BE507556A - - Google Patents

Description

       

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  IMPROVEMENTS TO PROJECTORS.CINEMATOGRAPHIQUES.



   The invention aims at improvements to cinematographic projectors, and its main object is to allow, by combining with the normal mechanism of these devices simple auxiliary elements, to obtain, in synchronism with the projected image strip, the scrolling of an auxiliary tape permitting the magnetic recording or reproduction of sound, and this while preserving the apparatus its normal possibilities of projection and sound playback for ordinary films which are silent or which have only an optically readable sound track.



   Another object is to allow in order to. post-synchronization of a given film, the direct recording of a soundtrack during the projection of the image track, and this with one or more soundtracks synchronized with the images.



   Another object is to allow the reproduction of one of the tracks of the soundtrack in synchronism during the projection of the image track.



   Yet another object is to allow the direct recording of a sound track synchronized with the images, either with a running speed identical to that of the image tape, or with a different running speed.



   The invention is more particularly but not exclusively applicable to cinematographic projectors using the 16 mm sound film, and it is in relation to such an apparatus that we will describe, by way of nonlimiting examples, a particular mode. embodiment of the invention and variant details, with reference to the accompanying drawings.



   On these drawings:
Figure 1 is a schematic sectional view of the main parts of a known projector.

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   FIG. 2 is a perspective of a projector modified according to the invention for the passage of a soundtrack with lateral perforations.



   FIG. 3 is a partial view, similar to FIG. 1, of an alternative embodiment.



   FIG. 4 shows, in section, a variant of a detail of FIG. 3.



   FIG. 5 is a section along the axis of rotation of a debtor applicable to the drive of a non-perforated soundtrack.



   FIG. 6 is a perspective showing an auxiliary toothed debtor which is added to the debtor existing on the apparatus at the exit of the projection corridor.



   FIG. 7 is a side view of a plate carrying certain auxiliary members according to the invention.



   Figure 8 is a top view corresponding to Figure 7.



   Figure 9 is an axial section of a double take-up reel.



   FIG. 10 is a vertical section showing an alternative arrangement of a double debtor.



   FIG. 11 is a vertical section of another variant of a double debtor.



   Figure 12 is a section through XII-XII of Figure 11.



   Figure 13 is an axial section of another type of auxiliary debtor.



   Figure 14 is a vertical section similar to Figures 10 and 11 and showing another variant of double debtor.



   Fig. 15 is a section showing a first type of drum for replacing the existing drum on the projector.



   Figure 16 is a variant of such a drum.



   Figure 17 is another variant.



   FIG. 18 is a diagram showing how the usual amplifier associated with a projector of known type can be used according to the invention.



   Fig. 19 is a diagram showing the use of a permanent erase magnet and a single head for recording and playback.



   Fig. 20 is a section showing how a soundtrack which follows the path of the image track can be played, while at the same time reproducing this soundtrack on another magnetic tape.



   Figure 21 shows how two magnetic recording and reproduction systems can be arranged to produce two sound tracks on the same tape.



   Figure 22 is similar to Figure 21 but shows the use of two distinct soundtracks.



   Figure 23 shows the application of the invention to a projector for silent films.



   As can be seen in FIG. 1, a known headlamp comprises two toothed gearboxes 1 and 2, driven at constant speed directly by the motor of the apparatus; in normal projection, the film 3 coming from the debit reel 4 passes over the debtor 1 then, through the corridor 5 comprising the claws which carry out the jerky scrolling of the images, in front of the objective 6; after the group of loop breaker rollers 7, the film drives, in a known manner, the drum of the rotating drive 8 placed in front of the lamp 37, excitation of the photocell not shown, and the flywheel 9 wedged on the

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 drum 8; after passing over the elastic damping roller 10, the film is pulled at constant speed by the toothed feeder 2;

   and, after having bypassed the roller 11, it is finally received by the receiving coil 12, itself driven by the motor through a known friction device. The projection of the image and the simultaneous playback of the sound track of the film are thus achieved.



   FIG. 2 shows the apparatus modified and completed according to the invention: on the axis of the reading drum 8 is fixed and centered an auxiliary drum 13; the way in which this modification can be carried out in practice will be described in more detail below; Similarly, on the axis of the motor debtor 2 is fixed and centered an auxiliary debtor 14 having the same number of teeth as the debtor 2. The spacing of the teeth of the debtor 14 corresponds to the pitch of the perforations of the magnetic tape.

   In practice, the debtor 2 is fixed on its axis by three screws, not shown in FIG. 1; using as auxiliary debtor 14 a piece of the type shown in Figure 6, which comprises a toothed ring 35 identical to that which constitutes the debtor 2, fixed and centered on an annular piece 14 of suitably chosen width; this assembly is glued and screwed onto the debtor 2 using three screws 36 using the three already threaded holes existing in the debtor 2.



   Likewise, the auxiliary take-up reel 15 is disposed on the axis of the reel 12, and it is driven with it by friction, and the auxiliary roller 16 on which the soundtrack passes is wedged on the axis of the roller. 11.



