DE2040377C3 - Shutter for a photographic camera - Google Patents

Description

The invention relates to a shutter for a photographic camera, according to the preamble of claim 1, in which an automatic selection of a daylight or flash light mode before The shutter is released.

In known cameras of the type mentioned, two electromagnets are provided, of which the allows an automatic selection between daylight mode and flash light mode, during the others are used to control the exposure time by releasing a closing drive member of the shutter. It is considered to be disadvantageous that relatively "'de circuit elements are required, too require an increased amount of space.

It is therefore the object of the invention to design a camera of the type mentioned in such a way that the switching device is as compact as possible and has a small number of elements, but on the other hand enables daylight recordings with relatively low object brightness, if desired by the user of the camera cr.lspre- ⁽ '5 accordingly iangcr exposure time can be performed.

According to the invention, this object is achieved by the characterizing features of claim 1 In such a camera is therefore the operating lever, which carries out an automatic Flash exposure allows only in the path of movement of the shutter release when the flash device is set. An unnecessary ignition of a flashlight device when the object brightness is sufficient is on the other hand avoided that the operating lever when the trigger is initially operated is pivoted out of the path of movement of the trigger before the shutter is released, so that the switching element remains in its initial position when the shutter is released.

With reference to the drawing, the invention is intended for example are explained in more detail. It shows

F i g. 1 shows a view of a closure according to the invention in a state before the trigger is applied Flash lamp is depressed,

F i g. 2 a fig. 1 corresponding view in a state b ^ i after the initial depression of the Object brightness is high due to the trigger,

F i g. 3 is a partial view of this embodiment in a state before the trigger is depressed but no flashlight is attached, and

Fig. 4 is a circuit diagram for the electrical circuit of the illustrated embodiment.

A trigger 1 is longitudinally displaceable along guide slots 5 and is biased into the upper end position by a spring 2. The lower end of the trigger 1 is designed as an actuating projection 3. A bent part 4 protrudes to the side of the trigger. The release also carries a contact piece 6 of a switch SW \ with at least three arms. In the range of motion of the actuating projection 3, an arm 10 of a lever 7 is arranged, which is ver pivotable about a pin 8 and is biased by a spring 9 in the counterclockwise direction. An actuating arm 11 of the lever 7 can act on a pin 15 on the rear side of a closing drive element 12, which is rotatable about a pin 13 and is biased in the counterclockwise direction by a spring 14. The closing drive member 12 has a first tooth 16 with a small width, a second tooth 17 with a large width and a third tooth 18 with a small width, which are formed on the side opposite the pin 15. A contact pin 20 touches the movable contact 19 of a switch SW »(Fig. 4). The teeth of the closing drive member 12 cooperate with a stop arm 22 on a pivotable locking lever 21 which carries an armature 23 which is arranged opposite an electromagnet M.

On the top of the locking drive member 12 ragl a pin 15 'in front of the coaxial with the pin 15 angeord net is. A hook 27, which is provided at the end of an arm of an intermediate lever 24, engages the pin 15 ′ is, which is hinged to a pin 25 and is provided by a spring 26 in the counterclockwise direction is tense. On the opposite arm this one; An actuating projection 28 is provided between the intermediate lever see.

A plate-shaped switching element 34 is ar through two guide slots and in these protruding pins the camera body so that it can be moved parallel to the shutter release 1 and normally in cinci Rest position is held by the attack of the bent part <on the trigger. At the Umschaltgliec 34 an actuating lever 29 is also articulated, de by a weak spring 31 in the counter clock / eigersinr

is biased. An arm 33 of the operating lever 29 normally engages a pin 34 'on the switching member 34. A projection 32 on the actuating lever 29 can come into engagement with the actuating projection 28 on the intermediate lever 24. A three-armed contact piece 35, which is part of a switch SWi (FIG. 4), and a two-armed contact piece 36, which is part of a switch SWi (FIG. 4), is fastened to the switching element 34. At the lower end, a control projection 37 is provided as a mechanical device for setting a diaphragm or the like when taking flash exposures.

A lever 38 is hinged to the camera body with a pin 39 and is biased clockwise by a spring 40. At a designated one Projection 41 engages a locking pin 43 so that the lever 38 is in the position shown in FIG. 1 position shown is located when the bit light device is attached, or in the one shown in FIG. 3 position shown if none Flash device is attached. A protrusion 42 on the lever 38 can be connected to the left side surface of a Intermediate lever 44 come into engagement, which is articulated with a pin 45 on the camera body. the right side surface of the intermediate lever 44 can be combined with the left side surface of the operating lever 29 in Intervention (Fig. 3).

