DE2012499C - Electronic circuit arrangement for controlling or regulating the opening time of a photographic shutter - Google Patents

Description

claims, characterized in that the switching photoresistor is provided for the measuring circuit,

processing parts for measurement, display, time formation and The invention is therefore the task to-

Control of the electromagnet as well as the reasons for using electronic means to control the proper times

compensate and at the same time prevent a so-called breakthrough of the Vetschluss, whereby under the breakdown a premature switching through of the control electronics and releasing of the Opinion closing seal of closure is understood. This penetration can, for example «Already occur in the measurement phase, when the brightness is very high.

This object is achieved according to the invention in that to compensate for the proper times of the electromagnet and the or a closure member causing the closure of the observation opening a value determined by the measuring circuit in a manner known per se in the timing electronics is conducted and stored as a charge in the timing capacitor and that to prevent premature Release of the or one of the protective openings closing the cover, e.g. B. already in the measuring phase, the control circuit for the electromagnet is blocked by the control circuit only then a signal required for control is supplied via a switch when the release of the observation opening takes place.

Appropriate refinements are contained in the subclaims. The subject of the invention is shown in the drawing explained in more detail.

F i g. 1 shows the basic circuit diagram, with the blocking by a controlled switch in the power supply the final stage takes place;

F i g. 2 shows the basic circuit diagram, the blocking by a controlled switch in the control line the final stage takes place;

F i g. 3 shows the basic circuit diagram, with the threshold value switch controlled by the KC element as Comparator is executed, the comparison voltage of which is supplied via a controlled switch will;

F i g. 4 shows the basic circuit diagram, with the input of the threshold switch via a controlled Switch is connected.

The in the drawings of F i g. 1 to 4 shown Circuit arrangements represent four mutually exclusive solutions in connection with a two-blade lock as an exemplary embodiment, whose trailing or closing lamella is released by means of a magnet.

The basic circuits of FIG. 1 to 4 largely agree. The positions are therefore accordingly provided with the same numbers.

The measuring circuit unit 1 is provided with two indicator lamps 2 and 3 for a lower and an upper Exposure time limit. The unit 4 contains the threshold switch or trigger as well the output stage and controls the attraction magnet S, which is fed from the capacitor 6 by means of a current surge will. The photoresistor 7 is used to measure and generate time depending on the switch Mechanically coupled switches 8 and 9. The switch position shown is the rest position and remains unchanged during the measuring phase until the leading lamella after the trigger has been released both switches 8 and 9 toggles, thus ending the measurement and the start of integration specifies. The photoresistor 7 and the timing capacitor 10 work with a voltage divider together, which consists of resistors 11, 12, 13 and depending on the switch position of the switch 8 and the switch 14 designed as a follow-up contact comes into effect. The resistors 15, 16 and 17 are used to feed the unit 4 and the attraction magnet 5 and to charge the capacitor 6.'Die entire circuit is on the battery 19 when the switch 18 in the beginning of the Is closed in advance of the trigger.

The one from the photoresistor 7, the capacitor 10, the resistors 11, 12 and 13 and the switches 8 and 14 existing part of the basic circuit

ίο is designed so that in the measuring phase while the shutter release is located in advance, on the photoresistor7 proportional voltage amount dsm capacitor 10 is fed. That way is it is possible to reduce the time or absence caused by the

Electromagnet 5 and the trailing lamella are caused to compensate electrically.

However, if the exposure is very bright it can happen that the charging of the time-forming capacitor 10 becomes so large that the

2ύ voltage of the threshold switch in unit 4 is exceeded. This switches through, the electromagnet is actuated and as a result the lamella is released, which closes the receiving opening. Proper exposure can

as will no longer take place if the operator has the Keep the shutter pressed. In order to prevent this, FIGS. 1 to 4 embodiments of entered four different blocking options, which are explained below.

When the operating voltage of the output stage in unit 4, which is fed in via feed line 27, via a switch 28, which is only closed after the leading lamella has become free the output stage cannot switch through prematurely. F i g. 1 shows those belonging to this first solution Details.

F i g. 2 shows how the output stage within the unit 4, the threshold switch 22, the gate stage 23 and the output stage 24 contains, can be blocked electronically until the end of the measuring phase. If the switch 9, the negative pole of the measuring circuit unit 1 when starting through the leading and separates the lamella that releases the observation opening from the general negative pole, thereby in

reaches its dashed position, jumps the connection point 20 and thus the gate step entrance 21 to a positive potential. The gate step 23 is only now unlocked. In other words, that means that the output stage is only activated by the gate stage when the first lamella pushes switch 9 has brought into its dashed position. The electromagnet 5 can only after starting the opening Tighten the lamella. The closing louvre can no longer be triggered before the opening louvre will.

