DE1281262B - Photographic camera with electronic shutter speed control and flash device - Google Patents

Description

Photographic camera with electronic shutter speed control and Flash device The invention relates to a photographic camera with a an electronic shutter speed controller comprising an RC element and a holding magnet as well as a flashlight device for flashlights, which together from a Battery to be fed and where means when using the flashlight device to prevent the shutter from closing when the flash lamps are ignited be switched on.

For cameras with electronic shutter speed controls and flashlight devices, which are fed from a shared battery, it is when using Flashlight devices required to ensure that through the ignition the resulting battery voltage drop in the flashlight causes a tipping over the electronic shutter speed control prevents incorrect exposure to prevent this by closing the lock prematurely.

It has already been proposed to ignite the flash lamp take the necessary current from a capacitor connected in parallel to the battery, so that the voltage available does not drop too far for a perfect To ensure that the electronic shutter speed control works. This arrangement however, requires large capacities and thus large capacitors, their space requirements and costs are unreasonably high.

It is also known the circuit for the electronic shutter timing control to be coupled via a diode and to arrange the storage capacitor in the electronics. At the moment the flashlight is switched on, the electronics are activated the necessary electricity from this storage capacitor. The diode creates a simultaneous capacitor discharge as a result of the lightning strike prevented. However this circuit has the disadvantage that due to the occurring at the diode Loss of voltage when the battery voltage is already low proper functioning is no longer guaranteed.

The invention is based on the object of using these disadvantages easier and cheaper means to avoid.

According to the invention the object is achieved in that the coil of the Holding magnets a capacitor is connected in parallel as a delay element.

The invention is based on the drawing executed as a circuit diagram explained in more detail.

When the lock is triggered, in a known manner by means of a first expiring and the beam path exposing closure member of Switch 1 closed, whereby the charging capacitor 2 via the light-dependent resistor 3 is connected to voltage. At the same time, the amplifier is switched on and tilting part 4 of the electronic shutter timing control. The holding magnet pulls 5 at. This blocks the flow of a second one that closes the beam path Closing member until a certain capacitor voltage has been reached. Is this If voltage is reached, flip-flop 4 flips over and the holding magnet that has become de-energized 5 releases the second closure member. The exposure is finished. After Exposure is the charging capacitor 2 in turn in a known manner the resistance 6 connected in parallel so that a complete discharge is brought about.

However, the arrangement is intended to be used for recordings with flash lamps with the flashlight connected to the same battery, in this way it must be avoided that the ignition of the flashlamp does not cause it to close prematurely the closure takes place as a result of the brief high current draw from the battery. Otherwise there is a risk that the inconsistency between the times will cause the flash lamp to ignite and shutter open position incorrect exposures occur.

Therefore, when the flashlight device is used, the capacitor 7 is switched in parallel to the coil of the holding magnet 5 by means of the switch 8. When the switch 1 is closed, the capacitor 7 is charged at the same moment that the holding magnet 5 is connected to voltage when the electronics are switched on. The switch 9, which places the resistor 10 parallel to the light-dependent resistor 3, is coupled to the switch 8. This resistor is dimensioned so that when the light-dependent resistor 3 is not illuminated, a shutter speed of approximately four milliseconds is formed. The capacitance of the capacitor 7 is chosen so that after the supply voltage has ceased to exist at the holding magnet 5, the latter remains attracted for a further thirty milliseconds. If so high a current is drawn from the battery when the flash lamp 11 is ignited by means of the synchronous contact 12 that the battery voltage collapses and the flip-flop switches over, the shutter remains open for at least thirty milliseconds and perfect exposure is ensured. If, on the other hand, the tilting stage does not tip over, the shutter open time increases to about thirty-four milliseconds, which, however, is irrelevant for the exposure. Influencing the shutter speed via the light-dependent resistor 3 is practically impossible, since its resistance value is normally at least one order of magnitude higher than that of the resistor 10 and the flash lamp only lights up after the approximately four milliseconds have elapsed. An electrolytic capacitor is preferably used for the capacitor 7. In order to keep this permanently in the formed state and thus to counteract a slow decrease in capacity, it is connected to battery voltage via the resistor 13 even when the electronics are switched off.

Of course, so-called flashlights can also be used instead of flashlights Flash cubes equipped with or that can be equipped with flash lamps can be used. aside from that it is possible to use the switches 8 and 9 by inserting the flash lamp or to close the lightning cube in the socket actuatable control element.

Claims (1)

Claim: Photographic camera with an RC element and an electronic shutter timing controller having a holding magnet and a Flashlight device for piston flashlights, which together come from a battery are fed and where, when using the flashlight device, means of prevention a closing of the shutter occurring when the flash lamp is ignited is switched on be, d a d u r c h g e - indicates that the coil of the holding magnet is a capacitor is connected in parallel as a delay element.