DE1094090B - Photographic lens shutter - Google Patents

Description

GERMAN

The invention relates to a photographic shutter, the parts of which release the light by means of two drive members running out of the clamping position are moved.

Such closures are known, especially in the form of slot closures. With you the curtains, which are jointly in the tensioned position and mechanically locked in this position, are in an adjustable position Time intervals triggered mechanically one after the other, from which the desired exposure time is determined results. It is also known to mechanically lock the trailing curtain of a focal plane shutter to be triggered electromagnetically, namely by means of the impulse discharge of a capacitor, its charging process begins with the opening of the shutter and its charging time can be influenced by variable resistances is.

Finally, it is also known, the mechanical release lock of photographic central shutters to be deflected by the falling armature of a permanent magnet, for what purpose the permanent magnetic field by the opposing magnetic field one wound around the permanent magnet and suddenly current-carrying coil is weakened.

While the first-mentioned device has the possibility to measure the exposure time by electrical means and to save as a mechanical Hemmwerk. Above all, however, due to its electromechanical structure, it has a long time and is also not intended for the use of flash light.

The last-mentioned device, in addition to its lack of controllability, also has the disadvantage great proper time. In addition, it cannot replace a mechanical escapement, as its delay only depends on the ignition delay of a strobe light.

The invention therefore has for its object, for a photographic shutter, which depends on the incidence of light releasing parts are moved by means of two drive members running out of the clamping position, one electric To create a release and control device which replaces a mechanical escapement and both has extensive controllability as well as the lowest intrinsic time.

The object is achieved in that each of the drive members by a holding magnet system in the Tensioned position is held and that electronic means are provided, which after triggering the Control holding magnet systems with the time delay necessary for exposure.

Further developments of the invention emerge from the subclaims. In the drawing is a Embodiment of the invention shown. It shows in a simplified representation

Photographic lens shutter

Applicant:

Compur-Werk Friedrich Deckel oH G.,
Munich 25, Waakirchner Str. 7-13

1 shows a photographic shutter, half in plan view, half in axial section,

FIG. 2 shows the shutter according to FIG. 1, seen from the front (front plate and exposure timer are removed),

3 shows a part of FIG. 2, in axial section,

4 shows the circuit diagram of the timing devices.

The closure is housed in the cylindrical housing 10, which by means of a not shown, Union nut to be screwed onto the external thread of the rear lens connector 12 is to be attached to the camera, also not shown. In the shutter housing is the optical Axis coaxially mounted the base plate 14, on which the front lens connector 16 is attached and which carries the components described below, housed in the annular space 18. the The light passage opening 20 is closed light-tight by the sectors 22 in their rest position. The sectors 22 are accommodated in the space 34 delimited by the housing 10 and the base plate 14. To the rotatable mounting of each sector is one of the bearing journals 24, which in the one sector ring 26 are attached and engage through recesses in the base plate 14. In the control slot 28 of each sector engages one of the control pins 30, which sit in the second sector ring 32 and also protrude through recesses in the base plate 14. The two sector rings are coaxial with the optical axis rotatable in a space formed by the base plate 14 and the lens connector 16 stored and axially guided between these parts. For the radial guidance of the sector ring 26 is used Federal government of the lens connector 16, while the sector ring 32 on the circumference of the sector ring 26 radially is led.

The arrangement described allows both the common rotation of both sector rings without Swinging of the sectors around the bearing pins 24 as

009 650 / 1Φ9

3 4

voltage of transistor 66 also determines the rotation of each of the sector rings. The delay relative on the other hand, whereby the sectors in one element of the circuit consists of the condenser or in the other sense to the bearing pin 24 sator 68 and the adjustable resistor 76, whose swing and thus the light passage opening 20 slide is designated with 76 a and after the release or close. 5 appropriately divided into exposure times (Fig. 1)

For actuation, the sector ring 26 is to be adjusted with the scale 78. How the bis

radial arms 36 and 52, the sector ring 32 with the electrical device described here

the radial arms 38 and 54 are provided. The following on arm 52:

engages the fixedly suspended tension spring 46 and when the contact 58 closes as a result of the