   It is clear that these auxiliary components, once in place, do not in any way modify the operation of the initial apparatus and do not interfere with its loading with a sound film with a side track; they can therefore remain permanently on the projector. ,
For the use of a separate sound track on film with perforations with a magnetic surface, another group of members is associated with the above apparatus, integral for example with a plate 21 fixed to the frame. 17 of the device or nearby.



   This plate is shown in Figures 7 and 8. If we refer to these figures as well as to Figure 2, we see that the magnetic tape 23 with perforated support is wound on an auxiliary supply reel 22 carried on a pin 38 at the end of an arm 18 integral with the plate 21; this band, after having passed over the elastic roller 24, drives a braked roller 25, in a known manner, in order to stabilize the unwinding, dampen the jolts and tighten the band; rollers 24 and 25 are both mounted on the plate 21.

   As can be seen in FIGS. 7 and 8, this plate is constituted by a plate, preferably in light metal, cut or melted, it is formed so as to rest on the base of the projector, and it comprises a bracket. 39 which rests on the rear face of the frame 17 of the projector; this bracket holds the plate in place by tightening the knurled screw 40 and a not shown counter screw. The plate is cut at its upper part, at 41, so as to release the components existing on the projector, that is to say the rollers 7, 10 and 11, the drum 8 and the debtor 2, and to allow free passage of the image track, which is placed before the sound track during loading.

   It is easy to understand that the installation of the plate 21 on the projector takes place instantaneously and that the members that it supports are strictly in the working position to ensure the correct running of the soundtrack, without any 'No mechanical adjustment is necessary.



   The tape 23 then passes over the magnetic heads, three in number: an erasing head 26, a recording head 27, and a reading head 28. This number may however be reduced to two if the same head is used. both for recording and for reading, and it is even possible to keep only the reading head 28 if it is desired to only reproduce the sounds without recording.



   After its passage over the regulating drum 13, the strip 23 passes over a guide roller 42 then over a return roller 29 and over an elastic roller 30, all three integral with the plate 21; rollers 29 and 30 are mon-

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 tees elastically on their axis, which allows them, during their rotation, to oscillate in a vertical plane or on either side of this plane; a variant not shown comprises rollers whose axis is mounted elastically with respect to the plate; these rollers make it possible to maintain the adhesion of the band on the regulating drum 14, by making two different paths for the soundtrack, paths each corresponding to a direction of rotation of the drum 14;

   this arrangement has advantages in certain applications of the invention. The strip 23 is finally drawn by the debtor 14 and comes to wind up on the reel 15 (FIG. 2). It is obvious that the plane of symmetry of all the rotating members integral with the plate 21 must be the same as that of the debtor 14 and of the reel 15.



   In practice, it is easier to also mount the guide roller 16 on the plate 21 and not on the axis of the roller 11: it is this arrangement that has been shown in FIGS. and 8, which therefore constitute a variant of the assembly of 'Figure 2. In this case, the roller 16 is mounted on a rocking arm 43 pivoted; at 44 to the plate around an axis .subject to the action of 'a spring not shown, so as to facilitate the establishment of the band.



   The two motor units ensuring the unwinding of the image band 3 and the soundtrack 23, that is to say the debtors 2 and 14, being integral, this results in the absolute synchronism of the scrolling movement of the two bands .



   The track of the image track and the track of the sound track being separate, as shown in figure 2, and the starting positions being marked on each strip, it is easy to understand that by projecting the image track synchronous recording (speech and music) can be performed on the soundtrack running at the same time, it will suffice for this to cut if necessary the circuit of the photoelectric cell in a manner which will be indicated below.



   This operation having been completed and the two tapes 3 and 23 having been rewound respectively, in a manner known per se, on their respective feeder reels 4 and 22, it is possible to project the image tape again and listen to the tape. its, in synchronism, the recording carried out previously, obviously using the same starting positions and possibly putting the optical read head out of operation.



   The apparatus described with reference to FIG. 2 comprises the scrolling side by side of the two picture and sound bands. In FIG. 3, another arrangement has been shown, in which the two bands are superimposed over part of their path; they are pulled by the same motor debtor 31 on which they are superimposed.



   The image track 3 follows its normal path until the exit of the rollers 7, and the sound track 23 follows the same path as previously on the deck 21; but this no longer includes the damping roller 30, because it is possible to use the roller.10 existing on the apparatus.



   At the exit of the debtor 31 and of the roller 19 similar to the roller 11, the two bands are wound either on the same reel 20, as shown in FIG. 3, or on two separate reels 12 and 15 having the same plane of symmetry. vertical, as can be seen in FIG. 4, the reel 15 being situated below the reel 12 and driven by pulleys 32 and belt 33 from the motor axis of the reel 12.



   It will be noted that, in this case, the profile of the teeth of the debtor 31 must be adapted to the passage of two superimposed films, which is often done by the debtor 2.



   In the case of Figure 2, it was assumed that the debtors 2 and 14 driving the two bands were integral with the same axis and rotated at the same speed, with the same diameter. But it is also possible, according to the invention, to modify the running speed of the soundtrack relative to the image strip, by modifying the diameter of the auxiliary debtor 14 relative to that of the debtor 2; In this case, the auxiliary take-up reel 15 must also include a drive device at a speed different from that of the reel 12. This device may, for example, be of the friction type. But we for-

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 would also use, to drive the debtor 14, a gear intercalated on the axis of the debtor 2.

