DE2628482C2 - Exposure control device for a camera - Google Patents

Description

30th

The invention relates to an exposure control device for a camera according to the preamble of claim 1.

From DE-OS 21 33 403 an exposure control device of this type for a reflex camera with an electrically controllable shutter known in which two switches with different during the triggering process Contact points are operated one after the other. Of these contact points, two are the capture of Assigned exposure limit values, exceeding or falling below a risk of underexposure or blurring which can then be indicated by two associated lamps. Shine on one If both lamps are not activated, this indicates a correct exposure time, so that with one Actuation of the shutter release in the event of unsuitable exposure times a warning signal can be received, before the actual release process begins when the shutter release is depressed further. the The person taking the photo can therefore activate the shutter release in good time if the exposure values are unsuitable cancel by releasing the trigger.

In such an exposure control device, therefore, during a first trigger actuation stage in the context of an exposure determination, a warning circuit for any necessary release an exposure warning signal, from the output signal of which an electromagnet of the camera shutter is closed controlled and here also an exposure warning device, z. B. in the form of a lamp operated will. As part of a second trigger actuation stage, a switching device is then actuated, with whose help a switchover from the warning circuit to a brightness or light measuring circuit takes place from the output of which in turn controls the shutter speed.

The disadvantage here is that after the release of the Shutter release when the release member is returned by the switchover that then takes place again from the light measuring circuit to the warning circuit via its output signal in connection with the Electromagnet a renewed unnecessary actuation of the warning device can take place, which the photographing Person considerably confused, since such a renewed warning signal is emitted immediately after a recording process In particular, this renewed activation of the electromagnet causes the return element to occur for the release member and thus hinders the release return. Accordingly, the spring force of the this purpose mostly used return spring of the trigger member larger than that of the electromagnet outgoing holding force, which results in an even trigger actuation and a vibration-free Return movement of the trigger member are made considerably more difficult.

The invention is therefore based on the object of a Design exposure control device of the type mentioned in such a way that when the release of the Shutter release does not re-energize the electromagnet and the backward movement of the Trigger member runs evenly and vibration-free.

This object is achieved with the means specified in the characterizing part of claim 1

According to the invention, a special circuit arrangement is thus provided with the aid of which the actuation of the electromagnet and thus the warning circuit can be put out of operation. After This circuit arrangement is released when the release element is returned to its starting position is opened, thereby preventing the exposure warning device from being actuated again and an inhibition of the trigger member during the trigger return process, so that the Operator can not be irritated and due to the required to a much lesser extent Spring force of the return spring a smooth return movement of the trigger member can be achieved in addition, a considerably lower pressure must advantageously also be exerted when the trigger is actuated will.

An advantageous embodiment of the invention is the subject of the subclaims.

The invention is explained below on the basis of exemplary embodiments with reference to FIG Drawing described in more detail. It shows

F i g. 1 is a plan view of an embodiment of the exposure control device.

Fig.2 g a plan view of a switch assembly of the exposure control means in accordance with F i. '\ And

3 shows the electrical circuit arrangement of the exposure control device according to FIG. 1.

In the drawing, the reference number I denotes a release element in the form of a release lever which is moved in the direction of arrow A by means of a shutter release button (not shown in the drawing). The reference number 2 denotes a locking lever, the reference number 3 a drive part for a shutter blade, the reference number 4 a locking lever which can be pulled out by an electromagnet Mg , the reference number 5 a cam ring, the reference number 6 a toggle or angle lever, the reference numbers 7 and 8 denote springs, the reference numerals 9 and 12 drive levers for the shutter blade, and the reference numeral 13 denotes the

Shutter blade. The switches shown in the drawing are arranged on a bend plate 15, as can be seen in FIG. 2, so that the opening and closing of the switches by means of the device according to FIG. 1 is controlled. In the in F i g. 3 illustrated electrical circuit arrangement, Rx denotes a light-sensitive component in the form of a photoresistor, the resistance value of which varies as a function of the brightness of the object to be photographed? changes. Here, the components Rx, Q and A _{1 form} a shutter speed control circuit, while Tr ₁ and Tr ₂ transistors of a trigger circuit, Mg the electromagnet for controlling the shutter blade 13, U a brightness warning lamp, Tr ₄ and Tr ₅ transistors of a circuit arrangement for data exposure, with L ₂ a lamp required for exposure, with Ra and C ₂ components of a timing element for forming the exposure time of the data exposure, with a fine current source, jnit A ₅ and R ₆ resistors of a voltage divider of a exposure control circuit, which when the release lever moves backwards play a role in the presence of insufficient brightness of the object to be photographed, and Tr ₃ denotes a transistor of the exposure control circuit.

The following is the operation of this exposure control device with reference to FIG. 1, 2 and 3 described in more detail.

