BE558304A - - Google Patents

Description

       

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   The present invention relates to the recording of sounds and images with a view to their reproduction.



   In general, it has hitherto been used, whether it is a matter of sound reproduction or cinematographic or television reproductions, of images, tapes or films of great length which are unwound from a supply reel for wind them on a take-up spool.



  Between the two reels, the medium passes through a recording or reproducing device (magnetic head if it is a tape recorder type device, cameras or projection devices if it is This is cinematography, for example). In any case, the recording or reproducing apparatus is voluminous due to the presence of the two reels.

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   In addition, the blank medium to be recorded and then the recorded medium are inconvenient to handle because of their great length and, in particular, in the case of a tape for a tape recorder having several recording tracks side by side, it is not necessary. It is not easy to go from one track to another or to return from one point on a track to another point far away from this track since, in both cases, the operation requires the unwinding of a length which may be large, of the recording tape.



   The object of the present invention is to completely overcome the difficulties inherent in the use of long recording tapes, that is to say the bulkiness of the apparatus and the difficulty of switching at will. from one track to another or from one point to another on the same track,
The objects of the invention are in particular, as new industrial products - on the one hand, a blank support for enrogis trement characterized in that it is constituted by a flexible strip of very small thickness, such as to be able to receive the 'desired recording and wound on itself in the form of a helicoid whose turns can collapse over each other due to the flexibility of the tape,

   the thickness of the helicoid at rest being equal to the sum of the thicknesses of its turns; - and, d'p.utrc leaves, the same medium, but recorded. that is to say comprising, side by side, over the entire length of the helicoid, a certain number of recordings,
Records can be; - or magnetic recordings of

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 are in which case the tape is formed in the manner known for conventional magnetic tapes, that is to say by a plastic support covered with a coating capable of being magnetized;

   - or magnetic recordings of images in particular for transmission by television, the medium being, in this case of the same nature as above; - or sound recordings by optical means and, in this case, the support is of the nature of cinematographic films, that is to say is formed of a transparent film covered with a layer of emulsion sensitive to the light;' - or a recording of sounds in the form of a groove and, in this case, the medium is likely to be engraved; it is for example made of plastic; - or finally photographic recordings of images and:, in this case, the support is of the above type consisting of a sensitized transparent film.



   The invention also relates to processes for the manufacture of the above tape.



     One of these methods consists of starting from discs having a central hole; these discs are cut along a line going from the periphery to said main hole and they are assembled so that for each disc the edges of its cutting slot are each connected to one of the edges of the slot of one or the other of the two adjacent disks between which the considered disk is placed.



   'According to other methods, the strip is obtained continuously, either by rolling a strip between two cylinders with concurrent axes, or by stretching it.

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 on a cone, or again by extruding a plastic material through a trapezoidal section line.



   The subject of the invention is also the apparatus intended for using the improved medium above and, in particular, an apparatus for recording and reproducing this apparatus comprising in combination: a fixed turntable, on this apparatus. turntable a support to receive at least one helicoid to be recorded or recorded, a recording head or to:

  çture, a support device for carrying this head and means for animating this support, and consequently the helicoid, and this head with a relative movement of rotation around the axis of the helicoid so that during a recording or reproduction operation, théli-- coide scrolls along one of its theoretical helices with respect to this head which, at each moment is located between two turns, the turns scrolling in continuous on either side of this head.



   According to a preferred embodiment, the support of the helicoid is rotatable and the head is fixed during said operation,
According to another characteristic, preferably, the device for supporting the head is adapted such that this head can be extracted, by a displacement perpendicular to the axis of the helicoid, from the superimposed turns, between which it is. engaged, to be brought back against one of the ends of the helix bypassing this helicoid by its periphery, the cris head has a substantially U-shaped trajectory.



   Other characteristics will result from the description which follows.



   In the appended drawing, given only by way of

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   for example: FIG. 1 is a very schematic perspective view of the new industrial product consisting of a blank support according to the invention; - Fig. 2 is a similar view of the same recorded medium; - Fig.3 is an axial diametral section of a variant; - Fig.4 is a plan view of another. variant; - Fig.5 is a diagram illustrating a method of manufacturing the support according to Fig.l and 2; - Fig.6 is a schematic view of a rolling mill also allowing the production of this support;

     FIG. 7 is a schematic view illustrating another method of manufacturing the support; - Figure 8 is a perspective view with partial cutaways of a sound recording and reproduction machine comprising application of the support in
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 form of helicopter; - Fig.9 is a longitudinal section of this machine in the recording or reproducing position; - Fig.10 is a partial vertical cross section along the line 10-10 of Fig.9; - Fig.ll is a perspective view of the support device constituting the support of the helicoid recorded or to be recorded and of the accessory devices combined with this support device;

   - Fig.12 is a partial plan view of this support device; @

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 - Fig.13 is a perspective view of the adjustable recording and reproducing head.



   I - Supports.



   According to the exemplary embodiment shown in FIG. 1, the new industrial product according to the invention consists of a strip a wound in a helicoidal axis II and formed of a certain number of turns 1, this number possibly being relatively high and easily reach a hundred or more.