   Such speed variation mechanisms are well known to those skilled in the art and will neither be described in greater detail nor shown, since they do not in themselves form part of the invention.



   Such an arrangement is advantageous in the case of a high fidelity magnetic reproducing device, which requires an unwinding speed both in recording and in playback much greater than the normal projection speed of the device. 'a cinematographic film. The ratio between the speeds of the debtor 2 and of the coil 12, on the one hand, and that of the debtor 14 and of the coil 15, on the other hand, will be determined according to the nature of the magnetic system used and the speed at which must play the soundtrack in this system.



   In the example of FIG. 3, it is assumed that the motor debtor 31 was dragged along with the image strip 3 with lateral perforations, a strip 23 with a magnetic surface formed at the same time as the image strip 3. 'Using a support similar to that of the film, with lateral perforations. But it is also possible, according to the invention, to drive in synchronism with the image strip with perforations, using a common motor inducer, a strip magnetic tape of the type without perforations and the usual image strip, the soundtrack being in this case, in the known manner, a tape with a thin support of plastic material or of paper coated with magnetic material, preferably of a width less than that of the image strip.



   Figure 5 shows in section along the axis of rotation a debtor 34 suitable in this case. In the drum 34 driving, by means of teeth 58, the image strip 3 with two rows of perforations, an annular housing 59 has been formed inside which a ring 57 of plastic material such as rubber is placed; the width of the housing 59 and of the ring 57 is equal to that of the magnetic tape 23, and the outer surface of the ring 57 is perfectly cylindrical and very adherent; it can be seen clearly in FIG. 5 that the tape 23, placed under the strip 3, is driven by the ring 57 when the latter rotates with the debtor 34, the teeth 58 ensuring at the same time the driving of the strip 3.



   The entire mechanism is, 'in this case, identical to that of Figure 3, except that the debtor 31 of this figure is replaced by a debtor 34 of the type shown in Figure 5
In all cases, the double reel shown in section in FIG. 9 is preferably used for the reception of the image tape and the soundtrack.



   The reel 45 receiving the image strip 3 is engaged and held in place in a known manner on the axis 38 rotating at the end of the carrier arm 18 (FIGS. 2, 7 and 8); the reel 45 carries a hollow cylindrical sleeve 46 on which rotates the reel 47 which receives the strip 23; the coil 47 is pressed by a spring 49 in the form of an elastic washer interposed between the outer cheek of the coil 47 and a flange 50 of the sleeve 46. Between the coils 45 and 47 is disposed an annular part 51, made of felt or a material with similar characteristics, allowing the sliding of the reel 47 with respect to the reel 45. When the reel 45 rotates, it drives the reel 47, but the latter can shift relative to the reel 45;

     this arrangement makes it possible to keep the two bands taut during the scrolling, in fact, the support of the image strip 3 is generally less thick than that of the magnetic strip 23, which leads to a smaller bulk and to a smaller cake diameter; if the two coils 45 and 47 were rigidly fixed to one another, there would be a risk that the magnetic tape is not sufficiently stretched during its winding.



   It is easily understood that the simultaneous scrolling of the two tapes under the action of the debtors 1, 2 and 14 integral with the same motor makes it possible to maintain absolute synchronism between the images projected and the sounds recorded on the magnetic tape during the projection. of the image.



   In the embodiment of Figures 2 and 6, a debtor au-

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   xiliary 14 secured by screws 36 with the debtor 2. But one can also use an auxiliary debtor mounted on an independent axis, while being driven with the debtor 2 this assembly is interesting in the case where we must pass the image strip under debtor 2; it is then advantageous to be able to tilt the auxiliary debtor forward to release debtor 2. This embodiment can be seen in FIG. 10. In this figure, the auxiliary debtor 52 is mounted on a axis 53 journalled itself in a bent part 54.

   The part 54 is articulated at 55 to a protruding lug on an extension 21a of the plate 21, this extension replacing the cutout 41 in FIG. 7. Between the debtors 2 and 52 is interposed a part 56 in the form of a disc made of capable material. to allow the friction drive of the debtor 52 when the debtor 2 is itself driven; the debtor 52 is applied against the disc 56 and the debtor 2 by any suitable means known in FIG. 10, it can be seen that a spring 57, anchored on the other hand to the plate 21a, exerts a traction on the vertical part of ' part 54. One could also use a locking device such as a threaded rod and a knurled screw.

   It results from this assembly that the debtor 52 is driven without slipping at the same time as the debtor 2, but that, at rest, if desired, the debtor 52 can be tilted into position 52a shown in dotted lines, around the hinge 55, in the direction of the arrow F, so as to allow the introduction of the image track 3 and the sound track 23 if these two bands must, for some reason, pass to the part lower debtors.

   During operation, the disc 56, which is made integral with one of the debtors by any appropriate means, must not be able to slide relative to the debtor, while retaining a certain elasticity to absorb the irregularities which may occur during the rotation ; onepeut, for example, constit.le disc 56 of plastic or a metal forming a spring. The drive, of the debtor. 52 by the debtor 2 can be done by simple friction, but it can also be carried out by means of de- tons fixed on one of the cooperating elements, in engagement with cor- respondents from the other point. It is also possible to use other arrangements, shown in Figures 11 to 14.



