DE1622898C - Photographic shutter - Google Patents

Description

to be provided.

According to an expedient embodiment of the invention, the magnet armature is provided with a bearing surface 50 provided in the form of a hook into which the end

The invention relates to a photographic closure designed as a wire spring closing spring with one under the action of an opening grips.

spring running orifice plate and one by According to a further embodiment of the invention

A holding electromagnet in the closed-open position is used to connect the armature and the closed position, a pin is provided under the action of a closing plate, the diameter of which is a somewhat spring-off closing plate, on which the one on the core is smaller than the pin hole in the armature and the pin of the electromagnet Magnetic hole coming into contact in the closing plate, so that the armature for contact is supported with ^{limited movement with clearance 1} , with the necessary play being available on the magnetic core, a mechanical restoring device during tensioning that compensates for a misalignment between the closure, the opening plate and the closing 60 see magnet armature and magnet core caused, without plate transferred to the standby position and that this game would have a mechanical impulse loading of the holding-closing plate against the action of the magnets.

The closing spring lasts until the lock is triggered

magnetic holding force is effective and the mecha- at the core and a particularly favorable magnetic closure niche holding force is removed. The with game 65 results when the armature according to a afflicted mounting of the magnet armature on the locking further embodiment of the invention is an arched one The fastener's plate is therefore necessary and has an area that rests on the magnetic core useful so that the anchor arrives in an optimal way.

An exemplary embodiment of the invention is described below with reference to the drawing. In the drawing shows

Fig. 1 is an exploded perspective view of the embodiment according to the invention photographic shutter,

FIG. 2 shows a view of the closure according to FIG. 1 before the exposure is carried out,

F i g. 3 one of the F i g. 2 corresponding view of the shutter during exposure,

F i g. 4 one of the F i g. 2 corresponding view of the shutter after completion of the exposure,

F i g. 5 shows a partial section along the line 5-5 according to FIG. 2.

According to Fig. 1, the closure 10 comprises a Exposure opening 12 with shutter slides to be explained later, a reset device 16, a locking device 18 and a switch 5 2.

The closure means 14 comprise a first closure part 20, a second closure part 22, first Drive spring means 24, second drive spring means 26, electromagnetic holding means 28 and a holding part 30. The two closure parts are arranged side by side and can be independent of one another move along a guide 32 between the starting position and the end position. The first Spring means 24 comprise an elongated portion 25, and the second spring means 26 comprise an elongated portion 27; the sections

25 and 27 are used to move the closure part 20 and the closure part 22 from its starting position in to move its end position. Electromechanical holding means 28, which an electromagnet 34 and comprise a core 36, are arranged near the initial position of the closure part 22 and serve to control the movement of the closure member 22 in a manner to be explained. The holding part 30 is connected to the closure part 22 by a pin 38 so that a relative movement between the holding part and the closure part is possible. The holding part has a channel-shaped contact surface 40 on which the elongated portion 27 of the spring

26 can accommodate, and further the holding part has a curved surface 44 (Fig. 5), which in contact with surfaces 46 and 48 of the core 36 can be brought. When the closure parts are in their starting position are located, the surface 44 of the retainer rests against the surfaces 46 and 48 of the U-shaped core 36 on, and the closure part 20 is supported on the closure part 22. Here is the closure part 22 in a position in which it does not cover the exposure opening 12, while the Closure part 20 is in a position in which it covers opening 12. That is in the end position Closure part 20 to a stop 50, this closure part not covering the opening 12, and the closure part 22 is supported according to FIG. 4 on the closure part 20, the closure part 22 covers the opening 12.

The reset device 16 is used to the closure parts 20 and 22 from their end position after Carry out an exposure to bring them back to their original position. The reset device may include a rotatable shaft 52 protruding through an opening of support 54; a reset lever 56 is arranged on one end of the shaft 52 so that it can move along a path, which matches the path of movement of the elongated spring portion 25, and on the other end the shaft 52 sits a reset or actuating arm 58. The reset lever 56 has extensions 60, which protrude into the movement path of the elongated spring section 25 and with this section can work together to make him. to move against the biasing force of the spring 24. A feather 62 biases the reset lever 56 in the direction

ίο its rest position before, in which this lever is not on the elongated spring portion 25 engages.