   This tape, which is made from one of the materials specified above and one of whose surfaces has a recording layer that is either magnetic or optical or mechanical, has a radial length extending from peripheral edge 2 to the edge 3 of a central hole which, in the example of Fig.l, is of constant diameter.



   The width a may be of the order for example of eight to ten cm. As for the thickness b of the strip, it is very small, of the order for example of 0.2 mm., Which, for 100 turns, gives, when the turns are stacked one on top of the other, which occurs automatically by gravity due to the flexibility of the strip, a total thickness of two cm. for the ring which in fact constitutes, in the state of rest, the helicoid according to the invention.



   It will be noted that in Fig. 1 the first turns have been shown separated from the others, but it is obvious that the pitch c of these turns varies at will from a minimum value equal to the thickness b for the contiguous turns, up to at a relatively large value? the helicoid being able to undergo great deformations thanks to the extreme softness of the material constituting the grace the extreme softness of the material constituting the strip

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This strip ends with two ends 4, and 5 which may have any shape and direction, either rectilinear and radial, or more or less curved.



   Preferably, the recording medium described comprises, in each turn, and in the vicinity of the central hole 3, a certain number of holes 6 which are superimposed from turn to turn when they rest on each other, in the direction of each other. allow the passage of pins which will make it possible to drive the recording medium A in the direction of the arrow f for the example considered, first during its recording, then during the reproductions of the recorded medium.



   Of course, the direction of winding of the helicoid can be to the left, in this case i. will rotate clockwise (± 1 arrow) or right, in which case it would rotate counterclockwise.



   Fig. 2 shows the recorded medium. This medium comprises, side by side, a certain number of recorded tracks P. The number of these tracks naturally depends on the type of recording and on the width a.



   In the case of magnetic or optical tracks corresponding to sound recordings, each of these tracks will have the usual width, of the order of one to two millimeters, the tracks being separated by a small free gap and , in this case, on the width of the band could be easily recorded, for a width of eight to ten cm., about twenty tracks.



   If it is a burned recording, the number of tracks may be even greater.



   And finally,. if it is a motion picture- @

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 graphic, the number of rows of images will of course depend on the format.anviewed for the 'images,
In any case, each track, from end 4 to end 5 of the strip, is of great length given the large number of turns. This is the case for a track whose distance to the axis I-I is 10 cm. and for a support with 100 turns, the length of the track will be 2 x 3.1416.x 10 x 100 = 6283 cm., ie the equivalent of a strip of more than 60 m. long.



   In Fig.3 there is shown a variant A1 of support according to the invention, in which the width of the strip varies from one of its ends to the other, so that the stack of turns remaining of external diameter d constant, the central hole 3 formed has a frustoconical shape of increasing diameter from one end of the strip to the other.



   This variant does not have holes 6 for driving in rotation, the latter being ensured automatically by the engagement of the support A1 on a driving cone B1 which will ensure both the driving and a certain separation. between the turns according to its taper.



   Fig. 4 shows another variant A2 of the support according to the invention, in which, for the purpose of driving, each turn has a central hole of polygonal shape, for example a hexagon 7 so that all the stacked turns form a hole central prismatic.



   The bands constituting the helical supports described can be obtained in different ways,

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II Manufacturing processes aes supports .-,
A simple process, illustrated in FIG. 5, consists of using planar annular discs which are closed on themselves and which are split from their periphery 2 to their central hole 3.

   Fig. thus represents three discs C1 02, and C3 intended to form the first turns of the helical support?
The first disc C1 is divided into two sections, one of which, in solid lines, will constitute the beginning of the support, while the other, in phantom lines, 8 will be deleted, the cutting being done along a first straight line 9 which extends from the outer edge 2 to the dull IN edge 3 and along a curved line 4 intended to give one of the ends described above of the support obtained.



   Each of the other discs C2 and c3 is split only once, 'in a manner analogous to section 9 of the first disc C1 from the outer edge to the inner edge, the cut of each disc preferably being straight and more or less oblique. with respect to a radius, this section being able to be very advantageously tangent to the internal edge 3.the
Each disc is ensuit.e then put in the form of a helical turn and the two edges of., Its cutout, or 9a and 9b for the disc C2 and 9C and 9D for the disc C3 are each connected by gluing to the 'one of the edges of the adjacent disc cutout. Thus, in FIG, the edge 9a of the disc c2 is connected to the cutout 9 of the disc c1, while its edge 9b is connected to the edge 9c of the disc C3.



     'This way of proceeding can be very advantageously applied, because it is very simple, in the case of engraved magnetic or mechanical recordings, since the discs can be connected to each other without appreciable extra thickness by adhesive strips 10 applied.

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 on the face of the helicoid obtained, opposite to that intended to receive the recording.



   In the example shown, for the sake of clarity all the cutouts have been assumed to be in the same radial axial plane, but they may be angularly offset to distribute the slight excess thicknesses due to the bands 10 ..



   In FIG. 6, there is shown very schematically another embodiment of the helical support according to the invention, this method consisting in rolling a strip of rectangular section, shown at 11, between two cylinders 12 and 13 mounted to rotate in cylinders. bearings 14 and 15 arranged such that the axes Il-Il and
III-III of these rolls are slightly convergent, the rolling thus giving the starting rectangular section 11 a slightly trapezoidal shape 16 which will ipso facto result in the desired helical winding.



