CH276190A - A method and apparatus for obtaining a magnetic recording. - Google Patents

Description

  

  A method and apparatus for obtaining a magnetic recording. The present invention relates to a method for obtaining a magnetic recording on at least one recording sheet and for reading this recording, as well as to an apparatus for implementing this process. .



  According to the method according to the invention, the sheet is temporarily applied on a roll, so that the opposite edges lie side by side, and the sheet enveloping the roll is magnetically explored along a path or track. repeatedly crossing these adjacent edges, the sheet comprising magnetizable particles dispersed in a non-magnetic binder and being of flexible Turkish nai allowing it to be repeatedly folded and unfolded.

      Preferably, recording sheets are used, the elasticity of which can vary from the flexibility of the tissue paper to the relative stiffness of a sheet of resin or other composition, for example that of a photographic film. .



  These flat sheets can be temporarily bent to a cylindrical shape for recording and reproduction, although in the meantime we have been able to restore the sheet (recording to its flat shape or have it folded or crumpled. Recording can be performed simultaneously on more than one sheet by superimposing at least two sheets on each other.

      The apparatus for covering the process according to the invention comprises a roller for temporarily supporting at least one sheet wound around it, so that its opposite edges lie side by side, as well as a device for scanning. this sheet thus wound magnetically, following a track which repeatedly crosses said adjacent edges, the sheet comprising magnetizable particles dispersed in a non-magnetic binder and being of a flexible nature allowing it to be folded and unfolded repeatedly.



  Means may be provided to explore a helical track which intersects the edge of a recording sheet which has been bent to the cylindrical shape and to identify the position of the sheet on its shape, in order to be able to ensure a partial re-recording. and. reading the sheet after it has been reassembled on the same device or on another similar one.



  Means can also be provided for mounting a recording on its support, so as to establish a control link between the support and the recording sheet, as well as means for establishing, after a sheet has been replaced in the machine, the same alignment which existed between the overlapping edges of the sheet during the recording, as well as to reestablish the previous positional relationships between the track recorded on the sheet and the re producing organ.



  Although the invention is suitable for recording texts of extremely diverse species, it is particularly suitable for recording and recording. reproduction of dictated texts, due to the placement and removal of recording sheets. Effeetnent in a very simple manner while retaining the precision of alignment even with the most flexible sheets which the invention contemplates use.



  The appended drawing represents, by way of example, three embodiments of the apparatus for implementing the method forming the subject of the invention.



  Fig. 1 is a plan view of a recording sheet for use with the apparatus. Fig. 2 is a partial section of a recording sheet.



  Fig. 3 is. an 11th perspective of the sheet according to FIG. 1, mounted on the wallet roller of the first embodiment.



  The. Fi-. 4 is a front elevation of the first embodiment of the apparatus, the front panel of which is largely broken away.



  Fig. 5 is a sectional view of the apparatus according to the. line 5-5 of fig. 4.



  Fig. 6 shows part of the mechanism according to FIG. 5.



  Fig. 7 shows part of the mechanism represented in: FIG. 4.



  Fig. 8 is. an elevational view of the second embodiment of the apparatus from which the front of the housing has been removed.



  Fig. 9 is a - # - iie, at. enlarged scale, of, the apparatus in section along line 9-9 of fi-. 8.



  Fig. 10 shows, in horizontal section along line 10-10 of FIG. 9, part of the mechanism shown in this figure.



  Fig. 11 is a simplified wiring diagram applicable in particular to the second embodiment of the apparatus, but which can also be used with any of the other forms. The, fi-. 12 is a vertical section of a third form.



  The fi-. 13 is an elevation of parts of the apparatus according to FIG. 12, finally the fi-. 1.1 is a plan view on a reduced scale of a tl'enre sheet, # istrenr (-, nt useful more particularly on an apparatus of the third form.



  The three embodiments of the device that go. described are all designed for recording and reproducing information on flexible rectangular recording sheets supporting magnetizable material.



  Such sheets contain finely divided particles of a magnetic substance having high remanence and high coercive force, which particles are dispersed in a binder. non-ma.-net.ique and preferably supported by an element. non-magnetic doubling.



  Although. possible (recording the texts magnetically on a vehicle comprising a homogeneous mass of magnetic material, it has been found that the desirable magnetic properties enumerated above invariably accompany, in homogeneous sheets, undesirable physical properties .

   Magnetic substances which have the necessary coercive force and remanence have. tend to be so harsh and. healthy cases that it is. difficult to work them by rolling or pulling, while conversely the substances which convieii (lr. # _ iient for the manufacture tend to have a remanence and insufficient coercive force. In addition, even if the recording vehicles are made of substances possessing satisfactory magnetic properties, the physical properties of the recordings thus obtained are undesirable for the purposes contemplated here.

    For example, a carbon steel sheet having only moderate afterglow and moderate coercive force is. still so stiff that one cannot try to bend it without breaking it.



