Method and apparatus for determining the internal dimension of hollow bodies
First Claim
1. A method of determining dimensions of elongated hollow bodies by X-rays or gamma rays comprising the steps of irradiating a hollow body with a radiation source being outside of said hollow body, and measuring an intensity variation at an opposite side of said hollow body from said radiation source by carrying out measurements along a line transverse to an axis through said hollow body and extending in a plane through said radiation source transverse of said axis, wherein minimum intensity values representative of edge locations of said hollow body are provided in said plane, the distance between said minimum intensity values representing said dimensions of said hollow body.
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Accused Products
Abstract
For the testing of notably deep-drawn tubes during manufacture it is important that the thickness of the tube can be checked. When the tubes are heated during manufacture, this measurement cannot be performed by means of a device where the X-ray source and the filter are to be arranged inside the tube. In accordance with the invention, the radiation source is arranged outside the tube and this tube is tangentially irradiated. The maximum values and minimum values of the radiation relief thus generated in a relationship perpendicularly to the tube axis indicate the position of the outer wall and the inner wall of the tube. The wall thickness of the tube can be derived therefrom.
42 Citations
15 Claims
- 1. A method of determining dimensions of elongated hollow bodies by X-rays or gamma rays comprising the steps of irradiating a hollow body with a radiation source being outside of said hollow body, and measuring an intensity variation at an opposite side of said hollow body from said radiation source by carrying out measurements along a line transverse to an axis through said hollow body and extending in a plane through said radiation source transverse of said axis, wherein minimum intensity values representative of edge locations of said hollow body are provided in said plane, the distance between said minimum intensity values representing said dimensions of said hollow body.
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4. A device for determining dimensions of hollow bodies by X-rays or gamma rays comprising a radiation source, a hollow body being examined by radiation from said source, means for image intensifying said radiation from said hollow body, TV means for reading an image from said image intensifying means, said TV means scanning said image intensifying means along lines perpendicular to a longitudinal axis of said hollow body, circuit means for determining zero crossings of image intensity on a line perpendicular to said longitudinal axis, said circuit means supplying signals corresponding to one of time distance between a zero crossing and beginning of said line or time distance between two zero crossings, and differentiator means for applying video signals from said TV means to said circuit means.
- 5. A device for determining dimensions of elongated hollow bodies by X-rays comprising an X-ray source, means for limiting X-rays from said source, an elongated hollow body being examined by said X-rays, means for detecting X-rays from said hollow body, said detecting means including a location sensitive, line shaped X-ray detection device, and circuit means for localizing minimum values in a variation of detected radiation in the line direction of said detecting means to measure dimensions of said hollow body.
- 7. A device for determining dimensions of an elongated hollow body comprising a radiation source, aperture means for limiting radiation from said source, means for filtering unwanted portions of said radiation, an elongated hollow body to be examined, said elongated body extending in a direction perpendicular to said radiation, and means for measuring intensity variations of said radiation passing through said hollow body wherein minimum intensity values are representative of edge locations of said hollow body.
Specification