CH369362A - Photographic camera with automatic exposure adjustment - Google Patents

Description

  

  Photographic camera with automatic exposure adjustment The invention relates to a photograph # i- see camera with automatic exposure adjustment and with adjustment or actuating elements for exposure time and aperture that can be adjusted to several positions.



  Cameras of this type make it easier for the photographer to make the necessary adjustments to take a picture, but in their previously known embodiments they do not release the photographer from certain decisions regarding aperture or lighting time setting. Furthermore, in order to take into account various film sensitivities, it is necessary for you to

       that in the connection between a photocell or a photocell controlling the exposure control device and the setting or actuating elements for exposure time and aperture, special setting devices operating on a mechanical, optical or electrical basis are switched on.

   Such setting devices require a considerable amount of components and space for their design and arrangement, and they can also impair the functioning of an exposure control device with regard to safety and accuracy.



  The invention is based on the object of designing a photographic camera of the type specified in the introduction in such a way that correct and usable recordings are obtained without any decision by the photographer, and that the consideration of different film sensitivities does not entail any additional effort or intervention Requires camera c exposure control device.



  A solution to this problem is achieved according to the invention in that the exposure time setting organ includes exposure times which are monotonically graduated to a range and which are suitable for manual recordings. Settings a film sensitivity scale is assigned, and that the diaphragm setting element is adjustable as a function of the illuminance acting on the exposure setting device.



  The invention provides a half or full automatic exposure setting control system, in which the photographer is freed from every thought; -both the factor B, e- -1, exposure time and the factor aperture no longer appear for him at all. The only organ that can be set according to a scale is the sensitivity setting element, which is represented by the exposure time setting element.

   Due to the restriction to exposure times suitable for hand-held shots, it is ensured that in every setting position, the exposure time: setting member, i.e. every set film speed, shake-free and usable images with regard to moving objects are achieved.

   Furthermore, when taking into account various foot sensitivities, there is no need for the expense of a special setting device or an intervention in the exposure control device; Rather, the latter works in one and the same way with the diaphragm for each film speed setting.

   This also leads to the fact that the working area of the automatic exposure control or setting includes the same illuminance range with all film sensitivity settings. By means of a display device of a type known per se, the exceeding or falling below of this <B> permissible </B> illuminance range can be indicated, so that the photographer only has to pay attention before taking a picture

   whether the prevailing illuminance permits a picture or not.



  In the case of recordings with permanent illumination, that is to say in particular with daylight, the exposure time assigned to the set film sensitivity value is used in each case according to the invention. On the other hand, with flash photography using combustion flash lamps. and X-synchronization a certain minimum exposure time, generally 1125 or 113 () sec, is required.

   In a particularly advantageous manner, especially while maintaining the respective early sensitivity setting, a camera according to the invention can be further developed for carrying out flash light recordings that the exposure time setting element is made up of two parts that can be adjusted relative to one another,

   of which the first works with a film sensitivity scale and the second with an exposure time rule or setting device, and that for the purpose of common adjustment across the range of the film sensitivity scale, both parts can be coupled in a single relative position for their identification setting marks or symbols indicating the presence of permanent light, for example daylight, are arranged,

   and that the second part, after being uncoupled from the first part, can be moved into an adjustment position to which an exposure time suitable for flash exposures is assigned and which is identified by adjustment marks or symbols indicating the use of flash light.



  When setting the aperture for flash exposures, the type of flash lamp used and the selected exposure distance are decisive. In order to be able to carry out such a setting of the diaphragm also in cameras with fully automatic exposure control, a switching device can be arranged in a further embodiment of the invention, by means of which the exposure control device can be switched off and the diaphragm can be switched to manual setting.



  In order to implement the fully automatic exposure control and with regard to the aforementioned switchability, it is particularly expedient to design the diaphragm as a spring diaphragm which is influenced by a spring in the direction of the smallest or largest opening.

   A mechanical stop controlled by the exposure control device depending on the prevailing illuminance can also be arranged, on which the diaphragm actuator comes to rest after a greater or lesser movement path covered by the action of the spring.



  With regard to quick and easy operation of the camera, it is advantageous if the diaphragm moves out of its respective, depending on the tensioning of the camera shutter.

   The setting position determined by the mechanical stop can be guided against the action of the spring into an end position assigned to the largest or smallest opening and can be held in this position by means of a releasable lock.



  A further increase in the operating simplicity and safety of the camera can be achieved in that the release of the lock holding the diaphragm in the cocked position takes place as a function of the release of the shutter, for example by means of the shutter release, the releases are coordinated so that the aperture has reached its respective setting position before the shutter begins to open.



  In order to ensure automatic adjustment of the aperture in the above-described camera according to the invention as a function of the illuminance acting on the exposure control device even if the shutter is already cocked when switching the camera from the flash position to the steady light position, a further development the invention a special device can be arranged by means of which the aperture when switching the camera from flash light to continuous light can be guided in the tensioned position.

      In the figures and the description below, using an exemplary embodiment, Darge sets out which further embodiments of the subject matter of the invention can be obtained in detail and which particular advantages can be achieved as a result.



       Fig. 1 shows a side view of a photographic lens shutter when the flash is set. FIG. 2 likewise shows, in a side view, partially in section, the closure according to FIG. 1 with a permanent light setting. In the sectional view, details of the diaphragm structure and parts of a locking device that cooperates with an adjusting element of the diaphragm and is controlled by the exposure time setting element of the shutter can be seen.



