DE1797195A1 - Device for carrying out flash lighting - Google Patents

Description

Device for carrying out flashlight lighting The invention relates to a device for carrying out flashlight lighting with a rotatable socket for receiving a carrier with several combustion flash lamps, which are successively rotated into the ignition position, and with an electromagnetically controlled incremental device for the socket and a power source for igniting the combustion flash lamps and for supplying the switching device. A device of this type has already been proposed in which the holder is driven by a rotor provided with windings which can rotate in the field of an electromagnet. The arrangement is such that the windings can be connected via a switching device driven together with the lamp holder to rotate the rotor, first via the ignition capacitor to the power source and then directly to the power source. To terminate the rotation of the rotor after a predetermined angle of rotation, the electric motor is again connected to the ignition capacitor, which has meanwhile been charged, by means of the switching device. However, this device requires a large amount of electricity to rotate the mount. A device of this type has also been proposed in which the switching device is connected to an amplifier device which scans the charge state of the ignition capacitor. However, due to the components of the amplifier device, this device requires considerable construction costs and is therefore expensive to manufacture. In contrast, it is the aim of the invention to create a device of the type mentioned at the outset which, in spite of a low construction cost, has only a small power requirement in operation, which can be covered by a commercially available small battery. According to the invention, this is achieved by the combination of the following features: The indexing device has an electric drive motor which is connected to the rotatable holder via a reduction gear. The electric drive motor is in the charging circuit of a capacitor that can be discharged by closing a synchronous switch.

The electric drive motor controls a changeover switch which, after starting up, switches the motor off from the charging circuit of the capacitor directly to the power source and switches it back on to the capacitor charging circuit at the end of a switching process. According to one embodiment of the invention, a common capacitor is provided for igniting the flash lamp and for controlling the current for starting the electric drive motor. In devices for carrying out flashlight illuminations, the power source of which directly supplies the current required to ignite the combustion flashlight, according to another embodiment of the invention, the capacitor with the changeover switch and the electric drive motor are in a circuit branch that is parallel to the one to be ignited and the flashing flashlight Synchronous contact receiving circuit branch is arranged. In order to prevent the lamp socket and thus the flash lamp holder from being switched on after the last ignitable flash lamp has been ignited and thus notify the user of the need to insert a new lamp holder, the combustion lamp following the combustion lamp in the ignition-ready position in the ignition sequence is advantageously located in the charging circuit of the capacitor. . A particularly simple structure results when the changeover switch comprises three fixed taps and a contact plate rotated by a constant angular path during each switching operation and the contact plate is provided with insulating sections in such a way that one tap is permanently in contact with the contact plate during each switching operation. while the other two taps are alternately ineffective due to contact with the insulating sections. The insulating section for the tap located in the capacitor charging circuit advantageously extends over a significantly longer angle of rotation than the insulating section for the tap connected directly to the power source. The contact plate can preferably be rotated by 3600 with each switching process. Several exemplary embodiments of the invention are shown in the drawing. 1 shows a device according to the invention designed as an independent flashlight device in an external view; FIG. 2 shows a schematic representation of the mechanical parts of the indexing device of the device according to FIG. 1; 3 shows the circuit diagram of the device according to FIG. 1 and the mechanical parts which cooperate directly with the electrical parts; FIG. 4 shows a circuit diagram for another embodiment and FIG. 5 shows a further circuit diagram. Fig. 1 shows a flash device which can be attached to a camera of conventional design by means of a slip-on shoe 1. The flashlight device is suitable for use with a carrier 2 which accommodates several successively ignitable combustion flashlights and brings them into the ignition position one after the other by rotation. For the electrically conductive connection of the flash light device to the camera, the slip-on shoe 1 can be provided with a central contact arrangement which is known per se and is not shown. The circuit of the flashlight device can, however, also be connected in a manner known per se to the synchronous contact arranged in the camera via a synchronous cable. The device according to the invention can, however, also be built into a photographic camera . According to FIG. 2, the device according to the invention comprises an electric drive motor 3, on the shaft 4 of which a worm 5 is fixedly placed, which worm gear 6 engages. A locking bow 7, known per se, with a semicircular cutout 7a and a switching pin 8 in the center of cutout 7a is firmly connected to worm wheel 6. The switching pin 8 engages in a known manner in slots 9 a of a Maltese cross 9 which is firmly attached to a shaft 10. The circular arc-shaped outer contours 9b are in engagement with the locking bow 7, so that the Maltese cross 9 is secured against rotation in the rest position shown. This Maltese cross gear works in such a way that with one full revolution of the worm wheel 6 in the direction of arrow a, the Maltese cross 9 is advanced by 90o in the opposite direction of rotation. The socket for the lamp holder 2, which is known per se and is not shown in detail, is also firmly connected to the shaft 10.