In Fig. 1 is the state prior to release of the shutter illustrated When triggering, the trigger lever 1 is depressed by means of the not shown in the drawing shutter release button, in the direction of arrow A against the spring force of the spring 8. Here, a long hole la by means of a spring 146 in the direction of arrow A. An electrical contact piece Ie provided on the release lever 1 is guided downwards in such a way that the switch S \ for the power source is closed, as shown in FIG. 2 is shown, so that the circuit arrangement is placed in the operational state. In this state, the switch S3 is closed while the switch S _{2 is} open, so that the voltage at the voltage divider point between the photoresistor Rx and the resistor R \ is fed to the transistor Tn of the trigger circuit. If the brightness of the object to be photographed is low and the resistance value of the resistor Rx is therefore high compared to the set resistance value of the resistor Ri , the transistor Tn blocks due to the voltage at the voltage divider point ^M between the resistors Rx and R \, while the transistor Tr ₂ conducts, so that a current flows through the electromagnet Mg , due to which the lock lever 4 is attracted. In addition, the switch St is closed by means of the electromagnet M ^, so that the lamp L \ lights up and indicates insufficient brightness of the object to be photographed. If the release lever 1 moves together with a part Ic further in the direction of the arrow A, the cam ring 5, which is pressed counterclockwise by a spring (not shown) tries to follow the part lc and to rotate in the counterclockwise direction, whereby due to the contact of one end of the locking lever 4 with a part 5a of the cam ring, the rotation of the cam ring 5 and thus the movement of a pin 5d formed in one piece on the cam ring 5 is prevented. The switch * · & therefore remains in the switched-on state, so that the insufficient brightness is indicated by the lamp L ₁ and the person taking the photo is advised to hold the camera steadily. If the release lever t is moved further down, the engagement of a part id of the release lever with an end part 3a of the drive part 3 of the shutter blade 13 is released, so that the shutter blade 13 is now ready to open the shutter. The drive part 3 of the shutter blade 13 is normally pressed by means of a spring (not shown) in the clockwise direction, the second drive lever 9 for the shutter blade 13 being coaxially in engagement with the drive part 3, while the third drive lever 12 is in contact with the second drive lever 9 is located so that! 3 it rotates following the drive lever 9 and a pin 12b provided on the third drive lever 12 engages in a groove for actuating the shutter blade 13 in such a way that when the shutter blade drive part 3 is rotated clockwise, the shutter blade 13 passes through the second and the third drive lever is opened. Due to the termination of the engagement of the release lever 1 with the shutter blade drive part 3, the drive part 3 does not yet rotate immediately, so that with a further downward movement of the release lever 1 and sufficient distance between the parts id and 3a, an end part of the locking lever 2 is pressed down and the Locking lever 2 is rotated counterclockwise by means of one end part of the release lever 1, whereby the engagement of the other end part of the locking lever 2 with the stepped part Zb of the shutter blade drive part 3 is terminated and this is rotated clockwise so that the shutter blade 13 via the drive lever 9 and 12 is opened.

At the same time, the short-circuit switch S3 for the capacitor Q is opened by means of the end part 3c of the shutter blade drive part 3, whereby the capacitor C \ begins to charge through the photoresistor Rx. In addition, at this time the switch Si is closed by means of the contact Ie provided on the release lever 1, namely immediately before the engagement of the locking lever 2 with the shutter blade drive part 3 is terminated, so that the resistor R \ is short-circuited.

After a period of time determined by the time constant of the circuit arrangement has elapsed after the shutter has been opened, the Schmitt trigger circuit switches over due to the potential of the capacitor Q , so that the current supply to the electromagnet Mg is interrupted and the demagnetized electromagnet Mg no longer pulls the locking lever 4. The blocking of the rotational movement of the cam ring 5 in the counterclockwise direction by the end part 4a of the locking lever 4 attracted by the electromagnet Mg is thus ended, so that the cam ring 5 is now rotated in the counterclockwise direction, the switch St is opened by means of the pin 5b located on the cam ring 5 , the other end part of the pin 5d is engaged with the end part 12a of the third shutter blade drive lever 12, and the shutter blade drive lever 12 is rotated clockwise by the cam ring 5 so that the shutter blade 13 is closed. In this way the exposure of the film is terminated. If the release button is then released, the release lever 1 returns to the initial state due to the spring 8, the processes described in reverse

Sequence expire.