       FIG. 3 shows, in a longitudinal section, in an enlarged representation, part of the closure according to FIG. 2 with the locking device for the aperture setting member. This is in the active position.



       4 shows a plan view of part of the exposure time setting element in its setting position associated with the operative position of the locking device.



       FIG. 5 shows the lock according to FIG. 4 with the locking device. This is in an ineffective position.



       FIG. 6 shows the setting position of the flash light of the exposure time setting element of the shutter according to FIG. 5. FIG. 7 shows in the same manner of representation as FIG FIGS. 3 and 5 show a part of a photographic lens shutter with a further,

   The blocking device controlled by the adjustment organ of the diaphragm and cooperating with the exposure time setting organ for locking the latter in its setting position according to FIG. 6



       Fig. 8 shows a perspective view of the structure of the exposure time setting element. Fig. 9 shows in a longitudinal section the structure and arrangement of the exposure time setting: organs on the shutter.



       FIG. 10 shows, in a rear view of a lens shutter, the arrangement and design of locking, actuating and adjusting elements for the diaphragm.



       Fig. 11 shows in a perspective representation the interaction - one under the action of a spring, the diaphragm actuator with its adjustment and tensioning elements.



       12 and 13 show a further locking device, which can be influenced by the locking device for the diaphragm adjusting element, for locking the diaphragm actuating element in the tensioned position when the permanently sealed position is set. The latter Sperrver direction is shown in the active position.



       14 and 15 show, in the same representation as FIGS. 12 and 13, the locking device for the diaphragm actuator when the flash is set. The locking device is in the inoperative position here.



       FIG. 16 shows in a perspective representation the interaction of the diaphragm actuating member with a clamping device that can be actuated by the exposure time setting member.



       FIG. 17 shows, in a representation similar to FIG. 16, the diaphragm actuation element and the tensioning device are disengaged.



       Fig. 18 shows in a graphical representation the size and assignment of the Bjewegungswege the various setting and Bctätiaungsorgane for Be lighting time and aperture.



       FIG. 19 shows the structure of an exposure regulating device and its interaction with the diaphragm actuation element.



       FIG. 20 is a circuit diagram of the electrical part of an exposure control device according to FIG. <B> 19. </B> In the figures, <B> 1 </B> denotes the housing of a photographic lens shutter. In the rear part of the housing an objective diaphragm 2, described in more detail below, is arranged, while an exposure time setting ring <B> 3 </B>, also described in more detail later, is mounted on its front side. A front plate 4 is used in a manner known per se to secure the ring <B> 3 </B> in position.

   This has a setting mark <B> 5 </B> on its conical outer surface for a distance scale <B> 7 <B> 7 <B> 7 <B> arranged on a distance setting ring <B> 6 </B> of the lens / B>



  According to the invention, the exposure time setting ring <B> 3 </B> is now provided with a film sensitivity scale <B> 8 for setting to various settings that are monotonously graded in a range and for taking pictures from the hand of suitable exposure times Assigned, while the objective diaphragm 2 is adjustable as a function of the illuminance acting on a directional control device described in more detail below.



  In the exemplary embodiment, the monotonically graduated exposure time series includes exposure times from 1/30 to 11.00 sec.

   The assignment of the times in this area to the film sensitivity values is made here in such a way that the lowest sensitivity, i.e. the value <B> 110 DIN, </B> die. longest exposure time 1130 sec and the values 14, <B> 17, </B> 20 and 230 DIN the exposure times <B> 1160, </B> 111-5, '1250 and <B> 1/500 </ B > SeC are assigned in the order given here.

   Corresponding exposure times are assigned to the intermediate values of the film sensitivity scale, i.e. 12, <B> 13, <I> 15, </I> </B> 16.1 etc. <B> DIN, </B>. As a result of this assignment it is achieved that the light regulation device needs to be designed exclusively for cooperation with the diaphragm.



  In the exemplary embodiment, the exposure time setting ring <B> 3 </B> is made up of two parts <B> 9 </B> and <B> 10 </B> which can be imagined relative to one another. Of these, the ring <B> 9 </B> can be adjusted by means of an adjustment mark <B> 11 </B> opposite the film sensitivity scale 8 already mentioned, which is arranged on the closure, housing <B> 1 </B> ,

       the ring being secured in its marked standing positions either by friction or by means of a locking device of a known type. For the purpose of easy grip, the ring <B> 9 </B> has a knurled grip 9a on its outer circumference.

   The second ring <B> 10 </B>, on the other hand, is used to set or regulate the exposure time and is permanently connected to a ring 12 for this purpose, which uses a control curve that is known per se for reasons of clarity Setting or regulation of a known per se, also not represented exposure time inhibitor has.



  By the above. The formation of the exposure time setting ring <B> 3 </B>, which consists of two parts that can be adjusted relative to one another, ensures that the second ring <B> 10 </B> can have a larger adjustment range than the first ring 9. By means of the ring <B> 10 </B> even others than that can be passed through. set the exposure times assigned to the film sensitivity scale.

   This is of particular importance with regard to the flash synchronization, in particular the X synchronization of combustion flash lamps, which is always based on a specific exposure time, usually on <B> 1125 </B> or 113 () sec.



