DE2727102A1 - Solenoid operated shutter linkage for camera - operates with return spring force uncoupled when shutter system is reset - Google Patents

Abstract

The solenoid operated shutter linkage has a permanent magnet (4) which is partially opposed by the solenoid, to release a spring loaded linkage to operate the shutter. To reset the shutter the return spring force has to be overcome, and this is possibly by uncoupling the return force and allowing a relatively simple solenoid action to bring the shutter back to the permanent manget. The system eliminates shutter bounce and camera vibration. It provides a simple mechanism with just one solenoid.

Description

Electromagnetic release device for a camera

The invention relates to an electromagnetic shutter release device, in particular a magnet combination of a magnetic core, a permanent magnet and an electromagnet in a functionally assigned arrangement.

In the case of an electromagnetic shutter release device in which the shutter is released because the shutter release is pressed an armature is moved away from the core, the armature is directed by a return spring biased on a quick release from the core to ensure the release of the shutter takes place immediately on actuation of the shutter release. Because the anchor is released from the core every time the lock is released remains, it is necessary the anchor in some way to concern reset at the core by overcoming the biasing force of the return spring.

Up to now, this reset was done either with the release element the shutter release mechanism in connection with the shutter release process or in some other way in connection with a subsequent pulling or tensioning of the shutter.

In both cases, the reset must counteract the biasing force of the return spring which is responsible for certain disadvantages that have been accepted up to now had to be.

The latter system involves cocking the shutter opposed a resistance, while in the first system the release of the shutter must take place against a higher pretensioning force, which lead to a blurred image can, since the shutter release element rebound after reaching its end position will.

While this disadvantage could be avoided by having the strength the bias of the return spring is reduced, but this measure would other difficulties, such as a delayed and unsafe shutter release entail.

The aim of the invention is therefore an electromagnetic release device, which has the combination of magnets described above and the tensioning of the closure make it lighter and the driving force for any operation of the camera can decrease.

The aim of the invention is also an electromagnetic release device of the type described above, in which the biasing means for biasing a Anchor is held ineffective for moving away from a core or is removed, when the anchor is reset on the core, making it redundant, a provide great force to reset the anchor.

The electromagnetic release device according to the invention is for this purpose provided with a magnet combination in which the excitation of an electromagnet The attraction of a permanent magnet cancels the attraction of an armature serves to a core.

A device is provided that controls the shutter release mechanism Holds releasable in the tensioned state and one that sets the release process in motion Means containing the armature is adapted to be movable to to put the holding device out of action and thus triggering of the shutter release mechanism to enable. When the anchor is tightened to the core, the pretensioner is which can usually be kept relaxed or ineffective, tense to one Provide pretensioning force by the tensioning device, which is applied to the tensioning of the Shutter release mechanism is operated.

The biasing device can act on the cancellation of the attractive force of the permanent magnet under the force provided, remove the armature from the core or release and at the same time the device that sets the release process in motion move to disable the holding device. After loosening or separating of the anchor from the core, the prestressing device is relaxed again or ineffective. The pre-tensioning force provided by the pre-tensioning device is determined in such a way that it is smaller than the attractive force of the permanent magnet, so the armature under the force of attraction against the provided pre-tensioning force after tensioning the pretensioner remains attracted to the core. The invention electromagnetic release device is also provided with a device, always when the device setting the triggering process in motion the holding device has overridden in order to enable the release of the shutter release mechanism, this setting the shutter release process in motion device in a position resets or leads back, in which the anchor again in contact with the core comes with the pretensioner held in the relaxed or inoperative state will.

With the structure described above, there is a large force to drive the resetting device is not necessary because the pretensioning device at the Reset and is in the relaxed or inoperative state during the reset. Thus, no rebound movement occurs due to the drive process, the one May cause blurring of the recorded image. Provision or storage the driving force can moreover take place with a relatively low expenditure of force.

In a preferred embodiment of the invention, the Holding device, the clamping device and the resetting device together as Part of a vibrating element with two arms and is the triggering process Providing the device in motion with a movable element which is connected to the Armature is coupled, is movable in the direction of the contact and substantially hits at right angles on one arm of the oscillating element. One arm of the vibrating element is provided with a part that can be assigned to the shutter release mechanism can when the mechanism from its cocked position to its rest position is moved. The vibrating element, which is assigned to the mechanism in this way, is swiveled in order to push the movable element back into a position by an arm, in which the armature is set back so that it comes into contact with the core. Between one arm of the vibrating element and one arm of the movable element, the protruding laterally from this element, a spring is suspended, which is the biasing device educated and usually relaxed.

