DE1159263B - Automatic adjustment device for photographic cameras - Google Patents

Description

Automatic adjustment device for photographic cameras The invention relates to an automatic adjustment device for photographic cameras the optical parameters relevant for the exposure, such as aperture, distance, Exposure time, film speed, through one of electrical resistors certain tension value, which by means of an organ running off the tension position is changed by varying the resistances or at the resistors, and the Object brightness due to the voltage contribution of a photocell or a photoresistor is represented.

A number of devices have become known which use the The task of getting the correct exposure of a film in photographic cameras is thereby to achieve that either semiautomatic or fully automatic the determining factors Sizes can be adjusted.

All of these devices work with pointer instruments that measure exposure, generally the pointer somehow scanned or as a mechanical stop is used for moving the links. Often these are complicated Compensators are provided to provide: coincidence and a suitable proportionality to ensure between the pointer instrument and the control elements.

All of these systems have several disadvantages. B. that mostly very sensitive pointer instrument often much too heavily loaded, so that the The accuracy of the display and the service life suffer as a result. In addition, the setting time is of the overall system is much too big, as the pointer instrument itself takes a long time to set and has vibration sensitivity. Also, it's difficult to get one across the range to achieve fully automatic operation without switching areas on the exposure meter.

The object of the invention is to eliminate these disadvantages and inconveniences and at the same time a considerable expansion of the work area in a simple way to achieve without switching ranges and an increase in the possible uses.

This is achieved according to the invention in that in the case of the aforementioned self-adjusting device the electrical composition of this individual Voltage values for a resulting voltage are used to control a relay arrangement, which stops the draining organ and, if necessary, triggers the lock and also ignites a flash of illumination.

In practice, this can be achieved, for example, in that the change in the setting variables is initiated by a mechanical drive, for example a spring mechanism or the like, and is ended by an inhibitor as soon as the voltages (measured values, auxiliary voltages, etc.) combined in a suitable manner. ) of an electrical transducer have reached a predetermined value. As a transducer in the sense of the present invention, an electrical circuit is to be considered in which the output voltages of a measuring instrument or freely selectable voltages or voltages dependent on a mechanical setting variable with auxiliary voltages, e.g. B. in tube circuits, bridge circuits, etc., can be combined. Both a photocell and a photocell, from which a voltage corresponding to the measured light value is tapped, can be an essential component of the transducer, as an electrical measuring instrument. If the voltage of such a transducer tends to reach a saturation value and the characteristic curve does not meet practical requirements, then for example a plurality of part elements can be connected in series, the individual characteristic curves of which, e.g. B. by partial filtering and partial loading, can be changed so that the resulting overall characteristic for the work area in question has the desired course.

However, other organs with dependent or independently variable output voltage can also serve as measuring transducers. So it is for example possible - if you start from the exposure regulator - to lock the adjusting device corresponding to the exposure time to a desired value for the guide number setting in flash photography and to switch over in such a way that only the aperture is automatically changed, whereby instead of a photo element or a Photocell a voltage is set, which is used as a parameter for the guide number. A setting is then made with the meter track and the diaphragm track, analogously to the previous exposure control in daylight.

A further improvement arises according to a further idea of the invention by an additional setting resistor that sets the operating point to adjust the relay arrangement allowed.

It is also useful if the resulting voltage serves as a control voltage on the grid of a gas discharge tube, e.g. B. as ignition or Extinguishing voltage, this gas discharge tube also having a cold cathode, which optionally works in toggle switch, can be.

Another simplification results from a common drive two or more regulating organs for the setting variables and at the same time for the Sliding contacts or resistors from a drive device, for example via a differential. It can also be useful if on the sliding tracks and / or manually adjustable stops are provided for the regulating elements, limit the movement of one or the other control element or sliding contact; there is also the possibility that the stop or stops by hand are removable.

For cameras with interchangeable lenses, there is the option of that on the interchangeable parts of the interchangeable lenses resistance tracks for a or several of the setting variables, such as aperture, distance, are provided.