  To achieve the aforementioned settings, the two rings <B> 9 </B> and <B> 10 </B> can be adjusted jointly over the range of the sensitivity scale <B> 8 </B> and for this purpose in a single, the Given the assignment of the exposure time values to the relative position corresponding to the film sensitivity scale, they can be coupled to one another. To identify this position, which is the setting position for recordings with Dauler light, i.e. in particular daylight,

   the rings <B> 9 </B> and <B> 10 </B> have setting marks <B> 13 </B> and 14 marked with a sun symbol.



  For the purpose of taking bilitz light exposures, after the two rings <B> 9 </B> and <B> 10 </B> have been decoupled, the second ring <B> 10 </B> can be placed in a leash position, which is a suitable exposure for flash photographs time, for example the time 113 () sec. This setting position is identified in the execution game by marks <B> 15 </B> and <B> 16 </B>, whereby the mark <B> 15 </B> on the ring <B> 10 </B> and the mark <B> 16 </B> is arranged on the front plate 4.

   The marks <B> 15 </B> and <B> 16 </B> have symbols in the form of a to indicate that this setting of the ring <B> 10 </B> is the flash setting of the shutter Flash lamp and a stylized flash, the latter as a symbol for flashes of electrons.



  For coupling the two rings <B> 9 </B> and <B> 10 </B> when the light is set continuously, a spring tongue <B> 17 </B> is formed on the inner circumference of ring <B> 10 </B> Locking member attached (Fig. 8 </B> and <B> 9). </B> This works by means of a locking pin 17a formed on it with a locking device <B> 9b </B> of the ring < B> 9 </B> together. For its actuation, the spring tongue has a handle <B> 18, </B> at its free end, which is guided outward through a movement slot 10, a formed on the ring <B> 10 </B>.

   As can be seen from FIGS. 8 and 9, the latching element 17 is at the same time a securing device for the ring in a way that saves parts 10 Formed when the flash was set. For this purpose, the tongue <B> 17 </B> carries a further latching arm <B> 17b, </B> which cooperates with a latching recess 4a formed on the front plate 4.



  As already mentioned, the setting of the diaphragm for continuous light recordings takes place as a function of the illuminance acting on the exposure control device. In the case of flash exposures, where the lighting conditions are different before and during a photograph, the aperture is set depending on the type of flash lamp used and the selected exposure distance.



  In order to be able to carry out this setting also in cases in which the setting of the diaphragm takes place fully automatically as a function of the illuminance acting on the exposure control device, a conversion device is arranged in a further development of the invention, by means of which the exposure control device direction can be switched off and the aperture can be switched to manual setting.



  With regard to a safe and simple operation of the camera that saves on hand movements, it proves to be advantageous if the holding device depends on the adjustment movement of the second part of the exposure time setting member, in the exemplary embodiment thus the ring <B> 10 , </B> can be activated in the setting positions permanent light and flash light.



  In the exemplary embodiment, the switching device consists, among other things, of a releasable locking device, the movable part of which works together with a manual adjustment element of the diaphragm and locks it in one of the largest or smallest diaphragm openings when the camera is set to continuous light exposure.



  In the exemplary embodiment, the locking device has a locking pin 19, which can be displaced lengthways in a space-saving manner in a bore 1a formed in the locking housing side wall.

   The diaphragm manual adjustment member, which can be locked in its initial position by the pin 19, is designed as a ring 20 provided with handle notches 20a, which is rather mounted on the rear wall of the lock housing on a bearing shoulder 1b.



  For locking, a recess <B> 20b </B> is formed on the ring 20, into which the pin <B> 19 </B> engages under the action of a spring 21 when the ring has its one output, age has reached. To ensure that the pin <B> 19 </B> reliably falls into the recess <B> 20b </B>, there is an overpass between the starting position of the ring 20 and the position of this ring associated with the relevant end position of the diaphragm , over which the recess 20b extends as a slot.

      In the exemplary embodiment, the second part <B> 10 </B> of the exposure time setting ring <B> 3. </B> Zu is used to actuate the pin <B> 19 </B>. For this purpose, the ring <B> 10 </B> has an axially extending ramp <B> 10b </B> by means of which the pin <B> 19 </B> counteracts the effect of its flashing light when it is set Spring 21 is held out of engagement with the recess <B> 20b </B> of the ring 20.

   The pin 19 is guided through the rings 10 and 12 in slots 10c and 12a - and by means of a head screw 22 screwed into its end part lies on the ring under the action of a spring > 10 </B>.



  In the exemplary embodiment, an electrical switch 23 (Fig. 20) is used to switch off the exposure control device when you switch the diaphragm to manual setting, when it is closed a Gal vanometer 24 of the exposure control device is short-circuited.

   The actuation of the switch can take place in the same way as the actuation of the locking device for the manual adjustment ring 20 depending on the adjustment movement of the ring, ig <B> 10 </B> in the setting positions continuous light and 'flashing light.



  Instead of the short-circuit switch described, an interrupter switch could also be arranged in the circuit of the galvanometer 24 to switch off the exposure control device, or the switch-off could be done by means of an element in front of the photo or the photocell of the exposure control device, depending on the adjustment movement of the second part of the exposure tent setting ring from the permanent light position to the flashing light position of the closing cover flap.



  The above-described design of the switch as a short-circuit switch, however, has the advantage of being less complex, and in this way an intervention in the circuit of the galvanometer which has a detrimental effect on the reliability of the exposure control device is avoided.