When the vibrating element and the movable element are maintained while maintaining of the contact with each other during the resetting of the armature will move together the spring was kept relaxed during this period. The anchor is through the Attraction attracted at the same time as resetting to the core, as one Circuit for exciting the electromagnet interrupt the excitation a short time later can.

On the other hand, the other arm of the vibrating element is with a part provided that is associated with the shutter release mechanism will can when the mechanism from its rest position to its cocked position the cocking of the closure is moved. The vibrating element in this Way is assigned to the mechanism, it is now pivoted to one arm of the to release the movable element, so that the spring is tensioned to the pre-tensioning force provide. The other arm of the vibrating element is also connected to another Provided part that releasably engage with the shutter release mechanism can when the mechanism reaches its cocked position. That way achieved engagement is maintained under the pretensioning force of the tensioned spring.

When removing or separating the anchor from the core, the movable Element moves so that it is provided against an arm of the oscillating element under the The pretensioning force of the spring strikes, as a result of which the oscillating element is pivoted. then the engagement is released and thus the shutter release mechanism can move to its resting position to release the shutter.

It can be seen that the embodiment is simple in structure is because the vibrating element is common as part of the holding device, the clamping device and the reset device is used.

In a further preferred embodiment of the invention is a countermeasure is provided in the event that, due to the exhaustion of the electrical energy source or any fault in the excitation circuit of the Electromagnet cannot be energized. That means that the core, the electromagnet and the permanent magnet are fixedly attached to a movable element, which in the movement path of a manual release element is arranged. In the trajectory the manual release element is also a switch that is closed is to the excitation circuit in the initial phase of the movement of the manual release element to actuate. With this structure, the locking mechanism itself is triggered when the electromagnet remains de-energized even after the switch is closed, because the movement of the manual release element in a position in which it is on the movable Element exerts pressure, shifts it and forces the core to move on and to detach against the force of attraction from the anchor, causing the anchor under the provided biasing force of the spring can be removed from the core or separated can.

In other words, that means that cameras trigger the shutter use an electromagnetic device that has a combination of magnets, in which the momentary excitation of an electromagnet is the attraction of a permanent one Pick up magnet that serves to attract an armature to a core. If the Anchor is tightened on the core, a spring that is between a locking element and is suspended from a movable element coupled to the armature, tensioned, to provide a biasing force when the locking element on the tensioning of the The shutter is moved into its working position, in which there is a shutter release element holds and locks in its cocked position. The spring tensioned in this way removes or separates the anchor from the core under the provided prestressing force, when the attraction is removed and is then relaxed again or ineffective. Due to the distance or separation of the anchor from the core, the movable element also under the provided biasing force of the spring moves and strikes the movable element against the locking element to trigger the trigger to enable the shutter release element. The shutter release element released in this way is moved under the pretensioning force of another spring to release the lock and strikes during this movement against the locking element, so that this is the movable one The element is pushed back into a position in which the anchor passes through the core again the attraction is attracted. Since at this time the locking element and the movable element can be moved together while maintaining contact, the spring suspended in between remains relaxed or ineffective, so that a strong one Force to return the armature to its tightened position is not necessary.

Preferred exemplary embodiments are described below with reference to the accompanying drawings the invention explained in more detail: Fig. 1 shows in a perspective view of the essential components of an embodiment of the invention these components in their state after cocking the breech and before releasing the breech.

Fig. 2A each show perspective views of the construction 2B and 2C parts in different operating states, FIG. 2A showing the components at the time shows to which an anchor is removed from the core due to the shutter release process or is separated, FIG. 2B showing the components at the time when a element coupled with anchor strikes against a locking element after the anchor is removed or separated from the core, and Figure 2C shows the components at a time shows immediately after the release of the lock release element from the locking element.

Fig. 3 shows in a perspective view the components in one Condition immediately after-after the anchor is reset to make contact with the core to come, and the shutter release element triggers a shutter opening element.

Fig. 4 shows a perspective view of the essential components Another embodiment of the invention, these components in a state after cocking the shutter and before the release process.

