DE1597234C3 - Exposure control device for photographic apparatus - Google Patents

Description

The invention relates to an exposure control device for photographic apparatus with a die Exposure time determining circuit, according to the at least one photoelectric converter incident light of the recording scene is controlled and with a switch that can be switched from Daylight operation causes flash light operation.

A photographic shutter with such an exposure control device is illustrated by the Polaroid Land camera, model 100, became known. This is done both in daylight mode and in Flashlight operation the amount of light incident on the film by time control as a function of the determined by the object being taken or reflected brightness. When switching to flash mode a correction factor is entered into the control circuit, whereby the different Types of lighting are taken into account. An aperture control was included in this known shutter not provided, but the aperture control is also known. There are cameras that have fixed or preset shutter speed, the aperture can be adjusted depending on the exposure brightness is. These aperture adjusters work in daylight mode. For flash operation, an aperture setting is in Usually depending on the distance setting via a guide number control. This guide number control works however, only satisfactory if the subject, i. H. the entire captured image section have an average reflection and the amount of light provided by the flash lamp Corresponds to the setpoint. However, this average reflection is not in many shooting situations given. In addition, experience has shown that the light output of flash lamps is subject to large fluctuations, which, in the case of flashlights, is technically due to the fuel used and in the case of electronic flashes is caused by different capacitor charges.

Often overexposure or underexposure resulted and the invention is therefore the The object is to create an exposure control device that works independently of the / Reflective ability of the subject and independent of the individual. different The light output of the flash lamps creates normally exposed pictures.

According to the invention, this object is achieved in that

a) a known guide number control is provided for flash photography, which is a coarse setting exposure by adjusting the aperture according to the distance from the subject causes and that

b) means are provided for the exposure time control which act on the photoelectric converter Regulate the amount of incident light according to the size of the exposure diaphragm for fine adjustment the exposure by adjusting the exposure time according to that actually of the photoelectric Converter to effect amount of light received during exposure.

The aperture setting according to the guide number condition accordingly serves as a coarse setting, depending on the most favorable conditions can be obtained from the distance with regard to the depth of field and the available amount of light is optimally used. Fine-tuning the amount of light takes place over the exposure time, so that both above average and below average reflective objects or flash lamps with above or below average amount of light optimal recordings can be achieved in each case.

The adjustment of the guide number control is expediently carried out in such a way that, for each distance setting, an exposure ^{diaphragm is available which is 1} A to ³ A diaphragm value greater than the diaphragm opening theoretically required after the distance. It has been shown that practically all deviations that occur can be reliably detected in this way, with optimum utilization of the available light energy also being ensured.

Means of regulation of the photoelectric According to one embodiment of the invention, the amount of light incident on the transducer is provided by a photometer diaphragm formed, which is adjustable proportionally to the exposure diaphragm and expediently in the

Exposure diaphragm defining aperture blades is arranged.

An exemplary embodiment of the invention is described below with reference to the drawing. In the Drawing shows

F i g. 1 is an exploded perspective view of the closure;

F i g. 2 a circuit diagram of the exposure controller,

F i g. 3 is an exploded perspective view of the diaphragm plate with guide number coupling.

In Fig. 1 the optical axis is marked with AA , in which the lens 25 mounted in the camera housing 24 lies. The closure has an opening lamella 27 and a closing lamella 26, which are pretensioned by springs 29 and 28 in their drainage position. The opening lamella is held in its closed position by a lever arm 30 which is positively supported on a thickening 31 of a pin 32 inserted in the opening lamella. The lever arm 30 is rotatably mounted on a displaceable rod 33 by means of a pin 34 and it is pretensioned in the clockwise direction according to FIG. 1 by a spring 36. The pivoting movement is limited by a shoulder 35 of the rod 33.

The rod 33 is held by a bolt 37 which engages an extension 38 of the rod 33.

The closing lamella 26 is held in the tensioned position by a pin 39 which is attached to the rear edge 40 of the Opening lamella 27 engages.

The bolt 37 can be rotated about a pin 41 and is pretensioned by a spring 42.

The rod 33 has a slot 43 with which it is guided on a pin 44 fixed to the housing.

The closing lamella 26 carries on its rear edge the armature 45 of an electromagnet 46, the time of its Controls the process depending on the exposure controller.

A lever 47 is pivotably mounted on a shaft 48 which is fixed to the housing and which is actuated by a spring 49 according to FIG Fig. 1 is biased clockwise. An angled arm 50 of this lever has a locking extension 51a.

A first switch 51 with normally open contact 51, 52 is arranged in the vicinity of the bolt 37 and a second switch S 2 with a fixed contact 55 and a movable contact 56 is located in the vicinity of the angled extension 50 of the lever 47 is preloaded in the closed position and works as a normally closed contact. The shutter release 54 acts via a wire 70 on a plate 69 which, with an extension 71, acts on the contact 52 of the switch 51 and closes it. After closing the switch, the extension 71 pushes the bolt 37 into the release position and releases the rod 33, which moves to the left under the action of a spring 64. As the rod 33 runs off, the arm 30 is released from the thickening 31 of the opening lamella 27, but this lamella is still briefly held at an outlet by the extension 51a of the lever 47. As the rod 33 continues to run off, a roller 57 arranged on a pin 58 of the rod runs on the upper cam surface 59 of an arm 60 of the bolt 47, whereby the lever 47 is rotated at high speed and the opening lamella 27 is released and the switch is released 52 opens by lifting the contact 56, so that the exposure opening 61 of the opening lamella 27 is aligned with the optical axis. The closing lamella 26 is held in the open position by the electromagnet 46 until the trigger circuit according to FIG. 2 switches off the electromagnet. After the closure has expired, the closure is clamped by the clamping mechanism 62, the clamping lever 63 of which can be actuated manually. An arm 65 connected to the tensioning lever 63 engages in the pin 58 with a fork 66 arranged at the end. When the tensioning lever 63 is pivoted clockwise, the arm 30 again engages the thickening 31 and guides the opening lamella 27 and, with it, the closing lamella via the pin 39 back into the tensioning position.