        In order to ensure that the manual setting ring 20 is always in its starting position when the shutter is switched from flash light to permanent, a further locking device controllable by the manual setting ring 20 is provided , which locks the ring <B> 10 </B> in the flashing position as long as the manual adjustment ring 20 is in a position different from its starting position.



  The locking device for the ring <B> 10 </B> is constructed in a similar manner to the locking device for the manual adjusting ring 20 described above. It includes, among other things, a locking pin 25 (FIG. 7) which is guided in a longitudinally displaceable manner in a bore lc formed in the lock housing side wall.

   One end of the pin <B> 25 </B> rests against the action adjusting ring 20 under the action of a spring <B> 26 </B> arranged in the bore lc, while its other end with a Control cam ring 12 formed recess <B> 12b </B> cooperates.



  The illustration according to FIG. 7 shows the locking device in its operative position, in which the rings 10 and 12 are in the flashing light setting position, while the manual setting ring 20 is one of its off - -season assumes different setting. To release the lock, a recess 20c extending in the axial direction is formed on the ring 20, into which the pin 25 engages when the manual adjusting ring 20 has reached its starting position.

   Here, the end part of the pin rests out of engagement with the recess <B> 12b </B> of the ring 12 and thus releases this and the ring <B> 10 </B> for a presentation in the position of permanent light.



  In the exemplary embodiment, the diaphragm is designed as a spring diaphragm known per se, which is influenced by a spring in the direction of the smallest or largest opening.

   For automatic adjustment, an actuator of the diaphragm arrives after a larger or smaller movement path covered under the action of the spring to rest against a mechanical stop controlled by the exposure control device as a function of the prevailing illuminance. The diaphragm actuation element - in the exemplary embodiment, is a ring <B> 27 </B> in which control slots 27a for the diaphragm lamellae, which are known per se and are not shown for reasons of clarity, are formed:

  are. (Y A spring 28, one end of which is attached to the ring <B> 27 </B> and the other end to a stationary pin <B> 26 </B>, influences the ring in the direction of the smallest bilend opening ( Fi <B> g. 11). </B>



  The control of the mechanical stop of the exposure control device, which works together with the diaphragm actuation ring, takes place as a function of the position of the movable part 24a of the aforementioned galvanometer 24. For this purpose, the position of the part 24a is medium a first lever system consisting of the two two-armed levers <B> 29 </B> and <B> 30 </B> is scanned on both sides.

   The two levers are mounted about axes <B> 31 </B> and <B> 32 </B> and are coupled to one another by means of a pin-slot connection 29a, <B> 33 </B>. The arms 2, 9 b and 30 a are designed as feeler arms and interact with two congruent control cam parts 24 b arranged on the movable part 24 a of the Ga-vanometer.

   In the initial state of the device, the feeler arms are lifted from the control curve in a known manner to ensure that the moving coil 24a is free to play. Depending on the intensity of the one with the Gallvanometer 24 electrically connected photo element 34 when the light falls, the movable part 24a of the galvanometer assumes a certain position by rotating about its axis 35, whereby the control curve parts 24b move into a corresponding angular position.

    A calibration resistor <B> 60 </B> is arranged in the electrical circuit of the photo element 34 and galvanometer 24 to match one another. The entire arrangement comprising the galvanometer and the lever is housed in the lock in a manner known per se.



  In order to transfer the respective position of the movable part 24a communicated to the scanning system 29, 30 to the diaphragm actuation ring 27, a second lever system connected to the first lever system is arranged, which is shown in the example consists of a two-armed lever <B> 37 </B> mounted about an axis <B> 36 </B>. One arm 37a of this lever is connected to the <B> arm </B> 30a of the lever <B> 30 </B> by means of a pin-and-slot connection.

   A light spring <B> 38 </B> tries to turn lever <B> 37 </B> counterclockwise, whereby the arms <B> 29b </B> and 30a are applied to the control cams 24b. The second arm <B> 37b </B> of the lever is used to cooperate with a step setting curve <B> 27b <B> 27b formed on the diaphragm actuation ring <B> 27 </B>. </B> Here, the arm <B> 37b </ B> a stop 37c formed,

   which can come into engagement with the various stages of the adjustment curve <B> 27b </B> and thus limit the movement path of the diaphragm actuation ring <B> 27 </B> in the direction of action of the spring <B> 28 </B>. The size of this path depends on the respective position of the aryne 37b, which in turn depends on the angular position of the movable part 24a of the galvanometer 24.

   Thus, the shutter actuating ring <B> 27 </B> can be moved under the action of its spring <B> 28 </B> in the clockwise direction until: one step of the curve <B> 27b </B> at the stop 37c of the arm <B> 37b </B>.



  The design of the diaphragm as a spring diaphragm and the use of a mechanical stop controlled by an exposure control device as a function of the prevailing light intensity, which counteracts a diaphragm actuating element under spring action when a certain setting corresponding to the prevailing lighting conditions is reached Moving on, locks, is in unspoiled,

      A fully automatic aperture setting guaranteed in a cost-saving and functionally reliable manner.



  Instead of a Galvanorneters to control the stop, an electronic amplifier controlled by a photocell or a photo element could be used in the same way, by means of which an electromagnetic-mechanical switching device that switches on a stop or a lock can be controlled such that if it is present a certain size of a control voltage or control current achieved by exposure of the photo cell or the photo element, the switching device responds for the purpose of switching on the lock.