Furthermore, releasable holding means 18 are provided which have a locking pin 64 with a head section 66 and a shaft portion 68 may include. The shaft portion 68 protrudes through an opening the support 54 and is held in this opening by a nut 70 so that he can move back and forth in the axial direction. A coil spring 72 surrounds the shaft 68

ao and is disposed between the head portion 66 and the support 54 to the locking pin 64 toward an advanced position in which the head portion 66 is in the Movement path of the elongated portion 25 of the drive spring 24 lies. On the shaft 52 is between the nut 70 and the support 54 arranged a locking release lever 74, by means of the locking pin 64 of which is optionally retracted against the biasing force of the spring 72 Position can be brought in which the head portion 66 is not on the path of the elongated Spring section 25 is located. The locking pin 64 is provided with a cam surface 76 and a Seat 78 is provided. The cam surface 76 allows the elongated portion 25 of the spring 24 to engage Lock pin 64 move past when the pin is advanced when the latches are off their end position with the help of the resetting device 16 is returned to its starting position will. The seat 78 releasably cooperates with the long part 25 of the spring 24 to prevent that the closure parts return to their end position.

The switch 52 may include two contacts 80 and 82, with the contact 80 being biased so that that it normally does not touch the contact 82, but the contact 80 iii contact with the Contact 82 can be brought when the closure part 20 according to FIG. 2 in its starting position is returned. The switch 52 operates with a timing circuit 84 and the magnet winding 34 to regulate the duration of an exposure in a manner to be explained.

Before an exposure is initiated, the parts of the device 10 are in the form shown in FIG. 2 apparent position in which the closure parts 20 and 22 assume their starting position. The closure part 20 is first moved in the forward direction from the starting position to the end position,

So while the closure part 22 is in its starting position remains in order to initiate an exposure via the opening 12. This operating position is shown in FIG. 3 shown. In timing with the movement of the closure part 20, the closure part 22 is then moved in the forward direction and brought to its end position to complete the exposure. This position is shown in FIG. On the actuation the closure parts for performing a

Exposure is discussed in more detail below. After a. Exposure, d. H. when the establishment is in their position according to Figure 4, the locking parts 20 and 22 must be in their starting position are returned to Figure 2 so that an exposure can be carried out again. Around To effect this return, the actuating arm 58 is against the biasing force of the spring 62 actuated to rotate the shaft 52 with the reset lever 56. When the reset lever is turned, grasp the extensions 60 the part 25 of the spring 24 and move it against the force of this spring to the To move closure parts 20 and 22 along the guide 32 and they from their end position in their starting position traced back. During this movement the zone of the closure means 14 passes, which comprises the contacting surfaces of the shutter parts 20 and 22, the exposure opening 12. Light sealing means 86 are provided on the closure member 20 to cover this zone, so that no light can fall through the opening 12 during the reset process.

