CS231480B1 - Gauge to measure scattering permeabilty - Google Patents

Abstract

The device according to the invention is intended for non-destructive measurement of diffuse transmittance corundum tubes that are essential element of high pressure sodium lamps. It consists of an adjustable light source (1) and a two-dimensional photometer parts / 16, 17 / and in its upper part, the measuring mandrel (7) provided with the outlet A hole in the mirror mirror (28) with auxiliary with orifice plates (12, 13) and aperture (11) a continuous lens (9). It is further in the cavity a photometer is placed against the direct screen light and in the source cover mount / 4 / ceramic inserts (6) are inserted to reduce temperature sensor. In the body (16) a tube (22) mounted on the side is positioned with adjusting forks / 21 / a pusher bolts / 19 /.

Description

The object of the invention is a device for measuring the dispersion permeability of samples having the shape of tubes or flat circular targets.

To date, devices in which the light beam has a large diameter or divergence and do not allow non-destructive measurement of the diffusion transmittance of tubes are used to measure the diffusion transmittance. Thus, different inhomogeneities of the material and non-planar samples cannot be measured.

The aforementioned drawbacks are eliminated by a device for measuring dispersion transmittance of a tube-shaped or flat circular target pattern, comprising an adjustable light source and a spherical photometer, according to the invention, characterized in that the spherical photometer consists of two parts and A mandrel provided with an exit aperture at the mirror with auxiliary orifices and an orifice with a pre-bonded lens, the photometer cavity accommodating a shielding against direct light, and ceramic inserts inserted in the source cover mounting. According to a further feature of the invention, a tube is mounted laterally in the body, which is fastened by means of adjustable forks and pressure screws.

The advantage of the diffuser measuring device is that only the transmitted light enters the measuring part and the measuring beam has a small diameter. In this way, it is possible to monitor the permeability of scattering materials to a much broader extent and to obtain data on their structure or processing from the measured values of local permeability.

The design of the dispersion permeability measuring device is apparent from the drawing, where a simplified axial section is schematically shown.

The dispersion transmission device consists of three main parts, a light source, an optical measuring mandrel and a spherical photometer. As a light source, a halogen bulb 6 is inserted in the ceramic socket 5. The socket 6 is mounted in a socket 2 which extends through the plate of the source 6. The displacement or rotation of the sleeve 2 relative to the plate allows reliable adjustment of the source fiber. The light of the bulb which does not participate in the measurement is shielded by a robust cylindrical cover 4 with fins. In the upper part of the cover 5, the ventilation slots are inclined so that the operator is not dazzled by direct light. The cover 4 is attached to the sleeve 2 by means of three ceramic sleeves 4. In this way, it minimizes the heat transfer by conduction into the source plate 8 and further to the measuring part of the device.

The measuring mandrel 7 is supported by a plate 8 which is connected to the source part by two spacers 44. The outer circumference of the measuring mandrel 7 is fitted with a housing 60 and a single lens 9 which shows the fiber of the source 60 in the opening of the inlet aperture 60. The diameter and divergence of the measuring beam are determined by the diameter of this orifice plate, its distance from the outlet opening in the thinnest portion of the measuring mandrel and its diameter. Through this opening, light enters the measuring portion after reflection on the mirror 28. The mirror 28 is made of a cylindrical glass rod, one face of which is ground, polished at an angle of 45 ° and provided with an aluminum reflective layer. The end of the measuring mandrel 7 forms a guide cone. The adjustable auxiliary orifices 12 and 13 serve to suppress parasitic light inside the measuring mandrel.

The spherical cavity consists of two precisely assembled parts 16 and 17. The upper part 16 is fixed to the plate 8, which is connected to the plate 8 by two spacers 15. This arrangement reduces the heating of the integrator body and the receiver therein during long-term measurements. . The spherical cavity is held by two housing screws 19. The correct distance between the measuring mandrel 8 and the cavity inlet for the various diameters of the tubes to be measured is provided by the adjusting forks 21 which slide between the recesses in the plate 18 and the upper part of the spherical cavity. The tubes 22 can be easily rotated about their axis during measurement. At the same time, the front contact surface of the forks 21 prevents interfering light from entering the measuring space. The circular targets are inserted into the frame 27, guided in the upper part 16 of the photometer, which extends perpendicularly to the axis of the measuring mandrel 7.

The measuring space is shielded by a cover 20 with internal ribs. Measurements can therefore be made without additional blackout. The illumination of the photometer cavity surface is measured by a radiation receiver 26 whose sensitive surface is practically at its surface level, as is the case with respect to the outer surface of the tubes 22 or round targets. The sensitive area of the receiver is protected against direct light from the inlet opening by a shielding shade 23. The holes in the cavity and the surface treatment are made in accordance with the applicable Light Measurement Standard. The entire device is supported by two pairs of columns 25 and 26.

The device according to the invention is mainly intended for the non-destructive measurement of the diffusion permeability of corundum tubes, which are the basic building blocks of high pressure sodium lamps. The light output of these lamps is closely related to the permeability of the tubes.

Claims (2)

1. Apparatus for measuring the dispersion transmittance of a tube-shaped or flat round target, consisting of an adjustable light source and a spherical photometer, characterized in that the spherical photometer is composed of two parts (16 and 17) and a measuring mandrel (1) 7), provided with an outlet opening at the mirror (28) with auxiliary orifices (12), 13) and a diaphragm (11) with a pre-bonded lens (9), wherein a shielding diaphragm (23) against direct light is placed in the cavity of the photometer and ceramic inserts (6) are inserted in the receptacle of the source cover (4). 2. The dispersion permeability measuring device according to claim 1, characterized in that in the body (16) a lateral tube (22) is fastened by means of adjustable forks (21) and pressure screws (19).