F i g. 3 finally shows a further possibility of blocking by placing the threshold switch within the unit 4 is designed as a comparator. The in the f i g. 1 and 2 provided connection 20,

21 is absent in FIG. 3. The resistor 16 is controlled by a switch 25, which is only activated by the opening lamella when released is operated simultaneously with switches 8 and 9, placed on the negative pole. Dadurcli the comparative voltage dropping across the resistor 16 remains high and ineffective until it is closed of switch 25.

F i g. 4 finally shows as a fourth solution that the control line 26 of the threshold switch in the Eiii-

4 connected to the timing capacitor 10 via a changeover contact on the switch 14 is when the opening slat starts rolling and switches 8 and 9 are operated. As long as the switch 14 remains in the position shown, so as long as the opening lamella is still in its rest position is, the charging of the time-forming capacitor 10 cannot affect the threshold value switch communicate. But if the opening slat is released by pressing the shutter button further and the said switches operated, a proper exposure takes place.

The circuit arrangement described, each with an electrical block according to the yier exemplary embodiments can be used for a wide variety of lock designs.

For this purpose 2 sheets of drawings

Claims (6)

Circuit parts that compensate for the times and block the or one of the _. Claims: closure member closing the opening. "-.On in a pinem integrated circuit together, 1. Electronic circuit arrangement for the nen in a lniegrw imen. Control or regulation of the opening time of a 5 thawed sma. one or more shutter openings lind / or Photographic locking members Shutter, the release of the exposure opening mechanically and the closing of the same in accordance with the electronic circuit in ίο _Erftadung concerns an electronic switch, Dependence on the brightness of the recording ^. "KiJv disruption or Re _e el _U n _O T> object is carried out by means of an electromagnet, door arrangement ν and with an opening time set in advance of the shutter release switched, in the circuit of the Zdtbildung- and n- and / or Ucmieug 15 graphic Verscmuises «w,« - «« ,, circuit that exceed the and / or under- light opening ^ "^^ SÄSS ^ steps an opening time, thereby the same according to the ^ "^ * ^ ™" ^ « characterized in that the compensation depends on the brightness of the recording object. the proper times of the electromagnet and the tes by means of an electromagnet success and with or the closing of the exposure _{aperture ao} one switched on in advance of the shutter release causing closure member one of the measuring circuit of the Zeitbildungs- und1 Sleuc.uMgv b ™. circuit determined value in a known control circuit lying measuring circuit that the Way in the time formation electronics and exceeding and / or falling below e.ner open as a charge in the time-forming capacitor indicates storage time. and that to prevent the premature a ₅ plioiographic cameras with shutters of the term release of the or one of the exposure opening above type, which is controlled by an electronic switch voltage closing closure member, z. B. are already controlled system arrangement, are already off in the measuring phase, the control circuit known for the a large number of Schutzschnften so Electromagnet is blocked by the control, for example from the German patents switch on a 30 1 094 090 required to steer through. 1 103 748 and the German interpretation Signal only then fed via a switch to documents 1 211 933 and 1 223 696. is released when the exposure aperture is released When only an electric he follows. magnet is provided, which is due to space and cost 2.Electronic circuit arrangement is usually required in accordance with grounds, then it is necessary to Claim 1, characterized in that the 35 the proper times of this electromagnet and the To compensate for the output stage controlling electromagnets via a lamella actuated by the latter. Around Switch connected to the power source that is used to effect this, it is once possible to aen the Intevon the or a closure member when releasing grierbeginn defining switch before opening the the exposure aperture to operate directly or via intermediate shutter or the mechanical links is closed. 40 see the flow of the member opening the shutter 3. To inhibit electronic circuitry in accordance with. Both solutions are, for example, the Claim 1, characterized in that the German Auslegeschrift 1 211 933 can be found. Control signal for the output stage from one to one the exposure opening releasing or exposure running shutter members are electromagnets giving closure member directly or via intermediate to locking or release or to the drive vorschenglieder operated a switch. sees. Such a solution is, for example, from 4. Electronic circuit arrangement according to German patent specification 1,094,090 known. Claim 1, characterized in that in the development of photographic cameras the ÄC-GIied following threshold value switch as 50 of the genus mentioned, efforts are made to the Comparator is designed to reduce its comparative costs and the available space internal voltage is fed via a switch that half exploit the camera. To this end from the or a closure member when released, one transfers as many tasks as possible to the electronider Exposure opening directly or via intermediate see circuit arrangement. . is operated. 55 It is probably from the German patent specification 5. Electronic circuit arrangement according to 1285 866 known, the size "one" deviating claim 1, characterized in that the corresponding exponents of photoresistors by Input of the threshold value switch by raising the starting potential of the Zeitkreiskor.den switch with the timing capacitor controlling it or by moving the response potential capacitor is connected, the switch 60 tials of the electronic switch of the timing of to correct the or a closure member when releasing the circuit. This is not the case the exposure aperture directly or via the compensation of proper times, but by ■ ;: limbs is closed. the restoration of reciprocity between the ' 6. Electronic circuit arrangement according to the time constant of the time circuit and the lighting one or more of the preceding strengths. In addition, according to this patent, a second _v