DE3908228A1 - LIGHT MEASURING DEVICE FOR A MIRROR REFLECTING CAMERA - Google Patents

Abstract

A photometer device is provided for use in a reflex camera, the reflex view finder of which possesses a scanning field lens (2) lying before the pentaprism (3), and wherein, between the pentaprism and eyepiece (4), an imaging lens (6) and a light sensor (7) are disposed outside the optical axis of the imaging beam path. As viewed in the direction of the light, there is disposed before the imaging lens (6) an aperture stop (5), having a trapezium-shaped opening and making possible, by reason of the geometry of its opening, an asymmetrical area utilization of the imaging lens (6) and, behind the imaging lens (6) there is disposed a shade stop (8) in the region below the optical axis. <IMAGE>

Description

The invention relates to a light measuring device for a single-lens reflex camera with reflex finder and two Penta roof prism and eyepiece outside the opti arranged axis of the imaging beam path Imaging lens and structured photo receiver.

It is a variety of optical arrangement solutions Selective evaluating light measuring devices for SLR cameras known. Favorite places for that The arrangement of the light receiver is the room below of the folding mirror, on the image-straightening surface or after the light exit surface of the pentadach edge prism. A distinction is made in the measuring beam path with arrangements area photo receiver, connected with moving optics / me mechanical parts, and arrangements with multi-surface photo receiver, connected to fixed optics / mechanics len. The last group is due to the simpler Construction and variety of applications are preferred cleared. Systems of high local selectivity, as they do is necessary for multi-field measuring devices are preferred executed so that the object field through the local fixed imaging optics behind the light exit surface of the pentahedral prism on a multi-surface photo is pictured. These systems allow depending on Evaluation scheme of signal processing finding the Be clearing values in the evaluation spot, partial integral or Multi-field according to a given weighting of the current one Light values of the partial areas. To achieve a high Efficiency of signal acquisition is used for the image field lens of the viewfinder system according to OS 28 56 542 for example given a rotationally asymmetrical power distribution ben.  

By applying the invention is a practical partial light evaluation in SR cameras enabled.

The object of the invention is to provide a light measurement device for SR cameras, with which a locally selective tive measurement of object brightness taking into account the optimal location of the focus of sensitivity integral evaluation and the execution is uncomplicated and takes up little space.

The object is achieved in that in Direction of light seen in front of the imaging lens of the measurement beam path have a trapezoidal opening de and due to their opening geometry an asymmetry Aper permitting the use of the area of the imaging lens turblende and behind the imaging lens in the area un a shading aperture is arranged below the optical axis are not. The imaging lens is preferably a Fres Plate with one side on the light exit surface facing side formed structure applied. Furthermore, the shade is with its upper edge arranged in the beam path so that the lower half of the photo receiver, from the lower edge of the aperture diaphragm seen from, appears shadowed. From the bottom edge seen from the aperture diaphragm is shaded appearing surface area of the photoreceptor 0.5 to 1 and from the bottom edge of the photoreceptor surface see shaded area share of the aper door panel 0.3 to 0.6. An education according to the invention the aperture stop provides that for their non-parallel Side boundaries in the upper part of the light outlet available prism edges are usable themselves. The shading cover can expediently be used as a component out the surface of the sealing compound of the photoreceptor be educated.

The light measuring device according to the invention is as follows explained in more detail using an exemplary embodiment. In the drawing shows

Fig. 1 is a schematic representation of a reflex viewfinder arrangement with light measuring device and

Fig. 2 shows the perspective view of the light measuring device.

According to Fig. 1, 1 of the folding mirror of the Re flex viewfinder arrangement is designated. From him, the imaging beam path is directed onto the image field lens 2 . The viewfinder image created here is presented to the viewer with the aid of the Oku lars 4 through the pentadach edge prism 3 in the usual form of the SLR viewfinder. Above the optical axis of the viewing beam path is located close to the light exit surface 31 of the pentagonal roof prism 3 an imaging lens. 6 It images the viewfinder image formed on the image field lens 2 directly onto the light-sensitive surfaces 71/72 of the photo receiver 7 . The imaging lens 6 is expediently designed as a Fresnel plate and has its Fres nel structure on the side facing the pentadach edge prism 3 .