   In the case of Figures 11 and 12, their debtors are provided for films with two rows of perforations; the auxiliary debtor 91 is not attached directly to the engine debtor 2 of the headlight; it rotates on an independent axis 92 fixed on the plate 21, but the axes of the debtors 2 and 91 are in different planes; the mechanical force is transmitted to the debtor 91 via an additional debtor 93 wedged on the axis 92; the connection between debtors 2 and 93 is effected by an auxiliary belt 94 with perforated support, similar to a film; the debtor 91 could moreover occupy a symmetrical position 91a relative to the plate 21, a position shown in dotted lines;

   in Figures 11 and 12, we see the path of the image strip 3 which passes over the motor feeder 2 at the same time as the belt 94; It is easy to understand that the auxiliary belt 23 is thus driven correctly in synchronism. The belt 94 has an extra thin flexible support with great mechanical resistance, the teeth of the debtor 91 being, moreover, if necessary, specially prepared for this purpose, as well as possibly those of the debtor 2.



   In the variant of figure 13, the debtor 2 is replaced by a special debtor 95 having a housing 96 for a perforated belt 97 similar to the belt 94, and which drives the debtor 91 through the intermediary of a similar debtor to 93 and not shown. One could also use debtors playing the role of 93 and 95 but of the type shown in Figure 5, the belt 94 or 97 then being a non-perforated belt.



   In the case of FIG. 14, finally, the debtor 2 can be replaced by an identical debtor 103 carrying a toothed pinion 104 which meshes with a similar pinion 105 integral with the auxiliary debtor 106 identical to 91 and rotating on the plate 21. This last arrangement makes it possible to obtain different running speeds for the image strip 3 and for the magnetic strip 23, by simply determining the ratio between the pinions 104 and 105, without it being necessary to choose numbered toothed debtors, of teeth

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 different
It was indicated above that the existing drum 8 had to;, according to the invention, be widened to receive side by side the image tape and the sound tape This result can be obtained in various ways, shown in Figures 11 to 13.

   It will be noted first of all that, in general, the outer surface of the auxiliary drum should exhibit great adhesion when it is in contact with the support of the magnetic tape; therefore, it is unpolished, and it may preferably have a surface ground layer of rubber or the like; the drum will be, as the case may be, driven either by the sound track alone, or by the image track and the sound track simultaneously.



   In the case of FIG. 11, the normal drum 8 is replaced by a larger drum, 58, held on its axis 59 by a nut 60, as is in practice the drum 8. But, in the case of FIG. 12, it was assumed that the soundtrack 23 was playing at a different speed from the image track 3; the drum 8 is then replaced by a special drum mounted on the same axis 59 and formed in two parts: an element 83 of width equal to that of the strip 3, and an element 84 having a part 84a of reduced diameter which fits inside element 83 and is rotatable relative to that element on ball bearings 85. The outer surface of element 84 is flush with the periphery of element 83, and its width is equal to that of the strip 23.

   As before, the compound drum is held on the axis 59 by a nut 60, housed in this case inside an axial bore formed in the element 84. The element 83 is preferably fitted with a sleeve. force on the axis 59. It results from this assembly that the element 83 is driven by the axis 59 and can rotate on the ball bearings 85 at the suitable speed, the passage of the strip 23 on the element 84 driving the flywheel 9 integral with the reading drum.



   In the variant of FIG. 13, applicable in the case where the drum 8 is not easily removable, a special drum 86 is fitted by force on this drum having a sufficient width for the side by side passage of the bands 3 and 23. ; arrangements are made so that the resulting increase in the diameter of the drum 86 is less than the clearance provided between the drum 8 and the reading members placed nearby; inside the drum 86 and along its axis, a tapped hole 87 is drilled in which a screw 88 fitted with a head 89 can turn. The head 89 is housed freely in a bore 90 formed at the end of the drum 86.

   By acting on the head 89, the screw 88 is applied against the edge of the drum 8, and it is thus possible to easily remove the drum 86 if one wants to use the projection apparatus under normal conditions, in fact, because Due to the force-fitting of the drum 86 on the drum 8, the separation of the two drums by a direct pull on the drum 86 could be difficult or even impossible in practice.



   Finally, one could, if desired, use for the passage of the bands 3 and 23 on a drum placed in the position of the drum 8, an assembly similar to that of figure 10, the only difference being that the debtors 2 and 52 of this figure would then be replaced by two drum elements playing the role of drum 8 and drum 84 (Figure 12) or 86 (Figure 13) respectively.



   The mounting of the heads 26, 27 and 28 is carried out in a manner known in itself and which does not form part of the invention. The supply and amplification circuits of these heads are not shown; the read head 28 is connected to the input of a reproduction amplifier, which may be that of the normal projector, with or without following corrections. the desired quality, either directly or through transformers or capacitors, placed if necessary behind the plate 21.

