DE1149607B - Photographic camera with exposure control and built-in generator - Google Patents

Description

Photographic camera with exposure control and built-in generator The invention relates to a device on photographic cameras for Generation and short-term storage of electrical energy for fully automatic Exposure value-appropriate exposure time and / or aperture control as well as, if necessary for signaling and flashing by means of a generator built into the camera, the one to be tensioned with the lock elevator, depending on the operator the camera's shutter release is driven by a relaxing spring.

There are already proposals known according to which an electric generator for the purpose of generating electrical voltages and currents within a photographic recording camera is arranged, the of this device The electrical impulse emitted is stored in a subsequently arranged capacitor will. These known arrangements are constructed in such a way that the drive shaft of the The generator is coupled to the film transport element by a transmission gear, so that the generator shaft rotated during film transport and thus a charging of the Capacitor is obtained.

These known arrangements have considerable disadvantages, because the capacitor is charged while the film is being transported. As a result of all Capacitors inevitably assigned more or less large insulation resistance the charge on the capacitor will slowly decrease and after a certain time become zero. Because now, however, in the practice of taking photographs between film transport and actuation of the shutter release element of the camera, any length of time elapse, it is readily apparent that in most cases when the camera is triggered there is no defined charge on the capacitor or no charge at all is present in the condenser.

Another known arrangement attempts the disadvantages outlined above to remedy that with her the sequence of shutter release and Fihntransport is reversed, in such a way that when the trigger member of the camera is actuated first the film transport and thus the charging of the capacitor takes place and then then the shutter is released.

The disadvantages of this second known arrangement are now in the fact that between the actuation of the trigger of the camera and the actual exhaust run are of the closure considerably long periods of time, the joined all in order for the film transport, the tensioning of the fastener, the generator operation and for moving Masses are required. Recordings of rapidly moving objects or one-off snapshots are hardly possible with such a device, so that they too cannot meet the requirements placed on a photographic recording camera.

A generator built into the camera is also included Device for automatic control of the exposure time in photographic applications Cameras with a focal plane shutter are known in which a through opening of the shutter a mechanical drive mechanism moves the contact member the closing movement of the shutter Electromagnetic triggers when it comes to that of an electric light meter set contact member comes into contact. This construction also has disadvantages which can significantly impair their functioning. This is how it works, for example when the camera is triggered, the elevator button, with which, among other things, the den Generator driving spring motor is wound up, in opposite directions with order. This can this button in the case of an unfavorable finger position of the holding hand on the camera or by other accidental circumstances are unintentionally slowed down, which increases the strength of the generator current significantly influenced and the reliability of the entire facility in question can put. Since the shutter is released by disengaging the gear wheels, it can happen that the release button does not return to its rest position can because at Re-engagement of these gears tooth to tooth comes to rest and the camera is inoperable. In addition, the elevator turns of the spring motor intended for the generator drive, the generator rotor in his Magnetic field. with, which makes it difficult to operate the elevator.

The object of the invention is that of the above-mentioned known facilities existing shortcomings for a camera of the aforementioned Kind of eliminate.

To solve this problem it is proposed that between the drive the shutter tensioning and / or film advancing device on the one hand and the generator driving spring on the other hand a detachable clutch designed as a freewheel is arranged. According to the invention, this freewheel is arranged such that it is used both as a coupling of the drive for the locking device and as Clutch for tensioning the generator spring is used. This ensures that the Winding of the spring motor together with the film advance and the shutter cocking can take place, but that when the spring motor is triggered to drive the generator both the fihntransport and locking elevator organs as well as those for the overall elevator designated handle are switched off, so that only the generator, unhindered from all other masses, is moved.

In an embodiment of the invention, the running spring motor or releases the generator when it hits an end stop by means of mechanical means Shutter off. The times between the actuation of the triggering process and the opening process of the closure are, according to the device according to the invention so short that they can also be used when recording objects that are moving very quickly or for a short time Transactions are not of major importance. The armature or stator of the generator carries permanent magnets to generate the magnetic field inside the generator. This magnetic field opposes the movement of the generator shaft with a resistance, so that a certain force is required to rotate this shaft. After he further The embodiment of the device according to the invention is therefore the shaft of the generator driven by the spring motor via a further freewheel in such a way that the elevator of the spring motor, which by means of the Filintransport- or closure elevator organ takes place in the opposite direction than the process decoupled from these organs, this freewheel overtakes and therefore no movement during this winding process is transmitted into the generator shaft, since according to the invention the torque for movement this shaft is dimensioned larger than the moment of freewheeling in the freewheeling direction.