When the part 25 of the spring 24 is moved in the manner described, it eventually comes to Abutment on the cam surface 76 of the locking pin 64, wherein it slides over this cam surface, and wherein the locking pin against the force of the spring 72 at least partially after is pressed inside. The locking parts 20 and 22, the releasable holding means 18 and the electromechanical Holding means 28 are set up in such a way that the holding part 30 rests against the core 36 comes to prevent further movement of the closure parts when it reaches its end position have, at the same time that the part 25 of the spring 24 to bear on the cam surface 76 is coming. Excessive movement of the reset lever 56 after the movement is interrupted the closure parts are made possible by the flexibility of the long part 25 of the spring 24. At a such excessive movement of the return lever 56, the part 25 of the spring 24 is deflected, in order to press the closure part 20 firmly against the closure part 22, and thereby the biasing force the spring 26 is overcome, the closure member 20 causes that on the closure member 22 attached holding part 30 is pressed firmly against the surfaces 46 and 48 of the core 36. The pen 38, the the holding part 30 connects with the Vei closing part 22, has a diameter that is slightly smaller than that Diameter of the opening 88 of the holding part and of the opening 90 of the closure part 22, as shown in FIG. 5 is shown. In Fig. 5 are the differences between the respective dimensions of the stub 38 and FIG openings shown on an exaggerated scale; the diameter of the openings can be in the Practice only a few thousandths of an inch (1 inch = around 0.025 mm) larger than the diameter of the Pin 38. Thus this connection is flexible; H. it allows a small relative movement between the locking part 22 and the holding part 30. The holding part can rotate on the pin and therefore compensate for any minor misalignment that would otherwise occur between the holding part 30 and the Core 36 could occur so that the holding part both surfaces 46 and 48 of the core 36 at the same time can touch. The connection between the closure part 22 and the Halletcil 30 also make it possible that the holding part rotates relative to the pin, so that some movement of the holding part can occur about an axis which is essentially perpendicular to the axis of rotation of the holding part around the pin 38 can occur. This pivotability facilitates together with the curvature of the surface 44 the establishment of a uniform contact between the Holding part and the surfaces 46 and 48 of the core. The surfaces 46 and 48 are preferably planar Shape so that the flat surfaces and the curved surface 44 of the holding part 30 are substantially in Line contact with each other. Such a touch along a line is less sensitive to Misalignment as a surface contact, and it is capable of various degrees or types of Compensate for misalignments without the magnetic cooperation of the holding part with the Core 36 of the holding device 28 is impaired. Since the holding part 30 in the manner described in Contact with the core 36 can come, there is essentially no risk of a gap between the holding part and the core is created, and this results in the application of an inevitable holding force on the closure part 22 when the winding 34 of the electromechanical holding means 28 is switched on will.

A further movement of the reset lever 56 causes the part 25 of the spring 24 to be on the cam surface 76 of the locking pin 64 moves past and comes to rest on the seat 78. then the locking pin returns to its advanced position, since it is the biasing force of the spring 72 is exposed, so that the seat 78 engages the part 25 of the spring 24 and this part is bent in its Holds position. When the arm 58 is released, the spring 62 guides the arm and lever 56 in FIG the rest position back. Thus, the locking means 14, the locking device 18 and the resetting device 16 is reset and according to FIG. 2 brought back to its original position.

To initiate an exposure, the release lever 74 is depressed so that the locking pin 64 is withdrawn against the force of the spring 72 and the switch S 1 is closed substantially simultaneously. By pulling back the locking pin 64, the part 25 of the spring 24 is released, so that this spring moves the closure part 20 towards its end position in which it no longer covers the opening 12, so that an exposure is initiated. The movement of the closure part 20 is interrupted in its end position in that it comes into contact with the stop 50, as shown in FIG. 3 is shown. By closing the switch 51, the timing circuit 84 as well as the winding 34 of the electromagnetic holding device 28 is switched on in order to prevent forward movement of the closure member 22 under the influence of the spring 26; otherwise the closure member 22 would perform a forward movement as soon as the closure member 20 moves. When the winding 34 is switched on, a magnetic induction takes place in the magnetic circuit of the core 36 and the holding part 30, which is strong enough to apply a force against the biasing force of the spring 26, regardless of the movement of the closure part 20, by which the Closure part 22 together with the holding part 30 in

its starting position is held. The closure parts 20 and 22 now take the steps shown in FIG. 3 position shown.

Since the force of the spring 26 acts directly on the holding part 30, a biasing force is not applied to the closure part 22 when the closure part 20 is moved in any direction. The advantage of applying the spring force directly to the holding part is most evident from FIG. 5 can be seen. In the rest position there is a displacement between the holding part 30 and the closure part 22 which is approximately equal to the sum of the distance by which the diameter of the opening 88 is greater than the diameter of the pin 38 and the distance by which the diameter of the opening 90 exceeds the diameter of the pin. These routes are shown in FIG. 5 indicated at d and d '.