   The recording head 27 is connected to the output of a recording amplifier, which may be that of the projector, through a transformer or a capacitor-resistor block; it is also connected to an independent auxiliary assembly, comprising an oscillator tube with its power supply, and generating the ultrasonic polarization currents; this set also provides the eraser head

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 ment 26 the necessary ultrasonic current. It is known how the heads 26, 27 and 28 are to be connected to the circuits mentioned above; it will simply be indicated, with reference to figure 18, how the reproduction amplifier normally incorporated in the projector can be used in practice. .



   In fact, FIG. 18 shows the ordinary amplifier shown at 62, the optical read head at 75, and the recording and reading heads 27 and 28. The amplifier 62 is of a known type. and has a number of sockets, to which are respectively plugged connections leading to the general power supply (mains) and to the optical read head 75. Connections are made via a switch. double 65, to the head 27 on the one hand and to a loudspeaker 64 on the other hand, other connections leading through a double switch 65a on the one hand to the head 28 and d 'other hand to a microphone 63.

   Finally, the amplifier 62 usually includes an additional socket 67 to which a pick-up can be connected and which is unused in the present case. Preferably, the switches 65 and 65a are mounted on the same control shaft, so as to establish simultaneously the connection between the amplifier 62 on the one hand and, on the other hand, the loudspeaker 64 and the head 28 or the microphone 63 and the head 27.

   Finally, a switch 66 is interposed on the circuit connecting the amplifier 62 to the read head 75 (photoelectric cell).
The operation of the installation is as follows
When using the projector in the normal way, i.e. the soundtrack of tape 3 is played by head 75, switch 66 is closed and switch 65 is in the position shown in dotted in Fig. 14 and establishes communication with loudspeaker 64. Switch 65a, if it is integral, as shown, with switch 65, then establishes the circuit with head 28, this which does not present any drawback since no magnetic soundtrack is used.



   In the event that it is desired to post-synchronize a given film, switch 66 is opened and switches 65 and 65a are moved so as to bring them to the position shown in FIG. 18, in which communication is established with the microphone 63 on the one hand and the recording head 27 on the other hand The sounds received in the microphone 63 are then amplified by the amplifier 62 and retransmitted to the recording head 27 which prints the virgin tape 23
If it is desired to carry out the simultaneous projection of a mute tape 3 and a sound track 23, the switch 66 is left open and the switches 65,65a are brought into the position shown in dotted lines. in Figure 18 1 when the sound track 23 scrolls past the read head 28,

   the current coming out of the head 28 is amplified by the amplifier 62 and ends at the loudspeaker 64.



   If one wishes to simplify the apparatus as much as possible, one can use a single head 78 for recording and playback, and replace the erasing head 26 by a permanent magnet, presenting during the travel of the tape for recording a suitable air gap near the active surface of the magnetic strip; in this case, the amplifier incorporated in the projector can also be used, as indicated above, for recording and reproduction; the auxiliary assembly generating the ultrasonic currents only supplies the energy necessary for the polarization of the single head.

   In this particular case, the risk of an untimely erasure is avoided by means of the device shown schematically in FIG. 19. The magnet 76 serving for the erasure can pivot around an axis 77, (or even move - cer in a translational movement), so as to occupy a resting position 76a shown in dotted lines and an active position 76, the magnetic strip 23 running in the direction of arrow F1;

   the displacement of the magnet 76 causes, by a control shown schematically at 82, the operation of a two-way switch 79 ensuring, when the magnet is in the rest position 76a, the connection between the winding of the head 78 and the terminals

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 80 corresponding to the input of the reproduction amplifier, (that is to say to the "microphone" terminals of the amplifier 62 shown in figure 18), and, when the magnet is in its active position 76 , the connection between the head 78 and the terminals 81 corresponding to the output of the recording amplifier, that is to say to the "loudspeaker" terminals of the single amplifier 62 shown in figure 18) and of the ultrasonic current generator.

   In practice, the control 82 for switching can be constituted by external relays, located on the recording or reproduction amplifiers or on the single amplifier, and commands by the contacts of an integral switch. hand lever used to move the magnet.



   The invention also makes it possible to obtain the copy of sounds recorded on a magnetic tape 23 on a second blank magnetic tape 61: for this, the device shown schematically in FIG. 20 is used. In this case, the blank tape 61 is passed through. by the path normally followed by band 3.

   The strip 61 therefore passes, in particular, over the drum 58 of FIG. 11, or over the drum 84 of FIG. 12, or over the drum 86 of FIG. 13. In FIG. 20, there is shown, for more clarity, this drum by the reference 680 The strip 61 is kept applied against the drum 68 by a roller 69 mounted at the end of a lever 70 pivoted at 71 to the plate 21 and subjected to the action of a spring wound around the pivot axis 71 and not shown, so that the roller 69 constantly applies the strip 61 against the drum 68.

   An additional recording head 72 is then used, of small size and very light, mounted at the end of a lever 73 pivoted at 74 to the plate 21, as shown in FIG. 20. The lever 73 is subjected, like the lever 70, by the action of a spring not shown wound around the axis 74, so that the head 72 rubs lightly on the active surface of the strip 61.