5 show top views of the essential components from 1 to 7 further embodiments of the invention, FIG. 5 showing the components according to the Cocking the breech (pulling the breech open) and before releasing shows, where Fig. 6 shows the components immediately after the start of the shutter release, and FIG. 7 shows the components after the exposure process has been completed.

Fig. 8 shows a plan view of the essential components Another embodiment of the invention, these components after clamping of the breech and before releasing the breech.

As shown in FIGS. 1 to 3, there is a shutter release button 1 is designed to have a power switch when depressed 2 of a shutter release circuit 3 closes. Closing this power switch 2 causes the circuit 3 to generate an output signal that is for a short period of time persists.

An electromagnet or a solenoid or a magnetic coil 4 is through the output of the shutter release circuit 3 obtained in the above-described Way is energized, excited and has a core 4a, due to the effect of a permanent magnet 5 is provided with a magnetic field curve, so that a magnet combination of the electromagnet 4, the core 4a and the Permanent magnets 5 results.

Thus, when the electromagnet 4 is not energized, the magnetic core is 4a magnetized by the permanent magnet 5, and when the electromagnet 4 is energized is, the magnetic force of the core 4a becomes relative to the magnetic force of the permanent magnet 5 has the opposite polarity, this magnetic force of the permanent magnet 5 cancel, with the result that the magnetic core 4a its Magnetization loses.

Therefore, if an armature 6 opposite the magnetic core 4a is on the core 4a is kept abutting while the electromagnet 4 remains unenergized the armature 6 its position attracted to the core 4a against a restoring spring 10, whose The effect is to drive back the armature 6 and a support rod 7 from the core 4a However, if the electron magnet is excited, it loses Magnetic core 4a basically its magnetic force, so that the armature 6 from the core 4a under the biasing force of the restoring spring 10 is driven back.

The above-mentioned support rod 7 is slidable with a pin 8, which is rigidly attached to the closure base plate 16, serves as a guide, while one end of the holding rod is attached to the armature 6. There is a locking lever 9 over the return spring 10 is provided in functional connection with the rod 7 through the spring 10 is biased in a clockwise direction of rotation.

The lever 9 is pivotably attached to the closure plate 16, so that it can be rotated with respect to the camera housing (not shown). This locking lever 9 can with its one end with the corresponding end of the holding rod 7 come into engagement. A tapered part 9a of the other end of the lock lever 9 can be connected to a bent part 11b of a trigger sensor 11 described later come into engagement, so that when the armature 6 rests on the core 4a, the locking lever 9 the trigger sensor 11 in its cocked or pulled position under the The biasing force of the restoring spring 10 keeps its tension by this engagement was generated, and so that when the armature 6 is released from the magnetic core, the Trigger sensor 11 is released from its cocked or pulled-up position.

The locking lever 9 is still on the arm with the holding rod is engageable, provided with a reset projection 9b, which is an oblique has extending surface which is to bear against the curved part 11b of the trigger sensor 11 can come when this is released.

The trigger sensor 11 is by a driving spring 17 between the Sensor 11 and the base plate 16 is installed, to its rest position on the right Side biased and substantially parallel to a shutter opening element 13 and a closure closing element 14, which is displaceable with the closure base plate 16 are displaceable as a guide in the transverse direction with respect to the base plate 16, the is rigidly attached to the camera body and has an exposure aperture 16a. Of the Trigger sensor 11 is against the above-mentioned preload offset to the left when a breech lever 15 by pulling the breech is moved to the left, as the lever 15 presses against a projection 11c, which is below the base plate 16 hangs. By connecting links not shown in the the rest of the closure opening and closing members by the movement of the Lever 15 pulled up or cocked to the left.

A locking lever 12 that the shutter opening element 13 in the open or locked in a cocked position, is pivotably attached to the base plate 16, biased by a spring in the clockwise direction and with a pin 12a, which can detect a raised part 11a of the release sensor 11.

Although it is not shown in the drawing, it is the same a locking lever is provided, which the closure locking element 14 in the cocked or locked position.

This locking lever gives the locking element during a desired exposure time interval, whereupon the shutter opening element follows by the work of a mechanical or electrical delay device that not shown, but may be of known type, is unlocked.