  For practical reasons relating to reasonable preservation of the recordings obtained in a limited format, the sheet must be scanned at a relatively low translation speed. However, as the speed of exploration decreases, the voltage at the output of the reproductive organ also decreases, because this voltage is. proportional to. the speed of variation of the magnetic field.

   It follows. that for low exploration speeds, a stronger amplification is required, which makes it more sensitive to parasitic noises. In fact, when an attempt is made to employ a homogeneous cylinder rolled sheet with overlapping opposing edges, a particularly unpleasant and annoying click is heard. each time the overlapping edges pass in line with the reproductive organ.

   It seems that this phenomenon is due to the concentration of the lines of magnetic forces along the edge of the homogeneous metal sheet.



  On the contrary, it is possible to economically produce recording sheets of the type shown in section in FIG. 2, which contain fine particles. divided with a magnetic substance, dispersed in a flexible, non-magnetic binder, and these sheets stand up remarkably well to the least careful handling. Such sheets can be folded, crumpled, creased or otherwise deformed without modifying their magnetic properties or removing them or substantially diminishing in any way the quality of reproduction of a recording made thereon.



  As the magnetic particles present in sheets of the type thus described are. effectively. isolated, no concentration of lines of force at the edges of the sheet occurs, so that the characteristic click of a homogeneous sheet disappears. completely, although the. speed is low and that, consequently, one must resort to. strong amplification.



  However, it should be noted that sheets containing scattered magnetic particles give rise to certain problems which must be overcome when it is intended to be used as vehicles for recordings. In the first place, this same flexibility and immunity against the deleterious effects of distortion require new skills in order to reestablish the agreement between the parts of a recording made on the. leaf. The most important of these characteristics is. flexibility of chi-type record sheets considered.

   We will get an idea of the problems raised when we know that these sheets have a thickness varying from 2.5 to 12 hundredths of a millimeter and that they are comparable, in their appearance and their properties to the touch, to ordinary carbon paper. .



  We have. shown in plan in fig. 1 a recording sheet 20. Intended for the recording of office correspondence, the purpose. envisaged being either that it serves as an intermediary between the dictation of a letter and its transcription, for example in typed form, or that it is sent to its addressee, at the expense of the latter for the decipher by means of a reproductive apparatus of the type described. On its uncoated face, the sheet bears a heading 21, a cartouche 22 for the mention of the address, classification indications 23, a title 24 and the indication of em.placement 25 of the signature.



  The recording sheet can be of any suitable format which depends on the kind of text to be recorded; preferably, however, for work of commercial correspondence and as it has been shown at. the. fig. 1, the sheet should be of the commercial size, for example 21.50 X 28. Adoption of such a format such as that of the registration sheet allows the use of all the incidental supplies of postal correspondence. For example, the sheets can be shipped, folded, in size envelopes. normal and filed flat or folded into regular-sized folders and filing cabinets.



  Apart from the format of the sheet, the plan shape of the latter is characterized by perforations 26 and 27 as well as by corner notches 28 and 29, the whole of which cooperates in maintaining the recording sheet in position. exploration in the recording device. In addition, these perforations constitute a means of: distinguishing the head from the bottom of the sheet, as will be explained more fully below. As seen in section in FIG. 2, the sheet 20 comprises a flexible layer 30 containing magnetizable particles and preferably supported by a flexible liner 31.

   The magnetizable substance is preferably a substance having a high remanence and a high coercive force, dispersed in a binder. flexible non-magnetic, for example a resin, which can be used in apparatus even in unlined sheets. The backing member 31, so far as one is used, may advantageously be paper or some other material having the property of not being easily cut. following a folding and: that of returning to a substantially flat shape after it has been bent into a cylinder or folded.

   The binder which contains the magnetizable particles has analogous properties, so that a recording vehicle thus formed can undergo repeated bending, bending and unfolding without the bond between the magnetic substance and the element being altered. doubling, not only the orientation of the various magnetic particles relative to each other.

    The elasticity of the material used intervenes to bring it back to the planar shape when the sheet is released from the roll, which is not only advantageous in relation to the use which will be made of it subsequently, but also facilitates the release of the sheet, as will be seen later.



  It has been found that the best combination of the properties considered in the foregoing is obtained: by employing a foil of about 2.5 to 12 hundredths of a millimeter, and more preferably still from 5 to 8 hundredths.



  Whether it is for writing or reading a text, the sheet 20 is mounted on a cylindrical support or roller indicated as a whole at 32 in FIG. 3. This roller 32 comprises a cylindrical body made. of a non-magnetic material, for example of,] has tone, and two end flanges 33 and 3-1. This roll 3? is mounted for journaling.



  In addition to the roller 32, the shaft 35 also carries (Fig. 4) a control gear 48 participating in. its rotation and. located between the flange 33 and the bossa-e 41. Around this toothed wheel 48 passes a chain 49 which drives a pinion 50 of the same diameter as the wheel 48 and which is. wedged on the shaft 51 of the lead screw 52 with a single thread. The shaft 51 of the lead screw is mounted at its end in the flange 43.



