RU2008131814A - X-RAY OPTICAL ENDOSCOPE - Google Patents

Abstract

A device for complex x-ray and optical monitoring of objects located in hard-to-reach cavities, comprising a housing with x-ray and optical channels located therein for projecting an image of an object onto a CCD matrix of a television system forming an image on a monitor, the x-ray channel contains a focon with an x-ray phosphor located at its end , a highly sensitive black-and-white CCD matrix of size A × A, and two lenses whose optical axes coincide with the axis of the focon, and the focal planes are aligned respectively with the output end of the focon and the plane of the CCD matrix, and the focal lengths of these lenses f1 and f2 are in the ratio f1 / f2 = d / A, where d is the output diameter of the focon, and there is a telecentric path between the lenses, the optical channel contains a mirror from Plexiglas, mounted on the axis of the focon between the object and the input end of the focon, and a third lens with a focal length f0, a light guide with a power supply and an optical attenuator, characterized in that a second color CCD is additionally introduced into it a matrix of size B · B mounted on the axis of the lens of the optical channel in the plane of its image, the focal length of this lens f0 is selected taking into account the ratio f0 = L · B / D, where L is the minimum distance from the input end of the focon to the object, D is the diameter this end, and the radiation angle of the illuminator of the optical channel is selected from the condition W = arctan (B / 2f0), and video information from both CCD arrays is fed to the input of a computer with a color display, with the possibility of simultaneous or sequential viewing of x-ray and optical images

Claims (1)

A device for complex x-ray and optical monitoring of objects located in hard-to-reach cavities, comprising a housing with x-ray and optical channels located therein for projecting an object image onto a CCD matrix of a television system forming an image on a monitor, the x-ray channel contains a focon with an x-ray phosphor located at its end , a highly sensitive black-and-white CCD matrix of size A × A, and two lenses whose optical axes coincide with the axis of the focon, and the focal planes ovmescheny respectively to the output end face focon and the plane of the CCD, the focal lengths of these lenses are f ₁ and f ₂ are in a ratio f ₁ / f ₂ = d / A, where d - exit diameter of focon, and between the lenses there telecentric beam path, optical path comprises a mirror Plexiglas mounted on focon axis between the object and the input end of the focon, and a third lens with a focal length f _0, the lighting optical fiber with a power unit and an optical attenuator, characterized in that it additionally introduced second color CCD dimension B · B installed on the optical channel of the lens axis in the plane of the image, the focal length of this lens is f ₀ is chosen taking into account the relation f ₀ = L · B / D, wherein L - the minimum distance from the input end of focon to the object, D - the diameter of this end face, and the angle of the illuminator optical channel radiation is chosen from the condition of W = arctg (B / 2f ₀₎ and the video information on both CCDs supplied to the computer input with color display, with simultaneous or sequential viewing ray and optical iso images of the object in various modes of digital processing and registration on the display screen, between the object and the Plexiglas mirror a second rectangular mirror is installed, located at an angle β to the axis parallel to the longitudinal axis of the focon and at a distance H from it, the center of the mirror is at a distance Δ from the axis passing through its center and parallel to the longitudinal axis of the focon, there is a collimator with a focal length f ' _K , at the point of the back focus of the collimator there is an LED, at the output of the collimator using a rectangular of a diaphragm of size d × D, a parallel rectangular beam of light of size d × D is formed, where d is the smallest beam size, D is the input diameter of the focus, which, after reflection from the second mirror, directs a light beam under the corner α to its surface, which allows controlling defects in the dark field mode, and between the main parameters of the collimator optical system of the side illumination of the object there are ratios β = α / 2 and α = arcsin (d · H / D · Δ).