BE508743A - - Google Patents

Description

       

   <Desc / Clms Page number 1>
 



  METHOD AND APPARATUS FOR CONTROL OF ELECTROMAGNETIC RELAYS, ESPECIALLY FOR AUTOMATIC STARTING OF CINEMATOGRAPHIC PROJECTEU.RS.



   The present invention relates to the control of electromagnetic relays, in particular for the direction of cinematographic programs and of projection, and more particularly of the continuous projection of cinematographic films in programs of this kind.



   For the projection of cinematographic films, it is customary to apply to the films visible marks which, appearing on the projection screen, constitute signals indicating to the operator the moment for the execution of the manual operations intended for the passage. from one projector to the next.

   These operations include lighting and adjusting the electric arc of the next projector (in which the next reel and film have already been set up for projection and winding), starting the engine, controlling the shutters unmasking the beam from the next projector and masking the beam from the previous projector, and reversing the connections of the sound amplifier to disconnect it from the sound player (magnetic or photoelectric and cooperating with the sound track on the film) device and to connect it to the player of the next projector.



   The aim of the invention is to create a method and an apparatus for controlling electromagnetic relays, in particular for starting the next projector under Inaction of electrical pulses transmitted at predetermined times, for example using marks or reference marks. applied to the final part of the film coming out of the previous projector to wind up on the take-up reel. The method and apparatus applied to the cinematographic projection 'can also serve to stop the preceding projector by the intervention of the marks applied on the final part of the film.

 <Desc / Clms Page number 2>

 



   Another object of the invention is to create a method and an apparatus for the automatic control of continuous projection, with three reels of film or more, by unstarting one and stopping the other. 'at least two projectors.



   Another object of the invention is to create a method and an apparatus for the direction of dinematographic programs comprising the projection of films (including the continuous projection of at least one film in two or more reels with automatic control), and a automatic device for the presentation and direction of an auxiliary program before and after the screening of the film, and in particular during an intermission inserted in the screening of the film.

   By "auxiliary program" is meant in the remainder of this description one or more operations such as the reproduction of music or of speech, the lighting and extinction of the arc of a projector for fixed projections, the automatic starting and stopping of at least one projector for at least one reel of film, the closing and opening of stage curtains, and the control of stage lighting and (or) of the room.



   The subject of the invention is therefore a method for controlling electromagnetic relays in which successive electric pulses produced automatically are brought into play to trigger electric operations, which in turn act automatically and successively on the operation of several electric circuits. selected.



   More precisely, the object of the invention is a method for triggering the start-up of a following cinematographic projector so that the start of the film of the next reel is projected simultaneously with or immediately after the end of the projection of the film of the next reel. preceding reel in a preceding projector, method in which electrical pulses successively produced by marks applied to the film, for example on the final part of the film of the preceding reel coming out of the preceding projector to wind up on the receiving reel, are used - triggered to trigger at least one of the two operations consisting in closing the circuit of the arc lamp (and preferably in simultaneously activating an audible warning device) and in closing the circuit of the drive motor of the next headlight,

   to control the shutters intended to unmask the beam of the next projector and simultaneously mask the beam of the previous projector, and to reverse the connections of the sound amplifier to disconnect it from the sound player of the previous projector and to connect it. ter to the next projector sound player.



   The method as just defined can also include the operation which consists in then automatically stopping the preceding projector by opening the circuits of the arc lamp and of the motor under the action. a pulse produced by another mark applied to the film of one of the two reels, or by the rear end exiting from the previous projector to wind up on the receiving reel.



   The invention also provides a method of automatically controlling a continuous projection with at least two projectors and with a film in at least three reels, in which method the starting of one of the projectors and the stopping of the film. other projector are provided in the manner previously described by electric pulses produced by marks applied to the films, or by the output of the posterior end of a film from one or the other projector, by the species of the previous projector, the electrical connections being automatically reversed so that each projector operates in turn as the previous projector and the next projector.



   The invention also creates a method for the direction of cinematographic programs comprising an auxiliary program in which, before or after the end of the projection of films (and according to one of the other of the last two aforementioned methods), electrical impulses

 <Desc / Clms Page number 3>

 are automatically transmitted to initiate or to stop in a synchronized or otherwise 'predetermined order one or more operations forming part of the auxiliary program. This method of program management may include automatic switching or reverting to film projection at the end of the auxiliary program.



   For the implementation of the method according to 1-'invention as has just been described, one can use a main relay intended to be actuated by successive electrical pulses, the operation of this main relay triggering the entry into action of secondary relays controlling the operation of several groups of contacts associated with these secondary relays, while the entry into action of these groups of contacts in turn ensures the successive operation of electric circuits.



   The apparatus according to the invention comprises, for example, a thyratron tube intended to receive electrical pulses from a bali reader cooperating with a conductive mark applied to a cinematographic film, the entry into action of the tube ensuring the excitation of a main pulse relay equipped with groups of contacts, the number of which corresponds to the number of operations to be carried out, and which are arranged to be closed simultaneously as soon as the main relay comes into action, each group contact being associated with a secondary relay, each secondary relay being intended to control switching contacts intercalated in the various circuits,

   and the arrangement being such that a series of pulses applied to the main relay successively triggers the operation of the secondary relays so that the switching contacts of each secondary relay are closed in turn to successively operate. operate the corresponding circuits.



   The aforementioned devices are applicable to the direction of cinematographic programs by the main relay intervening to actuate several groups of contacts inserted in the multiple circuits respectively controlling the various operations necessary for the passage from one projector to another. It is also possible to control other operations of the program which one wishes to carry out automatically via additional groups of contacts.