  It can thus be seen that the whole of the drive mechanism is thus composed (fig. 4 and 5): motor shaft 44, movable roller 45, roller shaft 46, flange 33, shaft 35, toothed wheel 4-8, chain 49, toothed wheel 50. shaft 51 and lead screw 52.



  The lead screw 52 provides the effort. translation key intended to move part of the mechanism in the key direction of the axis of the roller 32. This part is. mounted on a cart. 53 which rests, without axial or peripheral connection, on an axial slide 54 which carries a mesh 55 cut le Joli- on one of its sides. The spans on which the carriage actually rests in its movement are. the internal faces of a pair of sleeves 56.

         -ceu On r.57, the organ the carriage 53 are recorder mounted the gold --- wing 58, @ the rear return mechanism indicated in its in seems in 59, the needle 60, the: half -nut 61 and a pair of heels 62 and 63.

   The recording-reproducing organ 58 and the erasing organ 57 comprise electromagnets each of which comprises two poles very close to the ends to be rested on the recording when either of these organs is. in action.



  The mass of the carriage 53 and of the connected parts is. distributed around the axial slide 54, so that, by their own weight, the members 57 and 58 are kept pressed against the roller 32 and the half-nut 61 in engagement with the lead screw 52.

   The heels 62 and 63, which extend below the axial slide 54, constitute. levers to which tilting forces can be applied, so as to put the eni-c- ffi <B> Cr </B> streur-reproductive and eraser organs out of contact with the roller, and the half -nut out of engagement with the. mother screw, as will be explained in more detail in what follows.



  The drive mechanism in rotation as the tilting of the carriage 53 around the axial slide 54 are dependent on: one and the same electromagnetic control device shown very clearly in fi-. 6 and. 7. The movable arm 47 is mounted with a view to tilting at its lower end on the shaft 64 which serves as said reaction point arm. At its upper end, the arm 47 is connected to the frame 65 of a solenoid 66 and in the meantime it carries the aforesaid shaft of the roller 46, a spring. 6 7 (see fig. 5) and a transverse arm 68.



  The spring 67 normally tends to pull the arm 47 towards the rear of the machine, but with less force than that exerted on this same arm by the solenoid 66 when it is energized, so that the arm is. maintained in its rear position as long as the solenoid is not energized, in which case it is pulled forward.



  The anterior end of the transverse arm 68 is connected to the heel 69 of the release bar 70 mounted to swing around the shaft 71. As can be seen in FIG. 4, the release bar 70 occupies almost the entire length of the slide 54, so that regardless of the position of the carriage 53, it can be brought to bear against the heels 62 and 63 of the carriage 53.

   The parts are shown in fig. 5 and. 6 in the position which they occupy when the solenoid 66 is energized, that is to say when the guide roller is engaged and the release bar 70 folded forward, thus putting the members 5 7 and 58 in contact with the sheet 20 rolled on the roller 32 and the half-nut 61 engaged with the lead screw 52. In these conditions, the cylinder rotates and the lead screw moves the carriage: in the longitudinal direction of the roll.

   On the other hand, if the supply circuit of the solenoid 66 is. interrupted, the spring 67 pulls the arm 47 towards the rear, which has the effect of putting the feed roller out of engagement and causing the release bar 70 to reverse towards:: the rear. This, as can be seen, enters into contact with one of the heels 62, 63, or with both, to impose a tilting force on the carriage 53 around the slide 54, thus puts the members 57 and 58 out of contact with the sheet and half-nut 61 out of contact with the lead screw 52.



  It results from the rotary movement of the roller 32 combined with the movement of movement of the carriage 53 on its slide 54 that the recording member moves relative to the recording vehicle in two directions approximately perpendicular to each other. This combination of movements makes it possible to explore the. impressed surface, as a whole, in a series of parallel track elements. Preferably, a correlation is provided between the two components such that the translational movement and the rotational movement are simultaneous, in order to obtain a continuous helical track running along the line of overlap of the opposite edges of the recording sheet. .



  On the carriage 53 is mounted a second positive control device 59 which serves to produce the rear return. This mechanism comprises a solenoid 72 and a pawl subjected to its action and intended to cooperate with the. Rack 55 cut on the slide 54, so as to make the carriage 53 return step by step on the axial slide 54. fig. 4, we have. re presented a push button switch 73 which controls the solenoid 72.



  In addition, the mechanism for performing the exploration of the recording sheet as it comes. to be described, the machine according to FIGS. 4 to 7 also includes a semi-automatic device for placing and removing sheets of paper.