   A similar result can be obtained by stretching a starting strip 17 (fig. 7) on a cone 18 with the strip unwinding continuously from a supply reel 19.



   It is also possible, if desired, to directly extrude the support to be obtained through a die having a trapezoidal shape.



   III. Description alum has breeding and breeding grounds using helicopter support.



   Reference will now be made to FIGS. 8 to 12 which represent an embodiment of the apparatus capable of being used for sound recordings and for their reproduction using respectively a blank medium of the type of FIG. 1 and the same medium.

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 recorded and consistent with the example of? , 1.2.



   According to this exemplary embodiment, the apparatus comprises a housing formed of a body 21 and a cover, preferably in two parts 22-23 articulated by hinges 24 on a vertical partition 24a In the housing a plate 25, intended to support all the mechanisms, rests on brackets 25a.



   In this device, the support A or helicoid to be recorded or recorded is intended to be arranged horizontally, that is to say that its axis 1-1 will be vertical,
The apparatus essentially comprises four parts: - a rotary support D provided with means for rotating the helicoid A in the direction of arrow f1 (Fig8); a recording and / or reading head E; - a support device F for this head, and - a mechanism G to animate this head holder and this head of a movement during which the head undergoes a translation following a U-shaped path, in a vertical plane which is confused with that of Fig. 9.



   Each of these devices will be reviewed below:
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 Support D of the helicoid A, .- This support intended for the helicoid 5: - of Figs. 1 and 2 provided with a central hole 3 of constant diameter, is constituted by a hollow cylindrical hub 26, provided with a circular base 27 of a diameter slightly greater than the external diameter of the helicoid. This base 27 rests, by means of a ball bearing 28 on a cup 29 engaged on a vertical journal 30,

   axis 1-1

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The rotation of this helicoid is ensured by means of the base 27 from an electric motor 31, the supply circuit 32 of which is controlled by a button switch 33. The axis 34 of the motor is- frictionally drags a return roller 35 which itself rolls in friction on the periphery of the base 27.



   On this are fixed, parallel to the axis 101 and at an equal distance from this axis, pins 36, intended to pass through the helicoid A through the holes 6 in order to secure this helicoid and its rotating support in rotation.



   The cylindrical wall of the hub 26 comprises, a according to a certain number of generatrices., For example three, holes 37 through each of which a finger 38 can protrude outside the hub (see in particular Fig. 11 and 12), intended to support the turns of the helicopter located above the head E, Each of these fingers is provided at the end of a lever 39 mounted to oscillate around a fixed rod 40, carried at its lower end. higher by the, disc 27 and at its top, by a rim 41 of the hub. Each finger 37 tends to project outwards under the action of a spring 42. As many springs are provided as there are levers 39.

   For the sake of simplicity of the drawing, only one of these springs is shown in Fig.ll.



   In order to erase at 38a inside the hub (Fige $ and 9) each row of fingers when it passes to the right of the head E, a longitudinal stop 43 is provided, housed in the hub and fixed in position thanks to its fixing by a tab 44 and a socket 45 (fig. 8 9 and 11), on the fixed journal 30, This rod 43 forces all the levers mounted on the same rod 40, to

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 oscillate at the same time in the direction of arrow f2 (fig. 11) by meeting the rear ends of these levers with said stop during the rotation of the rotary support D. The erasure of the fingers 38 is not instantaneous .



  They begin to fade a little before arriving in the plane of Fig. 9 and do not resume their protruding position until a little after passing through this plane.



   The whole of the device constituted by the fingers 38 and their stop 43 for erasing per row is completed by an auxiliary device which will allow at a given moment, specified below, simultaneous erasure of all of all the fingers. On each rod 40 carrying the finger levers 39 is further mounted oscillating an auxiliary lever designated as a whole by 46 and bent in the form of a square.

   It has a first branch 47 parallel to the axis I-I and disposed between the wall of the hub 26 and the finger-carrying branches of the levers 39 (Fig.ll and 12). The other branch 48 of the lever 46 is disposed horizontally above the base 27 and so as to be able to be encountered and forced to oscillate in the direction of the arrow f2 (Fig.ll and 12) by a roller 49. The rollers 49 relating to the various levers 46 are mounted idle on journals 50 carried by a lower flange of a sleeve 51. The latter is engaged on a barrel 51a integral with the base 27 of the hub and by which this hub is rotatably mounted on the journal 30.

   The journals 50 pass through the base 27 through arcuate buttonholes 52, concentric with the axis 1-1 and are fixed below this base on the circular portion 53 of a lever 54 The oscillation of this lever , as will be specified later, in the direction of arrow f 3 (Fig.ll) around axis 1-1 with respect to the base 27,

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 will cause the rollers 49 to rotate around this axis and will force the branch 48 of each lever 46 to swing around the corresponding rod 40 in the direction of arrow f to cause the erasure of all the fingers' 37. We will come back to this later. on actuation of lever 54 Recording or reading head E, - In the example shown,

  it is a magnetic recording and reproduction. Head E is of the conventional type. It comprises (see in particular Fig. 13) a so-called first head 55, fixed to the end of a support 56 constituted by a blade forming a carriage. It is provided, for this purpose, with rollers 57 preferably mounted resiliently by their attachment to levers 58 which oscillate around axes 59 on the blade 56 and are urged outwardly by springs 60. The blade 56 is provided with a row of holes 61, the role of which will be specified below.

