on each array an image of a respective one of the edges of the material. To avoid problems in detecting the edges caused by dark spots which may be produced on the material by slag or uneven cooling, both arrays are scanned from the less illuminated end of the array to the more illuminated end.
Other embodiments employ multi-camera arrangements to improve accuracy and/or correct errors due to changes in the position of the material, and a further embodiment employs a monochromatic light source to back-light the material and a filter in the camera matched to the light source.
22 Citations
4 Claims
- 1. Apparatus for measuring the distance between two opposite edges of a luminous object, the apparatus comprising first and second cameras arranged to be disposed, in use, on opposite sides of the object with their optical axes substantially aligned and substantially perpendicular to the distance to be measured, each camera containing a respective row of photosensitive devices on which the camera produces, in use, an image of a respective one of said edges, the rows of devices being symmetrically disposed on each side of the common optical axis, and each row of devices being associated with scanning means capable of scanning the devices from the end of the row remote from the common optical axis to the end of the row nearer to the common optical axis, to determine the position therealong of said image and thereby determine the position of the corresponding edge of the object.
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4. Apparatus for sensing the position of the edge of an object which may emit light, the apparatus comprising a camera containing a row of photosensitive devices on which the camera produces, in use, an image of said edge, and means for scanning the row of devices to determine the position therealong of said image and thereby determine the position of said edge, further comprising a substantially monochromatic light source disposed on the opposite side of the object to the camera, said light source comprising a low-pressure sodium-vapor lamp, and an optical band pass filter of the narrow-band, interference type disposed between the object and the camera, and arranged preferentially to transmit light of the wavelength produced by the light source, and wherein the low-pressure sodium-vapor lamp is adapted to be energized by the normal alternating mains supply voltage, and the scanning means is arranged to scan the row of devices at intervals of approximately T seconds, where T is half the period of said normal alternating mains supply voltage.
Specification