  The mechanism for placing the recording sheets comprises a magazine 74 located at the rear of the machine and intended to contain a number of sheets 20 whose leading edges, indicated by the holes, are turned towards the left. roller. Two fingers 75 provided with balls 76 are intended to come into contact with the anterior sheet \ 1, 0 of the packet contained in the magazine through slots made: in the front wall 77 of the magazine. The fingers are 75. fixed at their lower end on a shaft 78 suspended from a second shaft 79 by three arms 80, 81 and 82.

   The arms 80 and 81 are wedged on the shaft 79, so as to participate in. its tilting, while the arm 82 is mounted to rotate freely on a sleeve 83 concentric with the shaft 79. Each finger 75 is provided with a spring 84 which tends to apply the finger 75 against the paper. The tilting of the shaft 79 is obtained by means of the lever 85 (fig. 4).

   It will be appreciated that by lowering the lever 85, the finger 75 is made to rise against the tension of the spring 86 (FIG. 5), and since the balls 76 are lined, in order to create between them and the sheet of paper 20 a more strong adhesion than that which exists between this sheet and its neighbor, said sheet is lifted and brought into a position for which its upper edge penetrates into the space between the paper guide 87 and the roller 32.

       As this roll rotates, the hooks 36 and 37, which are inclined towards the direction of the normal rotation of the roll, enter the holes 26 and 27 of the sheet 20, thus extracting the sheet from its magazine and shaping it around the roller. Paper guides 87 and 88 hand hold the sheet in its arched form on cylinder 32.



  The paper ejector mechanism comprises the aforementioned sleeve 83, which is mounted for rotation on the shaft 79 and one end of which is fixed to the lever 89 (Fig. 4) and the other to a crank 90 which carries a connecting rod. - rod 91. A: next to this, another rod 92 is freely mounted on the shaft 79. The rods 91 and 92 are kept substantially aligned in the axial direction by two guide heels 93 from manufacture with link 91.

   An ejection lever 94, carrying a ball 95, is fixed to the links 91 and 92 respectively. at 96 and 97. When the lever 89 is lowered, the crank 90 rocks so as to move the link 91 downward relative to. the. rod 92 contrary to the tension of a spring 9b, thus lifting the ball 95 and bringing it. eir con tact.

   with the 3 '' roller through rtne slot in the paper guide 85. Lor, qrre the ball can no longer be raised, the entire mechanism, including the crank 90, the rods 91 and. 92, the lever 94 and the pad 95, pivot around the shaft 79, thus making the roller 32 run counterclockwise (the one clockwise, see fig. 5).

       As the paper 20 curved around the roll 32 tends by itself to unwind, the sheet is released by the outer or rear wall 91) c111 magazine 74 and deposited between this wall 99 and the rear panel 100. The inclination hooks in the direction of normal rotation facilitate this release of the sheet from the roll.



  In fig. 3 and 4, there is shown a mechanism intended to stop the roller in a predetermined position before the ejector mechanism is put into action, in order to ensure that the trailing edge of the sheet 20 is in the desired angular position by port to the rear wall 99 of the magazine 74. This mechanism (Fig. 3) comprises a cam 101 mounted on the shaft 35 of the roller near one end of the latter. This cam 101 has a circular profile interrupted by a depression? 02.

   The switch 203 comprises a head guard 10.1 intended to separate the contacts of the switch when it falls into the depression 102. The switch 103, in combination with the ejection button, serves to close the supply circuit of the solenoid 66 which engages the drive mechanism. of the roll.

   This cooked circuit is completely independent. of the normal actuation circuit of the solenoid 66, as will be seen when the corresponding circuit of embodiment B will be described. When it is desired to eject a sheet, the operator closes the ejection switch, the solenoid then being so excited. that the tate-cam 104 remains in contact with the raised part of the cam 101.

   It follows. that the roller rotates in the normal direction, until the i <it, e-canie 104 falls into the depression 10 '<B> .1 </B>, separating the contacts of the 1. switch and decagnetizing the solenoid 66. At this point, the roller stops in a position determined by the angular adjustment of the vacuum. Arrangements are made so that this anbular position corresponds to the position of the trailing edge of the sheet '30 compatible with the ejection thereof in the desired -direction.

    Preferably, as in the form shown, the position (the depression (the way that the roll stops when the trailing edge of the sheet 20 a.

   slightly past the edge of the rear wall 99 of the paper magazine, the edge which releases the sheet click roll when the latter is turned backwards. After the roll has been brought and immobilized in this position, the paper is ejected by operating the lever b9, as has been said above.

           Turning now to the second embodiment indicated by B in figs. 8 and 9, it can be seen that a cylindrical or roller form 32'b is mounted for rotation in the upper part of a cabinet <B> 107. </B> The form '52h is supported by a shaft 35b which rotates in the left 13b and right 38b flanges.

       Immediately below the shaft 35b and to the left of the roller <I> 3 </I> <B> 2 </B> <I> b, </I> you can see the drive motor. 12b fixed to the flange 436 by means of supports 108 and 109.