If the spring force F were applied directly to the closure part 22, this closure part would move by the distance d + d ' as soon as the closure part 20 is lifted from the closure part 22 in the manner described above. As a result, the closure part 22 would be supplied with a kinetic energy which is equal to the product of the spring force and the displacement distance; in other words, the kinetic energy would correspond to the expression F (d + d ') . The absorption of this energy could lead to the generation of an impact force which is greater than the force generated by the magnetic induction which is required to keep the retaining part in contact with the core 36, so that the closure part 22 is released prematurely. On the other hand, when the force F is applied directly to the holding part, the closure part is not subjected to any biasing force, and therefore the closure part 22 does not perform any movement when the closure part 20 moves in the manner described so that contact with the closure part 22 is removed .
Simultaneously with the initial movement of the closure member 20 to release the opening 12, the contact 80 of the switch 52 is lifted from the contact 82 to set the timing circuit 84 in operation. The timing process is after a predetermined period of time after his

ίο Introduction completed. When the Time control process, the electromagnet 34 is switched off, so that the channel-shaped component 40 acting long part 27 of the spring 26 move the closure member 22 towards its end position can, in which this closure part covers the opening 12, whereby the exposure is ended. At the When this end position is reached, the closure part 22 comes into contact with the closure part 20 Unlock the opening 12, and it is through the

ao spring 26 in constant contact with the closure part 20 held. The device is now in the form shown in FIG. 4 apparent position.

Since the human reaction time when depressing and releasing the lever 74 is the longest

a5 clearing time significantly exceeds that of normal Snapshots is used, switch 51 is closed for a period of time which is at least as long as the correct exposure time, and this switch will only work again opened when the two closure parts 20 and 22 have reached their end positions. When sharing of the lever 74, the spring 72 expands to the locking pin 64 in its outer position bring, in which the head of the pin protrudes into the path of movement of the part 25 of the spring 24.

1 sheet of drawings

209 641/142

Claims (5)

J 2 the legs of the magnetic core come into contact. 1. Photographic shutter with an under is guaranteed. the effect of an opening spring running 5 In known closures of this type, which Orifice plate and one with a holding device that have proven themselves in practice, engages the electromagnet in lock-open position ge closing spring on the closing plate itself to what one halter, held under the action of a closing spring - considered particularly useful because through the running closing plate, on which the at the core of the pulling of the plate along a predetermined BeElectromagnet Magnetic ίο movement path coming to the system tilts and thus possible anchors is mounted with limited mobility with play, wise associated frictional braking torques avoided being a mechanical reset device. when tensioning the shutter the opening plate The invention is based on the object of transferring one and the closing plate to the standby position photographic shutter of this type and mechanically improving the closing plate by maintaining the action of the closing spring until favorable Locking functions and the release of the end of operation the magnetic holding force effective security the power consumption, which is caused by the holding seed and the mechanical holding force is caused by the magnet, is reduced,
is taken, characterized marked- To solve this problem, the closure is net that the closing spring (26, 27) on the magnet according to the invention is designed in such a way that armature (30) engages and the closing spring engages the magnet armature during the closing time and indirectly via this magnet armature (30), the end of the closing time is indirectly transferred to the closed position via this magnet closing plate (22), anchoring the closing plate is transferred to the closed position. 2. Photographic shutter according to the citation. Claim 1, characterized in that the magnet 35 The invention is based on the knowledge that anchor (30) with a bearing surface for the end with the lower power consumption of the electrical (27) designed as a wire spring (26) spring magnet necessarily linked lower Is provided. Holding power of the same are accepted 3. Photographic shutter after the on can, if the impulse load ceases, that at discuss 1 and 2, characterized in that 30 known locks occurred when the closing spring for connecting the magnet armature (30) and, after releasing the mechanical lock, the opening closing plate (20) a pin (38) is provided, plate around the limited amount of the anchor play whose diameter is slightly smaller than that of the shifted. The movement as a result of this game is though Pin hole (88) in the armature and the pin hole extremely small and is about V100 mm. Loading (90) in the plate (22). 35 This short way can, however, be a fast one 4. Photographic shutter after releasing the mechanical latch 2, characterized in that the bearing results in considerable kinetic energy, which at befläche a hook (40) having the known locking of the solenoid open-end (27) the wire spring (26) receives. had to be taken. By virtue of the fact that 5. Photographic shutter after one of 40 attacks the spring on the armature, it falls through Claims 1 to 4, characterized in that the game-related impulse load is gone and the Mader Magnetic armature (30) can gnet a curved contact surface without the functional reliability of the (44) designed to rest on flat surfaces (46 to impair the end, weaker and 48) of the magnetic core (36). will. This means an increase in the living 45 battery life or the possibility is created of smaller batteries with a lower capacity