If the brightness of the object to be photographed is relatively high, the switch Si for the power source is closed when the release lever 1 moves downwards, whereby the transistor Tn of the trigger circuit is switched through, while the transistor 7> 2 blocks, since the resistance value of the photo resistor Rx is compared with the resistance of the resistor R ^ is smaller, so that the electromagnet Mg · is not energized, which in turn means that the locking lever at 4 is not attracted by the electromagnet Mg and can rotate freely. The cam ring 5, which rotates with the end part ic is in contact with the trip lever 1, overall during the downward movement of the release lever 1 in the counterclockwise direction ^{|. 5} rotates if the switch S _{2 is} designed such that it is closed when the end portion 4a of the locking lever 4 is in engagement with the of the V-shaped portion existing on the surfaces 5b and 5c of the cam ring 5, the trigger circuit switches over at this time so that the E Electromagnet Mg is energized and the locking lever 4 is attracted so that the end part 4a engages in the V-shaped groove of the cam ring 5 and prevents further rotation of the cam ring 5. At this point in time, the pin 5c / of the cam ring 5 opens the switch S ₄ , so that the lamp Li is switched off. With a further downward movement of the release lever 1, the shutter is activated and the exposure of the film is ended after the same processes as in the case of an object with a lower brightness, ^ o

In the case of electronic exposure control with the usual warning indicator described for low or insufficient brightness of the object to be photographed, when the release lever 1 is returned to the starting position after the end of the exposure, in the case of low or insufficient brightness of the object to be photographed, the upward movement of the contact piece Ie of the release lever 1 and the subsequent opening of the switch S ₂ and the closing of the switch S _3, a switching of the trigger circuit due to the resistance ratio of the resistors Rx and R \, so that the electromagnet Mg pulls the locking lever 4 again and the end part 4a of the locking lever 4 comes into engagement with the V-shaped groove of the cam ring 5 and thus prevents the rotation of the cam ring 5 in such a way that the return of the release lever 1 to the starting position can be prevented. To avoid this disadvantage, it is necessary in the case of the usual automatic exposure control device to increase the spring force of the return spring 8 for the release lever 1 so that it is greater than this holding force, whereby the backward movement of the release lever 1 is no longer smooth and vibration-free.

In Fig. 3 is electrical circuitry for a preferably used embodiment of the automatic exposure control device according to the invention illustrated, the circuit for the warning lamp already described also for exposure of information such as B. the date on which the film is used.

In Fig. 3, a switch Ss represents an operation switch which prevents the solenoid Mg from applying an attractive force again during the return of the release lever 1 to the original position, while a switch Se is provided for a date changing control circuit. During the backward movement of the release lever 1, the angle lever 6 is rotated by a stop l / of the release lever 1 against the spring force of the spring 7 in a clockwise direction, so that an end part of the angle lever 6 is brought into contact with the switch S5, whereby the switch S5 about is closed at the time at which the switch S2 is opened. The divided potential of the capacitor C2, which has been charged via the resistor R * , is thus fed to the transistor Th, so that the transistor Tr ^ is switched on. The transistor Tr _{7 of} the trigger circuit therefore blocks, so that the electromagnet Mg is demagnetized. Even if the switch Si is opened during the backward movement of the release lever 1, the electromagnet Mg is not energized when the capacitor Ci is charged, so that the aforementioned adverse processes cannot occur during the backward movement of the release lever 1. The spring force of the return spring 8 of the release lever 1 must therefore only be dimensioned for this function, so that the pressure to be exerted on the release button can be reduced.

In FIG. 3, Tr * and Trs denote the switching transistors of the circuit arrangement which controls the lighting up of the film data lamp Li for a specific, predetermined period of time, which depends on the time interval between the time the switch S5 is opened and the time the capacitor Ci is discharged is determined to a certain predetermined potential via the resistors R5 and Re . The circuit arrangement described, which prevents the electromagnet Mg from being re-energized and thus again exerts an attractive force, can thus be adjusted by appropriate adjustment of the resistance value of the resistor R ₆ without impairing the film data circuit.

For this purpose 2 sheets of drawings

Claims (2)

Patent claims: 1.Exposure control device for a camera, in which an exposure shaking circuit is formed when a trigger element is pressed down when a first trigger actuation stage is reached and, depending on its output signal, the actuation of an electromagnet of an electrical camera shutter and thus an exposure warning device are controlled, and a switching device when a second trigger actuation stage is reached , to switch from the exposure detection circuit to a light measuring circuit, the output signal of which controls the shutter speed, is actuated, characterized by a switch (S ₅ ) that can be actuated in connection with the return process of the release element (1) and by a switch (S 5) depending on the switching operations of the switch (Ss) switchable or lockable switching arrangement (R *, Ci, Tr ₃ ), from the output signal of which the electromagnet (Mg) can be put out of operation when the release element is returned 2. Exposure control device according to claim 1, characterized in that the switching arrangement (Ra, Cz, Tn) has a transistor (Tn) through which the electromagnet (Mg) can be put out of operation when the trigger member (1) is returned.