         As can be seen from the. tig. 9, the motor shaft 41b is in contact at its periphery with the drive roller 45b wedged on a shaft 16b mounted for turning in a transverse clutch arm 110.

   The displacement of this arm 110 is. of tiné to put the roller 15b in and out of engagement with the flange 33b of the roller 328, thus providing between the motor 42b and the roller 32b a control link which can be interrupted at will. The shaft 35b also carries, wedged on it, a driving pinion 18b located on the right end of the shaft between the flange 3-1b and the flange 38b.

   Around this pinion 18û passes a cliaine 19b which connects it to a driven pinion 50b integral with the lead screw <I> 52b. </I> Each end of the lead screw 5:; b has a conical depression 111 (fig. 10) intended to co-operate with a needle 11: '. or 113.

   Bridge 112 is biased in the direction. of the lead screw by a spring l14-. Sticky to the needle 113, which is housed in the depression 111 located at the right end of the lead screw 52b, it is screwed into a fixed nut <B> 115 </B> and capable of being turned by means of 'a knurled knob 116. A movement: of rotation of the needle 113 in the nut 115 results in an axial displacement of the needle with respect to the fixed elements of the machine and thus makes it possible to adjust the position of the machine in the axial direction. lead screw 52b.



  The lead screw 5 ') b provides the force for the translation of the carriage 53b which rests on the axial slide 5.1b and which is free to move axially as well as to oscillate on it. The actual bearing surfaces on which the carriage moves are the interior surfaces of a pair of sleeves 568.

   The cha- iiot 538 carries an erasing member 57b and a recording member 588 supported by a balance <B> 117. </B> The carriage 53b is also provided with a half-nut 61b intended to cooperate with the lead screw 52b as well as a rear return mechanism, indicated as a whole at 59b and comprising a solenoid 72b and a frame 118 which carries a half-nut 119 intended to cooperate with the recoil lead screw 130.

   Frame 118 is. mounted to oscillate freely in a vertical plane around a ridge 121, but a spring 122 normally tends to move it away from the solenoid 72b. Frame 118 is. immobilized in the direction perpendicular to the axis of the solenoid 72b by a vertical slot .prévue in the support 123 of the solenoid and through which it passes.

   It can therefore be seen that the excitation of the solenoid 72b has the effect of lifting the mature rear 118 and putting the half-nut 119 in engagement with the recoil key lead screw 120, which brings the carriage 53b backwards on its axial slide 5-1b. He. It should also be observed here that the assembly comprising, on the one hand, the members 57b and 58b and, on the other hand, the rear return mechanism, constitutes a lever having for articulation axis the axial slide 54b. The rear return end of the lever (the left end as shown in FIG. 9) also includes a counterweight 124 visible in FIG. 8.

   The mass of this counterweight together with that of the rear return mechanism is sufficient to lift the members 57b and 58b and press them against a recording sheet curved around the form 32b.



  The tilting position of the carriage 53b around the axial slide 54b, as well as the engagement position of the drive roller 45b, are determined by a control device which will now be dealt with. Considering first of all FIG. 8, it will be noted that in the space between the flange 43b and the end of the cabinet 107 is. mounted a solenoid 66b pounui a frame 65b (Fig. 9) which is articulated on the clutch arm 47b by means of a pin 125. The arm 47b is.

    mounted for pivoting around iui pivot 64b. At its upper end, the arm 47b forms an inverted [J (fig. 8) whose horizontal part passes through an opening 126 made in the flange 43b and whose descending branch is connected to the transverse arm 110 by a pivot 127. Between its base pivot 6-1b and pivot 125, clutch arm 47b is also connected to transverse arm 68b by pivot 128.

   This transverse arm 68b passes through an opening 129 made in the flange 43b and is connected at its end opposite to the crank 69b of the clutch bar 70b. This clutch bar 70b extends over the entire length of the axial slide 54b and is mounted with a view to oscillating on a shaft 71b. The section of the clutch bar 70b has the shape of a <B> L </B> whose short branch is intended for. raise worm the front arm of the carriage 53b, regardless of the position of the carriage on the axial slide 54b.

   A spring 67b biases the clutch arm 47b, so as to hold the parts in the position shown in FIG. 9, i.e. the drive roller 45b out of engagement with the roller 32b and the short arm of the clutch bar raised in the position for which the half-nut <B> 61b </ B > is lowered and released: from the lead screw 52b.

    However, as a result (the excitation of the solenoid 66b, the clutch arm 47b swings around its pivot 64b, unlike the pull of the spring <B> 67b, </B> thus putting, through of the transverse arm <B> 110, </B> the left drive letter 45b in engagement with the form 32b, at the same time as it swings the clutch bar 70b around the shaft 71b, so to allow the front of the carriage 53b to descend and thereby bring the half-nut 61b into engagement with the lead screw 52b.