   In addition, under this rigiae blade is fixed an elastic blade 62, intended to elastically clamp between the head itself 55 and it, one of the turns 1 of the helicoid, so that this head 55 is in slight elastic pressure on this whorl.



  Support device F of the head E This support comprises a first fixed guide, fixed to the plate 25 and formed of a base 63 attached to this plate and two uprights 64 braced at their upper part by a cross member 65 (see in particular fig 8 and 10) and reinforced at their base by gussets 66.



   The uprights comprise, on their fields, two grooves 67 opposite, forming a first guide parallel to the axis 1-1 of the rotary support D. In this guide can slide, by means of rollers 68, preferably elastic mount, vertical branch 69

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 of a carriage designated as a whole by 70 and comprising another horizontal branch 71. This second branch is provided on the top with two lateral longitudinal ribs in which are formed grooves 72 constituting a second guide whose line median is perpendicular to axis 1-1
In this second guide can slide, by means of rollers 73 (fig. 9 and 10)

     a head holder 74, the part of which facing the support D forms a kind of spatula flattened horizontally. Its middle portion is raised at 75 relative to the lateral wings 76 (Fig. $) And is finished in the form of an ogive 75a intended to facilitate its insertion between two turns of the helicoid A This spatula has the shape of a double yoke thanks to a vertical and median notch 77 and a thinner slot 78 (see in particular Figs 8 and 10). for the free passage of the coil during recording or reading of helicoid A.



   On the lateral faces of the notch 77, the head holder 74 has two grooves 79 'in which the rollers 57 of the head E can slide.
The head E is adjustable in position along the slides 79 of the head holder 74 for the purpose of choosing the track P (Fig.2) to record or play.

   Head E is normally immobilized on the head holder using a ball 80 (Fig. 10) housed in a cavity of a bossagē 80a carried by the head holder 74 and pushed by a spring 81 into the 'one of the series of holes 61, made in the blade 56 of the head E (Fig. 13)
The selection of the track is ensured by a displacement of the head E against the action of the locking ball 79 from a control button

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 82 (fig. 8 (connected by a cable 83 to the head E to move it in the direction of arrow f4 (fig. 8) against a return spring 85 arranged around the cable 83 between the end of the blade 56 and a fixed stop 86 carried by the head holder 74 Mechanism C actuation.

   - This mechanism G intended to actuate the support device F comprises the various devices described below,
A means is first provided for urging the carriage 70 along the fixed guide 67 in such a direction - and with a moderate force such that the actual head 55 of the recording or playback head E is pressed lightly on the group of turns arranged between this head and the base of the rotary support 27.



   This means is constituted, in fact, by the simple weight of the carriage and of the elements which it protects LJ. Action of this weight which acts in the direction of the support of the head on the helical support A is nevertheless moderated by a partial balancing counterweight 87 (fig. 10) This counterweight slides in a tube 88 fixed to the plate 27 and is connected by a cable 89 to a lever 90 oscillating at 91 on an extension of the cross member, 65 of the stem and connected by a rod 92 to the carriage 70.



   Under the head-holder 74 is fixed vertically a rigid rack 93, parallel to the axis 1-I and the teeth of which are turned towards this axis and pass freely through a series of slots provided respectively: at 94 (Fig. 9 and 10) in the horizontal branch 71 of the carriage 70, at 95 in the plate 63 of the guide bracket 64 and at 96 in the plate 25
On this rack 93 is fixed, by one of its ends, near its base, a first spring of

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 return 97, for example in the form of a hairpin, which is supported, moreover, on a rod 98 carried by the carriage 70. This spring 97 tends to move the head holder 74 and, consequently, the head E towards the rotating support D.



   Furthermore, the rack 93 cooperates with a stop blade 99 carried laterally by a push bar 100. This bar can oscillate around its right end (fig. 8 and 9) around a journal 101 carried by two rollers 102. capable of rolling in two slides 103, fixed under the plate 25 and parallel to the slides 72 of the / carriage 70 The pusher 100 can therefore both slide in the direction of arrow f5 (Figo9) and in the opposite direction and oscillate around the axis of the journal 101 in the direction of the arrow ± 7 and in the opposite direction. It is permanently biased to the left (Fig. 9) by a spring 104 which connects a pin 105 carried by this pusher, and a pin 106 fixed under the plate 25.



   In the vicinity of the pin 105, the pusher '100 carries a roller 107 which slides during the longitudinal movements of this pusher, in a slot 108 of said plate 25.



   In the rest position, the pusher 100 occupies its lower position shown in FIG. 9 around the axis of its journal 101 and rests on the upper face of the plate by the collar 109 of its roller 107. But this pusher can be raised by oscillation in the direction of arrow f7 so that its roller 107 comes to the right of a cam 110 which participates in the rotation of the support D.