Since the generator by means of the freewheel described above during of the elevator of the spring motor is decoupled, so is when operating the elevator organs the camera saved a considerable amount of force. Another advantage of this according to the invention activated freewheel consists in the fact that when the spring motor is lifted by means of of the film transport and shutter lift member does not precharge the capacitor he follows. This also creates an additional switch that normally powers the generator would have to switch off electrically during the elevator, saved.

Two exemplary embodiments, on the basis of which the device according to the invention to be described and explained in more detail below are in the drawing shown schematically.

Fig. 1 shows the overall arrangement of the spring motor with rotating generator in a perspective view, Fig. 2 shows the arrangement according to the invention with a surge generator, Fig. 3 shows an electrical circuit diagram.

The camera is lifted by means of the quick release lever 1 in the direction of the arrow. The main pinion 6 and the drive shaft 7 are pulled up via the bolt 5 via the shaft 2 and the disc 3 with freewheeling groove 4. The spring 8 is pretensioned until the cam 9, which is fastened on the disk 10 , engages behind the pawl 11 in accordance with the angle of rotation of the quick release lever 1. Quick release lever 1, shaft 2 and disk 3 can now return to their starting position by means of spring force 12 via the freewheel groove 4. During the winding of the spring motor, the film transport and shutter winding also took place via the toothing of the disk 3 via the gear indicated by the pinion 13 in a manner known per se. During the winding of the drive shaft 7 , the pinion 16 and the shaft 17 are set in rotating motion by means of the drive wheel 6 and the intermediate wheels 14 and 15. The freewheel 19 connected between pinion 16 and armature 18 prevents the transfer of the rotary motion to armature 18 during the winding process, so that the armature is held in place by the magnetic force in the air gap 20 of the generator 21 while the camera is being wound.

When the camera is triggered via the trigger element 22, the cam 9 is released by the pawl 11 . The spring force of the pretensioned spring 8 is thus released and sets the drive shaft 7 in a rotating sequence movement in accordance with the arrows drawn in solid lines. The pinion 16 is now driven via the intermediate gears 14 and 15 , namely in the opposite direction to the direction of rotation while the camera is being lifted. The freewheel 19, which is switched on between the pinion 16 and the armature 18 , blocks in this direction of rotation, and the armature 18 of the generator 21 is thus driven. During this driving, an EMF can be taken from the terminals 23 and 24 of the generator 21, which is fed to a storage capacitor, for example. The drive shaft 7 also carries the disk 25. The cam 26 is arranged on this disk 25 in such a way that it actuates the shutter release via the slide 27 shortly before the end of the expiry of the drive shaft 7 .

With the device according to the invention it is achieved that immediately a precisely defined EMF before each shutter release by means of the release element is generated and, if this EMF to charge a corresponding capacitor is used, for each recording a precisely defined charge, for example for automatic control of the shutter speed, the aperture setting, or both Exposure factors, is available.

According to a further embodiment of the invention, the generator can also be designed as a "shock generator", with the armature opposite the Stator performs a longitudinal movement.

The generator is also in accordance with the Triggering of the camera from all organs of the Fiknaufzuges during its snap action and the lock elevator uncoupled. In the same Way as at the rotating generator, the shock generator is tensioned during the elevator process, while the anchor snaps after pressing the shutter button on the camera and at Running on the end stop triggers the lock.

An exemplary embodiment of such a surge generator is shown in FIG. 2 shown.

2 shows a guide track 28 in which a permanent magnet system 29 with comb-shaped magnetic poles 30 is accommodated. An anchor carriage 31 with the poles 32 and the winding 33 slides on this guide track 28. When the camera elevator is actuated by means of the quick release lever 34, an auxiliary carriage 37 is moved in the direction of the arrow via a cable 35 and the pulleys 36. The anchor carriage 31 is advanced on the guide track 28 until it is blocked behind the pawl 38 in the position shown. The spring 39 has been tensioned during this winding process. After completion of the elevator process, the quick release lever 34 and the 1-Elfsschlitten 37 z. B. returned to their original positions by means of spring force 40.

When the trigger element 41 of the camera is actuated, the armature slide 31 is disengaged from the pawl 38 and snapped off by the tensioned spring 39 via the comb-shaped magnet system 30 . In this case, the no of the anchor carriage 31 is up 30 of the magnet system by the alternating north and south poles and demagnetized. The electromagnetic force (EMF) generated in the winding 33 is picked up at the terminals 42 and 43.

