DE764082C - Film drive for sound film devices - Google Patents

Description

Film drive for sound film devices In the case of the known ones, to drive the film Toothed rollers used in sound film machines sometimes change in speed, partly tooth bumps, through which irregularities in the film run at the scanning point can arise. In order to avoid this, it is already known to watch the film at the Scanning point over a smooth clay roller (synchronous roller). to lead that with a Flywheel 'is equipped or designed as a flywheel. Besides, you have that The clay roller and the aforementioned toothed rollers are each driven by a motor. To a to achieve the same number of revolutions of the motor driving the clay roller as possible, it is also known to use this engine either z. B ,. by means of a centrifugal governor to regulate or train the same as a synchronous motor and from a non-network To feed alternator.

In such arrangements, however, the problem arises that the mean conveying speed of the film subject to certain changes over a long period of time is, partly because of changes in the circulation number of the Main engine and partly because of the inevitable changes in the state of shrinkage of the film. While the former changes in AC drive are generally neglected can be. but the changes in the state of shrinkage of the film remain that not from time to time, but also from part of the film to the other occur. If one would now, as is already known, the sound roll with a constant Drive the number of revolutions, so the film loop between the sprockets and the Tonroll are constantly lengthening or shortening, which either leads to malfunctions or would lead to jerky changes in speed at the scanning point.

To circumvent this difficulty, it is known to regulate the drive speed of the toothed rollers in such a way that the film length between the same and the film roll remains approximately constant, by means of the film loops formed on the sound roll, by which the speed of the Affect the main engine. However, this has the disadvantage that the speed at which the film is moved on the sound roller driven by the non-regulated special motor does not correspond to the theoretically correct speed when the film has shrunk. The film should always have the normal number of perforation holes at the sound scanning point. namely 96 per second, "moved" -earth, should therefore not be moved at a constant speed, but at a speed corresponding to the shrinkage.

According to the invention, the aforementioned disadvantage is eliminated. that the Frequency of the off-grid alternator that drives the synchronous motor the clay roller feeds, due to the long-term changes in the conveying speed the sound carrier is regulated and the alternator only controls the synchronous drum motor, but does not feed the main engine.

This ensures that the sound roll always remains when the film is shrunk runs at the theoretically correct speed, provided that the mean The speed of the toothed rollers corresponds to the standardized number of images of 2: I per second, while in the aforementioned arrangement it runs at a constant speed and therefore the film with a shrinkage dependent number of perforations moved in the second.

The synchronous motor is developed according to an expedient @ # @ "extension of the Inventive concept z. B. fed from a tube generator, the electrical Members of the oscillation circuit. z. B. the size of a resistor switched into it, regulated by the prolonged changes in the speed of movement of the film "-earth.

The further details of the invention can be found in the following Description of the embodiments of a film projection apparatus shown in the drawings emerged. It should be noted. that the actual subject matter of the invention in the claims is included and does not refer to the further details of the exemplary embodiments with regard to the arrangement and construction of the compensating rollers and their damping devices extends.

i shows a side view of an embodiment of a device for keeping the speed of showing a sound film constant, Fig. -2 shows a modified version of the same in side view, and Fig. 3 to 3 show schematically three different embodiments of the device according to the invention with one generator and one thereon connected chron motor. In Fig. I, D1 and D., are two toothed rollers. the by not shown gears. -Screws or the like are coupled to a drive motor (main motor), also not shown. The toothed rollers D_, D3 serve to take up the uneven tension originating from the film spools S and S ". So that only irregularities from the drive motor and the links between the same and the toothed roller D1 are transmitted to the toothed roller D1 is a flywheel, and I "is a role rigidly connected to it. which is driven by a synchronous motor l1 directly coupled to the same. The 1lotor 1I is fed by a generator G, the latter consisting of an oscillation generator, the frequency of which is determined by the constants 1, c and r of an oscillation circuit K. This frequency is controlled by changing the resistance r.

If the speed of the above-mentioned drive motor changes, the lengths of the film loops formed between the roll Dl and the roll I 'will also change, which is why a guide roll R, which is pressed on with a slight spring pressure of one film loop, moves accordingly downwards or upwards and thereby effected. that the part of the resistor r switched into the oscillating circuit K is reduced or increased because the guide roller R is coupled to the adjustment arm A of the resistor r. The movement of the guide roller R is dampened by a fluid brake B.

The control device described above functions in the following Way: If the rotational speed of the drive motor is suddenly reduced, so the lower loop of film is shortened, which pushes the roller R downwards will be. A soft spring F, which is in the connection between the roller R and the setting arm A is switched on, it will be compressed. if the mentioned change in speed is only brief, z. B. if they are from a If the tooth jolt occurs in the driving device, the lower loop of film becomes its original one Resume shape quickly, and the roll R is made by the pressure of the spring F moved back without having had the opportunity to move the adjustment arm A downwards move. The frequency of the generator G remains constant.

If the change in the rotational speed is so lengthy that it causes a permanent shortening of the film loop, then the adjustment arm will be moved downwards, thereby reducing the part of the resistor r connected to the circuit K, and consequently the frequency of the generator G will decrease and the Motor 31 run slower.

