DE2031337C - Synchronization system for cinematographic apparatus - Google Patents

Description

each pulse has a pulse width and amplitude sufficient to turn on the thyristor ί for a period and that the reed switch 3, when opened as a result of starting the motor Mp , generates a series of square turn-off pulses, as shown in FIG. 2B with each pulse having a pulse width and amplitude sufficient to turn off the thyristor 1 during one period.

In addition, a suitable voltage source £ 2 in series with the motor Mp and the thyristor 1 is provided to the projector engine Mp supply a drive motor.

When the tape recorder T is switched on during operation by electrically connecting a plug S to a suitable power source (not shown), the electric motor Mt is switched on and consequently the reed switch 2 is switched with a repetition frequency proportional to the working speed of the motor M /, and ignition or switch-on signals to ignite the thyristor 1 generated, whereby the latter is conductive and the motor Mp of the film projector P is set in rotation. Of course, after a short time, calculated from the first switching on of the thyristor 1 as a result of the reed switch! derived first ignition pulse, the motor Mp temporarily switched off because a switch-off pulse derived from the reed switch 3 is fed to the thyristor 1 and causes it to be switched off. The switch-off pulse is derived with a time delay that corresponds to the short time mentioned. Although the thyristor 1 has been switched off temporarily, it is switched on again immediately after it has been switched off for the first time by a next trigger pulse derived from the reed switch 2. In this way, the thyristor 1 is repeatedly turned on by alternating on and off pulses on and off with an increase in speed of the engine ^r? Mt of the tape recorder T and the resulting increase in the speed of the motor Mp of the video projector P.

When the speed of the motor Mt of the tape device 7 "has increased to the normal speed, which corresponds to the tape speed of 4.8 cm / sec, the reed switch 2 generates the above-mentioned series of rectangular switch-on pulses with a repetition rate of 18 pulses per second, the As shown in Fig. 2A, as a result of the repeated turning on and off of the thyristor 1, the motor Mp continuously increases in speed and gradually approaches a synchronous speed at which the film projector P synchronously is driven with the fiducial device tape apparatus T. at this time, assume that the reed switch 3 to g in F i. 2 B with the letter b pulse designated generated whose phase is delayed α by a value Θ against the Einschakimpuls, the is one of the series of switch-on pulses that are generated with a repetition rate of 18 per second n.

It is well known that a motor, like the motor Mp, has a natural tendency to increase its speed above the synchronous speed if it has a drive energy reserve, i.e. a change in the applied load and / or the The voltage of the voltage source £ 2 to cope with. In the event of such a further increase in the speed of the motor Mp , the switch-off pulse b moves to a position close to the ignition pulse a. The advanced pulse is shown in Figure 2B with dashed lines and labeled with the letter b '. Accordingly, the phase difference between the switch-on pulse α and the switch-off pulse b changes from θ to θ ', so that, as shown in FIG. 2C can be seen, the current flowing through the motor Mp or current supplied is reduced in its duration from c to c 'him, with the result that the speed of the motor Mp reduced, and it is driven with the synchronous speed.

In contrast to the above case, in the case that the speed de ·: motor Mp for some reason such as. B. The voltage drops below the synchronous speed, the switch-off pulse b is delayed and reaches a position farther away from the switch-on pulse α - the delayed pulse is shown in Fig. 2B with dashed lines and denoted by the letter b " -, so that the current flowing through the Mo.orWp or supplied to it increases in duration from c to c " , which results in the synchronous operation of the motor Mp with the motor Mt.

In view of the foregoing, it is clear that the present invention could achieve ideal synchronization between the tape deck T and the movie projector P even if there were any change in the speed of the motor Mt. For example, when changes in the speed of the motor occur as a result of such changes, such as e.g. B. Changes in the applied load and the voltage of the voltage source E 2, the phase (-) of the switch-off pulse b advanced or delayed according to the change in speed of the motor Mp , whereupon the current supplied to the motor Mp is automatically controlled in the manner described above, to bring about the synchronization between the motors Mp and Mt. It goes without saying that changes in the speed of the motor Mt can similarly be compensated for by corresponding changes in the speed of the motor Mp , with the result of complete synchronization between the moors Mp and Mt.

Be! According to a further development of the present invention, a reed switch 3 'can be electrically parallel to the thyristor 1 instead of being connected in series with the thyristor 1, as in FIG. 1 dash-dotted line is shown. It is clear that the system of such a advanced form has the same effects like the one previously described.

Another development of the present invention with a conventional amplifier A is shown in FIG. This amplifier should have a suitable amplification factor and is electrically connected to the circuit in such a way that it takes the output of the thyristor! reinforced, as easily ers for those skilled in the art from FIG. 3 ^; htlieh is. It is clear to us that by amplifying the amplifier A in the manner explained above, optimum synchronization between motors of any power can be achieved. In order to simplify the description, other components which form part of the circuit of the further system are not described because we assume

that their functions and tasks can be easily understood by those skilled in the art of electronics.