Arm 54 also fixedly suspended tension spring 44 io connection shown at 88 c the coil 50 c, the

at. The arms 36 and 38 are in the idle state of the voltage divider 72, 74, the coil 48 c and the up to then

Closure on the cam 40, which is rotatably placed on the empty capacitor 68 to the power source 56,

in the lock housing 10 rotatably mounted clamping- As a result, current flows in the voltage divider, whereby

shaft 42 is seated. The tension shaft protrudes backwards from which the base potential of the transistor 66 is determined.

Lock housing and can, for. B. with the film trans- 15 This potential is higher than that of the

port gear of the camera, not shown, coupled hearing emitter, which is why the transistor 66 in the

be. The cam 40 is shaped so that it conducts at a moment of switching on, so that also in the

half revolution of the shaft 42 the sector rings 26 coil 50 c current flows. At the same time flows out in that

and 32 together against the force of springs 46 or capacitor 68 and adjustable resistor 76

44 rotated about the optical axis in the tensioned position 20 standing delay circuit current, during the

will. Current flow in coil 48 c through transistor 64

To hold the sector rings in the clamping position is prevented. The blocking effect of the transistor 64 are on the base plate 14, the magnet systems 48 is caused by its at the moment of the eingzw. 50 attached. The magnet system 50 consists of switching higher than the base potential of the permanent magnet 50a, the pole pieces 50 b ' and 50 b " 25 emitter potential. Because the emitter of the transistor 64 and the coils pushed onto the pole pieces have the battery potential at this point in time, 50 c' and 50 c ". Between the permanent magnet and the during its base a to the voltage drop in coils, the pole shoes are closely approximated to each other, the coil 50c has a lower potential.
so that a magnetic shunt effect is obtained which under these conditions becomes in the coil 50c. The arm 54 of the sector ring 30 is used as the armature of a constant current flowing current the position counteracting the holding force is held. The magnet system 48 is spring 44 (Fig. 2) the sector ring 32 for the purpose of the magnet system just described, and can rotate the opening of the shutter. The voltage at the capacitor 68, which serves as an anchor arm 52, keeps the emitter potential of the transistor 64 in the tensioned position except for the ring 26, as the holding force 35 of the charge increases with the force of the spring 46. the base potential will drop, with the period of time

The coils 50c ', 50c "and 48c' 48c" are used between switching on and equipotentiality

electrical and in the required time interval is carried out by the regulated size of the resistor 76

Low triggering of the sector rings 32 and 26 for 40 is given. From the time of equipotential bonding

their return to the rest position below that in the transistor 64 begins to conduct, so that in the

Springs 44 and 46 stored driving force. You coil 48 c current of initially low strength flows,

are for this purpose via the voltage drop generated in this coil in the breechblock housing

attached spring contact 58 with a see in Fig. 4 shifts via the capacitor 70 the previously con-

to connect matic power source 56 shown. 45 constant base potential of transistor 66 in such a way,

To actuate the spring contact, the pressure is that the current flow through the coil 50c decreases. Of the

button 60 is provided, which with the tip of its thereby correspondingly decreasing voltage drop

conical end 60a rests on the spring contact in the coil 50c raises the base potential of the tran-

and is movable against the force of the spring 606. A sistor 64, which in turn allows the current to flow through

in the direction of the optical axis (that is in Fig. 2 50 this transistor and increases through the coil 48 c,

perpendicular to the plane of the drawing) resilient lock 62 is connected to the feedback of transistors 64 and 66 via

attached to the arm 54. It settles down when the capacitor 70 gives the two transistors 64

pressed button 60 in its recess 60 c and gives and 66 the function of a switch between the

the button is only released when the arm 54 is energized by the coils 50c and 48c; the current flow in coil 48c

the spring 46 is moved. 55 thus increases suddenly. The resulting

For an understanding of the following description, the magnetic field of this coil weakens that of the