   Head 72 is connected to amplifier 62 as shown in FIG. 18, switch 65 then taking the position shown in phantom in said figure and being, in this case, in three directions and no longer in two; of course, it is then essential to separate the switches 65 and 65a. The recording is done as before, the head 28 performing the reading on the tape 23, the switch 65a being in the position shown in dotted lines in FIG. 18, and the current amplified by the amplifier 62 arriving at the head 72 by the 'intermediate switch 65 in the position shown in phantom.

   It will easily be understood that it would be possible, reciprocally, to place in place of the head 72 a reading head and to record on a blank tape placed in place of 23 the sound recorded on an impressed magnetic tape running on the floor. This of tape 61 on the normal path of tape 3. In this case, switch 65a should be three-way, with the read head replacing head 72 being mounted symmetrically with respect to microphone 63, as head 72 is with respect to head 27.



   Finally, it is possible to use magnetic tapes of large width, on which several sound tracks can be traced. In one embodiment, a series of heads 26, 27, 28 mounted on a micrometric screw carriage is used. control capable of moving transversely with respect to the magnetic tape used. But, preferably, in this case, several groups of separate heads are used, each arranged so as to act in cooperation with a sound track. This embodiment is shown in plan in Figures 21 and 22. In Figure 21, it can be seen that one uses as soundtrack a double perforated film, for example of 16 mm, 98, on which it is desired to trace or read two tracks whose axis is represented at 99 and 100 by dashed lines.

   The tape 98 is driven, in the known manner, by a debtor such as 14, and there are two sets of erase, record and play heads 26, 27, 28 and 26a, 27a, 28a, say - each posed above a track 99 or 100. The strip 98 is supposed to move in the direction of the arrow F2.



   In Figure 22, the arrangement is similar, but the strip 98 is replaced by two strips of 8 mm, 101 and 102, driven in the direction of arrow F3 by the same debtor 14 with a double row of teeth, and the heads your 26, 27, 28, on the one hand, 26a, 27a, 28a, on the other hand, are arranged

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 so as to cooperate respectively with the bands 101 and 102.



   It is therefore possible, with this arrangement, to simultaneously record identical sounds or different sounds on tracks 99, 100 or 101, 102. It is thus possible to post-synchronize simultaneously a film given in two different languages, or even to produce a number of sound cheats. In the case of two distinct soundtracks, as in FIG. 22, it is of course necessary to use special receiver coils having a middle cheek, in order to prevent the two bands from getting tangled on this reel.



   Among the other possible applications of parallel sound tracks, we can mention the possibility of copying the sounds recorded on the tape 101 onto a blank tape 102 by simultaneously scrolling the two tapes and transmitting the sounds read by the head 28 to the tape. tape 101 to recording head 27a which will print them onto tape 102, in a manner analogous to that indicated in connection with figure 18.



   We will now describe, with reference to FIG. 23, the application of the invention to a projector for silent films, of the known type manufactured by Maison Paillard, which allows the projection of silent films of various formats. Subsequently, it will be assumed that the existing projector is equipped for the passage of a 16 mm silent film, the improvement provided by the invention allowing the scrolling of an 8 mm auxiliary soundtrack to a single lateral row of It should be noted, however, that a 16 mm magnetic tape could be used, using rollers and auxiliary cutters corresponding to this format and provided with two rows of teeth.



   As can be seen in FIG. 23, the existing headlight comprises two toothed gearboxes 1 and 2 driven at the same speed by the motor of the apparatus; the silent film, not shown, from the supply reel 4, passes over the upper debtor 1 and then through the corridor 5 in front of the objective 6, after which it is driven by the lower debtor 2; finally, guided by the roller 11, it is wound up on a receiving reel secured to a shaft driven by gears from the motor of the device. the addition of the components according to the invention for sound recording of a silent film comprises the following operations: a) fixing an auxiliary arm 107 supporting an auxiliary supply reel 22 on which the coated soundtrack is wound. magnetic 23;

   the arm 107 is fixed, as shown in FIG. 23, by means of a bracket tightened by a screw on the top arm of the apparatus which carries the coil 4; it is bent so as to give the soundtrack a travel plane different from that of the image strip, the axis carrying the reel 22 is braked slightly by a friction device, not shown; b) installation of a plate 108 which plays the same role as the plate 21 of the preceding figures ;, but is this time in the form of a stirrup and is fitted to the front of the housing 109 of the headlight and clamped on this housing using set screws 110;

   this plate supports a guide roller 25, a magnetic head 78 serving successively for recording and reading, a fixed drum 111, cam shown in the figure, on the axis of a regulating flywheel 9, rotating axis on ball bearings fitted into a shoulder of the plate; the flywheel 9 is placed on the face of the headlamp which does not include a debtor, inside a protective casing, not shown, integral with the plate; the plate also carries ;, a pressure roller 112 articulated and returned by a spring so as to apply the strip 23 on the drum 111, and a roller 113 mounted resiliently: ment;

   c) positioning on the axis of debtor 2 of an auxiliary toothed debtor 114 of the same diameter, for 8 mm film with a single row of perforations, and locking 114 out of 2 using the threaded rod forming the axle and the knurled nut existing on the device; a small housing is provided in the auxiliary de- bitor to receive at least part of this nut, due to

 <Desc / Clms Page number 11>

 the reduced length of the threaded rod; d) installation of the auxiliary return roller 115, rotating on an axis integral with a part 116 in the form of a stirrup which is tightened with the aid of pressure screws on a shoulder 117 existing on the projector 109;

   e) replacement of the receiving reel mounted on the shaft intended for receiving the silent film by a special reel comprising two reels 45, 47 of the type shown in figure 9, 9 placed side by side and arranged so as to allow winding a picture track and a sound track playing at different speeds.