Although three specific embodiments have been described above in which the system is used to achieve synchronization between a tape recorder T and a film projector P , it should be understood that the system according to the invention can be applied to many other cases, e.g. B. the following is applicable:

1. To achieve stereoscopic effects in the film by synchronously operating two film projectors.

2. To project onto several screens by connecting systems according to the invention in parallel, to synchronize multiple movie projectors, and

3. For the simultaneous operation of a tape recorder, a film projector and a film camera.

The following is also clear to those skilled in the art: While the first reed switch 2 was used to generate the switch-on signals with a repetition frequency proportional to the operating speed of the reference device or tape recorder T , the switch-on signals can also be generated by using a speed wedge generator driven by a drive motor of a reference device, which is thereby operated at a reference speed and, on the other hand, by the use of means which enable a series of synchronizing signals recorded on a tape recorder at the same repetition frequency to be reproduced by a suitable magnetic head of a magnetic tape recorder and then amplified, the Synchronizing signals are used to reproduce sounds recorded on the soundtrack portion of the magnetic tape in synchronism with the progression of the images on a film.

1 sheet of drawings

Claims (4)

to control and thus to enable that the other apparatus is operated synchronously with the first apparatus. 1. Means for Achieving Synchronous Operation In a modified form of the invention of film apparatuses, marked 5, the system has the above-mentioned properties through a first Signalerzsugungseinrich- th still a conventional amplifier for device (2) for generating a series of turn-on amplifications of the output signal of the thyristor Signals with a repetition frequency proportional to the electric motors of any working speed in this way one of the apparatus to use a desired power in the apparatus Thyristor (1), between dessert control electrode 10, which are driven synchronously with each other and cathode the switch-on signals are to be applied. den, a second signal generating means (3) An embodiment of the Erzürn Generation of a series of switch-off signals described on the basis of the drawing, with a repetition frequency proportional to the working F i g. 1 is a schematic view of one of the speed of another apparatus, and data i ₅ lying invention used Synchronisierdurch that the off pulses between the anode system; and cathode of the thyristor are applied, and Figs. 2A and 2B are timing diagrams represented by that the output signal of the thyristor is fed to the other first or second signal generating device in order to operate the synchronizing system of FIG. 1 generates speed of the same to control, whereby _{a are} o; the second apparatus synchronized with the first Fig. 2 C is the course of the current, which one Apparatus can be driven. electrical to be synchronized with a reference motor 2. Device according to claim 1, characterized in that the motor is supplied, and indicates that the second signal generation ^ - F i g. 3 is a schematic circuit diagram of a route means (3) is a reed switch is provided with ₂₅ dei invention in which an amplifier verdem thyristor Ci) is connected in series terbildung. is turning. 3. Device according to claim 1, characterized in Fig. 1 is an explanation of the principle that indicates that the second signal generation present invention suitable representation in the device (3) is a reed switch, which is only used as an example System is shown, with which the thyristor is connected in parallel ₃ "Help an electric motor Mp, which in a film project 4. Device according to claim 1, 2 or 3, gate P is used, can be operated completely synchronously with an electric motor Mt in a tape recorder T in order to amplify the output signal of the thyben, fully synchronized with a separate, characterized by an amplifier device (A). In this example the engine is listors (1). Mt is the reference motor and the other motor is Mp 35 a motor that synchronizes with the reference motor shall be. The circuit for such a system comprises a controlled switching device 1, a'n. from a The invention relates to a device controlled silicon rectifier or a thyristor for achieving synchronous operation of film _{40 may} consist of a normally open reed apparatus, such as e.g. B. a film projector, a film switch 2, which with its one terminal electrically to camera, a tape recorder, a Tomfilmaufnahme- the ignition electrode of the thyristor 1 and with its device, a sound film playback device, etc. other terminal to an auxiliary voltage source El In order to have two or more such apparatuses connected synchronously to the switching on of the thyristor 1 to work with each other: <u let, it has been customary up to now ₄₅ which is shown as a battery, and a more normal one, a special electric motor, like a w.ise closed reed switch 3, which is electrically connected in series with the synchronous motor or a three-phase motor, or a thyristor 1. The special system to be used, which, however, post-reed switches 2 and 3 are of common construction parts such as complicated operation and costly tion and are intended to produce the apparatus with repetition frequencies. ₅ o to be switched, which is proportional to the working It is the object of the present invention to provide a speed of the tape recorder Γ or the Projek device, in which the synchronization tor P , and is achieved in one of the experts with simple means. known kind. For example, the first tongue According to the egg-the invention this object is achieved switch2 by the action of a (non dargesteM-by th first signal generating means for ₅₅₎ magnets are connected together with generating a series of Einschaltsii; nal with a drive shaft (not shown) rotates, the Repetition frequency, which is proportional to the working speed of the apparatus Γ ancincn by the electric motor Mt of the tape recorder, is driven by a Thy-. In addition, the two input transistor, between whose control electrode and cathode switch 2 and 3 must have the same frequency, the generated switch-on signals are applied, for example eighteen times per second, a second signal generation device to the output of the tape recorder T and the projector P with their gene a series of switch-off signals with a normal speed of z. B. 4.8 centimeters per sequence, which corresponds to the working speed of one second or 18 frames per second synchronized with other apparatus, and in that they are driven each other. generated switch-off signals between anode and cable 65 It is clear that the reed switch 2, if it is inlln / d '; of the thyristor. The output sequence of starting the motor Mt.