DE3637645C3 - Flash unit for photographic purposes, in particular flash lamp and generator for studio and outdoor recordings - Google Patents

Description

The invention relates to a flash unit for photographic purposes, in particular flash lamp and generator for studio and outdoor recordings, with a device for Generation of multiple flashes in a photographic Shooting sequence with which the flashes in each case Triggering the recording camera via a controllable Circuit generated automatically so that the flashes for performing an exposure series with graded Exposure values at the same aperture setting the intensity of the camera is different.

It is known to use e.g. determined by measurement Achieve working aperture or exposure even if the flash unit does not have the required amount of light a flash can use flash units that a series of flashes automatically when the camera is triggered emit, but all of the same intensity or Have light intensity.  

In photo studios it is also common for the photographer to takes a so-called aperture row during a shot, to select the best exposures from them or to Compensate tolerances of the film and / or the development. The flash unit mentioned at the beginning is not for these purposes suitable as it only has flashes of the same intensity generated sequence.

With the previous method of carrying out a so-called Exposure series in a photographic shot is like this proceed that, based on e.g. by measurement Identified working screen (target screen), normally 1 / 3-1 / 4-1 / 2 or even an entire aperture or more under- or overexposed. The photographer changes in usually manually set the aperture of the taking lens Camera. However, the depth of field also changes photographic recording, what with difficult recordings can be disadvantageous. Such manual adjustment of the There is also an aperture on the camera lens cumbersome and can also change the intake level lead if there is no stable camera attachment or Bracket is used.

DE-AS 25 39 897 is also a flash device known which successive flashes can emit their intensity through several different parameters is automatically influenced. Only one of these changes Parameters, the flash light intensity will also be appropriate changed. However, if the parameters do not change, remains the intensity of subsequent flashes is also constant. Both Parameters can be the film speed Aperture, the brightness of the object to be imaged, the distance  of the object and the exposure time. Even with the by DE-OS 20 63 836 and by DE-AS 24 46 453 flash units become known, the conditions are so that with the same measurement results by appropriate Measuring devices also every further flash of a flash sequence has the same intensity.

JP 58-50 522 A is a flash unit Generic type known in which after triggering the Recording camera a flash is generated and the controllable Switching the flash light reflected by the subject to then stop flash firing when the amount of reflected flash light captured has reached a predetermined value. An Indian controllable circuit included flash capacitor always charged to its maximum value. The circuit to interrupt the lightning current is expensive and for Studio equipment too imprecise and this also makes it possible Device before a recording sequence no predetermination of the Lightning intensity.

The invention has for its object a flash to create that avoids the above disadvantages and before a predetermination of the flash intensities taking into account the other admission requirements enables.  

According to the invention the above object is achieved by the Characteristics of claim 1 listed features solved. So every time the camera is triggered the device produces a flash and those flashes have one different intensity e.g. according to the measured exposure aperture, 1 / 3-1 / 4-1 / 2 or one whole aperture or more over the measured exposure aperture or below. The flash unit automatically sets the different flash intensities. The photographer will by the flash device according to the invention in the implementation a recording series for the purposes mentioned in the Noticeably relieved compared to the prior art because completely different exposures of the Subject take place. Above all, it changes the depth of field of the pictures not because of an adjustment the aperture on the camera lens is no longer necessary is because the aperture of the recording lens stay constant. For the purposes of the invention required change in the output of the flash unit up or down can be electromechanical or on done electronically, by a special electronic circuit which the output power of the flash unit can be adjusted gradually or by one certain value increased or decreased. The electronic Circuit can also be controlled by a computer the corresponding the different camera aperture values is programmed. Corresponding embodiments of the invention are shown in the Sub-claims emerge.

The invention is then based on the drawings of Exemplary embodiments explained. Show it:

Figure 1 is an electrical circuit partially as a block diagram with the essential elements of a flash device, in which the power output via the flash tube is graded electromechanically.

Fig. 2 is a block diagram which illustrates, for example, a gradual increase or decrease in the output power of the flash device on an electronic basis with the aid of a flash voltage regulator;

Fig. 3 is an electric circuit, partly in block diagram form showing a computerized Stromflußunterbrechung over the flash tube by means of a thyristor circuit in accordance with the required or desired exposure values, and

Fig. 4 is a block diagram of a computer or microprocessor-controlled flash voltage control according to the required or desired different exposure values.