On the underside of the worm wheel 6, as shown in FIG. 3, a contact plate 11 firmly applied.

The contact plate 11 has two recessed sections 12, 13, which are formed by insulating material. With the contact plate 11 or their Sections 12, 13 can interact with three fixed taps 14, 15, 16. Of the middle section 15 is to one input of the electric drive motor 3, the other input is connected to a power source 17, placed. The tap 14 is directly connected to the other pole of the current source 17. The tap 16 is connected to the current source 17 via the capacitor 18. In parallel with the capacitor 18 are a synchronous switch 19 and contacts 20, 21 for connecting a combustion flash lamp 22 of the carrier 2 to the formed by the synchronous switch 19 and the capacitor 18 Ignition circuit. There is also a discharge resistor in parallel with the contacts 20, 21 23 arranged.

When the synchronous switch 19 is closed, a combustion flash lamp is ignited 22 triggered by discharging the capacitor 18, after the capacitor has discharged 18 a current from the power source 17 via the electric drive motor 3, the tap 15, the contact plate 11, the tap 16 and the capacitor 18 flow. The condenser As a result, 18 recharges itself. The electric drive motor runs at the same time 3 and rotates the worm wheel 6 via the worm 5. This on the one hand causes a rotation of the socket for the lamp holder 2. On the other hand, turns the contact plate 11. Here, after a short rotation of the worm wheel 6 the insulating section 13 under the tap 16, so that the The charging circuit of the capacitor 1 $ is interrupted. Arrived at about the same time however, the contact plate 11 in contact with the tap 14, so that now the Motor 3 is connected directly to the power source 17 and can continue to run.

If the worm wheel has rotated so far that the socket for the lamp holder has been advanced by almost 900 , the insulated section 12 again passes under the tap 14 and at about the same time the contact plate 11 passes under the tap 16 the capacitor 18 has already been charged again, the capacitor 18 will now prevent a current flow through the charging circuit, so that the electric drive motor 3 stops. The Maltese cross gear ensures that the socket and thus the lamp holder stop after the desired predetermined angle of rotation.

.. In the embodiment of Figure 4, which is also applicable to a device according to Figures 1 and 2, is an electric drive motor 24 in series with a current source 25 and a switch 26 schematically shown, which just like the switch 11-16 according to FIG 3 can be designed. The movable contact 26a of the switch corresponds to the tap 15, the fixed contact 26b to the tap 14 and the fixed contact 26c to the tap 16 according to FIG and a capacitor 29 can be applied to the power source 25. A synchronous switch 30 and contacts 31, 32 for connecting a further combustion flash lamp 33 of the lamp holder 2 to the ignition circuit are again in series parallel to the capacitor 29. The combustion flashlight 33 in the ready-to-ignite position is in front of the combustion flashlight 34 in the ignition sequence.A discharge resistor 35 is also located parallel to the contacts 31,32 rotatable socket coupled.