   As a result, the rotational and translational components of the scanning motion are both controlled by the operation of solenoid 66b. A final adjustment of the play of the control mechanism can be made by locking the stopper 47s (fig. 9 and 7.0) in the desired position so that it limits the range of movement (the clutch arm 47b in the direction (the taking out of the socket.



  The recoil is obtained by the excitation of the solenoid 72b, which puts the denii-nut 119 in engagement with the recoil lead screw 120, as has been said. The lead screw 120 is mounted on a shaft 130 which pivots on the flanges 43b and 38b. In addition to the return lead screw 120, the shaft 130 also carries the return roller 131 which is in permanent contact with the drive shaft 44b and which, therefore, between keeps the return lead screw 120 in permanent rotation. .



  The cabinet 107, the horizontal section of which is rectangular as a whole, has an inclined front face. This inclined anterior part of the machine is lowered, so as to form a pan 132 the width of which is the same as that of the registration sheet, ie approximately 21. M cm. The panel 132 constitutes the bottom of a feed corridor including. the sides are. delimited by guide blades 136 which extend inwardly in the plane of the flanges 33b and 34b of the form 32b.

   To load the machine, a sheet 20 is placed on the panel 132, so that its leading edge is turned towards the roller, and it is slid, rising again between the guide blades 136, until it is touches the roller 32b. As the panel 132 is parallel to a plane passing through the axis of the cylinder, the leading edge of the sheet is presented parallel to this axis when it approaches said axis. roller.

   At the same time, the roller 32b is rotated using one of the knurled knobs 133 or by energizing the solenoid 66b until the hooks 36b and 37b enter the holes 26 and 27 of the sheet 20, which has the effect of pulling the sheet around the roll between the upper guide 87b and said roll and of shaping it around: this .dernier. In addition to said upper guide 87b, there are provided in the lower front quarter of a circle three guides supported by a cross member 135.

   During the rotation of the sheet, the trailing edge of the latter, after having passed the members 57b and 58b, tends to descend into a tangent position below the roll, and the role of the guides 134 is to prevent the sheet to engage in the mechanism located below.

   The instant the trailing edge returns in contact with the roller 32b, the oblique flanges 33b and 34b bring it back in line with the leading edge. After the leaf has. been curved on the roller, as has been said, one can start to explore the sheet by exciting the solenoid 66b, thus initiating the rotational movement of the roller and the advancing lead screw and putting the half Eeror of advancement in engagement, as has been said.



  It should now be noted that the roller 32b is provided with a lining 145 of flexible material, for example rubber, that the half-nut 61b integral with the carriage 53b is resiliently applied against the lead screw 52b by a spring 137 and that the members 57b and 58b are free as to their relative movement with respect to the roller, so that it is possible to keep constant the contact pressure between these members and a recording sheet mounted on said roller.

       When a! Negality, such as] overlapping line of the two ends of a sheet, or an eccentricity of the form 32b, presents itself to one of these organs, the organ concerned has the possibility of switching to the rear with respect to the other, just like the whole of the carriage 53b around the axial slide 54b, although to a lesser extent, without harming the privacy of the contact between the half-nut 61b and the lead screw 52b,

   because the spring 137 maintains this half-nut 61b in engagement with the lead screw regardless of slight variations in the relative positions of the lead screw and the carriage.



  We can see in fig. 8 and 9 the mechanism whose role is to indicate the measurement of the recording and also to allow rapid displacement: of the carriage 53b on the axial slide 54b. This mechanism comprises a tam bour 138: wedged on a shaft 139 which passes through the front of the cabinet 107 and which is mounted in a support 140. Around the drum 138 is wound a cable 141 which, starting from there to the right, passes. around a return pulley 142 to come to be fixed at 141a on the carriage 53b from where it passes around a second return pulley 142 located to the left of the machine, to then return to said drum 138.

   The shaft 139 is provided with a knurled knob 143 which carries an index 144. During the operation of the machine and while the carriage 53b travels on its axial slide 54b, the cable 141 rotates the drum 138, the shaft 139 and the button 143 with its index 144, which reveals the position of the carriage in the longitudinal direction .de the slide 54b. In addition, this button 143 provides a means of quickly moving the carriage 53b when desired, for example for a recall back or to return the carriage to the starting position in order to explore a new record.



  As can be seen from fig. 9, a cam 101b and a switch 103b are provided, just as for the automatic shut-off device described in all its details with regard to the first embodiment. Fig. 11 shows the circuit assigned to. this mechanism as well as the other control and sound-taking circuits envisaged.



  It can be seen in fig. 11 a main power switch 146 which is used to energize the motor 42b and the rectifier group J_47. In addition to the direct current intended to actuate the solenoids 66b and 72b, this rectifier assembly 147 supplies the plate and filament currents of an amplifier 148. The negative direct current conductor leaving the rectifier 147 is connected to the earth by the. intermediate of the arm 150 of the multi-polar reverser 149, either directly or through the intermediary of the erasing member 57b.

