DE1091861B - Device for exposure measurement for film cameras - Google Patents

Description

The invention relates to a device for measuring exposure for film cameras, in which the lens-side Surfaces of the sector diaphragm of the camera are provided with a photoelectric layer, which during the duration of the advance of the film tape is exposed to the light passing through the lens.

The known film cameras generally have one in the camera housing for measuring exposure housed light meter, which is coupled with the lens aperture setting. The setting the lens aperture is either "semi-automatic" by actuating a lever od. The like. By hand, which makes both the aperture setting, as well as the pointer at the same time of the built-in measuring device to import onto a mark. This makes the dependent on The exposure setting determined by the film speed and number of frames is established during the exposure.

Lately the cameras have also had a so-called "fully automatic" function, in which either a measured value is transmitted directly to the diaphragm by making the diaphragm itself part of the measuring device or the measuring device is just a command generator for adjusting the aperture by other aids represents.

In all of these cases the photoelectric cell lies outside the light falling through the lens. The display of such measuring devices or the associated semiautomatic or fully automatic aperture adjustment of the lens introduces a considerable inaccuracy factor, especially when the viewing angle of the optical system does not match that of the photoelectric cell. This is always the case when pictures are taken with partial or wide-angle lenses. One tries to correct this by means of masks over the lenses of the photoelectric cell, but this is cumbersome and cannot necessarily be exact either.

In order to eliminate this inaccuracy factor, it has already become known, the photoelectric cell for the time of the film transport in the light beam passing through the taking lens. this can be done by intermittently pivoting a mirror, which shines the light on a fixed, built-in photoelectric cell throws. There are also film cameras that you can at least look at every scene that is to be filmed, a photoelectric cell manually placed between the lens and The film plane swivels in, which is then swiveled out automatically for the recording by pressing the shutter release button will.

It can be seen that this is associated with the disadvantage that the exposure metering and aperture setting are no longer an exposure metering device for the entire duration
for film cameras

Applicant:
Josef K. Nagler, Vienna

Representative: Dr.-Ing. E. Sommerfeld, patent attorney,
Munich 23, Dunantstr. 6th

Claimed priority:
Austria from October 24, 1958

Josef K. Nagler, Vienna,
has been named as the inventor

the recording in particular of a locally moving scene can be checked and readjusted. That then easily leads to incorrect exposures even with panoramic shots and moving objects. The already called cameras with mirrors in the beam path to deflect the light, which are intermittent are introduced during the duration of the film transport, have the disadvantage of a large mechanical Stress on the parts that are moved in this way. This also reduces the available drive force.

In order to eliminate these disadvantages, it has become known to design the sector diaphragm itself as a mirror. Another known embodiment has the feature that the sector diaphragm itself as a photoelectric Cell is formed by carrying a photoelectric layer. The photoelectric current must be removed with regard to the rotation of the sector diaphragm by means of sliding contacts. This decrease in current brings a further uncertainty factor in the exposure measurement, since im With regard to the smallness of the flows, demands have to be made on the contacts that are difficult can be met, and a fluctuating contact resistance of these contacts is necessarily with a Incorrect exposure connected.

All of the disadvantages of the known exposure devices mentioned above in film cameras are avoided according to the invention with the sector diaphragm a coil is coupled, which rotates concentrically to the axis of rotation of the diaphragm with this and which is electrically connected to the photoelectric layers

009 629/174

and through which a display instrument can be actuated. The is advantageously arranged on the sector diaphragm Layer divided into many narrow subsectors, which are connected to each other and together with the coil that rotates with the sector diaphragm.

Due to the arrangement of the coil rotating with the sector diaphragm, which is electrically connected to the one on the sector diaphragm applied layer or layers is or are connected, all difficulties are the go hand in hand with the current decrease, and there is the possibility of these pulsating direct currents to amplify transformatively as well as electronically.

According to a particularly advantageous embodiment of the invention, the rotating coil can be used as an excitation winding a moving coil measuring mechanism. Here, the coil can be rotated around a be arranged axially movable iron core, depending on the size of the photocurrent generated more or is drawn less deeply into the rotating spool. In this way, z. B. this change of position directly to actuate the aperture adjustment be used or so that a special setting mechanism can be triggered to a greater or lesser extent. Of course, the long-known method, the deflection of a pointer, can also be used of a measuring instrument as a function of film sensitivity, number of images and / or exposure time to bring a mark by operating a lever or the like by hand to coincide. So it can each of the known measures can be provided here.

