DE1177471B - Electromagnetic shutter - Google Patents

Description

Electromagnetic. Aperture shutter Addendum to the application: M 46103 IX a / 57 a -Auslegeschrift 1155 009 The main patent application M 46103 IX a / 57 a relates to an electro-magnetic shutter, the shutter lamella or lamellae are operated by means of electrical = impulses, die.- from an -electrical A flip-flop circuit, the time behavior of which is determined by an RC element that is dependent on the measured luminance. It has. has now shown that the use of these circuits for photographic purposes still requires the use of electrical components. is too high. The arrangement assumes that power transistors are used, which are relatively expensive compared to switching transistors. Furthermore, a constancy of the amplitude of the pulses for a given luminance of the object requires, in addition to a corresponding constancy of the photoresistor, a corresponding constancy of the characteristic data. of the transistors used, so that the application of these circuits is not appropriate for tasks occurring in practice alone.

The present invention is therefore based on the object electromagnetic shutter according to claim 1 of the main patent application to improve. One such possibility is in claim 2 (Figs. 2 and 3) of the main patent application shows where the impulses acting on the electromagnetic system both in terms of their length as well as in terms of their height depending on the Luminance can be varied. In contrast, the subject of the invention for the actuation of the shutter lamella or lamellae as an electromagnetic system a measuring mechanism is used in which the constant amplitude due to the action of a pulse but variable length generated acceleration of the lamella or lamellae as a function from the deflection angle. additional magnetic or mechanical, on the moving ones Measuring mechanism part acting means can be influenced.

The invention is described below on the basis of two exemplary embodiments explained in more detail. For this purpose, in the drawing according to FIG. 1 and 2 two monostable Trigger circuits shown.

The electromagnetic system 1 is also used as a lock and aperture serving lamella 2 attached, which in a known manner has a wedge-shaped Contains slot 2a, the lens opening 3 more or less wide and more or releases less long, depending on how long it is on the electromagnetic system Current impulse acting in the direction of opening persists. The two partial windings 1 a and 1 b of the electromagnetic system are according to the known, mode of operation monostable multivibrators alternating from the collector current of the transistors 4 and 5 flowed through, the circuit being designed so that in the stable position the flip-flop the transistor 4 is live. When the trigger is pressed 6 the transistor 5 is energized, while transistor 4 blocks and the lamella moves under the effect of the collector current of transistor 5 in direction.des Arrow 7. The length of this impulse, which moves the lamella in the direction of the arrow, depends on the time constant of the RC element, essentially consisting of the photoresistor 8 and the capacitor 9, so that the fin depending on the respective Time constant of this RC element neither in the rest position under the effective of the Collector current from transistor 4 is fed back.

The per se known monostable multivibrator according to FIG. 1 leaves it is due to their mode of action that the in the present application by the photo resistor 8 formed resistor can be relatively high resistance, so that commercially available Photoresistors can be used directly. The disadvantage of this circuit is, however, that they are compared to other known monostable Trigger circuits is relatively unsafe, so that their proper function after aging the transistors can be disturbed. In the embodiment according to FIG. 2 a so-called Schmitt trigger is used, which has the disadvantages the monostable multivibrator according to FIG. 1 are avoided, but the one for the present Use case not with a commercially available, relative high resistance Photoresistor 8 in connection with the capacitor 14 can be controlled directly can. It therefore becomes an additional transistor in connection with the Schmitt trigger 10 brought into use. When the trigger 6 is pressed, transistor 10 becomes immediately locked, and the Schmitt trigger falls into the working position. With increasing tension at capacitor 14, transistor 10 becomes steady in connection with base resistor 11 steered up and leaves, assigned to a certain voltage on the capacitor 14, the Schmitt trigger fall back into the rest position. Since this reversal of the Schmitt trigger in the rest position in the function described within certain limits of the characteristic data of the transistor 10 depends, is in a further embodiment in the base circuit of the transistor 10 instead of the base resistor 11 a Zener diode 13 is used, so that the falling back of the Schmitt trigger in the rest position is clearly defined by the size of the Zener voltage and thus not only for the control of the Schmitt trigger, but also for the reversal in the rest position clearly defined conditions are created.

As already indicated above, in the circuits according to FIG. 1 and 2 the amplitude of the control pulses does not vary, so that neither does one with them Variation in the acceleration of the electromagnetic system is possible. To now The greatest possible time variation is to be superimposed on the aperture variation it necessary to increase the size of the acceleration simultaneously with the time over which it is effective to vary. This problem is solved according to claim 2 and the circuits according to FIG. 2 and 3 of the main patent application due to the special training of the Circuit solved using an additional photoresistor. The same thing Problem is solved in the invention with electrical circuits, which opposite the proposal of the main patent to the extent that they are more advantageous and simpler, than with them on the one hand the data of the switching transistors in the pulse amplitude practically do not enter and because on the other hand, the comparatively expensive photo resistors no longer show. The desired overlay of the largest possible time variation can be achieved that the air gap induction of the electromagnetic System, which is preferably designed as a measuring mechanism without directional force, in deflection direction decreases. The achievement of a characteristic suitable for the respective application the course of the air gap induction is determined by a certain dimensioning of the air gap achieved.

Another possibility when using a measuring mechanism with a homogeneous Field or in the case of insufficient time variation in measuring units with an inhomogeneous field in that means are used which dampen the moving system increase with increasing deflection angle. Such a means exists, for example in that the required damping by the attachment of a fixed permanent magnet is achieved, in the air gap of a metal flag attached to the movable measuring mechanism part dips further with increasing deflection angle. Another remedy is to that the damping by a defined, variable depending on the deflection angle Friction is generated. For this purpose, the movable organ is curved with a trained toothed washer, which with increasing deflection angle in always stronger engagement with a leaf spring comes.

Claims (1)

Claims: 1. Electromagnetic shutter, its shutter blade or slats are operated by means of electrical impulses from a monostable Starting out flip-flop whose time response is determined by the measured luminance dependent RC element is determined according to claim 1 of patent application M 46103 1Xa / 57a, characterized in that for the actuation of the shutter lamella or lamellae a measuring mechanism is used as an electromagnetic system, in which the through the Effect of a pulse of constant amplitude but variable length generated acceleration of the lamella (1 or the lamellas 2, 12) depending on the deflection angle additional magnetic or mechanical acting on the moving part of the measuring mechanism Means can be influenced. z. Shutter according to Claim 1, characterized in that that the change in the acceleration of the lamella or lamellae as a function of Angle of deflection due to air gap induction which decreases with increasing deflection is effected. 3. A shutter according to claim 1; characterized in that the Change in the acceleration of the lamella or lamellae depending on the deflection angle by an additional damping that increases with the angle of deflection is effected. 4. A shutter according to claim 3, characterized in that the Damping is achieved by a defined variable friction, preferably through the interaction of a curved shape connected to the movable organ Toothed washer with a leaf spring.