   In this way, when the inverter 149 occupies position 1, the direct current circuit leading from the rectifier 147 to all the elements comprises the arm 150 of the inverter 149 and the eraser 57b.



  The arms 151 and 152 of the inverter 149 serve in the other alternative to connect the pickup microphone 153 and the reproductive organ 58b with the input and the output of the amplifier 148. In this way, in position 1 of the inverter 149, the microphone of jack <B> 153 </B> 3 is connected to the input of the amplifier, the recording reproducer 58b is connected to the output of the amplifier and eraser 57b is energized because it is in circuit with the negative terminal of the direct current source.

   When the inverter 149 has been brought to its position 2, the recording reproducer 58b is connected to the input of the amplifier, the jack microphone 153 is connected to the output of the amplifier and the negative terminal of the continuous current source is connected directly to earth. It can therefore be seen that position 1 of inverter 149 corresponds to recording and position 2 to reproduction.



  When switch 106b which can advantageously be a ten foot type is closed, it energizes solenoid 66b, starting to scan a recording mounted on form 32b. Push switch 73b controls operation of recoil solenoid 72b and push switch 105b the previously described switch orienting mechanism 103b independent of main control switch 106b.



  Considering now, the form of execution represented by C at la. fig. 12, it will be seen that this machine is housed in a cabinet 154, so that the roller 32c is partially uncovered. This <B> 32nd </B> roller is mounted on a <B> 35th </B> shaft which pivots in the flanges of cabinet 154. On the right end of the 35c shaft is wedged a 48th drive pinion around it. from which passes a chain 49th which also passes around a driven pinion 50c in connection @de command with a lead screw 52c.

    This is mounted with a view to its relatively axial adjustment. with a <B> 32nd </B> roller in the same way as the lead screw 52b of the embodiment shown in fig. 8 and 9 and previously described.



  An axial slide 54c extends parallel to the axis of the <B> 32e </B> cylindrical form and supports a carriage 53c. On the latter is mounted an erasing member 57c, a re-producing member 58c, a half-nut 61c resiliently held in engagement with the lead screw <B> 52e </B> by a spring <B> 137e </ B > and a movable <B> 60th </B> index in front of a scale located outside the cabinet 154. This 60c index also provides the means of manually adjusting the position of the <B> 53rd </B> carriage. in the axial direction of the roller 32c.



  The <B> 53rd </B> carriage also includes a <B> 56th </B> sleeve which has a <B> 62nd </B> heel with which a <B> 70th clutch bar can contact. </B> mounted so as to tilt with the shaft 71c. This <B> 70th </B> bar is provided with a <B> 69th </B> crank connected to the upper end of the 47th clutch arm by a lug 155 which penetrates an oval hole 7.56 in the arm 47c. <I> This </I> .last is. mounted for oscillation on a pivot 157 supported by a po tence 158 and it is connected at its lower end to the frame 65c of the solenoid 66c by a lug 159 which passes through an oval hole 160 provided in the arm 47c.

   Between the pins 157 and 159, the clutch arm 47e is articulated on a transverse arm <B> 110e </B> by means of a pi vot 161. In the opposite end of the transverse arm <B> 110e < / B> is mounted a 46th bearing shaft. the drive roller 45th which is in permanent engagement by its periphery with the shaft 44c of a drive motor, not shown. The clutch arm 47e is biased by a res out 67c retained by a fixed support; this spring normally tends to keep the shaft 46c of the 45th drive roller out of engagement with the <B> 32nd </B> roller and, on the other hand, imposes a tilting moment at the heel <B> 62nd </ B> of the carriage 53c, moment which tends to move the components <B> 57e </B> and 58c away from the roller <I> 3 </I> 2 <I> c </I> and to release the half-nut 61c lead screw 52c.

   However, energizing the <B> 66th </B> solenoid moves the arm 47c so as to engage the 46th roller shaft 45c with the <B> 32nd </B> roller and disengage the bar. clutch <B> 70e </B> of the heel 62c, which allows the components <B> 57e </B> and 58c to come to bear against the roller <B> 32nd </B> and the half-nut 61c of engage with lead screw 52c, all by gravity.



  The machine is provided with a guide 162 which is resiliently applied against the roller 32c by springs 163. This guide 162 extends along the <B> 32e </B> roller and is provided at one of its edges of a lip 161 intended to receive the leading edge of a recording sheet mounted on the <B> 32nd </B> roller and at its opposite edge of a release blade 165 intended to contribute to the removal of a sheet mounted on the roller after the direction of rotation of the latter has been reversed, as is the procedure. explain it.



  Considering now fig. 13, it can be seen that the <B> 32nd </B> roller is provided with a reference line 166 parallel to the axis of said roller and intended to define circumferentially the position of the leading edge of a sheet of 'recording. 20c as well as two lines of father 167 and <B> 168 </B> drawn all around the roller 32c and intended to delimit the location of the sheet in the axial direction. A button 169 keyed on the shaft 35c makes it possible to turn the. hand the latter and., consequently, the roller 32c.



