DE1597177C3 - Automatic exposure for photographic cameras - Google Patents

Description

The invention relates to an automatic exposure system for photographic cameras, in which a light-dependent Iris control takes place.

Aperture control devices are already known in which, after actuation of the shutter, under action a mechanical escapement as well as an energy storage mechanism a continuous diaphragm movement of the smallest to the largest aperture. During this opening movement of the lens diaphragm a capacitor is charged via a photoresistor, which after reaching a certain Threshold voltage can address a trigger, which triggers the shutter. After the exposure time has expired responds to a second trigger that closes the shutter. After the aperture up to its largest When the opening has passed, the shutter can be cocked again and the diaphragm is brought into its initial position will. To avoid underexposure, in this case the lens diaphragm is up to its Passed through the largest opening without actuating the lock, a switch is provided, which short-circuits the control capacitor of the trigger causing the shutter to open. This takes place

ίο after letting go of the trigger, a lock is activated, however, in such a way that both sector drive rings run together and thus prevent exposure.

Since with current facilities a locking operation occurs when there is insufficient light prevail, the photographer can simulate a properly taken picture even though the film was not exposed at all. In addition, the mechanical factor used Inhibitor for the present case requires a relatively large amount of space.

The object of the invention is to provide an automatic exposure system with light-dependent aperture control to create that with little mechanical effort and electronic means within the possible range of diaphragm variation a faultless Exposure is guaranteed and both the upper and lower limits of this range of variation are available to the photographer indicates.

According to the invention, this object is achieved in that the objective diaphragm in a manner known per se is coupled to a variable diaphragm arranged in front of a photoresistor and that the photoresistor is as an element of a voltage divider in the input of the trigger circuit, in the output at least one lamp is switched on, which differs from the risk of under- and overexposure Indicates the line status of this switching stage.

The diaphragm arranged in front of the photoresistor can have a setting range which is one step greater than own the lens hood. The switching stage can consist of a trigger, whereby in the emitter-collector circuit of the output transistor, which is conductive until the shutter is actuated, an incandescent lamp and one of the The cell cover is kept closed until the working area is reached. In parallel with that The triggering magnet controlled by the switching stage can be equipped with an additional incandescent lamp as well as a

de closed switch be arranged after the working range of the lens diaphragm has been exceeded. the Another incandescent lamp can also be moved in front of the one lamp if there is a risk of underexposure colored disc to be replaced. The opening movement of the lens diaphragm takes place via a release linkage, which is braked by the pneumatic escapement in order to be actuated at different speeds the shutter release and thus prevent incorrect exposures.

The invention is explained below using an exemplary embodiment. It shows
F i g. 1 aperture control mechanism, FIG. 2 switching stage with limit value display. According to FIG. 1, an adjusting ring of an objective diaphragm 1 is held in the position of the smallest opening by means of a spring 2. The setting ring can be moved via a drive arm 3 by means of a release rod 4. Located in the range of motion of the latter

There is also an adjusting lever 5 for a front of a photoresistor 6 arranged diaphragm 7; hereinafter referred to as the cell diaphragm, a switch 9 and a lock release lever 10. The cell diaphragm 7 has an adjustment range that is one step larger than the lens diaphragm 1. The release linkage 4 is coupled to a pneumatic inhibitor 11. At 12 there is one Setting handle for setting the exposure time.

According to FIG. 2, the switching stage is formed by a trigger consisting of transistors 13, 14, in FIG whose input is the photoresistor 6 and the preselected exposure time and film speed Resistance 15 inputting into the switching stage is arranged. The transistor 13 becomes an electric holding magnet 16 controlled, which a lamp 17 with one of the actuator of the cell diaphragm can be actuated Switch 18 is connected in parallel. Parallel to the emitter-collector path of the transistor 13 is another Lamp 19 is switched with a switch 20 which can also be actuated by the actuator of the cell diaphragm. With 21 is a lamp indicating that the recording has been carried out, and denoted by 22 is a battery.

The mode of action is as follows: After entering the mechanically set exposure time and the film speed In the switching stage via the variable resistor 15, the trigger can be operated. When the release linkage 4 is actuated, the switch 9 of the circuit shown in FIG. 2 shown Limit switch. The cell diaphragm 7 is then opened by one step. Via the lever 10 the lock is unlocked, with the lock initially still being released by the holding magnet 16 is prevented. You can then open the lens and cell diaphragms at the same time take place. This opening movement is delayed by the pneumatic escapement 11 so that by different release forces no incorrect exposures can occur. The escapement is different from the one set Exposure time dependent, so that the setting delay is also shorter with short exposure times. In normal lighting conditions, the opening movement mentioned last is activated after reaching of a certain photoresistance value, the transistor 13 is blocked and thus the magnet 16 is de-energized, see above that the shutter can run with the preset exposure time. The warning lights 17 and 19 remain dark because switches 18 and 20 are open. The recording carried out is indicated by the flashing Lamp 21 displayed.

However, is the existing illuminance greater than it is for the smallest lens aperture is permissible, the trigger switches immediately before the shutter is cocked. So before an opening movement the lens aperture has started, the transistor 13 is blocked. Because in this aperture position the switch 20 is still closed, the z. B. yellow lamp 19 on. This serves as a warning signal for overexposure.

In contrast to this, the lens diaphragm 1 is moved to its largest opening without the shutter being released takes place, then immediately after the lens aperture range is exceeded by the setting means for the cell diaphragm 7 to be moved a little further, the switch 18 is closed. Because the transistor 13 is still conductive, the z. B. red lamp 17 on. This serves as a warning signal for insufficient light conditions. The shutter will not be released because the transistor is even when the lens aperture is fully open 13 and the magnet 16 remains live.

Instead of the two lamps 17, 19 for the limit value display described, only one lamp can be used can be used, in front of which a colored disc is moved if there is a risk of underexposure and which lights up without this disc if there is a risk of overexposure.

1 sheet of drawings

Claims (6)

Patent claims: 1. Automatic exposure for photographic cameras, in which during the by an escapement controlled continuous opening movement of the lens diaphragm via a trigger circuit an electromagnetically actuated light-dependent shutter release takes place, the preselected Exposure time entered into the trigger circuit via an adjustable resistor is, characterized in that the lens aperture (1) in a known V / eise with a variable diaphragm (7) arranged in front of a photoresistor (6) is coupled and that the photoresistor as an element of a voltage divider (6; 15) in the input of the trigger circuit (13; 14), in the output of which at least one lamp (19) is connected, which is the existing The risk of under- and overexposure indicates the different line status of this switching stage. 2. Automatic exposure system according to claim 1, characterized in that the front of the photoresistor (6) arranged diaphragm (7) an adjustment range which is one step larger than the lens diaphragm (1) has. 3. Automatic exposure system according to claim 1 and 2, characterized in that the switching stage is off there is a trigger, with one in the emitter-collector circuit that is conductive until the shutter is actuated Output transistor (13) an incandescent lamp (19) and one of the adjustment mechanism for the diaphragm (7) The switch (20) held closed until the working area of the lens diaphragm is reached. 4. Automatic exposure system according to claim 1 and 2, characterized in that parallel to one of the triggering magnet (16) controlled by the switching stage, an incandescent lamp (17) and one from the cover (7) after the operating range of the lens diaphragm is exceeded, the switch (18) is closed. 5. Automatic exposure system according to claim 1, characterized in that the opening movement the cover takes place via a release linkage, which is variable in its inhibiting effect pneumatic escapement is braked. 6. Automatic exposure system according to claim 1, characterized in that one with existing Risk of underexposure in front of the lamp (19) movable colored disc is provided.