   It is easy to understand that the installation of these auxiliary members, calibrated in advance, is carried out without any adjustment. Under these conditions, when the projector is operated, the image tape follows the normal path, not shown, and winds up on one of the reels, 45, of the special receiving reel, the magnetic tape coming from the reel 22 follows the path shown in phantom in a running plane parallel to that of the image strip;

   it is pulled by the auxiliary debtor 114 and passes successively over the guide roller 25, in front of the magnetic head 78, over the drum 111, over the elastic roller 113 and over the guide roller 115, after which it comes s 'wind up on coil 47 driven at the same time as coil 45
It is easy to understand that the simultaneous scrolling of the two perforated bands under the action of toothed debtors 2 and 114 contiguous and driven by the same motor makes it possible to maintain synchronism between the projected images and the recorded sounds, during the scrolling, on the auxiliary magnetic strip.



   According to the invention, it is possible to use an auxiliary debtor 114 of larger diameter than the debtor 2 and comprising a greater number of teeth, the soundtrack always playing in synchronism with the image strip, but at a greater speed. than the latter; the magnetic tape is then received on a reel which has an inner drum of larger diameter, or else a double reel similar to that of FIG. 9, but in which the elements 45 and 47 are inverted, the tape is used. image winding on the element 47 driven at the lowest speed. This arrangement is particularly advantageous for the sound reinforcement of silent films whose scrolling speed is low.



   In the case of FIG. 23, a magnetic head 78 is used which is used sometimes for recording and sometimes for reading; under these conditions, it is necessary to use, for the recording, a blank magnetic tape or a magnetic tape previously erased by any means; in the case where it is desired to perform the erasure during travel, there is placed between the roller 25 and the head 78 an auxiliary erasure head, not shown, of small size, of the magnet or electromagnet type, which one puts or not in contact with the magnetic tape according to that one wishes, to erase the sound track or not to erase it; for this purpose, a sufficient space is provided on the plate 108 between the roller 25 and the head 78.



   To perform recording or reading, the head 78 is connected and supplied in a manner analogous to that which has been described previously, and in particular with reference to FIG. 18.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

