DE1055948B - Electromechanical coupling device for a cinema projector to be operated in synchronism with a magnetic sound device - Google Patents

Description

Electromechanical coupling device for one in sync with one Magnetic recorder to be operated cinema projector For the dubbing of cinema films, in particular 8 mm narrow films, coupling devices have been built with their help the cinema projector together with a standard magnetic sound device in synchronism can be operated. In a known embodiment of such a coupling device is a variable resistor in the circuit of the motor driving the projector switched on, which is used to adjust the speed of the film transport to the running speed of the magnetic tape. For this purpose, the magnetic tape is on guide rollers guided so that it forms a loop. This loop is between the sound roll of the magnetic recorder and one from the projector via a flexible one Shaft driven transport roller, which by applying a properly chosen one Translation at normal film transport speed the same peripheral speed possesses, as it has operationally the magnetic tape. In the event of a discrepancy the film speed from the set point therefore changes the length of the formed Tape loop. This is used to do the change with the help of a dancer role the loop length on the wiper of the variable resistor in the motor circuit to be transmitted, and the sense of this change in resistance is chosen so that a Deviation of the film transport speed from the target value is automatically compensated will. For example, if the projector runs too slowly, the tape loop will be longer, and the rheostat is reduced by this loop extension Value controlled so that the projector motor runs faster until the target speed is reached.

However, this known coupling device has the disadvantage that when starting Difficulties arise. As is well known, the usual magnetic sound devices have almost the prescribed belt speed immediately after switching on on, since with them only small masses have to be accelerated and since the larger masses, namely the tape reels, only assume very low speed. By using a relatively large centrifugal mass on the clay roller is a very fast one Synchronization ensured. In contrast, the motor of a cinema projector accelerates the transport mechanism and the film too slow. So it forms on startup easily a very large tape loop, which in practice in very many cases leads to the so-called ribbon salad.

The invention can overcome these difficulties. A Coupling device according to the invention has a timing element which, when the projector motor starts up lets this develop a higher torque than him for the duration of the start-up can be requested during normal operation. This increased torque will So a faster start-up of the projector is achieved, and you get the starting torque dimensioned so that there is an acceleration that corresponds to the acceleration of the Corresponds to the magnetic device. In this case the desired state is reached, that just as much tape material is fed into the loop when the magnetic device starts up how the transport roller coupled to the projector can move away, so that the loop length remains practically unchanged even at start-up.

As is known, there are various ways of achieving the higher starting torque Middle. It appears particularly simple and therefore useful to have one or more in the motor circuit in series with the rheostat controlled by the magnetic tape loop to connect lying series resistors to a switching device from the timer is influenced and the series resistors short-circuited during start-up. Such Series resistors are often provided in the image projectors and are used for limiting the total resistance to be connected upstream of the motor. These series resistors can so use it very expediently for the solution of the problem at hand.

It is advantageous to use it as a switching device for the to be short-circuited Series resistors a delayed relay with a normally closed contact for the series resistors is provided. Such a relay is energized when the system is switched on, but cannot operate its contact at first, as there is a delay in picking up Mistake is. The normally closed contact therefore initially bridges the aforementioned Series resistors, so that the motor of the cinema projector has a larger one from the start Receives starting current. After the delay time has elapsed, the normally closed contact opens, with which the motor current is reduced by a corresponding amount. The pickup delay is to be dimensioned in such a way that the projector motor is at least approximated in the meantime has reached its normal speed.

To achieve a sufficient pull-in delay can be advantageous be connected in parallel to the relay winding a capacitor, with between the Parallel connection of relay winding and capacitor on the one hand and the power source on the other hand, there is an optionally changeable charging resistance. The parallel capacitor causes, in a manner known per se, a considerable pull-in delay of the relay, while with the charging resistor the charging process of the capacitor and thus the Pickup delay can be influenced within certain limits. The achieved pull-in delay can therefore be adjusted to a desired value with this charging resistor.

