SU469076A1 - Installation for determining discontinuities in glass blanks - Google Patents

Description

one

The invention relates to installations for the investigation and determination of inhomogeneities in optical glasses, optical crystals, as well as in optical glasses. The known installations, which contain an illuminator with a diaphragm, a blank holder and a projection screen, operate according to the laws of geometric optics and are designed to detect relatively gross defects.

The proposed installation operates according to the laws of wave optics, has an increased sensitivity for detecting transparent defects, and permits investigation of workpieces in various positions. This is achieved by the fact that an ultrahigh pressure lamp is installed in the illuminator, and the diaphragm is made with pin holes of different diameters and mounted for rotation around a horizontal axis. The workpiece holder is rotatably mounted around horizontal and vertical axes. For visual observation and photographing, the projection screen of the installation is made with a frame pivoting around a horizontal axis, equipped with movable rails, fixing indices and pressure bars. The frame has a glass and a hinged board, on one side of which white paper is stretched, and on the other hand a porous sheet.

2

FIG. 1 shows a general view of the installation; in fig. 2 - section illuminator construction; in fig. 3 - billet billet; in fig. 4 and 5 - projection screen installation.

The illuminator turns on the ultrahigh pressure lamp 1, placed in a light-tight two-wall with air gap cover 2 and installed on the table 3 moving in vertical and horizontal directions using the control panel handle 4. A condenser 5 is installed in the ultrahigh pressure lamp and consists of two lenses manufactured by

ultraviolet transmissive silica glass and disc pivot diaphragm 6 with pin holes with a diameter (in mm) of 0.2, 0.5, 1.0, 2.0, 4.0 and 6.0, which, when rotated, are aligned with the optical axis of the light beam.

The holder serves to fasten the glass blanks of various sizes. The blank is fixed in the center of the ring-shaped frame 7 on three clamps 8,

having equalizing-telescopic mechanisms 9. The frame is mounted in the forked element mounted on the frame, which by means of ball bearings 10 and worm gearboxes And from an electric motor 12

rotates around a vertical axis of ± 360 °. From the electric motor 13, by means of the transmission system 14, the frame is rotated relative to the fork-shaped element about a horizontal axis within + 170 °. The rotation of the holder with the workpiece relative to the vertical and horizontal axes is performed remotely by means of a manual electric control panel 15.

The projection screen of the installation is a frame 16 rotatable around a horizontal axis, mounted on a fork bracket 17 mounted on a frame 18. Glass 19 is fixed on the frame. The frame is equipped with clamping bars 20, movable rails 21 and fixing indexes 22. A lowering board 23, on one side of which a white paper 24 is stretched, is rubbed with a fine powder, and on the other, a porous pillow 25 of foam rubber. When the board is lowered, the cushion fits to the glass surface and presses the photo paper on it under the pressure bars, on which the diffraction pattern from defects is photographed. Sliding rails and fixing indices limit when photographing the necessary part of the picture projected on the screen.

The principle of operation of the described installation is based on the visual examination or photographing of the diffraction pattern, which is formed on the screen by transparent defects enclosed in the test sample. The arc of an ultrahigh pressure lamp with the help of a condenser is projected onto the pin holes of the diaphragm. 2 mm or 0.2 mm, respectively, for visual observation or photographing.

From the pinholes of the diaphragm, a bright beam of light spreads so that at a distance of 10 m it covers the screen

UOOHUOO mm and creates on it the illumination, sufficient to observe the diffraction patterns. In doing so, it passes through the test sample and on transparent

defects diffracts. Spreading further, the diffracted light interferes and, on the screen, along with the outlines of the contour of the test piece, forms a diffraction-shadow pattern from defects. By its sharpness and the appearance of this picture, as well as by the ratio of areas occupied by defects and the test blank, its quality is judged.

Subject invention

Claims (3)

1. An apparatus for determining discontinuities in glass blanks, including a diaphragm illuminator, a blank holder and a projection screen, characterized in that that, in order to increase the sensitivity of the installation and enable the study of the workpiece in its different position, an ultrahigh pressure lamp was installed in the illuminator, and the diaphragm was made with pin holes of different diameters and mounted rotatably around a horizontal axis. 2. The installation according to claim 1, wherein the blank holder is installed with possibility of rotation around the horizontal and vertical axes. 3. Installation under item 1, characterized in that, in order to ensure the possibility for visual observation and photographing, the installation projection screen is made with a frame pivoting around a horizontal axis with glass, equipped with movable rails, fixing indexes and pressure bars, and a white paper board hinged to the frame on one side and with a porous pad on the other side of the board. Z fue.Z JU-SFF