The trigger sensor 11 is in its cocked or pulled-up position locked because its bent part 11b against the inclined surface 9a of the locking lever which is biased in a clockwise rotation direction.

As far as the release of the shutter, which is shown in FIG illustrated manner is raised or tensioned, the electromagnet 4 is briefly energized when the release button 1 is depressed to the power switch 2 to close and then the magnetic core 4a loses its magnetization.

The armature 6 previously attracted to rest on the core 4a becomes together with the holding rod 7 from the core 4a by the return spring 10 pulled away as shown in Fig. 2A. Due to the inertia captured the Hold rod 7, the locking lever 9 and gives the holding rod 7 against this rotation clockwise. In this situation, the one in the return spring 10 collected energy is completely destroyed, so that both the armature 6 and the holding rod 7 and the locking lever 9 with respect to the base plate 16 and with respect to of the camera body are released. Thus, the holding rod 7 is now displaceable and the lock lever 9 is rotatable in the above-mentioned manner.

The trigger sensor 11, on which by the tension of the driving spring before 17 is pulled, can move to the right and its curved part 11a causes that the locking lever 9 on its inclined surface 9a easily in a Counterclockwise direction until the bent part 11b from the oblique extending surface 9a is solved, as shown in Fig. 2C. As a result the trigger sensor is shifted to the right, the curved part 11b comes to a stop to the Rückhtzvorsprung 9b, as shown in Fig. 3, so that the locking lever 9 is driven in a clockwise direction.

The locking lever 9 brings the retaining rod 7 into engagement therewith stands, the armature 6 again to rest on the core 4a. Since the electromagnet 4 already is de-energized, the armature 6 is then attracted to the core 4a.

Together with the displacement of the release sensor 11 to the right through the operation described above, the raised part 11a of the trip sensor detects 11 the pin 12a of the locking lever 12 for the opening element, whereby the locking lever is driven in a counterclockwise direction and the shutter opening member in the manner shown in Fig. 3 from the cocked or pulled-up position is released. This causes an exposure to take place. After this The beginning of the exposure is a delay device, not shown, the blocking element, that locks the locking element, not that either is shown, in a conventional manner, free to terminate the exposure.

By tensioning the tensioning lever 15 not only the lock, but also the release sensor 11 is stretched or pulled open.

Since the bent part 11b of the sensor 11 over the inclined Surface 9a of the locking lever 9 runs and is locked, the energy in the return spring 10, which was destroyed in the manner described above, restored.

Because in this particular embodiment, the energy of the return spring 10 is destroyed when the armature 6 is pressed against the core 4a, can be seen no special force is required to press the armature 6 against the core 4a. Since, moreover, the time during which the armature 6 is kept away from the core 4a is1 is only very brief, there is the deposition of foreign matter on the contact surfaces of the armature 6 and the core 4a avoided since this embodiment is so formed is that no release of the shutter can occur without the electromagnet 4 is energized, however, it will be understood that it is impossible to release the shutter, when the power supply battery is exhausted or when in the electromagnetic Tripping system a connection is released or another error occurs.

In the embodiment shown in Fig. 4 is to be overcome this disadvantage, a countermeasure has been taken, a mechanical triggering if necessary permitted. As shown in Fig. 4, have a support rod 7 'for the anchor 27, a guide pin 8 ', a locking lever 9', which is in engagement with the right End of the holding rod 7 'is rotatable, a return spring 1 between the locking lever 91 and the holding rod 7 'is tensioned, a release sensor 11', which is controlled by the locking lever 9 'is locked in the cocked or drawn position and the others Components of the shutter have the same structure as the first described above Embodiment. In contrast to the first embodiment, in which the magnet combination made of elements 4, 4a and 5 rigidly attached to the camera housing is, the second embodiment is designed such that an electromagnet 22, a permanent magnet 24 and a core 26 taken together are a magnet combination form, which is rigidly attached to a sliding plate 23 so that they with respect to of the camera body in a direction substantially perpendicular to the direction of movement of the armature 27 can slide so that the core 26 and the armature 27 can be mechanically separated are.

Immediately below a shutter release button 20, which is so biased is that it emerges from the camera body is a power supply switch 21 arranged, the power supply switch 2 of the shutter release circuit 3 corresponds to the first embodiment. Underneath there is still a curved one Part 23a of the sliding plate 23 is provided, which is biased so that it is under the Influence of a reset spring 25 decreases upwards. The magnet combination mentioned above, which consists of the electromagnet 22, the permanent magnet 24 and the core 26, is rigidly attached to the sliding plate 23.

