DE2217979C3 - Device for photoelectrically controlled camera shutters for the advance determination and display of exposure value ranges - Google Patents

Description

The invention relates to a device for photoelectrically controlled camera shutters for preliminary detection and display of exposure value ranges resulting from the automatic control which the timing device has a holding magnet, and the electrical circuit both for exposure control as well as to determine the exposure value ranges in advance, with the holding magnet in a certain exposure value range a swiveling signal element the assumption of a first Display position and outside of this exposure value range the assumption of a second display position permitted.

In a known device of this type (DT-PS 79 461) the holding magnet is traversed by a current which is proportional to the amount of light incident on the photocell. The holding magnet is intended to be used to actuate a pivotable signal lever. In this solution, the signal lever makes an indicator mark visible in its one pivoted position, which it covers in the other pivoted position. The photocell controlling the excitation current for the holding magnet is used in a second switch position as part of a known electronic time-forming device for automatic control of the exposure time. The visualization or covering of the indicator mark by the signal lever provides an indication of the exposure values resulting from the automatic exposure. In the known publication, the idea is mentioned in passing, instead of a separate holding magnet to use a holding magnet provided in the electronic lock between actuation of the signal lever. A practical realization of this idea, soft, encounters considerable difficulties, however, has not been disclosed.

Another known device (DT-AS 12 87 323) uses the electronic time-forming device itself used for display, in which for this purpose the photoresistor is part of a voltage divider switched and the output of the circuit instead of a holding magnet with one or more Indicator light is connected. With this circuit, the lighting up corresponds to different ones Lights determined the brightness, and the photographer in this way receives a reference point for certain exposure value ranges. Providence means one or more indicator lights and at least one switch required for switching on however, especially for cameras in the low price range because of the manufacturing and maintenance costs quite a significant cost factor and also represents an additional source of interference for a Camera.

Proceeding from the known prior art, the invention is based on the problem of the disadvantages to avoid the known devices, and a built from only a few components, reliable and to create a functional device for the advance determination and display of exposure value ranges, which can be easily provided for cameras with photoelectrically controlled camera shutters is.

This object is achieved according to the invention in that the pivotable signal element on his one end carries a permanent magnet which, when the holding magnet is excited in the test position, moves away from the then repels iron core of the holding magnet polarized in the same direction or on the then polarized in opposite directions Applies the iron core of the holding magnet and thereby makes a change in position of the signal element visible.

In the subject matter of the invention, the holding magnet, which in the case of an electrically controlled camera shutter must be present anyway, used twice. In addition to its first task, namely the control of the exposure time, it also fulfills the second task of determining exposure value ranges in advance. Such a device is much simpler than any previously proposed device for determining exposure value ranges in advance, and it works absolutely reliably.

According to a further proposal of the invention, the signal element is a signal lever, which is not the End bearing permanent magnets when in test

ment makes an indicator mark visible when the holding magnet is excited. Such a solution has been found to be practical proved to be particularly easy to implement.

According to a further proposal of the invention, the indicator mark is a light mark. By providence A light mark increases the ease of use of the camera.

The invention also proposes that the holding magnet excited in the release position has a polarity which opposite to the polarity present in the test.

The invention also proposes that the permanent magnet in the tripped state on the iron core of the holding magnet is applied.

Finally, the invention also proposes that the signal lever is arranged essentially horizontally and that the weight of the permanent magnet presses it against the iron core of the holding magnet.

A preferred embodiment of the invention is described in detail below with reference to the drawing. It shows

F i g. 1 is a schematic view in the position shown in FIG takes the device with sufficient light,

2 shows the display device according to FIG.] In the test position of the trigger and not sufficient Amount of light,

F i g. 3 the display device when the release button is fully depressed and the holding magnet is activated,

F i g. 4 the in F i g. 2 and 3 only indicated incompletely Circuit in a more detailed representation.

A holding magnet 45, which forms part of the exposure control, acts on a pivoted one Anchor lever 85 with an anchor plate 86. The armature lever 85 carries a detent 87 which engages with an extension, not shown, of the shutter blade, also not shown, under Spring tension is, is formed. This locking lug is used to hold the shutter blade in place Open position during the exposure time.

A signal lever 88 is mounted pivotably about an axis 89 fixed to the housing and carries on its left End (see FIG. 1 to 3) a permanent magnet 90. At its right end, the signal lever 88 carries a Widening 91, which is dimensioned sufficiently large that it can cover the indicator mark 58.

