DE705114C - Photoelectric photometer - Google Patents

Description

Photoelectric photometer Addendum to patent 622 60I The invention creates a new application of a magnifying glass according to the main patent 622 60I, namely for the purposes of photoelectric measurements. The subject of the main patent is a magnifying glass, in which the side facing the observer has the shape of a dome of about 70 ° Has the opening, calculated from the center of the sphere to the central axis, and the central thickness, calculated from the top of the cap to the contact surface adjacent to the object, well within the focal length, e.g. B. in the case of a continuous exponent of refraction of 1.52 between the radius of the spherical cap and its one and a half times its amount lies.

According to the present development of the one protected in the main patent Invention, this radiation-collecting current of the magnifying glass is used to increase the sensitivity of photocells, especially junction cells. Is z. B. that the photocell hitting light is so weak that it is below the threshold the cell is, so by connecting a magnifying glass according to the main patent, the If necessary, the light intensity can be amplified so that the light energy exceeds the threshold value the photocell. Even if the illuminating image is a little above the threshold emvert the cell, it is expedient to reinforce it, for the cells work imprecisely with small amounts of light, since frictional resistance increases with small Energies have a stronger impact than with large ones.

Quite apart from this, of course, there is also the advantage that corresponding to twice the amount of light falling on the layer, the expansion the layer can be reduced to about half with the same sensitivity.

It has already been proposed in front of the photosensitive layer to put an optical system consisting of a plurality of lenses, however this does not result in any intensification of the entire illumination of the layer, but there is only a multitude of adjacent bright points, whose surroundings are dark. It is now known, however, that the sensitivity of the Cell layers are not the same size in all places. There can therefore be inaccuracies Buoy up in the display of the cell when the illuminating light also fails is evenly distributed. If, for example, a focal point of such a partial lens hits a highly sensitive part of the cell, the illuminance is too high displayed; if it encounters an insensitive point, the cell shows too little. In contrast, the present invention represents a significant improvement.

The magnifying glass according to the main patent produces a uniform illuminating one Light so that the whole photosensitive layer even for the measurement is used.

Inaccuracies as in the above-mentioned device are therefore locked out.

According to the present invention there is a magnifying glass according to the main patent assembled with a photocell so that the light-sensitive layer is in the -cupper level -the magnifying glass is located. According to a further embodiment of the invention is the plane surface of the magnification glass as the carrier of the light-sensitive layer educated.

As for photocells and for the photographic bad guys too ultravioletea and possibly also the ultraviolet rays are important, after further improvement of the invention, the photocell upstream of the photocell is used Magnifying glass made from a glass that allows these rays to pass through.

Claims (3)

PATENT CLAIMS: 1. Application of the magnifying glass according to the patent 622 601 in front of the cell of a photoelectric photometer with from spherical or aspherical lenses existing angle of view, such that the light-sensitive Layer of the cell is located in the Aufsatzcbenc of the magnifying glass. 2. Device according to claim 1, characterized in that the plane surface of the magnifying glass is designed as a support for the photosensitive layer. 3. Device according to claim 1 and 2, characterized in that the glass body (s) according to patent 622 601 made of one for ultraviolet or ultraviolet Radiation-permeable glass is made.