It is well known that the mains voltage is used to make the projector and the magnetic recorder operated, not always completely constant. When the mains voltage drops, the result is an extension of the time it takes for the projector motor to start up. Therefore it is useful if the arrangement is made so that the front timer the specified delay time, depending on the mains voltage, is the greater, the lower the line voltage. The resistor-capacitor arrangement serving as a timing element can advantageously to which the relay winding is connected to the terminal voltage via a rectifier of the projector motor. With a lower network or motor terminal voltage an extended pick-up delay of the relay with which the extended start-up time of the motor is largely compensated for.

It has already been mentioned that the delay time is approximately equal to the The time it takes for the projector motor to reach its target speed can be selected needed. However, this can still result in unpleasant control oscillations can be so large that the motor is triggered several times by the delayed relay briefly off = and on. It is well known that such regulations overregulations due to the various masses to be accelerated in the entire control loop possible, which lead to such control oscillations, to avoid such phenomena the relay short-circuiting the series resistors with a drop-out delay is useful equipped that measure greater than the time of a complete control oscillation is.

The drawing shows an exemplary embodiment of the subject matter of the invention shown schematically, namely Fig. 1 shows an electromechanical clutch device of the previously customary and known type, while in Figure 2 the circuit of the improved Coupling device according to the invention is shown, In Fig, 1 is the projector denoted by 1, and only the most essential parts of the projector are indicated. The same applies to the magnetic device 2. The actual coupling device 3 contains a variable resistor 4, the slider 5 of which is moved by means of a two-armed lever 6 can be, which has a spring bias and at its free end a dancer roller 7 wears. The tape 8 is guided in a loop over this dancer role. It moves during operation in the direction indicated by the arrow and arrives after passing the magnetic heads 9 over a deflection roller 10, the dancer roller 7 and a transport roller 11 for the take-up reel. The transport roller 11 is about a flexible shaft 12 coupled with the motor 13 or the switching mechanism of the projector 1, and a pressure roller 14 presses (read tape 8 continuously against the surface of the transport roller 11. The series connection of the variable resistor is in the circuit of the projector motor 13 4 and a series resistor 15.

The entire system is operated from the power grid, which is operated by the terminals marked with the alternating current symbol are indicated. The rheostat 4 is designed so that the grinder 5 is just before its lowest end position slides down from the winds of the resistance wire, therefore a switch-off position owns. When starting up, the magnetic tape 8 is in the manner shown passed over the various reels, and its start is at the core of the take-up reel attached. The latter is made by hand a few times in the usual way Axis rotated to define the end of the magnetic tape. This results from even that the one formed between the deflection roller 10 and the transport roller 11 Tape loop 16 assumes its smallest length; the dancer role 7 is therefore after pulled up, and the two-armed lever 6 has the contact 5 of the turns of the Resistance 4 pushed down. So it takes its off position. Going to happen now the system is energized, which is caused by the start-up of the magnetic device proceeds in the manner provided for this, the tape 8 starts up. the Belt loop 16 is elongated and the dancer roller 7 pushes the contact 5 open the resistance winding 4, so that the motor 13 is energized and starts up. There If this is initially still done slowly, the transport roller 11 only conveys a small amount of strip material out of the tape loop 16 while the normal amount of tape is being fed to it. The loop therefore takes on an ever greater length, so that the rule resisted 4 is set to its lowest value immediately upon start-up. With that, the Starting the engine with its full rated torque, but obviously still doing so is limited by the series resistor 15. It should be evident that not extremely powerful projector motor there is a risk of tape salad because of the loop Normal amount of tape fed in from the first moment, but not enough tape is removed via the transport roller 11.

If you expand the coupling device by application according to the invention a timer, which accelerates the start-up of the projector, so this danger avoided, and for this purpose the circuit of FIG. 2 can be used. Here are the same Reference numerals are used as in FIG. 1, insofar as they denote the same parts should be.

This circuit is still in friction with the motor 13 the control resistor 4 with sliding contact 5 and a fixed series resistor 15, the however, for reasons to be discussed later, another, but controllable, one Series resistor 17 is added. Immediately on the terminals of the motor 13 is a Full-wave rectifier 18, a timer and a relay from its DC terminals 19 can be fed. The timing element consists of one Charging resistor 20 and a capacitor 21, which is connected in series with a further resistor 22 to the Terminals of the relay winding 19 is located. The normally closed contact of this relay is denoted by 23 and bridges the two resistors 15 and 17 in its rest position.

