DE1472725C - Film camera with automatic aperture control elimination from 1422786 - Google Patents

Description

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can cause ßen the lens aperture, as it is stopped in many picture windows. Through the neutral density filter 25

Cases is desirable. will reduce the mean value of the

In this context it is also still the shutter of reflected light while running advantageous that compensated according to a further embodiment of the Er camera. In the example shown Finding the interruption of the short circuit 5 indicate the light sector and the dark sector of the club Capacitor due to the camera release control circuit is approximately the same size (see. Fig. 2). can be bar, so that with the release of the film, the neutral density filter 25 must have a filter constant of camera at the same time have a gradual opening of the ob- about 0.5, so that with the shutter at rest lens aperture can be initiated. The light falling on the photoresistor with this light is about the The shutter according to the invention achievable effects is reduced by half. The photo resistor 14 is one are mainly used for trick shots, e.g. B. for over- second rotatably arranged gray filter disk 26 pre-fades, significant. switched whose sectors have different filter levels

Further features of the invention emerge from having. The filter disc is by means of a the following description of some embodiments - the camera housing 27 protruding toggle 28 twisting examples, where reference is made to the drawing 15 bar and is used to set the various films, sensitivities.

In Fig. 1 is a schematic section through one The diaphragm blades 37 and 38 are cut through two

Narrow film camera with pancratic lens and directivity-less galvanometer controlled. The frames

automatic iris control shown. F i g. 2 is a 35 and 36 of the two galvanometers have two

Section along the plane II-II in F i g. 1. The F i g. 3 20 coaxial windings 66 and 67, which are in opposite directions

shows the circuit diagram of an embodiment. are wrapped. The frames enclose coaxially

The in F i g. 1 illustrated narrow film camera has the permanent magnet core. The magnetic back a basic lens 1, which is an optical system circuit is preceded by the ferromagnetic material with variable magnification. Rial made of existing galvanometer housing. The This consists of two positive terms 2 and 3, ER 25 current supply to the Galvanometerrähmchen and arranged between these negative follows by thin spirally wound gold foil member 4. The lens elements 2 and 4 are for comparison 39 a, 39 b, 39 c, which only result in an extraordinary change in the focal length of the overall lens after a small directional moment. The remaining Richtmoz two different laws of motion (see. The ment is still switched off by the fact that the spiral arrows 5 and 6) shifted. With a partially mirrored 30 39 c with the larger cross section and thus also the prism 8, part of the light falling through the lens with the larger remaining directional moment is reflected into the viewfinder and the spirals 39 α and 39 b with the opposite α via a lens 7, a prism 8, and an eyepiece 9 is executed off winding direction. In series with the winding formed. between the film 10, and the lens is lung 66 of the galvanometer is the photoresistor 14 is provided a shutter 11 which is about an opti- 35 in the circuit of the winding 67 a permanently set axis can be rotated at 45 ° inclined shaft 12. Comparative resistor 31 is arranged.
When the shutter is rotating, the film is intermittently The circuit is released from the motor battery 24 for exposure. During the feed. The main switch 32 can be used to transport the film 10 by sets of panels, the controller and the camera drive from the battery are covered by the shutter. Which are separated from the lens 4 °.

facing side of the shutter is mirrored, so the aperture blades 37 and 38 are through the

that when the film is covered, the galvanometer system is adjusted through the lens until the

incident light is reflected out and through a lens 13 magnetic equilibrium in the Frähmchenwick-

is directed onto a photoresistor 14, lungs is established, d. H. until the ampere turn

The drive of the shutter 11 takes place via a 45 number in both branches is the same. The arrangement

Gearbox 5 from an electric motor 16. At the opening works with a fixed resistance value of the

drive shaft 17, a cam 18 is provided, which the photo resistor, whereby scatter in the characteristic

Transport gripper 19 controls. The shaft 17 also carries lines of the individual photoresistors particularly easily

a locking disk 20, which can be compensated with the arm 21 α one.

double-armed lever cooperates. Tn of the 50 The F i g. 3 shows a complete circuit of the position shown is the arm 21 α in the locking disk of FIG. 1 and 2 schematically shown camera, engaged and thus blocked the shutter 11 in series with the resistor 31 is a capacitor darkened image window. By pressing the Aus 55 and parallel to the photoresistor 14, a condensate release 22, the lever 21 α from the locking disc 56 and a resistor 57 is provided. The disengaged, with the switch 23 switching of the capacitors at the same time via a two-way switch 58 and the motor 16 with the battery 24 reverse polarity switch 58 and has the following effect: Will, is bound. The motor therefore starts up and, starting from the switching position I shown, sets the gripper 19 and the shutter 11 in motion. If the switch is moved to position II, the short-circuit of the capacitor 55 is interrupted by pressing the trigger 22. The lever arm 21 α pivoted counterclockwise 60 capacitor 55 is charged, the circuit and thus pulls a neutral filter 25, arranged between the lens 13 and the gray filter 25 arranged in the sense of a gradual closure of the lens photoresistor 14, out of the aperture. If two beam paths are to be cross-faded back, so that the light can be produced while the scene is running, the film after the camera falls onto the photoresistor without being weakened. After releasing the shutter button 22, the double 65 whereby the light-tight closed diaphragm an exposure arm lever 21 a, 21 b is prevented by a spring again in device during the rewinding process. Put back before the starting position, whereby the motor start of the next exposure, the switch 58 circuit is interrupted and the shutter switched to TII before the. The capacitor 55 remains on

