DE639390C - Switching device for incandescent lamp cinemas with the lamps via photocells and relays controlling film and synchronously with this working circuit breaker during the dark breaks - Google Patents

Description

RICH:

NTAMT

R 88175 IXl54h

during the dark breaks

The invention relates to a switching device for an incandescent cinema, in which by means of a control film via photocells and relays the lamps of a universal S light bulb field. be switched. The purpose of the invention is here to prevent the flickering of those lamps that are used in several consecutive Individual images of the film controlling the entire system should light up. For this reason, one has during the Dark pause the voltage applied to the cells is completely interrupted, e.g. B. by a mechanical breaker or the like operating in synchronism with the film tape The consequence of this, however, is that all lamps had to go out after every dark break, too those who should take part in the presentation of the next picture again, whereby a Flickering that is unpleasant to the eye is caused.

According to the invention, this disadvantage is eliminated in that the cells and relays flowing control streams are not interrupted, but only shortly after the dark break weakened to such an extent that the current remaining in its Strength is sufficient to prevent the relay armature from falling off when the cell is re-exposed to prevent the anchor but must fall off when the cell of an incandescent lamp that in the next The image should remain dark when the current is weakened.

FIGS. 1 to 4 are timing charts and are used to facilitate understanding of the following described means for controlling the required amperage to facilitate.

Figures 5 through 7 are circuit arrangements for practicing the invention.

In Fig. Ι the line α means the course of time; the line b is the curve of the amperage of the relay control current, specifically for the current curve during the exposure of a cell in the time unit, ie the distance cd is the time before the onset of exposure; at d the exposure begins, the current increases up to the strength de . The distance ef is the time of the uniformly continuous exposure; at f complete darkening occurs. When the darkening begins at time /, the current does not suddenly drop from point g to o, but gradually decreases according to the course of curve gh. This is the current curve of a cell that is not illuminated again after exposure.

Fig. 2 shows the same scheme with the difference that during the dark pause ff ¹ the control current is interrupted by an additional interruption means. In this case, the current initially drops from g 6n to the value ο and occurs if the cell is not exposed again ^{at time Z 1,}

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also rises again, but only up to the value g ¹ , which lies on the decay curve and is therefore not sufficient to attract the anchor that has fallen off again. If, however ^{, the cells are exposed again at time / 1} through the control film, the current value rises to g ² , which was just as high as g, and a new exposure phase occurs Course ίο has the disadvantage mentioned in the introduction that during the time ff ¹ the armature drops in any case and the lamp current is completely interrupted, even if it has to flow in full again in the next picture phase Lamp.

3 and 4 show the curve of the current strengths as it takes place according to the invention, namely FIG. 3 when the cell is re-exposed after a dark pause, FIG. 4 when a lamp is darkened in the previous phase of the image shine, but should not shine in the following, α is again the passage of time. At e the control current has full exposure intensity; In the period / - / ^{1 there} is a dark pause originating from the film, during which, however, in contrast to the case in FIG. 2, no mechanical power interruption is provided. During this short pause in the dark, the amperage drops only by a very small amount on the distance gg ¹ ; the armature does not drop, because for this the current would have to drop to the value of the line i , which indicates the limit value of the current strength that is just sufficient to hold the relay armature. .

At time / ² , shortly after the exposure of the photocells through the film has been resumed, the current is now weakened to such an extent that the current curve does not reach line i, e.g. B. to point k. In FIG. 4, however, it is shown how, if ^{no re-exposure of the relevant image point occurs after the dark pause Z- / 1} , the decay in the time between Z ¹ and f continues, so that point k is already due to the weakening of the current falls into the descending branch of the current curve below the line i and the anchor falls.

The weakening of the current is brought about by voltage weakening, which is shown in begins at the required time. This is achieved by switching on a resistor for all or several resistances for appropriately classified Groups of units, if necessary the subdivision can be extended to that a resistor is provided for each individual cell, or by applying one lower voltage with the help of a voltage divider, by switching "to a lower voltage power source or by switching on a counter voltage.

Fig. 5 is an embodiment of the first mentioned inclusion of a common Resistance for a larger number of cells. Here, 5, 6 and 7 mean photoelectric Cells, 8, 9 and 10 relays assigned to them. Relays and photocells preserved their voltage through the power source 4. The one feed line from the power source can through the contact 2 operated by the cam 1 operating in synchronism with the film will be interrupted. A (adjustable) resistor 3 is parallel to contact 2 switched. If contact 2 is closed, the cell and relay have the full, from the Voltage supplied by the power source. If, on the other hand, contact 2 is opened, the must Current going through the resistor, causing A voltage drop occurs on the way to the relay, so that now only part of the voltage is applied to the cell and relay lies.

Fig. 6 shows a device for current weakening with the aid of a voltage divider. Here, the numbers 1, 2 and 4 to 10 mean the same means as in Fig. 5. 13 is a voltage divider that connects to one pole of the cells and relay via contact 12, which is controlled by cam 11, which works synchronously with the film is operated, is connected. Here, by suitable setting of the cams 1 and 11, provision is made that one of the two contacts 2 and 12 is always closed while the other is open. If contact 2 is closed while contact 12 is open, the cells and relays have the full terminal voltage of power source 4 Voltage divider partial voltage applied to the cells or the relays.

Instead of placing a resistor in parallel with the current source 4 and by tapping of the resistor to produce a voltage divider arrangement, one can also use the lead lead to contact 12 to a point of lower potential of current source 4, whereby the same effect is achieved.

In FIG. 7, the numbers 1, 2 and 4 to denote the same switching elements as in FIG. 6. is a smaller current source connected to the current source 4, but its voltage in the opposite direction to that of the current source 4. Is in this arrangement Contact 2 open, but contact 12 closed

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closed, the voltage given by the power source 4 is applied to the cells and relays. If, however, contact 12 is opened and contact 2 is closed, the current must flow through both power sources 4 and 14. Since these are polarized in opposite directions and 14 is less than 4, it is in this switch position a lower voltage on the cells and relays.

The level of the smaller voltage can be adjusted by setting the resistors or by corresponding dimensioning of the counter potential can be regulated differently.

Claims (4)

Patent claims: i. Switching device for incandescent lamp cinemas with the lamps via photocells and relay controlling image film and circuit breaker working synchronously with this during the dark breaks, characterized in that the circuit breaker (12) Relays and cells during each dark break to a level weakened by an adjustable resistor Switches the parallel circuit, which causes the armature to fall off at every dark pause, which is a bright pixel in the next phase follows, prevents the lighting effect from lighting up one after the other Bridged lamps and prevented flickering. 2. Switching device according to claim 1, characterized in that the circuit breaker Relays and cells toggle on a circuit powered by a low voltage power source. 3. Switching device according to claim 1, characterized in that the circuit breaker Cells and relays on one of a breaker (11, 12) controlled Circuit with voltage divider (1 3) toggles. 4. Switching device according to claim 3, characterized in that the interrupter (11, 12) switches on a circuit with counter voltage. 1 sheet of drawings