RU1778742C - Light-measuring device for reflex camera - Google Patents

Abstract

Use: photographic equipment. SUMMARY OF THE INVENTION: Behind the lens are mounted constant viewing mirrors, a collective lens, a pentaprism with a mirror reflecting face, on which there are areas free of mirror coating. Behind the mirror reflective face of the prism, a mirror plate with holes is movably mounted. Focusing lenses are installed between the mirror plate and the photodetectors, which can be mounted in the holes of the mirror plate. 1 s.p. f-ly, 4 ill.

Description

ate

WITH

FIELD OF THE INVENTION The invention relates to photographic equipment, and in particular to light measuring devices.

A light measuring device is known comprising two photodetectors located behind a pentaprism, each of which measures the light flux from a certain part of the field of view 1.

The disadvantage of this device is that the exposure measurement accuracy is not high due to the fact that scattered light is incident on the photocoupler.

A light measuring device for a camera is also known in which integrated and local light measurement is carried out by using a multi-zone photodetector 2 therein.

The disadvantage of this device is its design complexity, since a complex and expensive multi-zone photodetector requires a complex electronic control circuit.

Closest to the invention is a light measuring device comprising a hinged mirror mounted behind the lens, a collective lens and a pentaprism, behind the mirror reflective face of which an optical system is mounted, forming an image on a multi-zone photodetector that performs integrated, local and zonal light measuring and located beyond optical system 3.

The disadvantage of this device is the loss of a significant part of the light flux coming from object i through the reflecting face of the pentaprism and the optical system to the photodetector and not getting into the eye of the photographer, which affects the accuracy of focusing and creates discomfort

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during sighting and focusing, as well as the complexity of the control system for an expensive multi-zone photodetector and the photodetector itself.

The purpose of the invention is to improve operational characteristics and simplify the design of the device.

The goal is achieved in that a mirror plate with holes is inserted into the light measuring device for the SLR camera, comprising a mirror behind the shooting lens, a collective lens and a penta prism, behind which photodetectors are mounted, which is mounted with the possibility of moving between the photodetectors and the mirror reflecting face of the pentaprism, facing the mirror surface to the pentaprism, on the mirror reflective surface of which there are light-transmitting sections, about optically coupled to photodetectors. Moreover, in order to improve the accuracy of measuring exposure by concentrating the light flux on the photodetectors, optical focusing elements located in the holes of the mirror plate are introduced into the device.

In FIG. 1 is an optical diagram of a device; Figs. 2 and 3 show a mirror plate; in FIG. 4 is a view of a mirror plate with optical focusing elements embedded in its hole,

The device comprises (Fig. 1) a lens 1 mounted behind a lens 1 of a constant-viewing mirror 2, a collective lens 3, a penta prism 4 with a mirror reflecting face 4a, on which sections free of mirror coating are made, and an eyepiece p 5. Behind the mirror reflecting the face 4a of the pentaprism 4 is mounted with the possibility of moving the mirror plate 6, (Fig. 2 and Fig. 3), in which holes 7 are made and turned with their mirror surface to the face 4a of the pentaprism 4, and the other surface - to the photodetectors 8, and the number of sections pentaprism 4, which are free from mirror coating on the edge 4a, corresponds to the number of photodetectors 8, the number of which is in turn determined by the number of zones of the oxponometric device. Between the mirror plate 6 and the photodetectors 8, focusing lenses 9 are installed, which can also be integrated into the holes 7 of the mirror plate 6 (Fig. 4).

The device operates as follows.

The light from the subject with the lens 1 and the mirror 2 is focused on the collective lens 3, through which, reflected in the pentaprism 4, it hits face 4a. Moreover, when sighting and focusing are free from mirror

the areas on the edge 4a are completely covered by the penta prism mirror surface of the plate b, and therefore the light flux from the object is completely lost without loss into the eyepiece 5. Then, to perform light measurement, the plate 6 moves (and when moving it can perform both rotational and translational movement) and stops in such a position that all areas 5 coincide with the areas free from mirror coating on the edge 4a of the pentaprism 4, and also, respectively, with photodetectors 8. Light The stream is then split. Part of the luminous flux

0 reflected from the mirror surface of the face 4a, it falls into the eyepiece p 5, and the other part of it, passing through the areas free from the mirror coating on the face 4a and the hole 7 of the mirror plate 6, falls on

5 photodetectors 8. In this case, photodetectors 8 take readings from different viewing areas at the same time. Then the readings taken by the photodetectors 8 are sent to the electronic control circuit (in the drawing

0), which summarizes them and provides an averaged signal for the exposure device. In this way, integral light measurement is carried out.

With local light measurement, the blades 5 by 6 move and stop in such a position that all areas free from a mirror coating on the edge 4a of the pentaprism 4 with the exception of the central one are covered by a mirror surface

0 of plate 6. In this case, the luminous flux through the central portion on the edge 4a and the central hole 7 in the mirror plate 6 enters the central photodetector 8, which takes readings only from

5 central sections of the field of vision.

With zonal light measurement at the request of the photographer, the luminous flux can be measured by any peripheral photodetector from any one he chooses

0 zone of vision. The plate 6 thus moves in such a way that it covers with its mirror surface all the areas free from mirror coating on the edge 4a of the pentaprism 4

5 of the area of the selected zone, and one of the holes 7 on the plate 6 corresponding to this area stops opposite it and passes the light flux from the selected field of view to one of the photodetectors 8 producing light measurement.

The claimed technical solution allows to improve its operational properties by providing integrated, local and zonal light measurement in it without loss of light flux during sighting and focusing, and also to simplify its design due to the use of a simpler photodetector and, accordingly, control circuit .

Claims (2)

SUMMARY OF THE INVENTION 1. A light measuring device for a SLR camera comprising a mirror mounted behind a shooting lens, a collective lens and a pentaprism, and photodetectors mounted behind a mirror reflective face. 2 moreover, in order to improve the operational characteristics and simplify the design, a mirror plate with holes is placed between the photodetectors and the mirror reflecting face of the pentaprism, with the holes facing the pentaprism. on a specular reflecting surface of which light transmitting portions optically coupled to photodetectors are made. 2. The device according to p. 1, characterized in that, in order to improve the accuracy of measuring exposure by concentration the light flux at the photodetectors, optical focusing elements located in the holes of the mirror plate are inserted into it. fta t C & i / a. / Fig.Z Fig L Mirror coating