The delay in the expiration of the closing lamella 26 compared to the expiration of the opening lamella 27 is through a first stage 87 and a second stage 85. having trigger circuit according to Fig. 2 causes .. This has a photoresistor 88 exposed to the exposure brightness in the input circuit and the winding 84 of the electromagnet 46 in the output circuit.

The circuit is fed by a battery 90 which it is applied via switch 51. The desk 52 initiates the timer function when it is opened, in that the previously short-circuited capacitor 89 des /? C-member 88, 89 begins to charge via the photoresistor 88. As soon as the tension at point 83 has reached a predetermined value, a through-connection takes place, which switches off the electromagnet 84 results.

F i g. 3 shows the shutter assembly. This has two diaphragm blades 150 and 151, around a common pivot axis 152 are rotatable in opposite directions. A V-shaped wire spring 153 engages with theirs angled ends in holes 155 and 156 of the blades 150 and 15t, and tensioned the aperture blades in the sense of a reduction in size of the aperture determined by the aperture cutouts 157 and 158, respectively before. In addition to this shutter diaphragm, which is determined by the cutouts 157 and 158, the diaphragm blades contain 150 or 151 more aperture openings 159,160, which form a photometer aperture, which is before Photo resistor 88 (Fig. 2) comes to rest.

Each of the diaphragm blades 150 or 151 is provided with a cam shoulder 163 or 164 and has a inwardly directed edge 165 or 166. A pin 167 protrudes through the edges 165 and 166 V-shaped opening formed through it and locked in the pushed-in position, the aperture blades in the Position of the largest aperture.

The diaphragm blades also have cam lugs 168 and 169 with inner cam surfaces 170 and 171 which together form a further V-shaped opening. In this V-shaped opening there is a control pin 172, by means of which the diaphragm blades can be adjusted in opposite directions about their axis. This control pin forms part of the guide number clutch. This control movement can only take place when the diaphragm blades are unlocked by the pin 167, that is, when the pin 167 is withdrawn. The pin 172 is carried by a crank arm 173 which is pivotable about a pin 175, which in turn is displaceable in a longitudinal slot 179 of a slide 178. The crank arm 173 has a longitudinal slot 176 in which a pin 177 protruding from the slide 178 engages. A guide pin 181 fixed to the housing engages in a further longitudinal slot 180 of the slide 178 . A downwardly protruding tab 182 of the carriage 178 cooperates with a control pin 182, onto which the carriage is pulled by a spring 183. The control pin 185 is similar to that not shown in the drawing

The distance adjuster of the camera is coupled so that when the distance is set, the aperture blades 150, 151 are adjusted in the sense of a guide number setting.

The pin 167 is arranged on a cam 187 which is pretensioned by a spring 188 which seeks to push the pin 167 into the V-shaped opening in the sense of a lock. In the locked position, daylight operation is switched on, whereby the aperture blades 150, 151 are not effective.

The camera housing has an opening 189 through which a part 192 is pushed when the flash lamp or a flash device is inserted, whereby the cam 187 lifts the pin 167 out against the spring action. The switch S3 with its switch contacts 191 and 192 electrically effects the switchover from daylight mode to flash light mode or vice versa.

The guide number coupling is adjusted in such a way that the aperture at each setting is approximately ¹ A to ³ A aperture units larger than the theoretical aperture size required by the guide number condition.

This makes fine adjustments possible because the exposure controller uses the photometer aperture to control the from Record the actual amount of light reflected and evaluate it for exposure control can. That is, when the distance setting is initially made, a diaphragm opening becomes automatic set, which is larger than the theoretical aperture required for "normal" reflection and depending on the reflection conditions of the subject, the exposure becomes premature or after aborted over a longer time interval via the trigger circuit.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Exposure control device for photographic apparatus with an exposure time determining circuit which, according to the impinging on at least one photoelectric converter .Light of the recording scene is controlled and with a switch that can be switched from Daylight operation causes flashing, characterized in that a) a guide number control (172, 175, 178, 185) known per se is provided for flash photography is a rough adjustment of the exposure by adjusting the diaphragm (157, 158) according to FIG the removal of the subject and that b) for the exposure time control (85, 87, 88, 89) means (159, 160) are provided, which on regulate the amount of light incident on the photoelectric converter (88) in accordance with the size of the exposure diaphragm (157, 158) for fine adjustment the exposure by setting the exposure time according to that actually from the photoelectric converter (88) during the Exposure to effect amount of light received. 2. Exposure control device according to claim 1, characterized in that the coupling of the guide number control is adjusted in such a way that the aperture set in each case Wa to ^3/4 aperture units is greater than the diaphragm opening resulting purely arithmetically according to the guide number condition. 3. Exposure control device according to claim 1, characterized in that the means for regulating the amount of light incident on the photoelectric converter (88) from a photometer diaphragm (159, 160) are formed, which is adjustable proportionally to the exposure diaphragm (157,158). 4. Exposure control device according to claim 3, characterized in that the photometer diaphragm (159, 160) arranged in the diaphragm blades (150, 151) defining the exposure diaphragm (157, 158) is.