The armature slide 31 released by actuation of the trigger element 41 of the camera triggers the lock via the lever 44 when it hits the end stop.

It is readily apparent to anyone skilled in the art that the generator can still be built in several modified variations without that the framework of the inventive concept is broken. So z. B. the anchor as comb-shaped system with several windings are formed, then a perinent magnet system is moved over this anchor. There is also the possibility of using the surge generator set up in such a way that a magnetic core pushed into a coil system and so on unique pulse is generated.

As a further embodiment of the invention, between the generator and a storage capacitor built into the camera, an electric valve (Diode) inserted into the electrical circuit. This valve allows one time the storage of the energy given off by the generator, if it is alternating current acts that must first be rectified. Another with the insertion of a Valve in the electrical circuit connected advantage is that the charge accumulated on the capacitor after operating the generator does not can discharge backwards via the internal resistance of the generator winding, since the valve has a very high resistance in this reverse current direction, ie locks.

The electric circuit diagram of such an arrangement is shown in FIG. 3.

The terminals of the generator 45 are above the switched on valve 46 connected to the capacitor 47. At point 48 the charge for the following Consumers are taken.

This is also the case with cameras with automatic, light value-based setting of exposure factors, the case may arise that the prevailing in the recording room Lighting conditions with the negative material used and the for the camera in question provided setting values of the other decisive exposure factors do not allow proper photographic exposure of the film, it is suggested that to equip the camera with signaling devices, which the operator cannot cope with on the camera. This signaling, regardless of whether it is mechanical or optical, whether it is of a blocking or just warning nature can be determined in a manner known per se according to the invention can also be brought about by the generator current. Finally be nor said that it is also within the scope of the invention, the ignition of flashlight devices caused by the generator current or its voltage.

Claims (2)

PATENT CLAIMS: 1. Equipment on photographic cameras for the generation and short-term storage of electrical energy for fully automatic exposure time and / or aperture control as well as, if necessary, for signaling and flashing by means of a generator built into the camera, which is generated by a generator to be tensioned with the shutter lift, depending on the Operating the camera release, the relaxing spring is driven, characterized in that a releasable coupling designed as a freewheel (4, 5) is arranged between the drive of the shutter tensioning and / or film advancing device on the one hand and the spring driving the generator on the other. 2. Device according to claim 1 of cameras with a fast elevator apparatus, characterized denotes Ge, this free wheel (4, 5) also serves both as the coupling of the drive (13) for dieVerschlußspannvorrichtung than as a coupling for the tensioning of the generator spring (8). 3. Device according to spoke 1 and 2 on cameras in which the release button initiates the relaxation of the spring mechanism and the generated generator current is used to control the exposure times, characterized in that the shutter release (27) depending on the tension of the spring (8) before reaching the relaxed state takes place mechanically. 4. Device according to claim 1 and 2, characterized in that a second freewheel (19) is arranged between the spring mechanism (8) and the armature shaft of the generator (21), which separates the armature shaft from the moving parts of the elevator and the elevator during the elevator the camera with the armature (18) stationary. 5. Device according to claim 1 and 2, characterized in that the generator built into the camera is designed as a shock generator (Fig. 2), the armature (31) exerting a longitudinal movement relative to the stator (29). 6. Device according to claim 1 to 5, characterized in that the built-in generator is designed as a generator. AC voltage 7. Device according to claim 6, characterized in that the permanent magnet system (29) is designed as a comb-shaped system with alternating north and south poles (30) . 8. Device according to claim 1 to 7, characterized in that the alternating current delivered by the generator is rectified by means of an electrical valve (diode 46). 9. Device according spoke 1 to 8, characterized in that the pulse emitted by the generator is stored in a capacitor (47) built into the camera. 10. Device according to claim 8 and 9, characterized in that in the electrical circuit an electrical valve (46) switched on between the generator (45) and capacitor (47) prevents reverse discharge through the winding of the generator. 11. Device according to one or more of the preceding claims, characterized in that the generator current is used for signaling about the recording state of the camera. 12. Device according to one or more of the preceding claims, characterized in that the generator current is used to ignite flashlight devices. Considered publications: German Patent Specifications No. 676 963, 844 532; USA. Patent Nos. 2,299,497, 2,322,067, the 2,490,225th