Exercise and to avoid repetitions, permanent magnets 48a are so far that the spring 46 (Fig. 2)

expediently, at this point, the electrical device rotates the second sector ring 26 and thus the

device and from this initially only the closing movement of the sectors 22 on the right in FIG. 4 can be initiated. To the

the current source 56 shown part to consider. 60 Adjustment of the period between the fall of the

At the power source 56 is the entire armature 54 in the shutter and the dropping of the armature 52 and the electrical device located therewith via the connector for the exposure time, the aforementioned 82 with the poles 82a and 82b (FIG. 1) is connected. Resistance 76. Its slide 76a is connected to voltage by means of the conventional adjuster 84 (FIGS. 1, 2, 3) with setting contact 58 that can be actuated by the pushbutton 60. 88c, a marker 84a is to be operated, for which purpose the on-switch, the purpose of which is explained below. adjuster on the circumference with a knurled handle and on Furthermore 48 c and 50 c are the already described one in space 18 lying collar with the inner magnet coils. 64 and 66 are transistors which are provided with teeth 84 fr. These internal teeth are fed back via the capacitor 70. 72, 74 meshes the pinion 86, which via its shaft represents a voltage divider, which connects the base 70 86a with the slide 76a of the assembly 80

The device described can also be used on other types of locks than the one shown is characterized by a large control range. It has practically no proper times, so that when it is more suitable Arrangement of the moving parts during the closure sequence in order to compensate for the mechanical caused delays an extremely precise measurement of the exposure time is achieved. The device is therefore at least equivalent to a mechanical escapement in this respect, but has the advantage over this of the larger control range with simultaneously reduced actuating force and the further advantage of being independent in terms of their accommodation. Through these properties the device described have overcome a number of obstacles previously the automation opposed the exposure control.

Claims (4)