In principle, however, it is also possible to use the To connect the control element of the camera and only to let the acceptance grinder stand. Conversely, the grinder can be moved and the track can be fixed. A safe power supply can be achieved in both cases.

When changing a lens and replacing it with another in most cases a change not only in the external dimensions, but just as much Changes in aperture control range and focus setting expected.

Since every exposure value, which is expressed in a proportional voltage on the photo element, has a very specific sum of the two - otherwise arbitrarily large - partial voltages on the resistance paths assigned to the adjustment elements, so with a fixed total voltage that is in accordance with the photocell used , the total resistance of the two tracks connected one behind the other remain constant even when the lens is changed.

With today's lenses, the exposure organs usually allow a continuous setting, whereby the numbering that is attached to them represents a geometric series for the exposure with a factor of 2 or 1/2. So it must be, to tap the same voltage differences between any two numbers on the resistance tracks whose resistance curve corresponds to the mechanical cam camera control devices. This ensures any combination option.

For this reason, it can be useful to keep the resistance track of the time constant - possibly with an extension for measuring outside the control range - and to leave it in place, since changing the lock is hardly an option. In order to achieve constant resistance even when changing the lens, the simplest way seems to be that each lens contains its own resistance paths, but other embodiments are also possible. In this way it is guaranteed to the resistance curve quite a good adaptation of the control curve.

However, it is not just the differences in the number of f-stops and distance digits to be expected, but also in terms of the angular range, within whose values are swept over. However, if you put the differential for the largest angular range in question "this is an adaptation to lenses with a smaller angular range thanks to corresponding driver connections to the differential possible.

The same aperture numbers are expediently the same voltage values assigned, and the unused part of the total resistance remains mechanical not reachable.

Another possibility is that the shutdown device acts magnetically or by eddy currents and thereby locks automatically and can be unlocked by a third party or automatically.

It is basically irrelevant whether the shutdown device stops the movement when the gas discharge tube is extinguished (or the equivalent effect of a comparison circuit) or when it is ignited. Both systems are possible, since a polarity reversal of the control voltage is easily possible. The two systems then differ, apart from minor details, mainly in the shutdown device and in the current flow time and type of current flow.

The shutdown device uses the magnetic or other physical Properties of the electric current. The magnetic effect is preferred thought.

Igniting the gas discharge tube at the operating point, so there is the advantage that during the control time - albeit small - loading of the input does not occur by the grid current. From this point in time, however, the gas discharge tube would conduct electricity and load its voltage source. Although the use of very small tubes is desirable and today's batteries are very powerful, this may be inexpedient under certain circumstances.

With the system "delete at the operating point" current only flows as long as how the system takes time from the start of activation to its operating point to run. Since the tube is no longer just changing the control voltage extinguishes once it has been ignited, so it is advisable to use the gas discharge tube to tip over.

In this context there is also the possibility that the shutdown device is designed as a generator and is used during its movement phase to supply the operating voltage for the relay arrangement, for example the gas discharge tube and / or for the resistance paths.

In order to prevent that in a mode of operation where the gas discharge tube ignites at the operating point, current flows over a longer period of time, it can also be expedient be that the shutdown device except for the shutdown of the running organ also the working current for the relay device, e.g. B. for the Gas discharge tube, turns off. Here, the StiHsetzwerk can have two decelerating effects at the same time use. If the gas discharge tube ignites, a coil excites a magnetic one River in the iron path of the shutdown facility. Runs in the air gap of this iron path a fast and moving metal disc, the speed of which translates the speed of rotation Represents the speed of the differential. The induction flux becomes eddy currents in the metal disc and thus effectively brake the disc. But at the same time it is it is also possible to apply a mechanical brake using the magnetic energy of the field actuate, which acts on the rotating metal disc and is in the braking position locks automatically, with a switch for switching off the operating current at the same time the relay device is operated.

The subject matter of the invention will be explained in more detail with reference to the drawings, which only show exemplary possible embodiments and can be expanded or simplified depending on the requirements.