  Furthermore, an automatic aperture control or setting could also take place in such a way that an aperture setting member is driven directly by a photo element or photo cell or via an intermediate amplifier and depending on the degree of illumination of the photoelectric cell in a certain setting position to be led.



  An increase in the simplicity and speed of operation can be achieved in a camera with a spring shutter by opening the shutter depending on the tensioning of the camera shutter, its respective setting determined by the mechanical stop of the exposure control device. Chase against the action of the spring in one of the largest or smallest opening assigned end position can be guided and can be held in this position by means of a releasable lock.



  In the exemplary embodiment, a ring 39 is used to tension the diaphragm. This ring is mounted rotatably around a bearing attachment ld formed on the rear wall of the lock housing and is under the action of a spring 40 which, in the manner shown in FIG B> 10 </B> seeks to hold the end position shown.

   For cooperation with the diaphragm actuation ring <B> 27 </B>, an arm 39a is formed on the ring <B> 39 </B>, which extends into the movement path of a stop arm 27c arranged on the diaphragm actuation ring <B> 27 </B>. protrudes and with a clockwise direction of rotation this leads into its clamping position shown in Fig. 10 (dashed lines).



  The actuation of the ring 39 for the purpose of tensioning the diaphragm takes place as a function of the tensioning of the closure by means of the tensioning device of the same. For this purpose, a gear drive comprising the parts 39b, 42 and 44 is arranged between the ring 39 and a clamping axis 41 of the closure. The connection between the gear wheel 44 and the clamping axle 41 is in the form of an idle path connection in such a way that the ring 39 follows. Tension under the action of the spring 40 as it can return to its original position.



  To hold the diaphragm actuation ring 27 in the tensioned position, a locking lever 46 is pivotably mounted on the rear wall of the lock housing about an axis 45. The lever is influenced by a light spring 47 counterclockwise and works by means of a locking lug 46a with the stop arm 27c of the diaphragm actuation ring 27 in the manner shown in FIG. 10 together.

    To ensure secure locking of the diaphragm in the cocked position, it is useful if there is an overriding position of this ring between the setting of the Actuate transmission ring and the position of this ring that is assigned to the largest aperture.



  The release of the lock for the purpose of setting the aperture to the opening value determined by the position of the stop 37c takes place in the exemplary embodiment, as well as the tensioning of the aperture without the need for additional operating handles depending on the release. ng of the lock by means of the shutter release 48. For this purpose, this works on the one hand with an arm 49 of a known lock release device, not shown for reasons of clarity, and on the other hand with an arm 46b of the locking lever 46.

   The two releases are coordinated with one another in such a way that the diaphragm has reached its respective setting position determined by the stop 37c before the shutter begins to open.



  In order to ensure a steady and safe release, it is expedient here to actuate the two devices 46 and 49 by means of the release mechanism 48 at the same time.

    The delay required for the start of the opening of the shutter with regard to its triggering can be achieved here, for example, by means of a known advance or synchronizing mechanism, the expiry time of which can be set so that the shutter only opens after a period of time that is equal to or greater than the time interval assigned to the maximum movement path of the diaphragm actuation ring.



  In the exemplary embodiment, the aperture can be set using the above-mentioned manual setting ring 20 in an uncomplicated and parts-saving manner in that a stop arm <B> 20d </B> is arranged on the manual setting ring,

   on which the stop arm 27c of the diaphragm actuation ring, which cooperates with the clamping ring arm 39a collar of the locking lever 46, rests under the action of the spring diaphragm spring 28 when the exposure control device is switched off. In order to rule out an unintentional adjustment of the manual adjustment ring 20 under the action of the spring diaphragm spring, it is secured in its respective setting positions.

   This can be done either by friction or by means of a locking device known per se, on the manual adjustment ring and on a part of the closure that remains stationary relative to it, which is arranged or formed from.



  Since manual adjustment of the diaphragm cannot be held in the cocked position, it is advantageous in terms of simple camera operation if the lock holding the diaphragm in the cocked position with the permanent light setting depends on the adjustment movement of the switch from the permanent light position to the position Flash light can be put out of action.



  The activation of the lock when the flash light is set occurs in the exemplary embodiment (automatically and without the need for additional effort by means of the locking pin <B> 19. </B> which holds the manual adjustment ring 20 of the shutter in its initial position. For this purpose, the pin <B > 19 </B> a conical extension 19a, which works together with an arm 46c of the locking lever 46 in such a way that the locking lever 46 can move freely when the permanent light is set,

   while in the case of a flashing light through the projection 19a in a position outside of the movement path of the stop arm 27c of the diaphragm actuation ring 27. Position pivoted and is held in this position against the action of the spring <B> 27 </B> (Fig. 12 to <B> 15). </B>



  In cases where the shutter is already cocked when the camera is switched from the flash light setting to the continuous light setting, the shutter is automatically set when the shutter is released. Depending on the illuminance acting on the exposure control device, a special device is arranged in a further embodiment of the invention, by means of which the aperture is in the cocked position when the camera is switched from a flashing light setting to a continuous light setting is feasible.



  In the exemplary embodiment, such a subsequent tensioning of the diaphragm is achieved in a way that saves effort and does not make operation of the shutter or the camera difficult by means of the second part 10 of the exposure time setting ring 3 .