If the synchronous switch 30 is closed in this arrangement, so in turn, the capacitor 29 discharges via the combustion flash lamp 33, the is ignited. Towards the end of the discharge of the capacitor 29 flows over the Capacitor 29, contact 27, combustion flash lamp 34, contact 28 and the contacts 26e, 26a a current which is sufficient to start the electric drive motor 24. After a certain term of the Electric drive motor 24 is the movable contact 26a is lifted from the fixed contact 26c and attached to the contact 26b ,. placed. The motor 24 now runs while the lamp holder 2 rotates in the direction of the Arrow b until the combustion flash lamp 34 is placed on the contacts 31,32 and is therefore in the ignition position. If this position of the carrier 2 is reached, then the movable contact 26a in turn placed on the contact 26c, since the capacitor 29 has already been charged again during the start-up of the electric drive motor 24 is, no more current can flow through the capacitor 29, so that the electric drive motor 24 stops. With this arrangement, the combustion flash lamp 34 is already burned down, so after closing the synchronous switch 30 in which the capacitor 29 and the flashlight 34 receiving, connected to the electric drive motor 24 sub-circuit no electricity r, -very flow. As a result, the carrier 2 will no longer be turn so that the user clearly advises the user to replace the carrier 2 will. In the arrangement of FIG. 5, a current source 36 is in series with one Synchronous switch 37 and a combustion flash lamp 38 of the carrier 2. By closing of the synchronous switch 37 can therefore ignite the combustion flash lamp take place directly from the power source 36. In parallel with the synchronous switch 37 and the branch receiving the combustion flash lamp 38 lie a capacitor 39, a changeover switch 40 and an electric drive motor 41. By means of the changeover switch 40, which in turn can be designed in the same way as the changeover switch 11-16 according to FIG. 3 and from the one not shown, between the electric drive motor and the socket for the carrier 2 arranged reduction gear and indexing gear controlled is, the capacitor 39 is bridged, so that the motor 41 directly to the Current source 36 is located.

In this arrangement, to carry out a flash exposure the synchronous switch 37 is closed, so that the battery 36 is directly connected to the combustion flash lamp 38 lies and this ignites. At the same time, however, the capacitor 39 can over the closed synchronous switch 37 discharged. As soon as the capacitor 39 is discharged is, a charging current flows again from the battery 36 via the capacitor 39 and by the electric drive motor 41 so that it starts up. Similar to the previous ones Embodiments, the switch 40 is turned over after a short start-up time, so that the electric drive motor 41 is now directly on the Power source 36 lies. Towards the end of the intended rotary movement of the socket for the lamp holder 2, the changeover switch 40 is returned to the position shown in FIG. The now charged capacitor 39 then prevents the electric drive motor from running again 41.

Claims (1)

Claims w1. Device for carrying out flashlight illuminations with a rotatable socket for receiving a carrier with several combustion flashlights, which are successively turned into the ignition position, and with an electromagnetically controlled incremental device for the socket and a power source for igniting the combustion flashlights and for supplying the incremental switching device characterized by the combination The following features: The indexing device has an electric drive motor (3,24,41) which is connected to the rotatable holder via a reduction gear (5-9). The electric drive motor (3, 24, 41) is in the charging circuit of a capacitor (18, 29, 39) which can be discharged by closing a synchronous switch (19, 30, 37). The electric drive motor (3, e4941) controls a changeover switch (11-16,26,40) which, after starting, switches the motor off from the charging circuit of the capacitor (18,29,39) directly to the power source (17,25,36) sets as well as switches on again in the capacitor charging circuit to terminate a switching process. 2. Device according to claim 1, gekennzeiehnet by a common capacitor (18,29) for igniting the combustion flash lamp (22,33) and to control the current for starting the electric drive motor (3,24) o 3. Device according to claim 1, the power source directly supplies the current required to ignite the combustion flash lamp, characterized in that the capacitor (39) with the changeover switch (40) and the electric drive motor (41) are in a circuit branch which is parallel to the combustion flash lamp (38) to be ignited and the synchronous contact (37) receiving circuit branch is arranged. 4. Device according to one of the preceding claims, characterized in that the combustion flash lamp (34) following the combustion flash lamp (33) in the ignition sequence is in the charging circuit of the capacitor (29). 5. Device according to one of the preceding claims, characterized in that the changeover switch has three fixed taps (14,15,16) and a contact plate (11) rotated by a constant angular path during each switching operation and the contact plate (11) in such a way with insulating Sections (12,13) is provided that with each switching process a tap (15) is in constant contact with the contact plate (11), while the other two taps (14,16) alternately by resting on the insulating sections (12, 13) are ineffective. 6. Apparatus according to claim 5, characterized in that the insulating section (13) for the tap (16) lying in the capacitor charging circuit extends over a much longer angle of rotation than the insulating section (12) for the directly connected to the power source (17) connected tap (14) extends. 7. Apparatus according to claim 5 or 6, characterized in that the contact plate (11) is rotatable through 360o for each switching process. For this purpose 2 sheets of drawings