   For the implementation of the method ensuring the start-up of a following headlight, it is possible to use a device comprising a main relay, an intermittent switching relay intended to actuate successively secondary relays then being provided to close or to open the circuits. electrical requirements.



   It is possible to combine with this device an automatic device intended to stop the previous projector when the end of a film leaves this projector to wind up on the receiving reel, this automatic device comprising primary relays intended to open the electrical circuits of the projector. drive motor and the arc lamp using an electrical pulse produced by the passage of the end of the film facing a response device. The main relay can be reduced to a single relay, the excitation of which ensures the opening of two pairs of contacts respectively interposed in the circuits of the lamp and of the motor.



   This automatic shut-off device can also include the combination of relays as described with the response device mounted in the projector. The response device can co-operate electrically or magnetically with a conductive mark applied to the film in the manner described in the patent filed this same day by the applicant for "Device for obtaining a continuous cinema projection. with several reels of film ", or may comprise two members carrying contact pads separated by the film passing through the projector, and intended to close an electrical circuit as soon as they touch each other following a break or the passage of the end of the film between said organs, as described in the patent filed on the same day

 <Desc / Clms Page number 4>

 by the plaintiff for:

   "Device for automatically stopping a cinematographic projector after the film breaks or slows down".



   The apparatus for carrying out the method for automatically controlling the continuous projection of a film may comprise a device with a distributor relay actuated step by step which, at the end of a number of switchings equal to the number of headlamps used, returns by itself to the starting or waiting position for the repetition of the same series of switching operations. The distributor relay can be set up to perform a single series of switchings and then automatically return to the start or standby position, in combination with an automatic switch by means of which successive switchings successively control the following headlamps.



   A main pulse relay of the aforementioned type can also be formed for implementing the method of automatically controlling the continuous projection of a film, by its cooperation with several groups of secondary relays respectively interposed in the control circuits of the film. one of several projectors, and combined with additional primary relays actuated by an electrical pulse to control switches for connecting the contacts of the main pulse relay to a group of secondary relays at a time.



   For the direction of cinematographic programs comprising the projection of films and an auxiliary program by the aforementioned method, the devices described in the two preceding paragraphs can be combined with a mechanism comprising a movable control member carrying several adjustable or movable cams at will. , or an assembly of circuit selectors, arranged to produce a sequence of electrical pulses in predetermined intervals and a switch actuated at the end of the projection of the film of at least one reel to trigger the operation of this mechanism.



   The aforementioned control mechanism may include a rotary control member or equivalent, arranged and operating for example in the manner described in the patent filed this same day by the applicant for: "Method and apparatus for directing cinematographic and similar programs" o Another A device for carrying out a series of operations may include a set of circuit selectors as is also described in this patent for: "Method and apparatus for directing cinematographic programs and the like".



   Although the methods and devices may be applied separately with advantage under certain conditions, a maximum of advantages are obtained by the combination of several methods and devices for controlling the projection of a film, with or without control. of an auxiliary program, because the most favorable automatic operation can thus be achieved.



   In order to better understand the peculiarities of the invention, an automatic control assembly comprising the various devices in combination will be described below, with reference to the appended drawing in which:. Figures 1 and la show a circuit diagram for a control assembly for two cinema projectors.



   Figure 2 is a circuit diagram of a variant.



   FIG. 3 is a front view of the apparatus according to the invention.



   The apparatus shown in FIGS. 1 and 1a comprises an MV supply transformer whose primary winding is supplied with current via terminals 11 and 12, via a main switch MS. The MV transformer comprises four secondary windings supplying respectively:

   

 <Desc / Clms Page number 5>

 a) a current of a suitable voltage for heating the cathodes of triode electron tubes T1 and T2 and of a diode tube D which will be described later (the terminals X & Z, heating filaments being respectively connected to terminal X of the positive conductor of said secondary winding, and to terminal Z of one of the contact blades CH of a relay BS whose other blade is connected to said positive conductor). b) A current applied to a rectifier which supplies the main continuous operating current and the anode voltage for the electronic tubes T2 and C. c) A high voltage current for the anode of the electronic tube T1 whose anode current activates certain relays.

   d) A voltage current suitable for the polarization of the grids of the tubes T1 and T2.



   One branch of each of the secondary windings of the MT transformer is connected to a common ground conductor which extends through all the circuits starting from a terminal 10.



   The assembly comprises relays A1, A2, the contacts of which are interposed in the circuits of the arc lamps of two cinematographic projectors (respectively designated by Pl and P2) by terminals 1 and 2, relays M1 and M2 whose contacts are respectively interposed in the circuits of the driving motors of the headlights Pl and P2 via terminals 3 and 4, a relay BS which is used to actuate the shutters acting simultaneously to unmask the beam of the headlight Pl and to mask the beam of projector P2, or vice versa,

   by passing the current through either of the terminals 5 and 6 into appropriate electromagnetic control members and an SOF relay which serves to reverse the connections of the sound amplifier to disconnect it from the sound player of projector Pl and to connect it to the sound player of projector P2, or vice versa.



   The selective control of relays A1, A2, M1, M2, BS and SOF is ensured by an automatic distributor relay SS operating step by step and comprising two brushes C1, C2 movable angularly to pass respectively over rows of contact pads Sla - S7a - S1b-S2b-S5b-27b. The angular displacement of the brushes C1 and C2 clockwise towards the working positions is ensured by a latching mechanism or the appropriate equivalent, using an OC control winding excited by anode current pulses. (produced in a manner described later) from triode tube T1.