Between the light exit surface 31 and the imaging lens 6 , a thin-wall aperture 5 is arranged according to the invention. It has a trapezoidal opening for optimal use of the incident light and to support the object field evaluation described below. Relative to a horizontal center line, the aperture diaphragm 5 has asymmetrical partial areas 51 and 52 , the lower partial area 52 being larger than the upper partial area 51 .

The imaging lens 6 is followed by a shading aperture 8 , which is located in the beam path in the area below the optical axis. It is arranged with its upper edge 81 in the beam path in such a way that a penumbra that diminishes on the photo receiver surface from bottom to top is created. Namely, the shaded seen from the lower edge of the aperture 5 appearing area ratio is of the photoreceptor 7 between 0.5 and 1 and the die from the bottom edge of the photoreceptor surface hen appearing shadowed area fraction of the iris aperture 5 between 0.3 and 0.6. As a result of the height reversal in the imaging of the viewfinder image through the imaging lens 6 , the light radiated from the upper part of the object space is attenuated continuously decreasing compared to that from the lower part. The same arrangement without a shutter 8 results in the undesirable overvaluation of the upper part of the object space typical of this geometry. Due to the special design of the shutter 8 shown, taking into account the light incidence angle u of the light measuring device with u 6 ° and the scattering property of the image field lens 2, a practical, locally integral object field evaluation, the focus of which is below the field center, is possible without the receiver receiving electrical channels surfaces 72 to have to provide a graduated calibration.

Furthermore, the light measuring device is designed such that the central partial surface 71 of the photoreceiver 7 has a size conjugated to the central field 21 of the image field lens 2 in accordance with the imaging scale of the imaging lens 6 .

The center field 21 fills approximately 10% of the total area of the viewfinder field and its edge is identical to the focus indicator border located centrally in the viewfinder. In this way, when evaluating the signal that results solely from the partial surface 71 , a spot-oriented selective measurement is realized.

It is within the scope of the invention that when using the Aperture diaphragm as non-parallel side boundaries existing in the upper part of the light exit surface Prism edges can work themselves. In addition, the Shading aperture as part of the surface of the ver Cast mass of the photo receiver to be formed.

Claims (6)

1. Light measuring device for a single-lens reflex camera, the reflex viewfinder has an image field lens lying in the intermediate image plane and a pentadachium prism and in which an imaging lens and a structured photo receiver are arranged between the pentadach prism and the eyepiece outside the optical axis of the imaging beam path, characterized in that viewed in the direction of light in front of the imaging lens ( 6 ) has a trapezoidal opening and, due to its opening geometry, allows an asymmetrical surface use of the imaging lens ( 6 ) allowing aperture diaphragm ( 5 ) and behind the imaging lens ( 6 ) in the area below the optical axis a shading aperture ( 8 ) are arranged. 2. Light measuring device according to claim 1, characterized in that the imaging lens ( 6 ) is formed as a Fresnel plate with structure on one side on the light exit surface ( 31 ) facing side applied structure. 3. Light measuring device according to claim 1, characterized in that the shading diaphragm ( 8 ) with its upper edge ( 81 ) lies in the beam path so that, seen from the lower edge of the aperture diaphragm ( 3 ), the lower half of the photo receiver ( 7 ) is shaded appears. 4. Light measuring device according to claim 3, characterized in that seen from the lower edge of the Aperturblen de ( 5 ) appearing shaded areas of the part of the photoreceiver ( 7 ) 0.5 to 1 and seen from the lower edge of the photoreceptor surface shaded appearing surface area of the aperture aperture ( 5 ) is 0.3 to 0.6. 5. Light measuring device according to claim 1, characterized in that the shutter ( 8 ) is formed as part of the surface of the sealing compound of the photo receiver ( 7 ). 6. Light measuring device according to claim 1, characterized in that the non-parallel side boundaries of the aperture diaphragm ( 5 ) provided in the upper part of the light exit surface ( 31 ) existing prism edges themselves.