DE1259197B - Photographic shutter - Google Patents

Description

Photographic shutter The invention relates to a photographic shutter Closure with at least one movable closure member and a device for flash synchronization.

Known synchronization devices of this type have a mechanical actuated contact on that of a movable closure member at the right time is controlled before the shutter opening. Such mechanical contacts are subject to mechanical wear, are sensitive to dust and require very precise Adjustment that may change over time. In particular such contacts must be adjusted for shutters with short exposure times very difficult for electronic flash devices.

To simplify this adjustment and also for a long time. Disruptions exclude, contains a flashlight synchronization according to the invention in the circuit the flashlight device has a controlled rectifier (thyristor) on whose Grid a coil is connected while in the area of during the closure process moving closure member, a magnetic circuit is arranged, one part of which camera fixed and the other part is connected to the closure member, the Coil at least partially encloses the magnetic circuit.

Due to the temporarily connected to the movable closure part Magnetic circuit associated part is in this a change of the magnetic flux caused so that a voltage is induced in the coil. This voltage controls the thyristor on, so that now the ignition current to the flash tube in the event of electronic flashes and reaches the flash lamp in the case of piston flashes. The start impulse is on the limited short time in which the moving part enters the magnetic circuit. the The direction of movement of the moving part is without for the polarity of the pulse Concern.

The disadvantages of a mechanically operated contact mentioned at the beginning are avoided with a thyristor. There is no mechanical wear There is still a risk of contacts becoming dirty.

Further details and advantages of the invention emerge from a Embodiment which is explained in detail with reference to figures. It shows F i g. 1 shows the basic arrangement with a circuit diagram, FIG. 2 a photographic Closure with a synchronization device according to the invention.

In Fig. 1 is a controlled rectifier with 1, which is also under the name thyristor has become known and has a switching behavior similar to a Thyratron, arranged in a camera-fixed loop from the connection nipple2 for the synchronization cable of a flash unit.

In the control circuit of the thyristor 1 are parallel to each other a coil 3 and a diode 4. The coil 3 is around a horseshoe-shaped permanent magnet 5 wound, between the north and south poles of a soft magnetic part 6 during of the locking process runs through it.

The mode of operation of this arrangement is such that during an exposure process the soft magnetic part 6, in the present case designed as a circular cylindrical pin, passes between the magnetic poles of the horseshoe magnet 5 and through the change of the magnetic. The flux is positive when it enters between the magnetic poles Pulse and a negative pulse generated in coil 3 when coasting. Through the positive pulse, the thyristor is turned on, so that the circuit of the flashlight device closed and the flash is fired.

The rise in current in the thyristor is very steep and certainly with comparable to closing a mechanical contact. The negative impulse that a destruction of the thyristor 1 could result, by a diode 4 suppressed.

In Fig. 2, a simple photographic shutter is shown at the one provided with an opening 7a, rotatably mounted disc 7 by the action a snap-leg spring 8 is held in two end positions, in each of which one Lens opening 9 is closed. By turning over one of the rotatable bearings Lever 10 is the disc 7 with approximately the same maximum speed brought into the other end position, the opening 9 for a certain time Exposure is released. For the next one Exposure process the lever 71® is returned to its original position, which is secured by a device-fixed Stop Illa of the board 1.1 is set. Then the disk 7 swings under renewed release of the exposure opening 9 back into the starting position shown. The two end positions are through recesses 7 b and 7 c of the disc 7, the on the axis of the lever 1.1, which is fixed to the device, is determined.

The cylindrical pin sits on a nose 7 c of the closure disk 7 6 made of soft magnetic material. The horseshoe magnet 5 is arranged on its path, so that during a closure opening the pin 6 between the two magnetic poles runs through. The horseshoe magnet 5 is arranged to face the path of the part 6 is arranged symmetrically during an exposure process. If the part 6 is arranged centrally to the opening 7 a of the disc 7, the magnet 5 must also be to the exposure opening 9 be arranged symmetrically.

The exposure time determined by the length of the opening 7 a and the speed of rotation of the disk 7 is relatively short in the embodiment described and is of the order of magnitude of the duration of the flash. That is why the lightning bolt must be ignited in such a way that its burning coincides exactly with the opening of the shutter.

For example, only a small amount is required to ignite an electronic flash Preignition time required so that it is sufficient if the part 6 between the poles of the Horseshoe magnet 5 runs in and thus causes the ignition pulse when the shutter opens is being released. The dimensions shown of the horseshoe magnet, in particular the expansion of the pole pieces in the direction of movement of the passing pin 6, correspond roughly to the dimensions required for electronic flash synchronization. The pole shoes must be arranged symmetrically with respect to the path of the part 6 be so in the subsequent exposure, in which the shutter disc 7 in runs in the opposite direction, the flash firing takes place at the same time.

A longer pre-ignition time is required for the ignition of piston flashes. This can basically be achieved by appropriate choice of the position or width of the Realize pole shoes. Also a change from electronic flash to piston flash triggering is easily possible if the position of the pole pieces by moving or the Width of the pole pieces, e.g. B. by attaching additional soft iron parts changed will. If this change takes place in the pole piece width, e.g. B. by attaching two the same soft iron parts symmetrically on both sides of the pole piece, so results The same pre-ignition time is achieved again for both directions of movement.

The type of synchronization described has been very successful used with a flash synchronization for a registration camera with the very short exposure time of 1 / 5o. Second. This camera had a mechanical one Synchronization due to bouncing when swinging back and forth Closure causes extremely great difficulties. The synchronization according to the invention however, it can also be used with advantage in photographic shutters which the shutter parts run in the same direction with each exposure; z. B. could then with a closure with two consecutive sector rings, the relative movement of which results in the shutter slats opening, the soft iron part 6 be arranged on the leading sector ring. Since the sequence movement is this Sector ring takes place independently of the exposure time at the same speed, there is also always a control pulse for the thyristor of the same size. Since the span movement of the sector rings is reversed compared to the exposure process Direction takes place much more slowly, the impulse is during the clamping movement so small that it is not sufficient to ignite the lightning bolt. Special means of oppression this impulse is therefore unnecessary.

Claims (4)

Claims: 1. Photographic shutter with at least one movable shutter member and a device for flash synchronization, d a d u r c h characterized that in the circuit of the flashlight device a controlled Rectifier (thyristor) (1.) is connected to the grid of a coil (3) is that in the area of the closure member moved during the closure process (7) a magnetic circuit is arranged, one part of which (5) is fixed to the camera and the other part (6) of which is connected to the closure member (7) and that the coil (3) at least partially encloses the magnetic circuit. 2. Photographic shutter according to claim 1, characterized in that the magnetic circuit is camera-fixed permanent magnetic horseshoe magnet (5) contains, between its poles on the running closure member (7) seated soft magnetic part (6) passes through. 3. Photographic shutter according to one of claims 1 and 2, characterized in that that when the shutter is formed with one during the one exposure process in one and during the subsequent exposure process in the opposite Direction of moving lamella (7) the soft magnetic part (6) sits on the lamella, the horseshoe magnet (5) is arranged symmetrically to the lens opening (9) and the Width of the pole pieces, the shutter speed and the ignition delay of the flashlight device is adapted. 4. Photographic shutter according to one of the preceding claims, characterized in that the negative half-wave in the circuit of the coil (3) blocking or short-circuiting rectifier (4).