   For this purpose, an arm <B> 50 </B> is arranged on the exposure times, control curve ring 12, which works together with a tab <B> 27d </B> bent on the diaphragm actuation ring in such a way that

       that the arm <B> 50 </B> comes to rest on the tab <B> 27d </B> when adjusting the ring <B> 10 </B> from the flashing light setting to the continuous light setting and the ring <B> 27 </B> ül clamping position leads. A run-up ramp <B> 51 </B> arranged on the inner circumference of the closure housing side wall causes the arm <B> 50 </B> to disengage the ring <B> 27 </B> when the clamping position is reached brought to the rag <B> 27d </B>, (Fig. <B> 17). </B>



  For a better understanding of the interaction of the various setting and actuating rings of the above-described lock, the adjustment paths of the individual rings are shown in FIG. 18. graphically represented.

   As a reference base for the size of these adjustment paths as well as for the division of the setting scales <B> 8, 52 </B> and <B> 53 </B> assigned to the rings for filin sensitivity , The exposure time and aperture are used here by the angular quantity a plotted on a beam, a, which corresponds to the angular displacement of an aperture value.

   On four other beams <B> <I> b, </I> </B> <I> c, <B> d </B> </I> and e, the movement paths including the setting scales of the setting ring <B> 9 are shown </B> for film sensitivity <B> (b), </B> this exposure time setting ring <B> 10, </B> 12 (c), of the diaphragm actuation ring <B> 27 (d) </B> and the manual adjustment ring 20 <I> (e) </I> of the cover are removed.



  The named rings have movement paths of the following size:
EMI0007.0060
  
    <I> Ring </I> <SEP> <B> 9: </B> <SEP> 4a <SEP> Fan sensitivity adjustment range
<tb> <I> Ring </I> <SEP> <B> 10, </B> <SEP> 12: <SEP> 4a <SEP> Exposure time adjustment path <SEP> <B> + </B> <SEP> a <SEP> Over way <SEP> <B> + </B> <SEP> 7a <SEP> Aperture adjustment path
<tb> Ring <SEP> <B> 27: </B> <SEP> 7a <SEP> Blendeverställweg <SEP> <B> + </B> <SEP> a <SEP> crossing
<tb> Ring <SEP> 20: <SEP> 7a <SEP> Aperture adjustment path <SEP> <B> + </B> <SEP> a <SEP> Crossing The movement paths extend on the reference beam, a as follows:

    
EMI0007.0061
  
    for <SEP> ring <SEP> <B> 9: </B> <SEP> from <SEP> <B> 0 </B> <SEP> to <SEP> 4a
<tb> for <SEP> ring <SEP> <B> 10, </B> <SEP> 12: <SEP> from <SEP> <B> 0 </B> <SEP> to <SEP> 12a, < SEP> where <SEP> is the <SEP> material path
<tb> 4a <SEP> to <SEP> 12a <SEP> of a <SEP> exposure time
<tb> from <SEP> <B> 1130 </B> <SEP> sec <SEP> is assigned to <SEP>.
<tb> for <SEP> ring <SEP> <B> 27: </B> <SEP> from <SEP> 4a <SEP> to <SEP> 12a, <SEP> where <SEP> is the <SEP> angle away <SEP> from, <SEP> 4a <SEP> to <SEP> 5a <SEP> den, <SEP> over
<tb> of the <SEP> ring <SEP> <B> 27 </B> <SEP> opposite <SEP> the <SEP> largest <SEP> aperture <SEP> 2.0 <SEP> represents.
<tb> for <SEP> ring <SEP> 20:

   <SEP> from <SEP> 5a <SEP> to <SEP> 13a, <SEP> where <SEP> is the <SEP> angle away <SEP> between <SEP> 12a <SEP> and <SEP> 13a <SEP>
<tb> across <SEP> of the <SEP> ring <SEP> 20 <SEP> opposite
<tb> of the smallest <SEP> aperture <SEP> 22
<tb> represents. In a further development of this subject matter of the invention, an optically, acoustically or mechanically effective warning device of a type known per se, in particular a warning display visible in the camera viewfinder, can be arranged which, if the illuminance range corresponding to the working area of the camera is exceeded, in Activity occurs.



  Such a warning device draws the operator's attention to the fact that a value would result for c] ic diaphragm when taking continuous light recordings in which the aperture is set automatically depending on the illuminance acting on the exposure control device that is outside the camera's range of values.



  The mode of operation and operation of the above-described lock is as follows: a) Continuous light exposures: With this type of exposure, the ring 10 is in the setting position shown in FIG , in which it is coupled to the ring <B> 9 </B> by means of the coupling device <B> 9b, </B> 17a.

    Adjusting the ring 9 for the purpose of setting a new film sensitivity thus effects a setting of the film sensitivity assigned to this film sensitivity via the exposure time control ring 12 connected to the ring 10 Exposure time.



  The setting of the diaphragm in the aforementioned setting position of the ring <B> 10 </B> takes place automatically as a function of the illuminance acting on the exposure control device.

   The manual adjustment ring 20 of the diaphragm is locked in its starting position by the locking pin 19, while the locking lever 46 is in the operative position and the diaphragm actuating ring 27 is in the active position after it has been tensioned , which is activated either by means of the clamping device <B> 27e </B> and <B> 39 </B> to 44 or by means of the manual clamping device <B> 10, </B> 12, <B> 27d , 50 </B> is held in the cocked position against the action of the spring <B> 28 </B>.



  The shutter is triggered by the shutter release 48 when the shutter is released. Here, the locking lever 46 is brought against the action of its spring 47 out of engagement with the arm 27c of the diaphragm actuation ring 27, so that the latter runs off under the action of the spring 28.

