SU42420A1 - Photometer with photocell - Google Patents

Description

The presently used adaptations for determining exposure during film photography in most of their readings depend on the subjective qualities of the observer. Fatigue, diffusion, inaccuracy of the eye, all this has a negative impact on the quality of the measurement, which leads to marriage and loss. In addition, instruments and tables used to determine exposure do not always provide sufficient accuracy, which is often necessary, especially in scientific surveys.

The proposed exposure meter is objective in its indications, expresses them in explicit and accessible forms, and takes into account all the conditions affecting the exposure, the illumination, the distance to the object being shot, used when shooting the aperture and the light filter, the photosensitivity of the preparations, etc.

In FIG. 1 shows the exterior of the meter; FIG. 2-side view of the meter; FIG. 3-view of the meter on the back; FIG. 4 and 5 schemes of amplifying devices.

As can be seen from the drawing, the photocell 7 is placed in a box with a hole, on which there is a diaphragm 2, arranged according to the principle of an iris and consisting of several petals closing around the center of the entrance hole of the photocell. Each petal has a separate peg with an arrow 5, by means of which it is driven independently of the others. On the pegs there are arrow-shaped indicators which move along with the puppe along the scale 4, which is special in each case. Each of the grafts, reflecting one of the conditions affecting the exposure, is the photosensitivity of the emulsion, the aperture of the imaging apparatus, etc., is graduated in such a way that if photosensitivity is emulsions, the orifices of the diaphragm will decrease. or if a more dense light filter is introduced, then the pointer moved accordingly on the scale by moving the petal will decrease the entrance meter of the exposure meter, which will be reflected by the registering device 5, on which the arrow will deflect by a large number of divisions. The shape and size of the individual petals must be calculated separately, since the change in the sensitivity of the emulsion, the diaphragm, and the light filter affect the increase or decrease in exposure in different ways.

In the same box mounted amplifier device required in. due to the insignificance of the photocell generated currents.

This scheme is reversed, since the anode current decreases as the value of the photocell increases as it increases. This is achieved by a special inclusion of the grid resistance. The power supply of the circuit is produced by alternating current from the city network, which is connected to plug 6, which is located in the wall of the device.

V.TOM, if it is assumed that the work of the exposure meter will occur in places where there is no AC source, then the correlation pattern is changed and local current-battery sources, batteries, are introduced. The milliammeter, graded for seconds and their shares, is located so that it is convenient to observe.

At the exposure meter there is a viewfinder 7, daiush, accurate guidance of the device to the object to be photographed. In order to prevent light from foreign sources from entering the photocell, the opening of the exposure meter is protected by a frame 8. In order to increase the life of the cathode lamp, a milliammeter, etc., circuit breaker 9 is inserted in the circuit, by means of which the circuit is interrupted when there is no need for an exposure meter.

The device is operated as follows. Having determined the space to be captured, an exposure meter is aimed at it, using the viewfinder. Then the pointers are combined with the divisions of the millkals corresponding to the shooting mode. For example, shooting is done on film with a photosensitivity of 200 X. and D., with a diaphragm on the camera /: 10 camera, without light filters. In this case, I found a scale with the inscription: "emulsion; move the pointer up to the number 200 on it. On the scale with the inscription:" the diaphragm places the pointer against the number 10. All the other indicators are output to 0. Thus, corrections to photosensitivity of the emulsion, diaphragm, etc. Then they close the circuit by turning the switch so that the arrow on it comes against the inscription „on. In this case, the following will occur: the luminous flux reflected by the object being shot passes through the diaphragm, which limits it depending on the shooting mode, falls on the photocell in which the photocurrent occurs. The photocurrent amplified by the cathode lamp will deflect the arrow of a milliammeter calibrated by seconds and their fractions, thus indicating the exact exposure required when shooting under these conditions.

The greater the illumination of the object being shot, i.e., the more light that hits the photocell, the less current will arise (since the circuit is reversed) and, therefore, the milliammeter will indicate a lower exposure. Conversely, if the illumination of the object is small, then a higher current will cause the milliammeter to indicate an increased exposure.

The subject matter of the invention.

A photometer with a photocell, characterized in that a central diaphragm is mounted above the photocell, each of the petals of which is provided with a peg with an arrow 3 for setting the petals before shooting on the respective scales above the diaphragm.

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