The rotating coil is advantageously designed as the primary winding of a transformer, the Secondary winding designed as a stationary coil coupled to the primary winding via an iron core is, which in turn is optionally connected to a measuring device via an amplifier. By Rotation of the diaphragm, especially if the photoelectric layer consists of several subsectors, pulsating direct currents are generated which enable a transformation, so that an upward transformation achieved further reinforcement. A rod core can advantageously be used as the iron core Find use that protrudes into the coil coupled to the sector diaphragm. Such a magnetic open core training can be through the housing or through parts of the camera construction too be designed in a magnetically closed circuit, reducing the transformer properties still be enlarged.

The invention is explained in more detail with reference to the drawing, in which exemplary embodiments of the subject matter of the invention are shown schematically.

Fig. 1 shows schematically an embodiment of the subject invention, in which the with the Aperture sector rotating coil is designed as the primary winding of a transformer. Fig.2 also shows schematically an embodiment in which the rotating coil with the diaphragm, the excitation coil of a Moving coil measuring mechanism forms.

According to the embodiment according to FIG. 1, a diaphragm A which rotates during film recording and is designed as a diaphragm with two wings is located between the objective 1 and the image window 3 arranged in front of the film strip. Instead of the aperture shape shown, all known other aperture shapes can of course also be provided, such as, for. B. cylindrical diaphragms and semicircular diaphragms. On the side of the diaphragm wing facing the objective, a photoelectric layer is applied in the form of many narrow sub-sectors 5, which are electrically connected to one another and together with the coil 6 fixedly attached to the sector diaphragm 4. This coil 6 is rotatably mounted with the sector diaphragm 4 on the shaft 7, which is advantageously made of iron and at the same time forms the core of a transformer, the secondary winding of which in the form of the coil 8 surrounds the shaft 7 and is firmly attached to the camera housing.

is arranged. The currents induced in the secondary winding are fed to a measuring mechanism 9, which is the Evaluation of the strength of the light falling on the photoelectric layer is used.

If the camera's indexing mechanism is put into operation for filming, the sector shutter is also activated 4 set in rotation, with the segments during the advancing movement of the film strip 2 the sector diaphragm intermittently enter the beam path between lens 1 and film strip 2, where-

ao be kept away from the strip 2 by the light beams during the advancement of the strip 2. The timespan is used to measure the required exposure time, taking all known measures Can be used, also together with those that focus on the display when the camera is at a standstill relate.

Also in the embodiment of FIG. 2 is located between the lens 1 and the front Film strip 2 arranged image window 3 a rotating during film recording sector shutter 4, wherein on a photoelectric layer 5 is attached to the surface of the sector diaphragm 4 facing the objective 1, which is electrically connected via the leads 10 and 11 to the coil 6 fixedly attached to the sector diaphragm 4 is. In the interior of the coil 6 protrudes an axially movable iron core 12, which with a front of the scale 13 reflective pointer 14 is coupled.

The scale 13 can be adjustable depending on the film sensitivity or the incremental speed of the film strip 2 and provided with a mark 15 with which the pointer 14 is to be brought into congruence by adjusting the lens aperture 16 to achieve the correct exposure time.
The invention is not restricted to the exemplary embodiments shown. Above all, all types of possible measuring mechanisms and diaphragm designs fall within the scope of the invention as well as all mechanisms for setting the correct exposure time, provided that the coil coupled to the sector diaphragm is provided.

Claims (4)

Patent claims: 1. Device for exposure measurement for film cameras, in which the lens-side Surfaces of the sector diaphragm of the camera are provided with a photoelectric layer, which during the duration of the advancement of the film tape exposed to the light passing through the lens is, characterized in that a coil (6) is coupled to the sector diaphragm (4) which is concentric to the axis of rotation (7) of the diaphragm rotates with this and the electrical with the photoelectric Layers (5) is connected and through which a display instrument can be actuated. 2. Apparatus according to claim 1, characterized in that the arranged on the sector diaphragm (4) Layer is divided into many, narrow subsectors (5), which are shared with each other and with each other with the spool rotating with the sector diaphragm (4) (6) are connected. 3. Apparatus according to claim 1 and 2, characterized in that the rotating coil (6) as Excitation winding of a moving coil measuring mechanism is formed. 4. Apparatus according to claim 1 or 2, characterized in that the rotating coil (6) as Primary winding of a transformer is designed, the secondary winding of which is a fixed, is formed via an iron core with the primary winding coupled coil (8), which in turn is optionally connected to a measuring mechanism (9) via an amplifier. 1 sheet of drawings