   When a reverser K occupies the "AUTO" position, the return of the distributor relay SS to the starting position shown is ensured by the energization of an RC return winding, in the manner described later.



   In the starting or waiting position of the distributor relay SS, the brush C1 is engaged on the unconnected pad Sla, while the brush C2 rests on the pad Slb. Direct current from the rectifier is thus applied to one side of the manually operated start switches SA2, SM2 and SP2. The opposite sides of these switches are respectively connected to relays A2, M2 and to relays BS and SOF in parallel. The current also lights a PL pilot light which indicates that the device is in a standby state for manual start.

   An RS switch is used to bring the SS 0 relay to the starting position (if it is not already occupying it) by energizing the RC return winding, which also activates the TR contact to disconnect the relay. broom C1 during the return movement.



   The operation of the inverter K to the "AUTO" position connects the anode of the electronic tube T1 to the supply conductor coming from the transformer MT and passing through the control winding OC of the distributor relay SS. The anodes of the triode tube and the diode tube D are permanently connected to the DC high voltage source as shown in the drawing. In this 'tAUTO' position, the inverter K also connects

 <Desc / Clms Page number 6>

 the output of the rectifier to the C1 brush of the SS distributor relay, while the C2 brush of this relay is permanently connected to this rectifier in the manner shown.



   The inverter K is in two directions and with two poles, and can occupy another "DRUM" position in which the anode of the tube Tl is connected to its anode voltage conductor coming from the transformer MT and passing through a relay of drum DR, and no longer by the OC control winding of the SS distributor relay. The brush C1 of the SS relay is then disconnected from its direct current source, and receives the current through the contacts DC1 of the drum relay DR connected to a terminal 9, the purpose of which will be described later.



   In each of the positions of the inverter K, the direct current source is also used to light one or the other of the lamps AL and DL which respectively indicate that the inverter occupies one of the "AUTO" and "DRUM".



   The apparatus as it has just been described so far is intended to allow the manual switching on of a cinematographic projector, for example, of the projector P2, and to effect the automatic switching of this projector P2 to projector Pl, and then from projector Pl to projector.P2., depending on the number of film reels used for projection.



     The initiation of the switching operations is ensured by current pulses produced by devices incorporated in the projectors, which can advantageously be electrical response devices arranged to create pulses of determined duration in cooperation with markers. conductors applied to the film of each reel in the manner described in the patent filed the same day by the applicant for: "Device for obtaining a continuous cinematographic projection with several reels of film". The electrical response devices (not shown) of the projectors P1 and P2 are respectively connected to the terminals Pla and P2a.

   By means of the COC1 changeover contacts, the response device of the previous projector is connected to the grid of the triode tube T1.



   At this point, it is appropriate to describe the operations of manual starting and automatic switching from one projector to another carried out with the apparatus shown in the drawing. The other components, as well as their mode of operation, will be described as and when required.



   The assembly occupying the position shown in the drawing, the operator starts the projector P2 by closing the switches SA2, SM2 and SP2, either separately in this order, or simultaneously by coupling these three switches.



   For lighting the arc lamp in a film projector, it has heretofore been customary to bring the negative electrode into contact with the positive electrode in order to pass the current, and then to withdraw the current. negative electrode to create a small gap for the ignition of the arc. The interval between the electrodes is then adjusted to achieve the desired arc brightness.



   One of the characteristics of the present invention consists in eliminating this mode of manual ignition and of park adjustment, by the use of a fuse element capable of melting under the inaction of a current lower than that of the. arc, and then disintegrated or volatilized by combustion. The operator wedges this element between the electrodes of the arc lamp to keep them at the normal spacing for operation.



   The invention ensures in this way the automatic ignition of the arc as soon as the corresponding circuit is closed, that is to say of the switch SA2 of the example shown, provided that said fuse element has been inserted beforehand. between the electrodes.

 <Desc / Clms Page number 7>

 



   Closing switches SA2, SM2 and SP2 causes direct current to flow through brush Ç2 and distribution relay SS to the windings of relays A2, M2, BS and SOF. The energization of these windings closes the holding contacts shown below the relays A2, M2 and BS, and allows the arrival of the direct current to the windings by an LN conductor, which also causes this direct current to arrive at one of the a pair or group of contacts shown above each relay A1, A2, M1, M2, and two groups of contacts shown above relay BS. When relay A2 activates, closing the upper contacts causes current to flow to terminal 2 and then to the projector arc lamp P2.

   The actuation of relay M2, which closes the upper contacts, passes direct current to terminal 4 and then into the circuit of the projector driving motor P2. When the BS relay is engaged, the direct current flows from terminal 5 (in the position shown in the drawing) to terminal 6 and then into the device operating the shutters so that the beam of the headlight P2 is unmasked, while the beam from the headlight Pl is masked. Simultaneously, energizing the SOF relay reverses the connections of the sound amplifier by passing it from the SO1 terminal (in the position shown in the drawing) of the sound player of the projector Pl to the terminal S02 from projector sound player P2.

   The central blade of this relay is permanently connected to a common terminal SC of the amplifier circuit.



  Another group of contacts of the relay BS turns on the lamp SL2 to indicate to the operator that the playback takes place on the soundtrack of the film running in the projector P2, while the other lamp SL1 is off. At the same time, the two CH contacts shown above the BS relay are open to cut off the heating current of the diodeD tube filament. The purpose of this interruption will appear later. The windings of relays A2 and M2 are then connected to ground only by the contacts of a switch relay I. The windings of relays BS and SOF are connected to ground through resistor R2, so that the negative terminals of these windings are maintained at a potential above that of the mass.