CLAIMS 1. Apparatus for transforming a cinematographic projector of known type with a view to allowing the recording or, the reproduction, in synchronism with the projection of the images, of sounds on a magnetic tape, with the aim of to post-synchronize a film with a lateral sound track or to bring sound to a silent film, comprising an auxiliary arm carrying at its end an auxiliary supply reel containing the magnetic band, and a plate fixed to the body of the projector and carrying rollers for guiding the magnetic tape and magnetic tapes serving for erasing, recording <Desc / Clms Page number 12> recording and reading. 2. Apparatus according to 1 in which the auxiliary arm is also carried by the plate 3. Apparatus according to 1 in which the auxiliary arm is fixed on the arm carrying the normal supply reel of the projector. 4 Apparatus according to 1 in which the image strip and the sound strip are both perforated and driven in superposition by the same toothed debtor placed at the exit of the projection corridor of the projector. 5. Apparatus according to 1 in which the soundtrack is driven by an auxiliary debtor co-axial with the existing debtor placed at the exit of the projection corridor of the projector. 6 Apparatus according to 1 and 5 in which the auxiliary debtor is set on the axis of the existing debtor. 7. Apparatus according to 1 and 5 in which the auxiliary debtor is mounted on a pivoting arm integral with the plate and is driven at the same time as the existing debtor by means of an elastic part. 8. Apparatus according to 1 in which the auxiliary debtor is mounted on an axis parallel to that of the existing debtor and carried by the plate. 9. Apparatus according to 8 in which the auxiliary debtor is driven from the existing debtor by means of a third toothed debtor having the same axis and driven by a perforated belt from the existing debtor, the perforated belt passing over the existing debtor at the same time as the image strip. 10. Following apparatus 8 in which the auxiliary debtor is driven from the main debtor by means of pinions wedged respectively on its axis and on that of the main debtor and meshing with one another. 11. Apparatus according to 1 in which the existing debtor placed at the exit of the projection corridor is replaced by a special toothed debtor for driving the image strip and having an annular groove on the central part of its periphery. in which is placed a rubber ring for driving an unperforated magnetic tape. 12. Apparatus according to 4 or 11 in which the usual receiving reel receives the image track and the sound track in superposition. 13. Apparatus according to 4 or 11 in which the soundtrack is wound on an auxiliary receiver reel placed under the existing receiver reel and in the same vertical plane ;, the auxiliary reel being driven from the existing reel by pulleys and belt. 14. Apparatus according to any one of claims 5 to 10 wherein the image tape and the soundtrack are each wound on an element of a double reel, the elements of which each have two cheeks and are joined together. one to the other, one of these elements carrying a hollow cylindrical sleeve provided with an outer rim on which the second element rotates, an annular piece of felt or the like being mounted on said sleeve between the elements, and an elastic washer forming a spring being interposed between the outer rim of the sleeve and the outer cheek of the second element. 15. Apparatus according to 1 in which the reading drum existing on the projector is replaced by a special one-piece drum, of sufficient width for the passage side by side of the image and sound bands. 16. Apparatus according to 1 in which the reading drum existing on the projector is replaced by a special drum composed of two elements having the same external diameter, individually placed outermost in relation to the body of the projector presenting towards the inside a par- <Desc / Clms Page number 13> tie of reduced diameter on which the innermost element with respect to the projector can rotate by means of a ball bearing, the latter element being press-fitted on the axis of the drum, and the assembly the compound drum being secured to said axis by the existing drum fixing screw thus replaced. 17. Apparatus according to 1 in which is forcibly fitted, on the existing reading drum, a drum of great width, the outermost end of which relative to the projector is pierced with a threaded axial bore into which a thread is screwed. screw capable of resting against the edge of the existing drum. 18. The following apparatus 1, applicable to a projector for silent films, in which the turntable also carries a reading drum and a regulating wheel for this drum. 19. Apparatus according to 1 in which the rollers carried by the plate are elastically mounted, some being pivoted to facilitate the passage of the soundtrack. 20. Apparatus according to 1 in which the plate is fixed to the body of the projector by a bracket and pressure screw. 21. The following apparatus 1 in which the stage carries a magnetic erasing head, a magnetic recording head, and a magnetic reading head. 22. Apparatus according to 1 in which the magnetic erasing head consists of a permanent magnet capable of assuming an active position and a rest position. 23. Apparatus according to 1 in which the turntable carries a magnetic head used alternately for recording and reading. 24. Following apparatus 22 and 23 in which the control member which causes the magnet to pass from its active position to its rest position simultaneously actuates a switch which establishes communication between the magnetic head and the circuits of. amplification such that when the magnet is in the active position the magnetic head is connected for recording, while when the magnet is in the rest position the magnetic head is connected for reading. 25. Apparatus according to 1 applicable to a projector incorporating an amplifier having terminals for connection to the optical reading head, to a loudspeaker and to a microphone, with a switch in the connection between the optical reading head. reading and amplifier. 26 .. Apparatus according to 25 in which there are further connections between the "speaker" terminals of the amplifier and the input terminals of a first two-way switch, connections between a pair of output terminals of this first switch and the speaker normally associated with the projector, connections between the "microphone" terminals of the amplifier and the input terminals of a second two-way switch, connections between the first pair of control terminals. output of this second switch and the magnetic head serving for reading, and connections between the second pair of output terminals of this second switch and a microphone. 27. The following apparatus 25 applicable to the case where it is desired to copy onto a blank magnetic tape which follows the normal path of the image tape the sounds recorded on another magnetic tape, in which the turntable carries a first magnetic head which can be used for recording, and a second, small magnetic recording head, biased by a spring into contact with the active face of the blank magnetic tape, and there are connections between the "speaker" terminals of the tape. amplifier and the input terminals of a first three-way switch, connections between a pair of output terminals of this first switch and the loudspeaker normally associated with the projector, connections between the second pair of output terminals of this first switch and the first magnetic head which can be used <Desc / Clms Page number 14> when recording, connections between the third pair of output terminals of this first switch and the second magnetic recording head, connections between the "microphone" terminals of the amplifier and the input terminals of a second two-way switch, connections between the first pair of output terminals of this second switch and the magnetic head used for reading, and connections between the second pair of output terminals of this second switch and a microphone. 28. The following apparatus 25 applicable to the case where it is desired to copy onto a blank magnetic tape the sounds recorded on another magnetic tape which follows the normal path of the image tape, in which the platen carries a first head. magnetic readout and a small magnetic read head spring biased against blank magnetic tape from the auxiliary supply coil, and there are connections between the "speaker" terminals of the amplifier and the input terminals of a first two-way switch, connections between a pair of output terminals of this first switch and the loudspeaker normally associated with the projector, connections between the second pair of output terminals of this first switch and the magnetic head used for recording, connections between the "microphone" terminals of the amplifier and the input terminals of a second three-way switch, connections between the first pair of output terminals of this second switch and the first magnetic head that can be used for reading, connections between the second pair of output terminals of this second switch and a microphone, and connections between the third pair of output terminals of this second switch and the second magnetic read head. 29. Apparatus according to 1 and 13 or 14 in which the auxiliary discharge and receiving coils are of great width and adapted to the passage of a magnetic tape of great width capable of receiving several parallel sound tracks, the drive members of this tape having a corresponding width, and groups of magnetic heads serving for erasing, recording and playback being associated with each sound track. 30. Apparatus according to 1 and 13 or 14 in which the auxiliary bitrice and receiver coils are multiple and adapted to receive several magnetic tapes forming parallel sound tracks, the driving members of these tapes having a corresponding width and toothing. , and groups of magnetic heads for erasing, recording and playback being associated with each sound track.