SU44437A1 - Sensitometer - Google Patents

Description

The best device for determining the characteristics of photographic photosensitive materials according to Herter and Driffield is currently considered to be a disk sensitometer, in which the cut-out disk makes only a turn during the entire exposure time, which eliminates the significant disadvantage of an ordinary X and D sensor - intermittent illumination.

Of the existing sensitometers with the intensity scale, the most portable and convenient for everyday work in industry is the EderTecht sensitometer, but the photographic constant of its wedge can be considered approximately correct only for layers that do not contain optical sensitizers; most of the plates and films are now made with different types and combinations of dyes, due to which this sensorimeter is unsuitable for testing such layers.

The proposed sensitometer is characterized by the following features: 1) the illumination conditions of the test plates or films are close to those for which these materials are illuminated in the camera, 2) an unlimited range of illumination, due to which it is possible to examine the entire characteristic curve from threshold to total salt emulsion emulation; 3) the possibility of being used as a source of illumination of real daylight instead of artificial; 4) simplicity and portability of the instrument, which, unlike all existing ones, does not require a special installation for obtaining a graduated light source.

In FIG. 1 shows the scheme of the device with the lighting of one light bulb; FIG. 2 - the same with two bulbs; FIG. 3 and 3 with daylight lighting, t

In the device in FIG. 1, the light source is an incandescent lamp S with one tungsten filament, protruded in the center of the glass tube (the so-called softener lamp). The light emitted by the thread falls only on the screen and with an intensity decreasing according to the law of cosine

. S cos and g - 72-

The screen is a flat surface covered with a layer of chemically pure barite. Above the zero line of the screen, if, is a narrow slit d, formed by two metal bars, of which the top is set obliquely.

to reduce light reflection on the screen from the surrounding walls of the chamber. For the same purpose, these walls are covered with black matte paint or covered with velvet. At the top of the device there is a window in which the lattice of the r scale is placed; The test material is placed on it and pressed against the frame. The exact exposure time is provided by a shutter action e.

Just as it happens in the chamber with a small opening of the wall, the test screen is transmitted through the slit d by the reflection of the screen itself, and the illumination range of the latter increases many times due to an increase in the length of the radii. A necessary accessory of all existing sensitometers is the particular installation of a light source that is precisely calibrated with respect to the intensity and distance from the sensitometer gauges. In the proposed device, the light source is enclosed in it, as a result of which, instead of graduating a particular light source, the sensor itself is calibrated. Graduation can be done using photometric devices (light meter, photocell), or using any photographic method, for example, by comparison with the sensitogram obtained in parallel on the reference meter.

The light curve can be calculated using special empirical formulas.

Based on the resulting light curve, a table indicating the amount of light corresponding to each scale division is compiled, which is necessary for ease of use of the sensor.

FIG. Figure 2 shows a diagram of an instrument in which a slit is applied, through which light is reflected, reflected from a uniformly lit screen O, the reflecting surface of which is located along an arc described by a radius from the middle of the slit. The screen is illuminated by two symmetrically positioned: ophitic lamps / and 2. Regardless of whether these lamps are equal or unequal in power, the illumination of the screen is the same at all points.

In some cases of photographic practice, such as during geodetic aerial surveys, it is necessary to determine the light and color sensitivity of materials in relation to local conditions of work performed. For such cases, when it is impossible to rely on the conventional standard of the light source, i.e. the radiation of an absolutely black body at 5000 ° absolute temperature, achieved by a certain heat of the electric lamp in conjunction with a liquid filter of a fixed composition, a modified device is offered by which material can be tested at the place of work, with the authentic light of the day and hour at which the shooting is made. This device (Fig. 3) is distinguished by the fact that in it the screen is illuminated through a slit by a mirror 3 reflecting the scattered light of the sky, or, if deemed more appropriate, the light reflected in turn by the subject itself. A filter can be placed in front of the mirror with which it is supposed to be taken. The scale of the sensitometer is in a removable cassette k, in which the test material is laid (in a dark room).

It goes without saying that in this device the illumination cannot be the same in each individual test case, therefore in the back of the device, next to the cassette, a photo cell is fixed, showing the number of lux seen at the time of exposure, which serves coefficient to the sensor table readings.

The subject matter of the invention.

Claims (3)

1.Sensitometer for determining the characteristics of photographic plates, films and papers, characterized by the use of a white matte screen a, illuminated by an electric lamp S with a long luminous filament and used for diffuse illumination of the test layer in frame k through slit d with shutter e (Fig. 1) . 2. The form of the sensitometer according to claim 1, characterized in that instead of A light filament is used to illuminate the background using light bulbs 7 and 2 with reflector O and a slit to guide the light rays (Fig. 2). 3. The form of the sensor according to claim 1, characterized by the use of mirrors 5, which serve to reflect daylight through a slit on the screen; and to take into account the intensity of light, a photo cell is used, fixed in the area to (Fig. 3, 3). L g Figure 1