  The aim is to obtain, in a manner described below, the tripping of these relays - by applying a direct current of the same voltage to the two terminals of their windings, and at the same time to prevent the short-circuit. firing the straightener.



   The apparatus is then conditioned to allow the projection of a film with the projector P2. Current flow to terminals 2, 4 and 6 is provided by the upper contacts of relays A2, M2 and BS held in circuit by the contacts shown below these relays.



  The operator can therefore open the switches SA2, SM2, SP2.



   The automatic passage from one projector to the next is ensured by a device which comes into action at the end of the film passing through the projector P2 to transmit a series of electrical pulses to terminal P2a and then, via the contacts. COC1 from the CO changeover relay, to the grid of the triode tube Tl.



   The first pulse applied to the triode tube T1 made pass? a pulse of anode current in the control winding OC of the distributor relay SS. The brush C1 is thus pushed onto the pad S2a which causes the current to pass through the winding of the relay Al. The lower contacts of the latter close to maintain the arrival of direct current, while the upper contacts close to make arrive the current at terminal 1, and then to the arc lamp of the projector P1 previously provided with a fuse starting element as described previously.

   Simultaneously, the brush C2 is pushed on the pad S2b to bring the current to terminal 8 and then to an audible warning device, for example to a buzzer, indicating to the operator the approach of the change so that it can monitor the arc of the projector Pl to make sure that it starts properly.



   A second pulse involves the distributor relay SS to push the brush C1 on the pad S3a. Via

 <Desc / Clms Page number 8>

 relay M1 and terminal 3, the voltage is applied to the driving motor of the headlight Pl which starts up.



   A third pulse acts on the distributor relay SS to push the brush C1 on the pad S4a which neutralizes the windings of the relays BS and SOF with a view to their triggering. Triggering of the relay BS stops the arrival of direct current to terminal 8 and connects the direct current source to terminal 5. The shutters unmask the beam from the headlight Pl and hide the beam from the headlight P2.



  This trigger also turns off the SL2 lamp and turns on the SLIo lamp. Simultaneously, triggering the SOF relay reverses the sound amplifier connections by connecting the SC terminal to the SO1 terminal, and separating the SC and S02 terminals. The sound playback therefore continues on the track of the film running in the projector P1.



   After these operations, the actual passage from one projector to the next is completed, but the arc lamp and the driving motor of the previous projector P2 are still on, while the arc lamp and the motor. of the next headlamp P1 are connected to earth by the contacts of the switch relay I and by the contacts COC3 of the changeover relay CO.



   It comes within the scope of the invention to stop the motor and to extinguish the arc of the preceding headlamp by a device actuated by a fourth pulse applied to the terminal P2a and to the tube T1. It is however indicated that these operations are carried out by another means, in this case by the exit of the posterior end of the film, for example in the manner described in the patent filed on the same day by the applicant for "Device for automatically shutting down a motion picture projector after film breakage or slowing down ", since the response device described in this patent also acts as a safety switch in the event of film breakage in the projector running, therefore - in the projector P1.



   The apparatus is therefore arranged so that a fourth pulse is applied by the device described in the aforementioned patent to terminal P2b, and then through the contacts COC2 of the changeover relay CO to the gate of the triode tube T2. As a result, a pulse of anode current passes through the switch relay I and opens its two pairs of contacts, which also opens the circuits of the arc relay A2 and of the motor relay M2 (connected to ground. only through these contacts).



  The preceding headlamp P2 is therefore stopped, while the circuits of the arc relay Al and of the motor relay M1 (still connected to ground by the changeover contacts COC3) are not influenced.



     The activation of the relay BS, produced by the third pulse applied to terminal P2a, causes the CH contacts to close in order to bring current to the heating filament of the diode tube. IL Using a rheostat R1, the current is adjusted so that the heating of the cathode to the emission temperature is delayed sufficiently to allow the switching relay I to come into action as described. Then, when the anode current circulates in the diode tube D, the changeover relay CO is switched on so that the contacts COC1 establish the connection of the terminal Pla and break the connection of the terminal P2a with the grid of the triode tube T1. The COC2 contacts establish the connection of the terminal Plb and break the connection of the terminal P2b with the triode tubeT2.

   The SOG3 contacts connect the arc relay A2 and the motor relay M2 directly to earth and cut the direct link between the earth and the arc relay Al and the motor relay M1. These last two relays are thus connected to ground only by the contacts of the switch relay I which have been reformed.



   The projector Pl is thus conditioned to stop in the event of the film breaking, and to transmit an impulse to the terminal Plb and to the switch relay I with a view to opening the circuits of the relay Al of

 <Desc / Clms Page number 9>

 the arc and the motor relay M1. In addition, the assembly is in the waiting position for another automatic change as soon as the end of the film running in the projector P1 is approaching, which then becomes the previous projector.



   As soon as the rear end of the film running in the projector P1 comes out of the latter to wind up on the receiving reel; a series of electrical pulses is applied via the contacts COC1, to the terminal Pla and to the gate of the triode tube T1.



   The first pulse in this series passes a pulse of anode current through control winding 00 of the distribution relay SS. The brush C1 is therefore pushed onto the pad S5a which passes the current through the winding of the relay A2. The lower contacts of this one close to maintain the arrival of the direct current, while the upper contacts close to bring the current to the terminal S3 and then to the arc lamp of the projector P2, which has been provided beforehand with a fuse starting element as described above.

   Simultaneously, the brush 02 is pushed on the pad S5b to make the current arrive at the terminal '7 and then to the buzzer indicating to the operator the approach of another change, so that it can monitor the arc of the P2 projector to ensure it starts properly.