When the shutter is not cocked, the permanent magnet 90 pulls on the non-magnetic Iron core 92 of the holding magnet 45. The indicator mark 58 is covered. This position is shown in FIG. 1 shown.

The indicator mark remains hidden even if a sufficiently large amount of light hits the photoresistor F (see Fig. 4) falls. However, if the amount of light available is insufficient, the signal lever takes off 88 the in F i g. 2 position shown. The electrical circuit operates in this case in the Test position of the release a polarity in the same direction of the iron core 92 with the permanent magnet 90, and the polarity in the same direction leads to a mutual repulsion of the holding magnet and the permanent magnet. As a result, the widening 91 of the pivotable signal lever 88 gives the indication mark 58 free (see Fig. 2).

F i g. 3 shows the signal lever 88 and the electrical circuit in the release phase in which the holding magnet 45 or the iron core 92 is polarized in the opposite direction to the permanent magnet 90. Because of this, pull In the release position, the iron core 92 and the permanent magnet 90 join.

The electrical circuit is shown in FIG. The double switch S4, 55 coupled with the release button. The release button is symbolized in the representation as a double arrow and dashed lines. In the test position of the release button, the pair of switches 54, S5 is in the position shown in FIG. 2 and 4 position shown. Furthermore, the pair of contact springs 20, 21 has shifted somewhat to the left in the test position, so that the free contact 21 is connected to the connection point 93. The right contact of the contact spring 20, on the other hand, is still on the contact surface connected to the setting resistor R1. The switch S1 is closed in the test position. Since the switch 52 is open, the resistor Ri and the photoresistor F now form a voltage divider. Depending on the lighting conditions and the position of the setting resistor Ri , this voltage divider creates a voltage at its center tap and thus at the input of the threshold circuit S3 which either leads to the response or non-response of the threshold circuit. As a result, the holding magnet 45 connected via the double switch 54, 55 is either excited or not reached. If the illumination of the photoresistor F is insufficient and has a value in which taking pictures from the free hand no longer appears advisable, the threshold value circuit 53 switches through and the holding magnet 45 is energized. The iron core 92 receives a polarity in the same direction as the permanent magnet 90, and this leads to the permanent magnet being repelled and thus to a pivoting of the signal lever 88 about the axis fixed to the housing into the position shown in FIG. 2 position shown.

If there is a sufficient amount of light, the threshold value circuit 53 does not switch through, and the signal lever 88 does not retains the in F i g. 1 in the position shown in which its widening 91 covers the indicator mark 58.

If the trigger is pressed down further beyond the test position described, the Double switch 54, S5 is switched over simultaneously shortly before the triggering moment and then takes the action shown in FIG. 3 position shown. A current required for the formation of the shutter speed of the holding magnet 45 can only take place in such a way that the iron core 92 and the permanent magnet 90 are polarized in opposite directions are. This leads to the fact that the signal lever 13 assumes or maintains the position shown.

For this purpose 2 sheets of drawings

Claims (6)

Patent claims: 1. Device for photoelectrically controlled camera shutters for the advance determination and display of exposure value ranges resulting from the automatic control, in which the time-forming device has a holding magnet, and the electrical circuit serves both for exposure control and for the advance determination of the exposure value ranges, the holding magnet in a certain exposure value range a pivotable signal element permits the taking of a first display position and outside this exposure value range, the assumption of a second display position, characterized in that the pivotable signal element (88) carries a permanent magnet (90) at one end thereof, which in itself is excited in Priifstel-Jung holding magnet ( 45) repels from the iron core (92) of the holding magnet (45), which is then polarized in the same direction, or rests on the iron core (92) of the holding magnet (45), which is then polarized in opposite directions, and thereby changes the position of the signal element s makes visible. 2. Device according to claim!, Characterized in that that the signal element is a signal lever (88) whose not the permanent magnet (90) carrying An indicator mark (58) is visible at the end (91) when the holding magnet (55) is excited in the test position power. 3. Device according to claim 2, characterized in that that the indication mark is a light mark. 4. Device according to one or more of claims 1 to 3, characterized in that the In the release position, the holding magnet is energized and has a polarity opposite to that in the pin position Polarity is. 5. Device according to one or more of claims 1 to 4, characterized in that the Permanent magnet (90) rests against the iron core (92) of the holding magnet (45) in the tripped state. 6. Device according to one or more of claims I to 5, characterized in that the Signal lever (88) is arranged essentially horizontally and that the weight of the permanent magnet (90) presses this against the iron core (92) of the holding magnet (45).