In Fig. 1 , 1 denotes an independent voltage source, for example a battery, which is loaded by two resistor tracks 2 and 3 or 13 connected in series. A voltage is picked up on the resistance track 2, which is assigned to the diaphragm, for example, by a grinder 8, and on the resistance track 3, which is assigned, for example, to the exposure time, by a grinder 8 '. Instead, however, the exposure time, by setting, for example, snapping, of the associated adjusting element may be selected and to which the Entfemungseinstellung associated web 13 are inserted through the slider 8 "tapped voltage in the transmitter by turning the switch S, the. Mechanically connected to the switch S Another switch S 'overall coupling, the compound from either the grinder 8' manufactures or 8 "to the cathode of a gas discharge tube. 7 Furthermore, a changeover switch Y 'is mechanically coupled to this switch, by means of which either a photo element 6 or an arbitrarily variable voltage source 14 can be placed in the current path from the wiper 8 of the resistance track 2 to the grid of the gas discharge tube. 9 with a switch is designated by which the anode voltage of the tube 7 can be switched on and off, which is supplied by the battery 12, for example via a further switch 10 . In the illustrated embodiment, the line routing runs via a shutdown device 5, which, when the tube 7 reaches the working point, shuts down the - for example mechanical - drive device 4, a spring spring or the like, which is used to change the setting values. In addition to the setting parameters, this motor 4 also moves the sliding contacts 8 and 8 ' or 8 "of the resistance tracks and holds them in their position when the stopping device is inserted. This mechanical drive of the wiper is symbolized by the dash-dotted lines.

The mode of operation of this arrangement is as follows: First, the spring motor 4 is tensioned by mechanical drive, for example at the same time as the shutter of a camera is tensioned, and the relative position of the wiper to the resistance tracks and the associated mechanical setting values are set to a final value, for example the smallest aperture and smallest, exposure time, set. This process also unlocks the shutdown device. The spring motor is first released by a triggering process, which changes the setting of the setting values and thus the relative adjustment of the slider to the resistance tracks until the voltage tapped, together with the voltage of the photo element 6 , has reached a value that enables the gas discharge tube to ignite . At this moment, the shutdown device takes effect and stops the mechanical adjusting elements momentarily. At the same time, the anode current can be switched off by opening the switch 9 or 10, thereby causing the tube to go out. Only then is the closure released to expire. The loss of time caused by the automatic setting is so small that the entire triggering can be carried out with a single operating handle, if only it is ensured that the shutter opens only after a certain delay. By switching on a capacitor 11 , the tube circuit can also be configured as a flip-flop circuit.

The switching option according to Fig. 2 differs from this in that the shutdown device 15 is designed at the same time as a generator for supplying the anode and grid auxiliary voltage Ua and Ug, so that batteries are dispensable. As such, the battery loads are so low that a long service life appears to be assured, if it is not to be expected that they will be used up during storage.

The optional activation of the resistance track 13 assigned to the distance instead of that of the exposure time 3 is not shown in this figure, but is possible.

RA is an adjustment resistor that allows the operating point to be adjusted. Rn is the load resistance for the anode circuit of the tube 7. Otherwise, the reference symbols have the same meaning as in Fig. 1.

The circuit according to Fig. 3 differs from the circuit shown above, in which the resistance tracks 2 and 3 are fully connected to the circuit and are partially short-circuited by the wipers 8 and 8 ' , above all in that only that part of the resistance sum is connected in each case, which is determined by the position of the grinder 8 and 8 ' . Also, as can be seen from Fig. 3 , the photo element can be placed in the bias circuit and not directly on the grid. Here, too, the other reference symbols and the mode of operation are the same as in the previous figures.