When the slide plate 23 is in its raised position, the armature 27 lies opposite the core 26.

By depressing the shutter release button 20, therefore the power switch 21 is closed, normally causing the electromagnet 22 is energized and the core 26 is demagnetized. As in the first embodiment the holding rod 7 ′ and the armature 27 are then released from the core 26. When striking the retaining rod 7 'against the locking lever 9', the return spring 10 'is relaxed and pushes the release sensor 11 ', which is biased to the right by the drive spring is, as shown in Fig. 4, against an inclined surface 9'a of the locking lever 9 'to the lever 9' in a counterclockwise direction drive, whereby the release sensor 11 'is released from the locking lever 9'.

The trigger sensor 11 'moving to the right presses in the course of its Movement against a reset projection 9'b of the locking lever 9 ', to drive the lock lever 9 'in a clockwise direction. As the handrail 7 'therefore pushed to the left in the manner shown by the locking lever 9' is, the armature 27 is reset to its position against the core 26. Since the spring 10 'remains relaxed, the can for driving the locking lever 9' clockwise necessary force, i.e. the force required to move the armature 27 into its on the core adjacent position is required, have a small size.

When the power supply battery is exhausted or an electric one Connection in the circuit of the electromagnet is released, the electromagnet 22, in contrast, does not even when the power supply switch 21 is closed energized so that the armature 27 will not move away from the core 26.

If in this situation the release button 20 is further depressed is, he comes to rest on the curved part 23a of the sliding plate 23, so that he this down, whereby the slide plate 23 is lowered against the force of the reset spring 25 will. The core 26, against which the armature 27 rests, then slides down the armature 27 until it reaches its lower end, at which it releases itself from the anchor 27, whereupon the armature 27 is pulled away by the return spring 10 '.

Another exemplary embodiment of the invention is described in greater detail below explained.

As shown in Fig. 5, which this embodiment in shows fully tensioned state, an electromagnet M comprises a fork-shaped Yoke 2, which has a rectangular opening with which a permanent magnet 4 in Is engaged, wherein a coil 6 is wound on one leg of the yoke. An armature 8 is rotatably attached to a trip element 10 by means of a pin 8a and a tensioning element 14 is loosely coaxial with the axis of rotation 12 of the trigger element 10 attached, with a return spring 16 stretched between the two elements 10 and 14 is, so that the clamping element 14 via its raised part 14a the triggering element 10 can grasp elastically to form a unit. A displacement element 18 is advanced by a drive wheel 20 via an attached pin 20a, the drive wheel 20 in operative communication with a rear shutter curtain stands.

A transmission element 22, which at the end of a closure run is retractable, acts as a toggle lever that rotates about an axis 24 and its one arm 22a detects the locking element 10, while the other arm 22b with a Locking element is connected in such a way that it is in a relative movement to it a pin 25 can pivot. As shown in Fig. 5, one is recessed Part 26a of the locking element 26 is locked by a shutter release lever 28. The locking element 26 together with a rocker arm 27 and the other arm 22b of the transmission element 22 form a connecting joint. A reset spring 30 is in the pretensioned state attached to the axis of rotation 24 of the transmission element 22 and detected after completion the pulling of the closure a curved part 18a of the displacement element 18th

As a result of tensioning the closure, for example by means of a Clamping lever, which is not shown, is used in the above embodiment the drive wheel 20 is driven in a clockwise direction, whereupon the pin 20a presses against an end section 18b of the displacement element 18. Through a Pin 18c, which is attached to the other end of the displacement element 18, is the tensioning element 14 is driven in a counterclockwise direction. The increased Part 14a of the tensioning element 14 therefore tensions the restoring spring 16. The collected thereby Energy can be of considerable magnitude if it is in the range that it allows the trigger element 10 to be held in its inoperative position will. Not only is it possible to have a fairly high energy storage ability rather, it is not necessary to provide the relative balance to any one other biasing force to consider, since the trigger element 10 except the force exerted by the return force fields 16, no pretensioning force acts. It is therefore sufficient only to the design of the return spring 16 pay attention that can be simple in structure and manufactured at a low cost can be.