When the switching element 34 is in the upper position shown, the contact / (FIG. 4) touches the central contact of the three-armed contact piece 35 of the switch SW2. The positive pole of a voltage source E in FIG. 4 is connected via a contact j to a test lamp Li for testing the voltage source. The positive pole of the voltage source is connected via a contact a and a photoresistor to its negative pole via contact f, g of the switch SWi when a timing switch SW5 is closed, which is connected in parallel to a capacitor C of the exposure time control circuit. A setting resistor R \ is connected in series with the capacitor C. The switch SWi with the contact piece 6 also has a stationary contact Λ. When the switching element 34 is shifted downwards, a fixed resistor Ri is therefore connected across the contact m in place of the photoresistor P , by means of which a constant exposure time is determined when a flash exposure is carried out. A flashlight operation indicating lamp Li is connected to a contact 1 of the switch SW2.

The junction of the photoresistor P and the fixed resistor Ri with the capacitor C is connected to the base of a first transistor Γι whose collector is connected to the base of a second transistor. The electromagnet M is connected to the collector of the second transistor. The collector electrodes of both transistors are connected to the positive pole of the voltage source E. The two emitter electrodes are connected to the negative pole of the voltage source E via the contacts of the switch <> o SlVi.

A voltage divider with resistors Ri and Rt is connected in parallel to the collector electrodes and emitter electrodes of the transistors Γι and T) , the connection point of which is connected to the base of a third ^{(i <} > transistor Γι). The emitter of the third transistor is connected to the negative pole of the voltage · "-.. connected when the switch SWt and SWi ge closed contact 19. the other contact of the switch SW shown 1, the movable contact of the switch SW" is the g in F i * is the contact pin 20 in l * i g 1. The collector of the transistor T3 is connected to the two lamps Li and L.

When the switching member 34 is shifted downward, the contact piece 36 of the switch SW3 is brought into contact with contacts p, g so that a bit light circuit with a flashlight device B can be closed by the closing of a synchronous switch SWs.

The method of operation will be explained in more detail below. First of all, it should be assumed that the object brightness is so great that daylight recordings can be carried out. When the trigger 1 is then depressed, the contact piece 6 of the switch SWi first connects the contacts / and g. If the potential at the connection point of the voltage divider resistors Ri, /? 4 is above a limit value, the transistor Ti becomes conductive, so that the test lamp Li lights up for the voltage source and indicates that it is ready to accept. At the same time, the series circuit of the photoresistor P with the setting resistor R \ is connected to the voltage source. Therefore, when the object brightness is above a predetermined limit value, the transistor Γι is conductive and the transistor Ti is non-conductive, so that the electromagnet M is de-energized. The locking lever 21 therefore releases the locking drive member 12 so that it can rotate in accordance with the tooth spacing of the first tooth 16. When the trigger is pressed down, the closing drive member 12 can therefore rotate in a counterclockwise direction in accordance with the pivoting position of the lifting device 7.

At the same time, the switch SWt (FIG. 4) with the contacts 19, 20 is opened, so that the switch shown in FIG. 2 results. The test lamp Li is switched off by opening the switch SWt. If the trigger 1 is pressed down further, then the contact piece 6 of the switch SWi (Fig. 4) connects the contacts f, g and Λ, so that the setting resistor R \ is short-circuited and the base voltage of the transistor Γι drops, so that the transistor Ti conductive and the electromagnet M is excited, which is why the closing drive member 12 in the in F i g. 2 is held in place by the hook 22 on the locking lever 21.

During this rotation of the closing drive member 12, the intermediate lever 24 is pivoted in the counterclockwise direction , so that the actuation lever 29 is pivoted clockwise by the engagement of the actuating projection 28 , which is why its arm 33 is moved out of the path of movement of the bent part 4 on the trigger 1. If the trigger 1 is then depressed further, the switching element 34 remains in the position shown in FIG. 2, in which the contact pieces 35, 36 are in contact with the contacts j, k and n, c (FIG. 4) and the photoresistor P is connected to the voltage source, while the flashing light is not connected. If the shutter release button I is depressed further, the timer SW5 (Fig. 4) is opened and the capacitor C is charged at the start of the opening movement of the shutter. At a predetermined charging voltage, the transistor Γι is conductive and the transistor 7: non-conductive, so that the electromagnet M is currentless. Therefore, the closing drive member 12 from de in FIG. 2 position shown released, so that de

Closure is closed. Since the flashlight circuit is not closed in this daylight mode, an attached flash lamp is not ignited.

In the following, it will be assumed that the object brightness is lower than a predetermined limit value, so that flash photography should be performed when a flash lamp is attached. As in Fig. 1 is shown, the pin 43 is pressed down by the attachment of the flash lamp, so that the lever 38 is pivoted in the counterclockwise direction. With this in F i g. 1 is therefore the arm 33 on the actuating lever 29 in the path of movement of the unbent part 4 on the trigger I. As in the first case described with great object brightness, the indicator lamp L \ lights up when the trigger is initially pressed down if the voltage source E is sufficient Has tension.