When switching on, here, as soon as the sliding contact 5, the windings of the resistor 4 touches, the motor 13 is connected to voltage and starts: As in the way already described, the sliding contact 5 by the lengthening Band loop 16 is set to the lowest value of the '' resistor 4 and since the resistors 15 and 17 are also bridged by the normally closed contact 23, If the motor 13 receives the full line voltage, it can start up particularly quickly. An excitation voltage supplied by the rectifier 18 arrives at the same time as the motor 13 to the timer 20, 21, 22 and the relay winding 19. But since this relay is strong is delayed, the relay contact 23 remains in his for a relatively long time Rest position and is only opened when the delay time has expired. This time span is determined by appropriate dimensioning of the capacitor 21 and setting of the `` 'resistor 20 is chosen so that before the contact 23 opens, the motor 13 not only reached its nominal speed, but also by exceeding the nominal speed the belt loop 16 has shortened so far that the sliding contact 5 is at least approximately has taken its operationally intended middle position. Now becomes the relay winding 19 effective, so that the contact 23 opens, then this is the normal operating state reached, and by starting the motor at full mains voltage is achieved, that the processes described could take place before an inadmissibly large one Magnetic tape amount of the loop 16 could be fed.

There is the possibility that the sliding contact 5 by the shortening tape loop 16 is brought into the off position, although the relay winding 19 took effect in time and the contact 23 has opened. The cause of this phenomenon is based on the inertia with which the make mechanical speed changes. With this deactivation of the Motor 13, the relay winding 19 would be de-energized, the relay would drop out, and that In this way, the whole system would be subject to regular oscillations, which correspond to the normal Prevent or at least delay operation. Therefore the capacitor resistor element designed in such a way that the capacitor 21, which is parallel to the relay winding also causes a dropout delay. This is due to the appropriate choice of the series resistance 22 is set to a value that is greater than that for a complete control oscillation required time is so that the development of control oscillations is prevented.

In practice it has been found that occasionally during normal operation readjustment of the projector motor had to be made to adjust the sliding contact 5 to be able to keep it constantly in its operationally intended middle position. As for this readjustment with commercially available projectors either none at all or control elements that are too roughly adjustable are provided, the involvement has to be taken into account of the rheostat 17 proved to be useful, the intervention on the projector saved and can easily be designed so that it provides the necessary fine-grained control enables.

Claims (7)

PATENT CLAIMS: 1. Electromechanical coupling device for an im Synchronous operation with a magnetic recorder to be operated cinema projector, consisting of a variable resistor in the motor circuit of the projector, its wiper one driven between the sound roll of the magnetic recorder and one driven by the projector Transport roller formed loop of the magnetic tape is controlled and the film transport tunes to the tape speed, characterized by a timer (20, 21) that when the projector motor (13) starts up for the duration of the start-up Can develop higher torque than he would be required in normal operation can. 2. Apparatus according to claim 1, characterized in that one or more im Motor circuit in series with the variable resistor controlled by the magnetic tape loop (16) (4) lying series resistors (15, 17) connected to a switching device (19, 23) which is influenced by the timing element (20, 21) and the series resistors during start-up shorts. 3. Apparatus according to claim 2, characterized in that as a switching device a switch-on delayed relay (19) is used, the normally closed contact (23) of which the series resistors (15, 17) short-circuits. 4. Apparatus according to claim 3, characterized in that for Achieving a sufficient and possibly adjustable pick-up delay parallel to the relay winding (19) is a capacitor (21) to which the operating current of the relay (19) via an optionally changeable charging resistor (20) will. 5. Apparatus according to any one of claims 1 to 4, characterized in that the The delay time specified by the timer is set to be greater depending on the mains voltage the lower the line voltage. 6. Apparatus according to claim 5, characterized in that that the resistor-capacitor arrangement (20,21) serving as a timing element has a Rectifier (18) connected to the terminal voltage of the projector motor (13) is. 7. Apparatus according to claims 1 to 6, characterized in that the series resistors (15, 17) short-circuiting relays (19) with a drop-out delay, if necessary by a parallel series connection of resistor (22) and capacitor (21), which is longer than the time of a complete control oscillation is sized.