Fig. 6 shows the same embodiment, but relates to the initial phase of shutter release. When the trigger switch is activated by means of a When the shutter release button, not shown, is closed, the coil 6 of the electromagnetic structure M excited, so that a magnetization in the electromagnet is generated to cancel the magnetic force of the permanent magnet, which leads to it results in the attraction force of the electromagnetic structure M being reduced. The armature 8, which is in contact with the core by the magnetic force of the permanent magnet 4 was held, is now under the influence of the bias of the return spring 16, so that it moves together with the trigger element 10 in one direction rotates clockwise. This rotation causes the transmission element 12 rotates in a clockwise direction and that via the articulated connection mentioned above the locking element is moved to the right, which causes the release lever 28, which was locked by the recessed part 26a of this element, upwards is moved. This upward displacement of the release lever 28 causes a Opening the shutter.

These workflows do not interfere with the loosening of the anchor, because the reset spring 30, which is connected to the bent part 18a of the displacement element 18 is engaged, is still retracted by this curved part 18a. It goes without saying that the release lever, for example, an element for triggering a lifting movement of a mirror in the case of a single lens reflex camera or an element for operating a shutter mechanism for the camera shutter can.

When the shutter release has been performed in this way and the run of the rear and front shutter curtains by the action a timer device, not shown is finished, results the position shown in Fig. 7. The drive wheel 20, which is in working connection with the rear curtain of the shutter, rotates counterclockwise on the closure of the closure and the displacement element 18 is through a Reset spring 32 shifted to the left. Since the reset spring 30 from the restraint the bent part 18a is released as a result of the displacement of the element 18, comes the spring 30 to rest on an arm 22b of the transmission element 22, so that the transmission element 22 and the tensioning element 14 as a unit in one Counterclockwise direction. On the rotation of the transmission element 22, the trigger element 10 rotates in a clockwise direction. As the power supply for the electromagnetic unit M is already switched off, the magnetic one acts Force of the permanent magnet 4 now in turn such that the armature 8 to the electromagnetic Unit M is withdrawn so that the locking element 10 is in the position shown is being held. Because of this position, the restoring spring 16 can apply its biasing force does not have any effect at all and the reset spring 30 only has to have a comparative effect have poor energy storage capacity.

With a further pulling up, for example with a not shown Pull lever, then first the release lever 28 presses against the locking element 26, until it is finally brought into the blocking position and the blocking element 26 becomes returned by the reset spring 30 and locked. After that, the rear one The curtain of the shutter is drawn and strikes the pin 20a of the drive wheel 20 against the displacement element 18, so that the restoring spring 16 in the position shown in FIG. 5 is held position shown.

Although at this point the biasing force against the locking element 26 disappears, the locking element 26 is still due to the frictional force in its locked position held.

It will be understood that when the illustrated mechanism in a single-lens reflex camera is realized, the displacement element 28 can be constructed and arranged so that it does not interfere with the work of the drive wheel 20, which is in working connection with the rear curtain, can be actuated, but rather together with the clamping and other work processes of a mirror drive, an automatic shutter mechanism or other mechanism reciprocable is. With other types of cameras, the mechanism according to the invention can, depending on the respective constructions with opening or other work processes of the closure get connected. The functions of the pin 18c and the curved part 18a of the Displacement element 18 can continue to use independent elements or in certain cases can be met by means of independent links. The clamping element 14 can be rotatably attached to the trigger element 10 and not loosely on the axis 12, and the shutter release lever 28 can be locked directly to the release element 10.

In Fig. 8 still another embodiment of the invention is shown.

A return spring 17 is between a sliding plate 11, which is in lateral Direction is displaceable, and a clamping plate 15 suspended relative to the plate 11 is movable. The sliding plate 11 can serve as a trigger element, whereas the Clamping plate 15 can serve as a clamping element. With M is an electromagnet, with 8 an anchor and 19 denotes an element that the displacement element 18 in Figures 5 to 7 correspond. 29 with a locking element is referred to, which the shutter release lever 28 locked in its cocked position. One end of the locking element 29 is located in the path of movement of the sliding plate 11, so that it hits the locking element 29 presses when moved to the left.