Claims: 20 1. Photographic shutter, whose parts releasing the incidence of light by means of two Tensioning position running drive members are actuated, characterized in that each of the drive members is held in the clamping position by a holding magnet system and that electronic Means are provided, which after triggering the holding magnet systems with the exposure control the necessary time delay. 2. A photographic shutter according to claim 1, characterized in that for controlling the drive member for the opening process and the drive member for the closing process of the same type electronic means are used. 3. A photographic shutter according to claim 1 or 2, characterized in that the drive members are in the tensioned position by mechanical means are brought and after the release under the influence of spring forces from this clamping position expire. 4. Photographic shutter according to claim 3, characterized in that the incidence of light releasing parts as reciprocating locking sectors and the drive members as the optical axis coaxial sector drive rings are formed. 1 sheet of drawings © 009 650/14 »11.60 located rheostat 76 is mechanically connected. However, the resistor 76 can also be a Be photoresistor, so that a manual control of the exposure time is not necessary. 4 shows that, when the isolating switch 126 is actuated, the flashing light 128 via the plug 130 can be placed on the battery 56. The circuit breaker 126 becomes full at the moment The shutter opening is actuated by the arm 38 of the sector ring 32 which runs off first (see FIG. 2). this however, requires a flashing light (X-type) that works without delay. For strobe lights whose The greatest light output is achieved in a certain time interval after contact is made (M-type) is a the control device described for the exposure time similar device is provided which is shown in the left half of Fig. 4 as a circuit diagram. This device can be switched to the current source 56 via the changeover switch 88 c. The switch 88c? is mechanically coupled to 88c, so that the two changeover switches can be moved to the left or right at the same time by means of the switching lever 88a (with opposite directions of rotation in the circuit diagram). The device consists of a delay element which contains the capacitor 114 and the resistor 118 or, if the switch 88 d is in the appropriate position, the two resistors 118 and 120. It also consists of the voltage divider 122, 124, of the transistors 110 and 112, which are fed back via the capacitor 116, and a resistor that is not numbered and required to supplement the circuit. To operate the disconnector 106, the coils 100 c are provided, which have the same function in the magnet system 100 (with permanent magnet 108 and pole pieces 100 V and 1006 ″) of the same type as the systems 48 and 50 as the coils 48 c and 50 c there The spatial arrangement of this device is shown in Fig. 2. From this illustration it can be seen that the isolating switch 106, one contact of which is isolated on the switching spring 102 at 104, is open when the switching spring is tightened and closed when the switching spring is released 102 to the pole shoes 1006 'and 100b " serves the same cam 40 during the second half of a full revolution, which is used to tension the closure in the first half of the revolution. Next it is shown how by means of the rotation axis 88 b pivotable lever 88 a to be actuated switch 88 c and 88 c? and the contacts 88 'and 88 / are expediently combined to form a commercially available component and fastened to the base plate 14. Finally, the numbers 80 and 108 in FIG. 2 indicate that it may be useful to combine the elements of the two delay devices (to the right and left of the power source 56 in FIG. 4), as is customary in electrical appliance construction, into structural units. The delay device, which is shown in the left half of FIG. 4, serves either to measure the time between the ignition of an M-type flashing light and the start of the shutter opening (position M of the switch lever 88 a) or to measure the so-called lead time Self-recordings (position V of the shift lever 88 a). It works like this: By flipping the switch 88 c and 88 c? to the left (corresponding to Fig. 4) is both the flashing light circle and the delay device to the left of the current source 56 is prepared for connection to it. If this connection is made by making contact at 58, the ignition begins at the same time Flashing light 128 current flow in the capacitor 114 and the parallel-connected fixed resistors 118 and 120 existing delay circuit. Because of the blocking when capacitor 114 is discharged Effect of the transistor 110, on the other hand, no current flows in the coil 100c, so that the contact spring 102 is held on the permanent magnet 100 and thereby the ίο isolating switch 106 remains open. If the Emitter with the base potential in the transistor 110 begins in the coil 100c current flow, which as a result the feedback of the transistors 110 and 112 suddenly reaches its maximum value. That included The resulting magnetic field of the coil 100c causes the contact spring 102 to fall off, thereby making contact at 106 produced and the above-described shutter control device is connected to the battery. The shutter control device then begins to work in the manner known by now. The desired delay between firing the Strobe light and the full opening of the shutter is possible by suitably dimensioning the capacitor 114 as well as the resistors 118 and 120 to achieve. Therefore, there is a longer period of time between making contact at 58 and the automatic contact at 106 can be achieved when the resistor 120 is turned over the contact arms 88 c and 88 c? turned off to the right (Fig. 4) and thereby the total resistance of the delay circuit 118, 114, 56 is increased. This shows that one and the same device both for synchronizing M-type flashing lights and - after changing the time constants - Can be used to delay self-recordings. The use of flash light is even with self-recordings, but only possible with lights of the X-type, since the isolating switch 126 after is operated as before by the arm 38 (Fig. 2) of the sector ring 32 running first. The shutter can be operated in the following way: By rotating the shaft 42 - z. B. when switching of the film by means of the corresponding device of the camera, not shown here - is the To cock the lock. This is done in that the cam 40, the sector rings 26 and 32 by means their arms 36 and 38 rotates against the force of the springs 46 and 48, respectively, until they serve as magnet armatures Sector ring arms 52 and 54 are guided to the pole shoes of the magnet systems 48 and 50, respectively. In this The sector rings are held in place magnetically on their arms 52 and 54, respectively. Then at further rotation of the shaft 42 by the cam 40, the contact spring 102 to the pole shoes of the magnet system 100 and held there magnetically. The electrical connection at 106 is thus interrupted. The required delay between pressing the pushbutton 60 and the beginning of the opening of the shutter is to be selected by moving the switch lever 88 a into the corresponding one of the three switch positions M, X, V. By means of the adjuster 84, the delay between the return of the sector ring 32 and that of the sector ring 26 in the rest position can be set on the basis of the scale 78 and the mark 84 a. By actuating the push button 60, either the beginning of the M or V delay period is initiated, the control device for the exposure duration being switched on automatically, or this control device is switched on immediately.