At the same time, the photoresistor P is connected to the voltage source via the resistor R \. When the object brightness is less than a predetermined limit value, the transistor 71 becomes non-conductive and the transistor Ti conductive, so that the electromagnet M is excited and the closing drive member 12 in the manner shown in FIG. 1 position shown is held. If the lever 7 is then pivoted by further depressing the trigger, the closing drive element 12 cannot rotate and the switch SWa with the contacts 19, 20 remains closed. In the process, the intermediate lever 24 is not pivoted either, so that the arm 33 continues to remain in the path of movement of the bent part 4 on the trigger 1.

Then, when the trigger 1 is depressed further, the contact piece 6 of the switch SB connects the contacts f, g and h, so that the resistor R \ is short-circuited. When the trigger is pressed down, the bent part 4 engages the arm 33, as a result of which the switching member 34 is displaced downwards. The control projection 37 then has the effect that a diaphragm suitable for taking a flash is set on a diaphragm mechanism (not shown). At the same time the contact piece 35 of the switch SW2 connects the contacts 1, m . whereby the test lamp L \ is switched off, but the lamp Li is connected and lights up to indicate the readiness of the flashlight. At the same time, the photoresistor P is switched off and instead the fixed resistor Ri is connected to the voltage source. Since the capacitor C and the resistor R \ are then short-circuited by the switches SW \ and SlVs, the transistor Γι remains non-conductive and the transistor Ti conductive, which is why the electromagnet M remains excited and the closing drive member 12 is held by the locking lever 21.

By further depressing the trigger 1, the opening movement of the shutter mechanism (not shown) is initiated, the timing switch SWi being opened so that the capacitor C is charged via the fixed resistor Ri . After the synchronous switch SWe is closed, the flashing device B is ignited. After completion of the opening movement of the closure (for example after 1/30 of a second) the transistor Γι is conductive, which is why the transistor Ti is non-conductive, so that the closing drive member 12 is released and the closure is closed.

The following describes the case where the in the case of a relatively low object brightness at which a flash exposure should take place, no flash lamp is set. If no flash lamp is attached, the result shown in FIG. 3 position shown in which the Lever 38 is not pivoted counterclockwise by pin 43. By the action of the spring 40, the lever 38 is then pivoted clockwise so that the intermediate lever 44 is also in the Is pivoted clockwise and the operating lever 29 with its arm 33 is not in the path of movement of the bent part 4 is on the trigger 1.

If then the trigger 1 is pressed down, who the contacts 35 and 36 are not moved from the position shown in ir Fig.4, because when you press the trigger, the switching element 34 in the ir Fig. 4. 3 remains the position shown. Therefore, the flash circuit is not closed and the photo resistor P is connected to the exposure time control circuit. If when releasing the locks; the timing switch SWi is opened, the capacitor C is charged via the photoresistor P which then sits a relatively large resistance be. As soon as the capacitor C is charged to a predetermined charging voltage after a correspondingly long time, the electromagnet is de-energized so that the closing drive member 12, which rests with the first tooth 16 on the hook 22 of the locking lever 21 is then released, so that even if there is no Flash light device with relatively low object brightness, if desired, there is the possibility of a daylight exposure with a relatively long exposure time.

For this purpose 4 sheets of drawings

Claims (2)

Patent claims: 1. Shutter for a photographic camera with an exposure measuring circuit and an exposure control circuit, containing a voltage source, a photoresistor, a capacitor, a comparison resistor and an electromagnet, which circuit depends on the actuation of the trigger by connecting the comparison resistor first as an exposure metering circuit and then by switching off of the comparison resistor and connection of the capacitor works as an exposure time control circuit, so that an automatic selection of daylight or flashlight operation takes place before the shutter is released, characterized in that a switching element (34) is provided with an actuating lever (29) pivotably arranged on it, which is in the movement path of the trigger (1) is when the flashlight device (B) is attached that a closing drive member (12) is arranged opposite the electromagnet (M) , which depending on the actuation of the trigger (1) vo The start of exposure can be controlled by the electromagnet in such a way that it only swivels the actuating lever (29) out of the movement path of the shutter release (1) via an intermediate lever (24) when the object is bright enough, and that the switching element (34) has a control projection (37) and / or actuated contact pieces (35, 36) for the implementation of flash exposures. 2. A closure according to claim 1, characterized in that an intermediate lever (44) is articulated on the switching element (34), via which the actuating lever (29) is removed from the path of movement by a lever (38) which can be pivoted by attaching the flashing device (B) of the shutter release (1) is pivoted when the flashlight device is not attached.