L e r s e i t e

Claims (10)

Claims Electromagnetic release device for a camera, the excitation of an electromagnet the attraction of a permanent magnet which serves to attract an anchor to a core, with at the Core tightened armature a spring that is usually kept relaxed on the Pulling a shutter release mechanism is cocked to a biasing force provide and wherein the release process on the removal of the attraction force Start-up device containing the anchor under the one provided Biasing force of the spring is moved to a holding device inoperative set that keeps the shutter release mechanism releasable while due to the Movement of the device that sets the triggering process in motion relaxes the spring again is indicated by the fact that a device (9, 9b, 9 ', 9'b, 18, 22, 30, 15) is provided, which always after the release of the shutter device (6, 7, 7 ', 27, 18, 8, 11) initiating the operation, the holding device (9, 9a, 9 ', 9's, 26, 26a, 29) overrides the release of the shutter in Gear setting device (6, 7, 7 ', 27, 18, 8, 11) resets or returns to to bring the armature (6, 27, 8) to bear against the core (4a, 26, 2), the spring (10, 10 ', 16, 17) is kept in the relaxed state. 2. Electromagnetic release device according to claim 1, characterized it is not noted that the reset device with the shutter release mechanism (11, 11 ') can be brought into connection while the mechanism is cocked Position is moved into its rest position to trigger the lock, so that the device which sets the triggering process in motion on the movement of the mechanism is reset from its cocked position to its rest position. 3. Electromagnetic release device according to claim 2, characterized it is not noted that the clamping device with the shutter release mechanism is brought into connection, while the mechanism of its rest position in its cocked position is moved so that the spring acts on the movement of the mechanism is stretched from its rest position to its tensioned position. 4. Electromagnetic release device according to claim 3, characterized it is noted that the reset device, the tensioning device and the holding device together contain a first movable element (9, 9 '), the one part (9a) which is releasably engaged with the shutter release mechanism can come, a second part (9b) that is connected to the shutter release mechanism during its movement from its cocked position to its rest position in connection can be brought, and has a third part (9c) which is connected to the shutter release mechanism during its movement from its rest position to its tensioned position in connection can be brought. 5. Electromagnetic release device according to claim 4, characterized it is not indicated that the device initiating the release process a second movable element (7, 7 ') coupled to the armature (6, 27) is that the spring (10, 10 ') is between the first and the second movable element is suspended, and that the distance between the first and the second movable Element for tensioning the spring is only enlarged if the first movable one Element on the movement of the shutter release mechanism through the link between the mechanism and the second part of the first movable element is moved, and when the anchor is held attracted to the core. 6. Electromagnetic release device according to claim 1, characterized It is not noted that there is still a manual release element 20, that is operable to move along a certain path, a circuit (3) to excite the electromagnet, a switch that is in the path of movement of the Manual release element is arranged and closed by the manual release element is to switch the circuit in the initial phase of the movement of the trigger element operate, and a movable element (23) are provided, which is also located in the path of movement of the manual release element, so that it is through the manual release element after closing the switch is moved, and that the core, the permanent magnet and the electromagnet are attached to the movable member so that the core on the movement of the movable element pushed further and against the force of attraction of the permanent magnet is released from the armature, thereby triggering the shutter release mechanism is possible in the case in which the electromagnet itself on the closing of the Switch due to a fault in the circuit or due to consumption the electrical energy source does not remain energized. 7. Electromagnetic release device according to claim 1, characterized it is noted that the reset device with a signal element (20) is connected, which is movable at the end of an exposure, so that the the device that sets the triggering process in motion to the movement of the signal element is reset. 8. Electromagnetic release device according to claim 7, characterized it is noted that the reset device is a movable element (18), which can be moved in response to the movement of the signal element, and another Has spring (30) which acts on the movement of the movable element is brought to reset the device which sets the triggering process in motion. 9. Electromagnetic release device according to claim 1, characterized it is noted that the release device has a first movable Has element (10) which is coupled to the anchor that the tensioning device a second movable element (14) associated with the first movable element is coupled so that it is with the first movable element and relative to the first movable element is movable, and that the spring between the first and the second movable element is arranged so that they are due to the movement of the second movable element is tensioned relative to the first movable element. 10. Electromagnetic release device according to claim 9, characterized it is noted that the tensioning device has an element (18), which is coupled to a closure tensioning element (20) and the second movable element can be so that the clamping device relative to the second movable element moved to the first movable element when the shutter is cocked.