   The second pulse acts on the distributor relay SS so that the brush C1 is pushed on the pad S6a. Via relay M2 and terminal 4, the drive motor of the projector P2 is then started.



   The third pulse acts on the distributor relay SS so that the brush C1 is pushed on the pad S7a for the excitation of the windings of the relays BS and SOF. The relay BS stops the arrival of direct current to terminal 5, and connects the direct current source to terminal 6. The shutters are actuated to unmask the beam from headlight P2 and to mask the beam from headlight Pl. Said re - this also turns off the SL1 lamp and turns on the SL2 lamp. Simultaneously, the SOS relay establishes the connection between the SC, and S02 terminals, and breaks the connection between the SC and SO1 terminals of the sound amplifier, so that playback continues on the movie track running through the projector. P2.



   After these operations, the actual change of the projection is again completed, but the circuits of the arc lamp and the drive motor of the previous projector P1 are still closed, while the circuits of the arc lamp and the motor of the next headlamp P2 are connected to earth by the contacts of the switch relay I and by the contacts 0003 of the changeover relay CO.



   A fourth pulse is therefore applied to terminal Plb, and then through the contacts COC2 of the CO changeover relay, to the grill of the triode tube T2. As a result, an anode current pulse acts on the switch relay I which opens its two pairs of contacts.



  The circuits of the arc lamp relay Al and of the motor relay Ml (only connected to the mass by these contacts) are open and the previous projector Pl is stopped, while the circuits of the lamp relay at arc A2 and motor relay M2 (still connected to earth by COC3 changeover contacts) are not influenced.



   The entry into action of the relay BS, produced by the third pulse applied to the terminal Pla, ensures the opening of the upper contacts CH to stop the arrival of the current to the heating filament of the diode tube D. After an interval of time sufficient to allow the switch relay 1 to come into action in the manner previously described, the anode current stops flowing through diode tube D, and the changeover relay is de-energized, so that the COCA contacts establish the connection of terminal P2a and break the connection of terminal Pla with the grid of triode tube Tl. Contacts 0002 establish the connection of

 <Desc / Clms Page number 10>

 terminal P2b and break the connection of terminal Plb with the triode tube 52.



  The COC3 contacts directly ground the arc lamp relay Al and the motor relay M1, while they interrupt the direct ground link with the arc lamp relay A2 and the motor relay M2, these two the last relays are then connected to earth only by the contacts of switch relay 1.



   The projector P2 is thus conditioned to stop in the event of the film breaking, by the transmission of an impulse to the terminal P2b and to the switch relay I then opening the circuits of the arc lamp relay Al and the motor relay. Mlo Moreover, the whole is in position. waiting for another automatic change as the end of the film running in projector P2 approaches, which thus becomes the previous projector.



   On the other hand, the third pulse coming from the terminal Pla also intervenes to push the brush C2 of the distributor relay SS on the pad S7b. Direct current is thus applied to the RC return winding of this distributor relay at the end of the short energization of the OC control winding. The return winding RC then intervenes to release the latching device and the brushes C1 and C2 which return to their starting position as shown in the drawing. The circuit breaker TR disconnects the brush C1 during the return.



   Of course, the automatic change from a previous projector P1 or P2 to the next projector can take place as described, as often as required by the number of coils required for continuous projection.



   To present an auxiliary program, for example during an intermission interspersed in the main program, the operator switches the inverter K to the "DRUM" position at any point of the projection with the last reel. It does not matter whether this last coil has an odd order number (the brushes C1 and C2 of the distributor relay then being respectively placed on the pads Sla and Slb) or an even order number (the brush C1 then being placed on the pad S4a), the anode of the trio tube of T1 being anyway separated from the control winding OC and connected to the current source through the winding of the drum relay DR.



  The first pulse applied to one of the terminals Pla and P2a acts on the relay DR in the direction of the closing of the contacts DC1, so that the direct current arrives at terminal 9 and then at the auxiliary program manager device, or to all of the circuit selectors, and preferably to an electric clock movement intended for synchronizing this device, in the manner described in the patent filed this same day by the applicant for "Method and controlling device of cinematographic and similar programs ".

   At the same time, the disconnected OC control winding cannot intervene to actuate the SS relay in response to this first impulse, nor of the following impulses, to start the projector in the standby position.
Consequently, at the end of the film leaving the projector then in action, a pulse applied to any one of the terminals Plb and P2b completely stops the operation of the apparatus which the operator can bring back to the standby position for the resumption. operation by moving the inverter K to the "AUTO" position.



   To insert the projection of a film into an auxiliary program, for example for the presentation of extracts from the film of the next program, or of similar short films; the program directing apparatus may be arranged to apply pulses of current to one of the terminals P2a or Pla, in order to start one of the projectors Pl or P2. To this end, the operator places the inverter K in the "AUTO" position, waiting for this projection. These start pulses can also be applied directly to the OC control winding of the SS distributor relay, the C1 brush of this relay being

 <Desc / Clms Page number 11>

 temporarily connected by the directing apparatus to the direct current source in some suitable manner.

   In another embodiment, the inverter K can receive an additional electromagnetic control such that electrical pulses applied at suitable intervals to the electromagnet by the program director apparatus cause the inverter K to pass. to the "AUTO" or "DRUM" position at the desired times.



   Of course, it is possible to imagine variants and modifications of details of the method and of the apparatus for the direction of cinematographic programs which have just been described.



   In a variant of the apparatus shown in FIGS. 1 and la, the positive direct current conductor leading to the brush C1 of the distributor relay SS can pass through pairs of additional contacts mounted in parallel, one of the pairs being closed by the energization of each or any of the relays A1, A2, M1, M2. The current to brush C1 is thus automatically interrupted if none of the projectors is working. One of these pairs of contacts can be arranged to be closed or short-circuited each time the auxiliary program control apparatus comes into action to start a projector.