   This cam 110 has an active outer edge

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 spiral-shaped ghi (fig. 11), the end of larger radius i being followed by a projection ij
It can be seen immediately that the pusher 100 being in the position of Fig. 9 where it is returned by the spring 104, if it is lifted so that its roller 107 is in line with the cam 110, this cam will approach during of its rotation this roller 107 by a point such that h (Fig.ll) close to the end g and the part hi of this ramp by scrolling against the roller, will force the pusher 100 to move to the right (Fig. 9) ), in the direction of arrow f5,

     against the action of the spring 194 and by its knife 99 which will engage almost immediately between two teeth of the rack 93, the latter will itself be pushed to the right against the spring 97 by driving with she wears head 74 and head E,
The pusher 100 naturally tends, by gravity, to take the disengaged position shown in Fig.9. To make it oscillate upward in the direction of arrow f7, in order to bring the roller 107 to the right of the cam 110, an operating device is provided which comprises a button 111 (fig. 8) carried by the front of the device and which, using a cable 112 under sheath 113,

     is connected (Fig. $ to 10) to a lever 114 oscillating around an axis 115 carried by the plate 25. This lever is supported, by its free end, under the blade 100 It is therefore sufficient to make the lever oscillate 115 in the direction of arrow f8 (Fig. 10) using the lever 111 to lift the blade 100
In order to ensure a lifting of the assembly constituted by the support carriage 70, the head holder 7L and the head E at the end of travel to the right of the rack

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 93, of the head holder and of the head, an elastic device is provided which will be automatically bandaged when this mobile unit moves to the right.



   This elastic return device comprises a lever 116 (FIGS. 8 and 9) articulated at 117 on the lower end of the rack 93 and a spring 118 connecting an intermediate point 119 of this lever to the end 120 of the rack.

   The lever 116 carries, at its end, a roller 121 which, during the movement to the right of the aforementioned mobile equipment will roll on a fixed ramp 122, fixed under the plate 26 which will force the lever 116 to oscillate progressively towards up, in the direction of arrow f9 (Fig. 9) to come into the limit position 116a shown in phantom lines in Fig. 9, the spring 118 then being charged at 118a and tending to close the compass formed by the por - tion 117-120 of the rack and the lever 116. But above the ramp 122 is arranged a pallet forming a pawl 123,

     articulated at 124 on the fitting 125 which carries this ramp 122, this pawl allows the roller to pass in the upward direction but, on the other hand, stops it in the downward direction.



   Given the impossibility for the roller 121 coming at 121a on the ramp 122 to go down again, the closing of the compass results in a tilting upward of the lever around the center of the roller 121a and a lifting of the rack, from the lower limit position. 93a at the upper limit position 93b, with all the devices which are linked to it.



   However, this lifting can only be produced insofar as the rack 93 is released from the blade 99 which immobilizes it in height, this release does not

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 It is therefore only possible to intervene at the end of the travel to the right of the mobile unit (74-930E) when the pusher 100 will escape due to the jump ij to Inaction of the cam 110, as will be explained below.



   In order to ensure a perfectly vertical displacement of the rack 93 from the position 93a to the position 93b and of all the elements which are linked to it in height, a locking device is provided intended to temporarily hold the head holder 74 in its extreme right position 74a This device consists of a latch 126 articulated at 127 on the vertical bracket 69 of the carriage 70, this latch is urged by a spring 128 to engage in a notch 129 provided on the head holder 74dans a position such that it is to the right of this lock 127 for the extreme right position 74a of this head holder.



   In order to release the head-holder from the lock when it has reached, under the action of the relaxation of the spring 118, the high position 74b, to allow it to return under the action of the spring 97 in the position. finally to the left 74c (fig.9) the bracket 64 carries a stop 130 for clearing the lock.



   Finally, there is provided, at the right end of the head holder 74 an adjustable stop 131, intended, by abutting against the vertical branch 69 of the carriage 70, to limit the extreme movement to the left of the head holder 74 under the action of the return spring 94
IV - Operation of the device.



   Before explaining its overall behavior during a recording or reproduction cycle, we will first describe a complete displacement of the head holder 74, the apparatus assumed to be empty,

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In its starting position, the head holder is in position 74 and point m (Fig. 13) of the actual head 55 which will come into contact with the helicoid is assumed in ml (Fig. 9). By closing the switch 33, the motor 31 is started which rotates the rotary support D in the direction of the arrow fl.



   Then, by acting on the lever 111, the lever 114 is tilted in the direction of the arrow f8 (fig. 10) which raises the pusher 100, thus bringing its roller 107 to the right of the cam 110
This cam runs in the direction ghi against the roller 107 and now maintains the pusher raised by the edge of its roller, which makes it possible to release the button 33 The cam pushes the pusher back to the right, in the direction of the arrow f5, to against the action of the return spring 104 After a slight displacement, the blade 99 engages between two teeth of the rack 93 and henceforth, the pusher 100 will push to the right not only this rack 93,

   but the elements which are linked to it and in particular, the head holder 74 and the head E by binding, on the one hand, the return spring
94 and on the other hand, the spring 118 due to the bearing. the roller 121 on the fixed ramp 122 in the upward direction,
It will be noted that the roller 121 can then easily cross the pawl 123 by erasing it upwards.