Such long-lasting changes in speed can, for example arise as a result of uneven shrinkage of the film.

Once the guide pulley R is in the correct position, so the flywheel runs at a constant speed, and the passing Changes in the speed of the Rodle D1 are caused by changes in the lengths of the film loops balanced.

The resistance r can, if desired, according to the invention be a liquid resistance be formed.

Fig. 2 shows another embodiment of the frequency-regulating Member in which the oscillation of the latter is even more extensive than in the arrangement according to Fig. z is avoided. Instead of spring pressure against a film loop pressed roller R in Fig. z are here as a frequency-regulating member two with each other rigidly connected, but each used for rotating guide rollers R1 and R2, the against each one of the loops of the film without spring pressure, which is why these roles in any position of the lever W carrying the same are in equilibrium. In order to the film against the flywheel h with one for its rotational movement by friction against the film, a guide roller T is used, which is resiliently pressed against the film by means of a spring F1. The carrying lever W the rollers R1 and R, is pivotally mounted so that a displacement of the both roles upwards or downwards no lengthening or shortening of the role T influencing spring F causes.

It can be seen immediately that a change in speed the driving device a displacement of the rollers R1 and R2 about the axis of the roller V will cause, whereby the frequency of the generator changes. As the roles R1 and R2, however, apart from the action of the additional tensioning pulley T, are influenced by a directional force, there is a tendency to oscillate the frequency-regulating Link practically does not occur. So when starting, with which by strong Loop change the frequency rises above normal, the synchronization is facilitated, a reaction from the engine to the generator is more restrained, d. H. frequency-lowering direction appropriate.

In the subject matter of the invention, the aforementioned retroactive effect is, for example secured by the fact that the stator winding of the motor in the circuit of the generator is switched on so that the inductance of the stator winding the frequency of the Generator affected. If the rotor is out of synchronicity, it will be influenced by electromotive force induced inductance in the rotor in the stator winding of the stator winding so that the inductance assumes a different value than when the The rotor runs in synchronism.

Fig. 3 shows an embodiment of the tube generator designed as a * Generator G. The stator winding Z of the motor is in the anode circuit of the generator switched on and is also inductively coupled to the grid circle of the generator. There is therefore a relatively considerable reaction, because that of the rotor X in the stator winding Z, the electromotive force induced the inductance of the Lattice circle directly influenced.

In the embodiment of the device according to the invention according to Fig. q. only the anode circuit of the generator is different from that induced by the rotor electromotive force is influenced by the reaction from the anode circuit on the grid circle is effected by special coupling coils U. In this embodiment the reaction of the engine on the generator is less strong.

In the embodiment according to Fig. 5, an ordinary accumulator L used as a generator; its frequency mainly through the Natural frequency of the spring O be. is true. Again, to a certain extent a reaction can occur in that the motor current influences the force, with which the Spring O is returned to its equilibrium position.

As mentioned, the above-mentioned retroactive effect has the advantage that the synchronization of the flywheel with the generator is facilitated. However it also makes the frequency of the generator less stiff, i.e. H. of the Load on the engine becomes less independent. If the load on the engine increases e.g. B. as a result of braking the flywheel, the resulting phase shift cause a slight change in the stator current between the rotor field and the stator field and will therefore affect the frequency of the generator a little. These changes in load are however so small in practical operation that they play no role if the flywheel has assumed the synchronous number of revolutions.

Claims (6)

PATENT CLAIMS: i. Device for compensating for the changes in the conveying speed of a tape-shaped sound carrier, e.g. B. a sound film, through the use of a sound carrier promoting, driven by a synchronous motor flywheel, the synchronous motor is electrically fed by a non-network alternator, characterized in that the frequency of the alternator is regulated by the long-term changes in the conveying speed of the film tape and the alternator only feeds the flywheel synchronous motor, not the main motor. 2. Apparatus according to claim i, characterized in that the Frequency of the alternator feeding the flywheel synchronous motor, by the long-lasting changes in one or both of the loops that the film is on the two sides of the swing roller forms, is regulated. 3. Alternator for feeding the flywheel synchronous motor according to claim 1 or 2, characterized in that that the generator consists of a tube generator and that one or more of the electrical Members of the oscillation circuit, e.g. B. the size of one switched on in the same WideAtandes, due to the long-term changes in the speed of movement of the Film tape is regulated or regulated. .I. Device according to claim i, characterized in that the control resistor is designed as a fluid resistor is. 5. Apparatus according to claim i, characterized in that the stator winding of the synchronous motor is connected to one or more of the generator circuits or is coupled in such a way that the induced by the rotor in the stator winding electromotive force affects the frequency of the generator for the purpose of synchronizing facilitate during cranking. 6. Apparatus according to claim i, characterized in that an electromagnetic oscillator, for. B. a tuning fork generator is used, which is electromagnetically coupled to the stator winding of the motor. To distinguish the subject matter of the invention from the state of the art, the following publications were considered in the grant procedure: German Patent No. 650 509; French Patent No. 66o 69o; Photographic Industry, 1933, pp. 592 and 593-