   In another variant, the SOF relay can be controlled by an additional pair of contacts of the BS relay instead of being directly controlled in the manner previously described. This then makes it possible to place the SOF relay outside the device described, for example in the amplifier.



   The connections of the DR relay can also be modified to allow its operation under Inaction of pulses applied to the terminals Pla or P2a through the S3b or S6b pads of the SS distributor relay (none of which is involved in the operation. previously described).



   FIG. 2 of the drawing is a diagram making it possible to control at least one series of three separate operations, necessary for example for starting a cinematographic projector, in this case the initiation of the arc, the starting of the motor and the light beam shutter control.



   The apparatus shown in this figure comprises (in combination with the drum relay DR, the drum switch DS, and the auto-switch AS of figures 1 and la, and in replacement of the distributor relay SS) an electronic tube VI preferably of the thyratron type, a pulse relay RY1, an arc lamp relay RY2, a motor relay RY3, and a shutter shutter relay RY4. in combination with many resistors and many capacitors forming the cooperating electronic circuits.



   The grid bias voltage of tube VI is applied to terminal Zl, while the appropriate high voltage to tube VI is applied to terminal Y. The operating current of relays DR, RY2, RY3 and RY4 comes through terminal W.



   In the arrangement shown in figure 2, the drum relay DR is switched off and the inverter VC, intended for the passage from the automatic change of projection to the direction of the auxiliary program (which may be called "drum direction"). , occupies the drum control position.When the AS auto-switch is momentarily closed, the DR relay is energized through the normally closed DS drum switch, and this relay closes its holding contacts Hl and actuates the inverter VC to connect the anode of the tube V1 to the supply terminal Y via the relay RY1.



   To trigger the automatic start-up of a subsequent projector under the conditions which have just been described, a

 <Desc / Clms Page number 12>

 device such as a predetermined interval on the film of the previous projector (having already worked), or on this film and on that of the next projector, applies a series of electrical pulses to the grid of the tube VI (which is at this effect the equivalent of the tube T1 of FIG. 1) via the bales Y1, Y2 of the transmitter or pulse reader.



   The bias voltage applied to the grid of tube V1 via terminal Z1 is chosen such that this tube does not allow any anode current to pass. As soon as a conductive mark on the film closes the gap between the brushes Y1, Y2 of the pulse reader, the gate voltage is reduced to a value allowing the passage of the anode current. The set of resistors R9, R3 and of capacitor C5 is arranged so that the grid of tube VI is not short-circuited by the conductive mark with the cathode during the closing of the gap between the brushes Y1, Y2.



   A resistor R2A in series with a capacitor C6A is inserted between the high voltage conductor Y and the common negative conductor. The relay RY1 is interposed between the common point of R2A and C6A and the anode of tube VI.



   Under normal conditions, the VI tube is polarized so that no anode current passes. The capacitor C6A is therefore fully charged, and it is kept charged by the high voltage arriving through the resistor R2A. As soon as the first pulse arrives on the grid of the tube, the reduction in the polarization of this grid triggers the ionization of this tube, so that it allows the anode current to pass.



   This anode current is taken on capacitor C6A through 1-winding of relay RY1, and produces the engagement of the latter. When the capacitor C6A is discharged, the VI tube continues to receive anode current from the high voltage terminal through the resistor R2A. The value of this resistance is chosen such that the voltage drop lowers the anode voltage of the tube VI to a value insufficient to maintain the latter in the state of ionization, so that the flow of the anode current ceases. Capacitor C6A is recharged, and the circuit is maintained in the quiescent state by biasing the gate through terminal Z1 through resistor R4 until the next pulse.



   As soon as the relay RY1 is triggered by the first pulse, it closes the three contacts P1, P2 and P3. Contact Pl applies to relay RY2 the starting current coming from conductor M.



  When this relay is activated, the arc starts in the next projector. The H2 contacts of relay RY2 close to keep it in the ON position when contact Pl of relay RY1 opens. Simultaneous closing of contact P1 and contacts P2 and P3 also allows current to flow through resistor R5 in the direction of relay RY3, and through capacitor C3 and resistor R7 in parallel. Since resistor R5 limits the arrival of current to relay RY3, it does not trigger.



   When the contact Pl opens, the relay RY2 is kept engaged by the holding contacts H2 in the manner previously described. Resistor R5 is then connected to incoming conductor W by these contacts H2, and capacitor C3 is charged through resistor R5. Resistor R7 intervenes only to ensure the complete discharge of capacitor C3 before the start of engagement and its value is chosen such that it exerts no appreciable action on the normal operation of the circuit.



   The second pulse applied to tube VI again causes the RY1 relay to switch on as described. The Pl contact has no effect since the RY2 relay is kept engaged by the H2 contacts. But closing contact P2 causes the discharge of the

 <Desc / Clms Page number 13>

 capacitor C3 through relay RY3, so that the latter closes the switch for the drive motor of the next projector, as well as the contacts H3 which keep relay RY3 engaged. Contact P3 also closes, so that capacitor C4 is charged as described for capacitor C3.



   The third pulse applied to tube VI causes relay RY1 to switch on again and contacts P1, P2 and P3 to close.



  Contacts P1 and P2 have no effect on this since relays RY2 and RY3 are kept engaged by holding contacts H2 and H3. Closing of contact P3 causes the discharge of capacitor C4 and the engagement of relay RY4, which operates the shutters and closes the holding contacts H4 as described for capacitor C3 and relay RY3.