   The pusher 100 thus brings the rack 93 to 93a and the head protector 74 to 74a, position for which the latch 126 falls into the notch 129 The point! It then came in m2 by describing the horizontal trajectory m1m2
A short time later, the jump ij de la. cam 110 appears in front of roller 107 of possoir 100

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 This is released and, under the action of the spring 104 comes back,
Due to the retreat of the pusher 100, the blade 99 moves away from the rack 93 which is therefore released.

   The spring 118 which was compressed at 118a can then relax, which, due to the holding of the roller 121a by the pawl 123, forces the lever 116a to oscillate at 116b and this oscillation causes the vertical displacement from 93a to 93b of the rack 93 and of all the elements which are linked to it vertically, that is to say not only of the head-holder 74 and its head E, but also of the carriage 70.



   The head holder therefore passes from position 74a to position 74b, the carriage passing from position 70 to position 70b The point m has moved vertically from m to m3.



   When the carriage reaches position 70b the latch 126 abuts against the lug 130 which forces it to come out of the notch 129, which frees the assembly formed by the head holder 74 its rack 93 and the head E The spring 94 relaxes and therefore tends to bring the moving part to the left. It will in fact be noted that during the relaxation of the spring 94 the carriage 70 cannot descend again because the roller 121 rolls on the pawl 123 and this descent would in fact result in the oscillation of the lever 116 from position 116b to position 116a. that is to say, by tensioning the spring 118a, the latter therefore opposes this descent.



   The head holder 74 therefore moves horizontally and reaches the high position 74c which is determined by the meeting of the stop 131 with the carriage 69 The point m has changed from m3 to m4

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It is only from position 74c that the moving assembly can descend again under the action of the slight preponderance of its weight in relation to that of the counterweight 87 because, at this moment, the roller 121 abandons the pallet- pawl 123.

   The point m therefore tends to go down from m4 towards m1 as we can see, this point m therefore describes, during the movement, a displacement m1 m4 in the form dtU and it was the same moreover for all the points which are linked to it, for example from point 117 which described during the same time the trajectory n1 n2 n3 n4
Note that shortly before the end of the movement to the right of the pusher 100, the roller 107 has come to a position 107a during which it has forced the end of the lever 54 (Fig. 11) to oscillate in the direction of arrow f3 which has caused a temporary erasure of all the fingers 38 inside the hub 26,
This is to record blank media A.

   To place this support on the base 27 of the support D, it is important, on the one hand, to erase the head 74 so that its point m comes in the vicinity of the point m2 and that, on the other hand, the points 38 are all erased at 38a inside the hub 26. To do this, the device D is rotated by hand while keeping the push-button 100 raised using the button 111.



   An idle cycle of the mechanism begins and it is stopped a little before the jump ij of the cam abandons the blade 100, that is to say in the position where the roller 107, on the first point of reach its limit position to the right, has tilted the lever 54 in the direction of the arrow ± 3 thus erasing all the fingers 28

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The mechanism is temporarily immobilized by hand in this position. The helicoid A is placed on the base 27 and the rotation of the device D is completed by one turn, which automatically returns the head holder 74 to 74 and causes the tips 36 to protrude, the lever 54 being abandoned by the. roller 107 because the pusher 100 has in turn been abandoned by the jump ij of the cam.



   As a result of the slight preponderance of the mobile page, the head holder 74 lowers to position 74c until the point comes to bear on the first turn of the helicoid A and this at the start of a propeller
 EMI24.1
 Theoretical choice of this helix depends on the position given to the head E on the head holder 74, using the button 82.



   The device is ready to start recording. It suffices to close the switch 33; the motor 31 now drives and until further notice the rotary support D in the direction of arrow f1 The helicoid scrolls relative to the recording head 55, that, -03. engaging as this helicoid rotates between the successive turns; turns such as those 'represented in the' (Fig. 9) which have already been recorded and which are now above the head E are held by the points 38.



   As the sets of tips pass to the right of the recording head these tips are erased under the action of the stop 43 to allow the free rise of the turns in it (fig. 9) the raised turns being then taken again by the points which immediately emerge from the hub 26, as has been explained. The recording can thus continue until the end
 EMI24.2
 tuf-erîeur.e- of -1 thelicotae.

 <Desc / Clms Page number 25>

 



   A track P (Fig. 2) will thus have been produced.



  The other tracks will be performed in a similar fashion by bringing back to the end of each track's recording - the header 74 in 74c by one. cycle of movements such as that which has been described above and obtained automatically by the simple operation of the button 111 which will lift the pusher 100.



   For sound reproduction, a previously recorded helicopter such as that shown at A, in fig.1est placed in the apparatus as described above; the playback of a given track is carried out exactly as for recording, except that the conductors 131 of the head 55 instead of being connected to a microphone, are connected to a speaker 132, by the intermediary for example of an amplifier 133ú · this loudspeaker and this amplifier, shown diagrammatically in Fig.8, which may or may not be incorporated into the apparatus.



   But, during playback, it may be necessary to abandon a track to switch to another track or to go back to a given track.