Fig. 4 shows the spatial arrangement of the control system according to the invention using the example of an interchangeable lens, specifically in a partial section. With an adapter is referred to, which is attached to the tube of the lens and allows the adaptation of different interchangeable lenses to one and the same camera. The drive for the range finder coupled to the lens is generally designated by 22, while 3 represents the resistance path for the distance and 8 'represents the associated grinder. With 5 the shutdown device is again indicated schematically. 13 is the optionally switchable resistance track for the time. The disengageable drive for tensioning the spring is generally indicated by the slider 8 "'at 23 ; the spring itself and the associated cover plates are not shown, however. The resistance track for the diaphragm can be arranged at 2. The associated slider is not shown for the sake of clarity The differential arrangement mounted in balls is designated generally by 24 and can be stopped by the inserting device via a slot 125.

As mentioned, it is advisable to use the shutdown device as a mechanical one Train inhibitors or eddy current bushes and possibly beyond still to be used as a generator for the auxiliary voltages.

The system also gives the option of preselecting one of the two variables that determine the exposure, for example by holding the differential on one side. The. The means required for this are readily available to any person skilled in the art. However, it can happen that the photographer misjudges himself when preselecting one size, so that if the other resistance track were shifted, an incorrect exposure would result, even if it runs to its end stop. For this reason, it is expedient if electrical or mechanical devices are provided which allow the definition of the one setting variable to be canceled again, in order to enable regulation up to the operating point. These can be connected to the differential in a suitable manner.

It is also possible to use the entire transducer as a bridge circuit to train. Finally, there is also the option of using the lanes to extend the pure control range so that it is outside the control range a measurement is possible. It goes without saying that these are the individual setting variables corresponding resistance values of the resistance tracks for different, among themselves Interchangeable lenses placed so that regardless of the lens used the same resistance values are assigned to the same setting variables. For this it may be necessary to have fixed resistors between the control parts of the resistance tracks to turn on if z. B. use a telephoto lens with a smaller aperture range should find.

Claims (2)

PATENT CLAIMS - 1. Automatic adjustment device for photographic cameras, in which the relevant for the exposure. Optical variables, such as aperture, distance, exposure time, film sensitivity, through a voltage value determined by electrical resistances, which is changed by means of an organ running from the clamping position by varying the resistors or on the resistors, and the object brightness is represented by the voltage contribution of a photocell or a photoresistor is, characterized in that the electrical combination of these -individual voltage values to a resulting voltage is used to control a relay arrangement which sets the running organ and, if necessary, triggers the shutter and also ignites a flash of lighting. 2. Apparatus according to claim 1, characterized by an additional setting resistor (R, 4) which allows the operating point of the relay arrangement to be adjusted. 3. Device according to claims 1 and 2, characterized in that the resulting voltage serves as a control voltage on the grid of a gas discharge tube, for. B. as ignition or extinguishing voltage, this gas discharge tube can also be one with a cold cathode, which optionally works in flip-flop. 4. Device according to claims 1 to 3, characterized by a common drive of two or more control elements for the setting variables and at the same time for the sliding contacts or resistors from a drive device, for example via a differential. 5. Device according to claims 1 to 4, characterized in that adjustable stops are provided on the sliding tracks and / or the control elements, which limit the movement of one or the other control element or sliding contact. 6. Apparatus according to claim 5, characterized in that the stop or the bevel can be removed by hand. 7. Device according to claims 1 to 6 for cameras with interchangeable lenses, characterized in that resistance tracks are provided on the interchangeable parts of the interchangeable lenses for at least one or more of the setting variables, such as aperture, distance. 8. Device according to claims 1 to 7, characterized in that the stopping device acts magnetically or by eddy currents and can be automatically locked and externally or automatically unlocked. 9. Apparatus according to claim 8, characterized in that the shutdown device is designed as a generator and is used during its movement phase to supply the operating voltage for the relay arrangement, for example the gas discharge tube and / or for the resistance tracks ' . 10. Apparatus according to claim 8 or 9, characterized in that the Stillsetzeinrielltung in addition to the shutdown of the running organ and the working current for the relay device, for. B. for the gas discharge tube switches off. Considered publications: German Patent Nos. 313 770, 450 258, 602 027, 660 437, 871108; Austrian Patent No. 177 653; French Patent No. 788 295; USA. Patent Nos. 2,059,032, 2,179,717, 2 261532, 2573729, 2577774, 2624784.