   Each of the relays RY2, RY3 and RY4 has additional contacts (not shown) to control the lamp, arc and motor circuits of the next projector, and to operate the shutters of the two projectors at the same time as d 'other desired organs.



   The relays RY2, RY3 and RY4 being kept engaged by contacts H2, H3 and H4 respectively, it is possible, for automatic switchover to the next projector, to prepare the circuits of another set of relays identical to RY1, RY2 and RY3. To this end, there is provided another group of contacts (not shown) intended to be actuated by the relay RY4 to engage another relay (equivalent to the CO relay of Figures 1 and 1a), which is used to simultaneously actuate the CH2 inverters, CH3 and CH4 to connect the circuit comprising the contacts Pl, P2 and P3, the resistors R5, R6, R7 and R8 and the capacitors C3, C4, to the conductors A5, A6, A7, of the other set of relays.

   In the next series of operations carried out by the relay RY1, when the film leaves the previous projector, the interval between the brushes Y1, Y2 is closed by conductive marks. The relays of the other set are successively activated to close the arc lamp circuit and the motor circuit of the next headlight, and to actuate the shutters of the two headlights.



   In each of the return conductors of the relay set RY2, RY3 and RY4, or in each of the return conductors of the relay set RY2, RY3, RY4 and of the other identical set of relays is interposed a switch which can be automatic like the switch relay in figures 1 and 1a, or which can be actuated manually, for example using a button, to trigger the relays RY2, RY3 and RY4 (or the other set by an operation in the opposite direction of the switches) to stop the corresponding projector, the relays being returned to the standby position when the next projector is changed.



   When the drum steering device is to be activated, the DS drum switch is opened manually or automatically to trigger the DR relay. The holding contacts H1 open, and the inverter VC goes to the position shown in FIG. 2, disconnecting the anode of the tube VI of the relay RY1 and connecting this anode to the pulse relay DP of the drum.

   Consequently, if it is necessary to operate a projector for the projection of a film which is part of an auxiliary program, the arc circuit and the motor circuit as well as the shutter relays are directly controlled by contacts of the directing apparatus, while the pulses applied to tube VI by closing the gap between brushes Y1 and Y2 by a conductive mark of the film intervene to ensure the engagement of the relay at DP pulses through resistor R2D and capacitor C6D (equivalent to R2A and C6A), with a view to the actuation of the director apparatus for the presentation of the program in the manner previously described and in the patent filed that same day by the plaintiff for:

   "Method and apparatus for directing cinematographic and similar programs". The projector is stopped by a pulse applied to a

 <Desc / Clms Page number 14>

 member such as the tube T2 of Figures 1 and la.



   It is naturally easy to modify the arrangement of the circuits of FIGS. 1 and la, to incorporate a single pulse relay such as RY1. Compared to the stepping-operated SS distributor relay, the pulse relay offers the advantage of virtually eliminating mechanical vibrations and wear, which significantly reduces the risk of mechanical circuit failures.



   As soon as the polarization of the tube VI is reduced by the passage of a conductive marker of the film opposite the reader brushes, the tube VI is ionized and the relay RY1 is activated, whatever the speed of the film and whatever the length. of the conductive marker. The ionization time of tube VI (with any tube and with any operating conditions of this tube) depends entirely on the time constant of the set R2A-C6A, which can be chosen in a manner. ensuring the desired operating speed of the circuit, as determined by the ionization time of the VI tube.



   Without departing from the principle of the invention, one can imagine many variants of the circuits shown.



   These variations may include the use of "hard" multi-electrode tubes in place of the gas triode or thyroid gland shown for pulse transmission. Various tripping devices necessary or practicable for these tubes can also be used, the tripping being effected on one or more electrodes. The pulse relay can also be arranged in a way other than shown in the drawing.



   For the successive control of electromagnetic relays by electronic pulses, it is obvious that one can also use a combination of elements such as the tube VI, the relay RY1 and the relays RY2, RY3 and RY4 (or another number of relays of this kind, for example two or more than three) with their circuits, other than in connection with the projection of cinematographic films in the manner previously described.



   The aforementioned fuse element, intended for the automatic initiation of an arc, may be a grain of suitable composition and of a shape allowing it to be clamped between the ends of the electrodes of the arc lamp, the size of which grain being chosen to bring the electrodes to the normal spacing. This grain should also have a low melting or ignition point. It has been found that a strip of material, for example tin or other suitable U-bent substance, constitutes an advantageous fusible element to be clamped between the ends of the electrodes, with the branches respectively in contact with each electrode.

   The characteristics of the fuse element must be such that it prevents the sudden passage of all current, and that it is heated enough to form an arc while at the same time being completely disintegrated, burnt or broken so that residue can fall from the electrodes to allow the arc to form under normal conditions.



   FIG. 3 is a front view of the apparatus comprising a casing containing the electrical components previously described. The casing is preferably divided into three superimposed parts, the lower part 51 contains the power supply unit (transformers, rectifiers, etc.) The middle part 52 contains the apparatus shown in Figures 1 and 2 as well as the related organs. The upper part 53 contains at the rear of a transparent glass a drum director apparatus as described in the patent filed this same day by the applicant for: "Method and apparatus for directing cinematographic programs and the like !! .

   Parts 1 and 2 of the housing are separately removable on m chassis, and the electrical connections are preferably made by a set of pins and sockets. Organs intended for maneuver

 <Desc / Clms Page number 15>

 switches as well as pilot lights are mounted on panels.



  Key or lever components 55 allowing the operation of the drum exit through the panel of the upper part 53.