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switches and the lens iris is closed. Equal- The invention is not limited to those described above Examples are limited early when the camera shutter is pressed. So z. B. as a photosensitive Switch 59 is closed, the capacitor 55 is also a photodiode or a photo bridge and parallel to the photoresistor 14, the con-transistor can be used. To reflect the capacitor 56 with resistor 57 switched on. The 5 light for the photosensitive element can also slowly decaying charging current of the capacitor 56 a partially mirrored prism or a mirror forfeited a gradual opening of the lens aperture. be det. The present exemplary embodiments In the steady state, the capacitor has to be modified to the effect that the Exposure control has no effect. After resetting light for the photosensitive element not from the When the switch 58 is in position I, the conical beam path of the lens is reflected out, the probe 56 through the high resistance 60 that the photosensitive element has its own unload. A lens with an adjustable diaphragm is connected upstream. In a modification of the example described above. The aperture blades for the camera lens and it is also possible to have a winding of the frame and the measuring lens are mitigated by at least one Short-circuit with the help of a switch or driven to 15 common directional galvanometers, interrupt, so that the magnetic equilibrium. In an advantageous embodiment, the Lades Galvanometer is disturbed and the diaphragm fills the lens diaphragm extensions open opens or closes completely. A switch before the aperture for the measuring lens bezum arbitrary closing of the aperture can be part of the vote. With such a facility, none occurs a rewinding device coupled in such a way as to change the setting when the camera is triggered be that the aperture during the rewind forward. A corresponding compensation device aisle closes light-tight. can therefore be omitted.

1 sheet of drawings

Claims (7)

1 2 The present application is based on a patent claim: film camera with automatic aperture regulator using at least one galvanometer for 1. Film camera with automatic aperture position of the lens diaphragm, the galvanometer controller using at least one GaI- 5 without a return spring and two Wickvanometers for adjusting the lens diaphragm having lungs, one of which is the one in the galvanometer without a return spring - The beam path of the taking lens is guided behind the lens and has two windings, one of which is determined by the photo element arranged by the lens aperture in the beam path of the current, while the other effect via we recording lens behind the lens aperture at least prescribes a resistor with a power source Photo element leads certain current, is bound. In the case of a galvanometer, as in the case of the application of a resistor to a power source while the other winding is used via at least the present subject matter of the invention and which is by definition a "directional force, characterized in that it is designed as a loose" instrument, the GaI-die remains Switching of the galvanometer system with the 15 vanometer frames after switching off the two windings (66, 67) arbitrarily detuning winding current or the winding currents is in principle, such that by interrupting at least in any indifferent position with respect to at least one Winding of the guided current the permanent magnetic core of the galvanometer. However, by short-circuiting the corresponding with, the user of a lens diaphragm designed according to the gate windings of the present invention is completely closed or opened by the galvanometer film camera, in which the galvanometer is initially carried out. only has to fulfill the task of opening the aperture of the 2. Film camera according to claim 1, characterized by the camera lens according to the photo element indicates that at least one current (e.g. from a photocell) supplied in the circuit is auto-galvanometer winding (66 or 67) one with a »5 to be adjusted automatically, not fully used, there Rewinding device for the film has been shown in such a way that often the need for catenary Switch is provided that stands through, in addition, an arbitrary open the galvanometer in the sense of a light-tight or closing the closure controlled by the galvanometer to be able to effect the lens aperture during the th lens aperture, example rewinding process being affected. 30 ways to create transitions. 3. Film camera according to claim 1 or 2, characterized in that it offers a possibility to do this, but in a very advantageous manner, that in the circuit at least jiafter the present invention, which is therein a galvanometer winding (66 or 67) that the circuit of the galvanometer system a capacitor (56 or 55) exhibiting with the two windings arbitrarily detunable Time constant member is placed. . 35 is such that by interrupting at least the 4. Film camera according to claim 3, characterized in that the current is guided by a winding or through indicates that the interruption of the short-circuiting of the corresponding windings circuit of a capacitor (56 or 55) complete closing or opening of the lens the camera release is controllable. aperture is done by the galvanometer. 5. Film camera according to one of the preceding 40. In the invention, there are no single claims, the aperture regulator in the circuit Hch around, within any electrical shells of the two galvanometer windings each have a processing arrangement, if necessary, the capacitor flowing there, characterized in, Switch off the current and do this by means of a switch located in the circuit of the winding (66) , but rather a capacitor (56) together with a resistor 45 is more about specifying more targeted and more useful stand (57) parallel to an im kinked measures, through which, despite the automatic aperture, the optical path of the taking lens (1) behind the film camera and precisely while retaining the aperture blades (37,38) arranged photo resistance at any time, in particular an arbitrary opening and standing (14) is switched on during the condensation closing of the Lens aperture can be made possible by tor (55) together with an in with respect to the 50 can. Photoresistor (14) fixed comparison In a further development of this dimensional resistor according to the invention (31) in series with the winding (67) can now be provided that is in the current, further characterized in that at least one of the galvanometer windings for the circuit alternate switching on or short-circuiting a with a rewind device for the film in the of the capacitors (55,56) a common, 55 way coupled switch is provided that through Two-pole switch (58) with three switch positions each, the galvanometer in the sense of a light-tight lungs is provided. Closure of the lens aperture during the rear 6. Film camera according to claim 4 or 5, the winding process is influenced. So this becomes characterized in that in series with the scarf an exposure of the film during the rewind predictor (58) an automatically prevented with the actuation of the camera output, which undoubtedly causes a particular problem closable switch (59) is placed. its advantages for the practical handling of a 7. Film camera according to one of the preceding such film cameras. An additional pre-claims, characterized in that for the partial formation of the Einrich control according to the invention the aperture blades (37,38) two direction results when in the circuit at least Directivity-less, parallel-connected galvanometer 65 a galvanometer winding in a condensate system (33,34) serve. tor having time constant member is placed because With the help of such a capacitor, a gradual opening or closing is very advantageous.