   After a longer or shorter run-off path, the ring 27 is stopped by the stop 37c of the exposure control device, in that a step of the curve 27b formed on the Rino, g 27 comes to rest on the stop 37c. This means that the aperture that corresponds to the prevailing lighting conditions is set automatically on the shutter.



  <B><I>b)</I></B> <I> Flash photos: </I> For this purpose, the coupling connection <B> <I> 9b, </I> </B> <I> 17a </I> between the rings <B> 9 </B> and <B> 10 </B> by pressing down the handle <B> 18 </B> released and then the ring <B> 10 </ B > brought only to the setting position shown in FIG. 1, in which the <B> d </B> h <B> g </B> ule flashing lamp symbols marked <B> 15 </ B > and <B> 16 </B> face each other. This dislocation of the ring <B> 10 </B> causes the following: <B> 1. </B> Switching off the exposure control device <B> Z, </B> by closing the short-circuit switch <B> 23. < / B>



  2. Release of the manual adjustment ring 20 of the diaphragm by the locking pin <B> 19. </B>



  <B> 3. </B> Actuation of the locking lever 46 holding the diaphragm in the clamping position by the part 19a of the locking pin.



  The diaphragm actuation ring <B> 27 </B> now rests with its arm 27c on the stop ring <B> 20d </B> of the manual adjustment ring 20 both in the cocked and in the unstressed state of the lock and can be used through this for the purpose of setting the Aperture can be adjusted.

   In the case of flash photography, this setting occurs as a function of the type of flash lamp used and the exposure distance set, and takes place in the case of the semi-rope self-locking mechanism shown in the exemplary embodiment. For this purpose, two scale rings, o ", e 54 and <B> 55 </B> are arranged on the outer circumference of a cylinder jacket 20e of the aperture manual adjustment ring 20, which overlaps the closure housing rear wall (FIGS. 1 and 4) 2).

    Of these, the ring 54 is firmly connected to the manual adjustment ring 20 and carries a BlitzJampen label scale <B> 56 </B> while the ring <B> 55 </B> is relatively adjustable with respect to the ring 54 - and an adjustment mark <B> 57 </B> that works together with the identification mark scale <B> 56 </B> and a scale <B> 58 </B> that works together with the film speed adjustment mark <B> 11 </B> B> who has distance values. A handle <B> 59 </B> arranged on ring 54 enables effortless adjustment of the ring.



  To set the aperture correctly when taking flash photos, it is now only necessary to set the code number of the flash lamp used on the scale <B> 56 </B> using the mark 57 and then set the manual adjustment ring 20 so far until the mark <B> 11 </B> is opposite the distance number of the scale <B> 58 </B> which is set on the distance scale <B> 7 </B> of the lens.



  Instead of the above-described type of diaphragm setting for flash exposures, the setting could also take place in the usual manner using a diaphragm dial 1a attached to the manual setting ring 20. In this case, the scale rings 54 and <B> <I> 5 5 </I> </B> would be omitted, and the aperture: scale would be z. B. on the cylinder jacket of the ring 20 be found.

   However, this setting does not achieve the high degree of operating simplicity required of the arrangement of the exemplary embodiment, since in this case the operator has to deal with the concept of a diaphragm, which is not easily understood.



  In the exemplary embodiment, the subject matter of the invention is a lens shutter designed for a fully automatic exposure setting. shown. The meaning of the invention, however, extends to any type of cameras with semi or fully automatic exposure setting or control, ie z. B. also on cameras in which the tracking pointer of an exposure meter is influenced depending on the aperture adjustment.

   Both with motor and with manual adjustment of the panel, the progress made by the invention, detailed at the outset, steps and advantages are achieved in the same complete manner.



  It is also within the scope of the invention to influence the passage of light to the film instead of the lens diaphragm or in addition to this by other means which limit the light and to adjust these means depending on the illuminance acting on the exposure control device. Such means are e.g. B. gray wedges or polarization filters of a known type.



  The combination of a light limitation by means of the lens diaphragm and such by means of another light limitation means leads to the advantage of a comprehensive working area of a camera according to the invention. For example, you could use the smallest aperture, so z.

   B. the aperture 22, assign a certain number of filter levels, whereby the work area of a so ausgebil Deten camera would increase the number of filter levels compared to a camera with exclusive Lichtbegren tion through the lens diaphragm.

       The switching on of the filter stages could advantageously be done by the diaphragm actuator itself, for example in such a way that it can be moved beyond the setting position corresponding to the value 22, all in the direction of BleM- 32 and even higher diaphragms - Values, but with the appropriate design of the aperture control curves. the aperture value 22 remains constant.