   The invention provides new and advantageous methods and apparatus for the direction of motion pictures in general and more particularly for the continuous projection of motion pictures in several reels and with several projectors, the manual operations being thus reduced. in number and possibly practically eliminated, except in. regarding the first start-up operations. In addition, with suitable modifications of the apparatus according to the invention, these initial start-up operations can be carried out automatically by simply closing a main switch.


    

Claims (1)

ABSTRACT. ----------- The subject of the invention is: I.- A method for controlling electromagnetic relays, which consists in using successive electric pulses produced automatically to perform electric commands which in turn act automatically and successively on the operation of several selected electric circuits. This process can also include the following additional characteristics, separately or in combination a) for the projection of cinematographic films, and more particularly for the projection of the beginning of the film of a following reel by a following projector, simultaneously or immediately after the end of the projection of the film of a preceding reel in a previous projector, the starting of the following projector is ensured by electrical impulses successively produced by marks applied on the film, and more particularly on the end of the film leaving the preceding projector, these pulses intervening to trigger at least one of the operations which consist in closing the circuit of the arc lamp and the circuit of the drive motor of the following projector, to operate the shutters of the beam, and to reverse the connections of the sound amplifier to disconnect it from the sound player of the previous projector and to connect it to the sound player of the next projector. b) An electric impulse intervenes to automatically stop the previous projector by opening the circuits of the arc lamp and the drive motor. c) This electrical impulse is produced by another reference applied to the film of one of the two reels. d) This electrical impulse is produced by passing the posterior end of the film over the receiving reel. e) The start-up of one projector and the shutdown of the other projector take place alternately, the electrical connections being automatically reversed so that each projector operates in turn as the next projector and the previous projector. f) For the direction of auxiliary programs, electric pulses intervene automatically to start and stop in synchronized sequence, or predetermined in another way, one or more operations forming part of the auxiliary program. g) At the end of an auxiliary program, the inversion takes place automatically for a film projector to come into operation., II.- An apparatus for implementing this method, comprising a main relay actuated by successive electrical pulses; several electrical control circuits, the same number of relays <Desc / Clms Page number 16> secondary at least one group of contacts for each secondary relay and interposed in each of the secondary circuits, and means through which the main relay successively operates the secondary relays. This device may also have the following additional characteristics, separately or in combinations:. a) an electron tube, for example a thyratron tube intended to receive electrical impulses, is interposed in the circuit of the main relay to make it work, this relay comprising a number of contacts: arranged to be closed simultaneously on each switching on of the relay, a secondary relay is interposed in the circuit 'of each' group of contacts and controls the switch contacts interposed in the electrical circuits, the arrangement being such that a series of pulses applied to the main relay successively ensures the engagement secondary relays for the successive closing of the contacts of each secondary relay and the corresponding circuits. @ b) The electron tube and the main relay are controlled by reader brushes cooperating with a conductive mark applied to this film to produce electrical pulses. c) A response device cooperates with the posterior end of the film exiting from the projection apparatus to produce an electrical pulse acting on the main relay. d) The main relay is a single relay, the engagement of which is to open two pairs of contacts respectively inserted in the circuits of the arc lamp and of the driving motor e) The response device is mounted in the projector. f) The response device cooperates with the conductive mark of the film electrically or magnetically. g) The response device consists of two brushes separated by the interposed film, and whose contact produced by a breakage of the film or by the exit from its rear end transmits an electric pulse. h) The main relay is a step-by-step distributor relay with a view to successively activating the secondary relays. i) After a number of distributions equal to the number of spotlights, the distributor relay is recalled to the starting position in standby for a repetition of the series of distributions. j) The distributor relay is arranged to ensure a single distribution and then to return to the starting position, and this relay is combined with automatic switches for successive switchings intended for the control of projectors successively coming into action. k) The main relay cooperates with several sets of secondary relays interposed% in the circuits of one of several projectors, and this relay is combined with one or more additional primary relays actuated by an electric impulse to control designated switches. connecting contacts of the main relay to one set at a time of the secondary relays. 1) For the direction of an auxiliary program, the apparatus is combined with a directing apparatus comprising a movable member carrying several selectively adjustable or movable cams and a switch to initiate the operation of this directing apparatus. m) This switch has contacts intended to be closed automatically at the end of the projection of the film from the last reel. <Desc / Clms Page number 17> n) The movable member of the steering apparatus is a rotary member in the form of a drum, a disc or an equivalent element. o) An electromagnetic member is provided to control the operation of the director apparatus by the motion picture film and (eu.) by some of the cams of this apparatus. p) The directing apparatus is arranged to actuate a number of control members greater than the necessary number, and a device is provided for automatically returning the movable member of the directing apparatus to the starting position. q) A manual control device is provided to reset the steering apparatus to zero. r) The director apparatus is actuated by a synchronous electric motor, or step by step by electrical impulses transmitted by a cinematographic film and (or) by one or more cams. s) The steering apparatus comprises a rotating drum having peripheral and axial rows of spaced locating devices (eg, holes) for securing the cams in predetermined positions. t) The device is combined with circuit selectors. u) In the circuits of the drive motor and the shutter shutters are interposed automatic devices with delayed action ensuring the start of the motor of the next headlight before operation, of the shutter shutter. v) Between the electrodes of the arc lamps, spaced in the normal operating position, is interposed a starting element intended to be destroyed by the current of the arc and which is put in place before the circuit is closed. of the arc lamp. w). This element is designed to be destroyed by a current lower than the normal operating current of the arc lamp. x) This element consists of a fusible body. y) It is made of tin or other material with a low melting or ignition point.