In all figures, the same circuit elements are identified with the same reference numbers. The circuit according to Fig. 1 includes a charging circuit A, which is C1, C2 generates the charging voltage for example, three flash memory capacitors and C3 and connected to the mains voltage (AC or DC). The flash memory capacitors C1, C2 and C3 can have the same or different capacitances. RY10 and RY20 denote the switching contacts of two relays RY1 and RY2, which are controlled by a pulse generator C. F is an ignition trigger circuit for the flash tube BR. The electrical pulse generator C is activated by the photographic recording camera, not shown, for example via a schematically indicated electrical cable SYN (or by infrared triggering). According to the individual camera triggers, the electrical pulse generator C controls the relays RY1 and RY2 one after the other, which actuate the switching contacts RY10 and RY20 one after the other, which in turn switch the flash capacitors C2 and C3 on or off in accordance with an exposure gradation.

In the exemplary embodiment according to FIG. 2, the charging circuit A is followed by a circuit B for regulating the flash voltage, which circuit can be controlled by the pulse generator C coupled to the recording camera. When the camera is triggered, the pulse trigger C activates the ignition trigger circuit F, which switches the flash tube BR and triggers a flash. At the same time, an electrical pulse is input by the pulse generator C into the circuit B for regulating the flash voltage, and the latter automatically regulates the charging voltage for the flash capacitor C1 in accordance with a desired exposure gradation (or continuously variable different exposure values). The further flashes are generated in the same way each time the recording camera is triggered, but with the charging voltage for the flash capacitor C1 correspondingly reduced or increased by the circuit B.

In the embodiment of FIG. 3 are with the camera z. B. pulse generator C electrically connected via the cable SYN and the ignition trigger circuit F are shown in one block. Th1 and Th2 denote two thyristors and C4, R1 and R2 denote a capacitor or electrical resistors assigned to the flash memory capacitor C1. When a camera is triggered z. B. controlled via the electrical connection cable SYN the pulse generator C and the ignition trigger circuit F and ignited by this the thyristor Th1 and controlled a computer D. The computer D is e.g. B. programmed according to a desired exposure gradation. This computer D ignites the thyristor Th2, which in turn interrupts the current flowing through the flash tube BR when the flash capacitor C1 is discharged, in accordance with the exposure gradation selected, for example.

In the embodiment of FIG. 4, a computer or microprocessor E z. B. connected to the recording camera via the electrical cable SYN. A again designates the charging circuit applied to the mains voltage, B the circuit for regulating the lightning voltage and C1 a lightning storage capacitor. The computer E is started each time the camera is triggered and, based on a program corresponding to an exposure gradation (or continuously variable different exposure values), it effects a corresponding flash voltage regulation via the circuit B. At the same time, the computer E gives a pulse to the ignition trigger circuit F, which activates the flash tube BR or triggers a flash. The program stored in the computer E thus causes the sequence of flashes with different intensities in accordance with the exposure gradation or the continuously adjustable different exposure values.

Claims (5)

1. Flash device for photographic purposes, in particular flash lamp and generator for studio and outdoor recordings, with a device for generating multiple flashes in a photographic recording sequence, with which the flashes each time the recording camera is triggered via a controllable circuit (C, RY10, RY20 ; C, B, C1; C, D, Th1, Th2 C1; C, E, B, C1) are generated automatically in such a way that the flashes for performing an exposure series with graduated exposure values are different in intensity with the same aperture setting on the camera , characterized in that the control of the different flash intensities takes place by specifying the electrical energy to be delivered to the flash lamp before the exposure sequence in accordance with preselected, graduated exposure values. 2. Flash unit according to claim 1, characterized in that the circuit an electrical controllable by the camera Has pulse generator (C), the relay operated Switch contacts (RY10, RY20) several flash capacitors (C2, C3) according to the graded exposure values switches that with the flash tube (BR) of the device electrically are connectable. 3. Flash unit according to claim 1, characterized in that the circuit contains a lightning voltage regulator (B) which through an electrical controlled by the camera Pulse generator (C) can be activated and the at least one Flash capacitor (C1) according to the graded Exposure values switches. 4. Flash unit according to claim 1, characterized in that the circuit comprises a computer (D) with a electrical pulse generator (C) and controllable by the camera is interconnected, and that the pulse generator (C) and Computer (D) in succession a thyristor circuit (Th1, Th2) to interrupt that of at least one Flash capacitor (C1) flowing over the flash tube (BR) switch electrical current, the computer (D) programmed according to the graded exposure values or is switched in hardware. 5. flash unit according to claim 1, characterized in that a controllable by the camera computer (E) is provided is that according to the graded exposure values appropriate program a lightning voltage regulator (B) or a thyristor circuit to interrupt the from at least one flash capacitor (C1) over the Flash tube (BR) of flowing electrical current activated.