  In all cases, the operation will be obtained by having the trajectory m1 m4 1o point m4 carried out at point m of the read head, being kept to the right of the marl track If it is a question of resuming the reproduction of a first portion do that track or will be shifted to the right or left if it is playing another track.



   From the above it can be seen that the apparatus and, in particular the helical support described .; very easily allow this operation of switching from one track to another or - from a point of a track to another point of this track, without any modification to the recording medium

 <Desc / Clms Page number 26>

 which is not possible with conventional devices. tape unwinding from a supply reel to a receiving reel because ,, - in this case, to find the beginning of a track, we have to rewind all the part already unwound from the reel. Here.;

     on the contrary, the operation consists simply in making the mechanism describe the cycle of displacement in translation m1 m4
Of course, the invention is in no way limited to the embodiment shown and described, which was chosen only by way of example.



   In particular, the device can be of a different type than that described, thus possibly instead of having a rotating support D, this support could be fixed and, in this case, it is the head of recording or playback that would revolve around axis 1-1 of the fixed helix.



     Optionally, on the fixed or rotating support, it will be possible to mount several helicoids which can be recorded or reduced using the same head passing from one to the other.



   Finally, the axis of the helicoid in the device may have a position other than vertical, for example a horizontal position.



   In the case of light recording, the magnetic head would be replaced by a light bulb head recording or photocell reading. In the case of a mechanical recording, with an engraved groove, a pick-up head would be used.


    

Claims (1)

