DE2005403C - Electronically controlled single-lamella spin lock with magnet - Google Patents

Description

The invention relates to a photographic camera with a single-blade centrifugal shutter, the from an electronic time formation device.

is controlled by a magnet that unlocks the lamella held in the open position. . ,

There are different designs only such Closures using Hatte or attraction magnets known. All of these solutions are one high mechanical effort in common. With holding magnet systems a complicated mechanism must ensure that the slat is in the open position locking armature is already applied to the magnet yoke. Otherwise they are for the given size The forces available are not sufficient to lock the anchor securely. By both Types of function must be achieved by appropriate means that the slat securely in the open position is intercepted without significantly reducing their centrifugal energy beforehand. Of this and the shortest possible shutter speed depends on the dimensioning of the lamellar return spring significantly. Line variety vuii love and clinker, was always necessary.

If the catch is designed as a magnet armature at the same time, fewer parts are required. However For kinematic reasons, the safe catching of the lamella is very critical and requires a high Adjustment effort. The reason for this is that the kinetic energy of the opening Sector is partially transferred to the retaining pawl and this starts to vibrate. she In other words, it swings back and forth several times between the magnet yoke and the sector edge. Around To make vibrations ineffective, one would have to strengthen the spring of the catch or the overflow of the lamella considerably. In both cases, the shortest possible shutter speed becomes essential extended.

The invention is therefore based on the object for a closure of the type mentioned, its To train pawl so that the catching of the shutter blade in the lock-open position without Transmission of vibrations from the shutter blade to the pawl takes place and thus in each Trap is guaranteed. Since the release of the shutter blade to end the exposure through a magnet takes place and in such magnets remanence forces the armature even after switching off of the current flowing through the magnet on the magnet yoke, it is essential to anchor and to separate the yoke from one another after the exposure sequence has ended without the force of the return spring of the armature, or a residual air gap between armature and yoke in the working position of the Retain magnets, because these measures provide higher magnetic forces for attracting the armature would be required.

This object is achieved in that a pawl in the closed position of the Shutter lamella rests against a bend, a pin or pin with an edge, the shape of which with the movement path of the bend, the pin or pin from the closed to the open position of the Closure matches, and that the pawl by spring action, the angled, the pin or Pin of the lamella underpasses in the shutter open position and thus the return of the lamella for the duration of the exposure time locks without energy from the lamella on the pawl during this process is transmitted and thereby vibrations

the pawl can be avoided, and that the pawl in accordance with the electronic timing device under the action of the magnet, the shutter is unlocked by releasing its bend, pin or pin. '. S.

The subject of the invention is explained using the drawing:

Fig. 1 shows the cocked shutter before Tripping;

F i g. 2 shows the lamella in disclosure.

As FIG. 1 shows, the lamella 2 is in the rest or closed position in front of the receiving opening 5. The drive lever 1 is in its clamping position, the means for clamping, for holding in the clamping position and the MiUeI for driving and triggering are not shown. When triggered, the lamella 2 is thrown into the open position by the drive lever 1, which is tensioned during the film transport and then released, against the force of a spring 15 acting on it, as shown in FIG. 2 is shown. The drive lever 1 engages behind when it expires in the direction of arrow A according to the force acting on it at point 16, which rotates it around axis 3, the angled portion la of lamella 2 and a ₅ hurls the lamella into the open position up to? .Um fixed to the housing Stop 4, on which the drive lever also comes to rest. The lamella 2 rotates around its storage 6. Since both rotations are carried out around different pivot points, the arm reaching behind 1 α leaves the bend 2 α after a short engagement, during which the impact is transmitted.

The angled portion 2 b of the lamella 2 sweeps along the edge 7 α of the pawl 7 during the opening movement. The pawl 7 can be rotated about the rivet 8 and is pressed by the spring 9 with the edge 7 b in the direction of the eccentric rivet 10. As soon as the edge 7 α leaves the bend 2 b , the pawl 7 falls by rotating so far clockwise that the edge 7 b comes to rest on the eccentric 10. can be adjusted by turning the eccentric tool 10.

For the proper function of the pawl? It is of the utmost importance that the edge la is shaped roughly like the circular arc rubble which the contacting side of the 2 ft bend describes during the slinging movement (see radius R). In this way it is ensured that the lamella 2 is held in spite of the slightest overflow between the stop 4 and locking position when the pawl 7 engages and practically no energy is given off from the lamella 2 to the pawl 7 beforehand.

The pawl 7 holds the lamella 2 until the electromagnet 11 pulls the armature lever 12, which rotates around the bearing pin 13, in accordance with the electronic timing device. In this case, together with the armature lever 12, the pawl 7, which is non-positive against its eccentric 10, is pivoted a little counterclockwise. The bend 2 b disengages mi ·. Jt the pawl 7, and the lamella 2 can pivot again into the closed position due to the force of the spring 15. Since the pawl 7 moves in a tangential path to the I agerzapfen 13 during this Hntriegelungsvorgang, the lamella 2 is not rotated. This has the advantage that the electromagnet 11 does not have to work against the spring 15. At the end of the closing path of the lamella 2, the bend 2 c meets the arm of the armature lever 12 on which the spring 14 engages. The lamella 2 supports the spring 14 by its impact, so that the armature lever 12 is torn off against the remanence holding it on the magnet yoke. It is particularly advantageous that the remaining kinetic energy is used to overcome the remanence. The lamella does not rebound from its stop again. The so-called star formation cannot occur through repeated brief exposure.

1 sheet of drawings

Claims (4)

Patent claims: 1. A photographic camera with a single-lamella centrifugal shutter controlled by an electronic timing device by a magnet causing the release of the lamella held in the open position, characterized in that a pawl (7) in the closed position of the shutter lamella (2) at a bend , a pin or pins (2b) with an edge (7a) is applied, the shape of which coincides with the path of movement of the angled portion of the pin or the pin (2 b) from the closed to the open position of the closure, and that the locking pawl (7) by spring action, the bend, the pin or pin (2 b) of the lamella (2) undercuts in the shutter open position and thus blocks the return of the lamella (2) for the duration of the exposure time without energy of the lamella (2) during this process the pawl (7) is transmitted and thereby vibrations of the pawl are avoided, and that the pawl (7) in accordance with the electronic time educational device under the action of the magnet (11) unlocks the shutter blade (2) by releasing its bend, pin or pin (2 b). 2. A photographic camera according to claim 1, characterized in that the edge (7 a) of the pawl (7) has the shape of a circular arc, the radius of which corresponds to that of the circular arc that the bend, the pin or pin (2 b) at describes the rotation of the lamella (2) about its bearing (6). 3. A photographic camera according to claim 1 and 2, characterized in that the pawl (7) is designed as a two-armed lever and is mounted on the armature lever (12) of the magnet (11), being resiliently attached to a rotatable eccentric rivet (10) of the The armature lever (12) is supported, and the depth of incidence of the pawl (7) behind the angled portion (2b ) of the lamella (2) can be adjusted with this eccentric rivet (10). 4. Photographic camera according to one or more of the present claims, characterized in that the lamella (2) with an angled portion (2 c) further away from the pivot point (6) than the angled portion (2 b) is provided, which is shortly before reaching the The closed position of the lamella (2) meets the end of the armature lever (12) opposite the armature plate (17) and thereby rotates the armature plate (17) from the magnet yoke into its rest position, separating it from the force of any remanence, with one on this arm of the armature lever (12) acting spring (14) is supported by a shock.