 

Claims (1)

<B> PATENT CLAIM </B> Photographic camera with automatic exposure adjustment and with setting or shutter control elements for exposure time and aperture that can be adjusted to several positions, characterized in that the exposure time setting element for setting different, A film sensitivity scale is assigned to a range of monotonously graduated settings belonging to exposure times suitable for taking pictures, and that the aperture setting element can be adjusted as a function of the illuminance acting on the exposure setting device. <B> SUBClaims </B> <B> 1. </B> Photographic camera according to the patent claim, characterized in that the exposure time setting element consists of two parts which can be adjusted relative to one another <B> (9, 10) </ B >, of which the first <B> (9) </B> works with a film speed scale <B> (8) </B> and the second <B> (10) </B> works with an exposure time setting device, and that the two parts can be coupled in a single relative position for the purpose of common adjustment over the range of the Fümemp- sensitlichkeitsskala . Symbols are arranged, and that the second part <B> (10) </B> after uncoupling from the first part <B> (9) </B> can be moved into a setting position to which an exposure time suitable for flash photography is assigned , and which is identified by setting marks <B> (15, 16) </B> or symbols <B> ge </B> indicating the use of flash. 2. Photographic camera according to dependent claim <B> 1 </B> characterized in that for coupling the two parts <B> (9, 10) </B> of the exposure time setting member and for securing the second part <B > (10) </B> in the setting position flash light on this a single, manually releasable detent <B> (17) </B> is arranged, which alternates with one on the first part <B> (9) </ B > and on a fixed camera part (4) trained latching recess <I>(4a,<B>9b)</B> </I> cooperates. <B> 3. </B> Photographic camera according to dependent claim <B> 1, </B> in which the setting of the diaphragm operates fully automatically as a function of the illuminance acting on the exposure control device takes place, characterized in that a switching device is arranged by means of which the exposure control device can be switched off and the diaphragm can be switched to manual setting. 4th Photographic camera according to dependent claim 3, characterized in that the switching device changes to the permanent light and continuous light setting position as a function of the adjustment movement of the second part <B> (10) </B> of the lighting time setting element is operable. <B> 5. </B> Photographic camera according to dependent claim 4, characterized in that the switching device comprises a releasable locking device, the movable part of which :, <B> (19) </B> with a manual adjustment element (20) Aperture works together and this is locked when the camera is set to permanent light in one of the largest or smallest aperture associated with the initial position. <B> 6. </B> Photographic camera according to dependent claim <B> 5 </B> characterized in that the actuation of the movable part <B> (19) </B> of the locking device is effected by the second part < B> (10) </B> of the exposure time setting organ takes place. <B> 7. </B> Photographic camera according to dependent claim, <B> 6, </B> characterized in that a further locking device <B> (25; </ B.) Controllable by the manual adjustment element (20) of the diaphragm > 20e; <B> 12b) </B> is arranged, by means of which the switching device is locked in the flashing position when the manual setting element (20) is in a position different from its initial position, being filled. <B> 8. </B> Photographic camera according to dependent claim <B> 7, </B> characterized in that between, From the starting position of the manual adjustment organ (20) där aperture and that of the relevant Endstelilung of the aperture zugeord Neten. Location of this organ: there is an overpass. <B> 9. </B> Photographic camera according to dependent claim <B> 8 </B>, characterized in that the bilendt is designed as a spring diaphragm which, by means of a spring (28), in the direction of the smallest or the largest opening is influenced, and that a mechanical stop <B> (3 </B> 7c) controlled by the bleed-lighting control device as a function of the prevailing light intensity is arranged, on which the diaphragm actuator <B> (27) </B> comes to rest after a larger or smaller movement path covered under the action of the spring door <B> (28) </B>. <B> 10. </B> Photographic. Camera according to dependent claim 9, characterized in that the diaphragm, depending on the tensioning of the camera shutter, is its respective setting position determined by the mechanical stop (37c), against the action of the spring <B> (28) </B> in one of the largest or smallest openings. End position, can be guided and is firmly adhered in this by means of its releasable lock (46). <B> 11. </B> Photographic camera according to dependent claim <B> 10 </B> characterized in that the release of the lock (46) holding the diaphragm in the cocked position takes place as a function of the release of the closure, whereby the releases are coordinated with one another in such a way that the aperture has reached its respective setting position before the shutter begins to open. 12. Photographic camera according to dependent claim 10, characterized in that an actuating member (39) is arranged for tensioning the diaphragm, which is coupled to the tensioning device (41) of the closure and can be non-positively connected to a stop (27c) of the diaphragm actuating member (27) and which returns to its initial position after tensioning has taken place. <B> 13. </B> Photographic camera according to dependent claim 12, characterized in that a stop (27c) is arranged on the diaphragm actuating member <B> (27) </B> for setting the diaphragm during flash exposures, which when the exposure control device is switched off, spring action can be applied to a stop (20d) attached to the manual setting element (20), and that Manual adjustment element (20) is secured in its respective setting positions against an adjustment effect of the spring diaphragm <B> (28) </B>. 14. A photographic camera according to dependent claim, <B> 13 </B> characterized in that, depending on the adjustment movement of the switching device from the permanent position to the flash position, the lock (46) holding the diaphragm in the clamping position can be deactivated. <B> 15. </B> Photographic camera according to dependent claim 14, characterized in that the movable part <B> (19) </B> of the screen is used to activate the lock (46) holding the screen in the tensioned position - hand setting member (20) is provided in its starting position firmly holding locking device. <B> 16. </B> Photographic camera according to dependent claim <B> 15 </B> characterized in that a special device <B> (1 </B> 2; <B> 50; 27d) </ B> is arranged, by means of which the diaphragm can be guided in the clamping position when the camera is switched from flash light to continuous light. 17. Photographic camera according to dependent claim 16, characterized in that the diaphragm is tensioned by means of the second part of the exposure time setting element is feasible when moving from the position of flashing light to position of continuous light. 18. Photographic camera according to the patent claim, characterized in that an optically, acoustically or mechanically effective warning device is arranged which, if the illuminance corresponding to the working area of the camera is exceeded or fallen below, -reichs goes into action.