CLAIMS 1 Blank recording medium charac- terized in that it is constituted by a flexible strip (A) of very small thickness of Mature capable of receiving the desired recording and wound on itself under the elm of a helicode of which the turns (1) can be lowered on top of each other due to the flexibility of the strip, the thickness of the helicoid at rest, that is to say with its collapsed turns; being equal to the sum of the thicknesses of these turns. 2. A support according to claim 1 charac- terized in that said helical strip (A) is provided with means making it possible to drive it in rotation. 3. A support according to claim 2 charac- terized in that said means consist of holes (6) provided in the different turns (1) and superimposed when said turns are collapsed resting on each other. 4 Support according to claim 2 charac terized in that said means consist in the central hole (3) formed by the turns (1) superimposed this hole being frustoconical, so as to allow the drive by fitting on an axis (B1) frustoconical 5. A support according to claim 2 charac terized in that said means consist in the central hole (7) which is formed by the superimposed turns and which is of polygonal section. - 6, - Recorded medium characterized in that it is constituted by the medium according to any one of the aforementioned claims but comprising side by side, from one of its ends to the other, several recordings of the any of the known magnetic types, <Desc / Clms Page number 28> engraved and optical. 7. A cinematographic support characterized in that it consists of the support according to any one of claims 1 to 5, this support carrying cinematographic images. 8.- A method of manufacturing the support according to any one of claims 1 to 5 characterized in that one starts from annular discs (C1 C2 C3) which are cut along a line (9) going from their periphery to the hole center (3) and they are assembled so that for each disc the two edges of its cutting slot are each connected to one of the edges of the cutting slot of one or the other of two discs adjacent ones between which the considered disk is placed. 9 A method of manufacturing the support according to any one of claims 1 to 5, characterized in that a strip of rectangular section is continuously rolled (12,13) between two cylinders / with axes II-II and III- III) consistent, so as to give this strip a slightly trapezoidal cross section. 10. A method of manufacturing the support according to any one of claims 1 to 5, characterized in that a strip of rectangular cross section is stretched over a cone 18. 11 A method of manufacturing the support according to any one of claims 1 to 5 characterized in that quton directly extrudes the helical strip through a die of trapezoidal section. 12.- Apparatus for recording and re-production, respectively on a medium consisting of the virgin helicopter according to any one of claims 1 to 5 and using the same recorded medium said <Desc / Clms Page number 29> apparatus being characterized in that it comprises in combination: a fixed plate 25 on this plate a support (D) for receiving at least one helicoid (A) and dragging it in rotation to a head (E) for respectively recording and reading on this helicoid, a recording device. support (F) to carry this head (E) and a drive mechanism (31 34 35) to animate this support (D), and. consequently the helicoid (A), and this head (E) of a relative movement of rotation around the axis (II) of the helicoid so that said helicoid (A) passes following one of its Theoretical helices with respect to this head E which, at all times, is placed between two turns (1), the turns passing continuously on either side of this head (E). 13. Apparatus according to claim 12 characterized in that there is provided on said device d supports F a head holder 74 on which said head (E) is adjustable to modify its radial position relative to the helicoid. 14.- Machine according to claim 13 characterized in that on the head carrier (F) is movable a carriage (56) on which is fixed said head (E). 15.- Apparatus according to claim 13 characterized in that said carriage (56) carries an elastic blade (62) intended to elastically enclose a turn 1 of the helicoid (A) between the head (E) and her. 16 Apparatus according to claim 12, characterized in that said support (D) of 1: helical (A) is constituted by a hub (26) rotatably mounted on the fixed plate (25) and provided with a base (27) which is connected to the said rotational drive mechanism 931,34,35 and against which the helicoid (A) is held in support. <Desc / Clms Page number 30> 17 Apparatus according to said claim 16 and characterized in that the / plate (25) is horizontal / carries a vertical journal (30) on which said hub (26). is rotatably mounted, said helicoid (A) resting by gravity on the base (27) of this hub. 18.- Apparatus according to claim 12 (F) characterized in that said device / head support (E) is adapted such that'this head can be extracted, by a displacement perpendicular to the axis (II) of the helicoid A of the superimposed turns of this helidoid between which it is engaged, to be brought back against one of the ends of the helicoid while bypassing this helicoid by its periphery, the head describing a path substantially U-shaped 19 Apparatus according to claim 18, characterized in that said device (F) for supporting the head (E) is combined with a mechanism (G) for actuating itself combined with the rotary support (D) of the helicopter. , so that this support ensures the displacement of the head along said path. 20.- Apparatus according to claim 19 F characterized in that said device / head support comprises a first guide (63,64,65), fixed on the plate (25) and parallel to the axis II of the rotary support (D) of the head. 'helidoide (E) a carriage (70)' in the form of a square with two branches (69-71) spaced at right angles, movable along this guide by one (69) of its branches, while the other branch (71) clle form itself a second guide perpendicular to the axis II of said rotary support D and a head holder (74) movable in this second guide. <Desc / Clms Page number 31> 21. Apparatus according to claim 20, characterized in that the rotary support (D) comprises a base (27) and said mechanism and) for actuating said support device (F) comprises in combination: means for urging the- carriage (70) along the fixed guide 63,64,65 in such a direction and with a moderate force such that the head (E) is pressed lightly on the group of turns (1) of the helicoid located between this head and said mabas (27) of the rotary support D; a first return spring (97) for moving the head holder (74) along the second guide 71) towards the axis II of said rotary support D a rack (93) parallel to the axis (II) of the support rotary (D) and rigidly fixed to said head holder 74, a cam (110) with a projection ij integral in rotation with this rotary support (D); a sliding push button (100) capable of lateral displacement allowing it to be inserted between this cam (110) and this rack (93) to move said head holder (74) away from the rotary support (D) under the 'action' of the cam (110) and against the action of said first return spring (97): a second spring (104) for the return of said plunger (100); a latch (126) for locking the head holder (74) on the carriage (70) in the position given by the cam 110 when the jump i of this cam abandons the pusher (100) and the latter is recalled by this second spring (104); an elastic device (118) adapted to be bandaged during the movement of the head holder (74) under the action of the cam (110) and of the pusher (100), this elastic device (118) being adapted to move said carriage (70) and consequently the head holder (74) along the first guide (63-65) in the direction which away the head E from the base (27) of the rotary support (D) as soon as the rack (93 ) is dropped by the pusher (100, because <Desc / Clms Page number 32> the decline of the latter; and a stopper (130) on said first guide 63-65 for releasing the head holder (74) from said latch (126) when the head (E) has passed the end turn of the helicoid (A) to allow the return spring 97 of this head holder (74) to move it along the second guide (71) to bring said head E back to this end turn. 22. - Apparatus according to claim 21 characterized in that the axis (1-1) of the rotary support (D) is vertical and the means for urging the carriage (70) along its guide (63-65) consists of gravity, a counterweight 87 being provided to partially balance the weight of this carriage 70 and the elements which it carries. 23.- Apparatus according to claim 12 characterized in that said support (D) is rotatable and comprises a vertical hollow hub (26) pierced with vertical rows of holes (37) vertical rows of fingers (38) movable radially housed in leait hub and capable of projecting outside this hub through said holes to support the turns of the elicoid (A) located above said head (E) and a device (43,44) for erasing each row fingers 38 when it passes in front of the head (E) to allow separation, at any time, back two helicoid turns passing on either side of said head (E). 24 Apparatus according to claim 23, charac- terized in that rods (46) parallel to the axis of rotation (1-1) of the hub (26) are fixed in this hub. Levers (39) terminated by said fingers 38 are fixed in this hub. mounted oscillating on these rods, springs (42) tend <Desc / Clms Page number 33> in projecting these fingers (38) outside the hub (26) through the holes (37) of the latter and the erasing device consists of a fixed longitudinal stop (43) housed in the hub and that said levers 39 come to meet when the corresponding fingers 38 pass in line with the head E 18 and 25.- Apparatus according to claims / 24 is provided characterized in that a device for erasing all the fingers (38) at the moment. the head (E) is extracted from the helicoid (A) in order to allow the collection of. all turns by gravity. 26 Apparatus according to claims 20 and 25 characterized in that on each -stem (40) carrying (39) back lever / fingers 38 is further, oscillating mounted an auxiliary lever (46) and all the auxiliary universes (46) take bearing on rollers (49) carried by a rotating part concentric with the axis I¯I of the rotating support (D), this part / being integral with a lever (54) adapted to be actuated by the pusher (100) to the end of the disengaging movement of the head holder (74) out of the helicopter A in a direction such that said rollers (49) cause all the finger levers (39) to oscillate simultaneously and by the auxiliary levers 46 in the sense. the erasure of those fingers. 27.- Apparatus for recording and reproducing substantially as described and shown in the drawing.