  This form of machine is. for using recording sheets of the type shown at 20c to fi-. 14. This sheet is characterized by the magnetizable coating referred to in connection with the sheet 20 as well as by a strip 170 of pressure-sensitive adhesive material located on the back and intended to removably attach a sheet 20c to the back. 32c roll. The presence of this adhesive material also serves to recognize the top of the sheet.

   To operate the machine, the <B> 32nd </B> roll is manually brought to a position in which the reference lines 166, 167 and 168 are visible, after which a 20th sheet is placed on the roll, its leading edge flush with the reference line 166 and its sides framed between the reference lines 167 and 168.

   Then lightly press with the finger to fix the leading edge of the sheet in this position on the roll, then the roll is rotated using button 169 until the 20e sheet wraps the roll 32c , its trailing edge covering the leading edge, after which one begins the exploration by energizing the solenoid 66c, thus starting the <B> 32nd </B> roller in its rotary movement and the <B> 53rd carriage </B> in its translational movement.



  We reverse the cart. 53r by entering the index <B> 60th </B> with. fingers and moving the <B> 53rd </B> carriage on the axial slide 54. To remove the sheet, the 32nd roller is rotated forward until the trailing edge of the. sheet becomes visible, then the roller is turned backward by means of knob 169. As the sheet has a natural tendency to unwind, its trailing edge deviates slightly from the roller 32c and is picked up by the edge of. undercut 165 of guide 162.

   We can then grasp the trailing edge of the sheet with the fingers and, pulling on the sheet at the same time as the roll 32c is rotated, the adhesive joint between the sheet and the roll is brought into contact with the edge 165, which has the effect of disengaging the sheet from the roll and releasing it. When it is desired to decipher a recording obtained in the manner indicated above, the sheet is again very carefully framed in relation to the reference lines 166, 167 and 168 and the positioning operations are started again, following whereby the sheet is placed in the position it occupied during recording.



  Whatever the form of execution, there are ways. provided to mount in the apparatus a sheet previously printed, so as to allow the reproduction of the information which it carries without any regard to what may have happened to it in the meantime.



  This positioning requires first the establishment of a control connection between the support of the sheet and the latter, secondly the reestablishment of the alignment between the overlapping edges of the sheet as it existed. during the recording and thirdly the reestablishment of the original relationship between a track recorded on the sheet and the reproducing organ.



  In embodiments A and B, the control connection between the roll and the sheet is obtained by engaging the hooks of the roll in the corresponding holes in the sheet. Not only does this arrangement ensure the fixing of the leading edge of the sheet on the roll, but it also provides for a rigorous framing of the sheet in both the peripheral and transverse direction, which is very important for the following reasons. be exposed.



  In form C, the bond between the sheet and its support is achieved by the use of an adhesive deposited on the leading edge, on the reverse side, of the sheet. In this form of execution, both peripheral and axial alignment is obtained with respect to reference lines drawn on the roller.



  When a helical track is recorded on a sheet mounted as has been said on its support, each turn of the helix is cut by the line of overlap. When we replace the. sheet on the machine after removing it, the end of each turn must be strictly aligned with the start of the next turn. This is mainly achieved by placing the sheet on its roller, so that one of its axes (that is to say its leading edge) is parallel to the axis of the support.

   Since the trailing edge is parallel to the leading edge, when the sheet is rolled around its support and takes the shape of a cylinder of uniform length (determined by the width of the sheet), its edge trailing edge falls into alignment with the leading edge. This result is. facilitated by the action of the reading and guiding organs which, by sweeping. surface of the sheet, bring its trailing edge to the correct relative position with respect to the leading edge even though the sheet has been folded.



  In addition, the flanges provided at the ends of the rollers of machines A and B contribute to the axial alignment of the sheet over the entire length (the roll. The oblique character of the flanges of machine B (which can be adjusted) elsewhere to be used also on the machine A) is particularly favorable to an accurate guiding of the sheet towards its position on the roll, since they are in contact with the two layers of the sheet in the overlap region and thus maintain fa Rigorous lesson the axial alignment of one of the layers with respect to the other.



  The alignment between a recorded track and the recording and reproducing organ is reestablished, in the case of machines A and B, by the mechanical framing effect of the end flanges of the roller, and this, together with the fact that the lead screw is positively connected to the roller by the transmission chain, means whatever. the relative angular position of the roller after a sheet has been replaced, the recording and reading member is in scanning contact with the previously recorded track. An identical result is obtained by carefully aligning the sheet in the axial direction with respect to the reference lines drawn on the roller of the machine C.

   In addition, in machines of types B and C, a mechanism has been provided, applicable to all shapes, to achieve axial adjustment of the lead screw with respect to the roller. A manipulation of the adjustment knob of the lead screw allows tuning on a track which is not strictly in alignment with the reproductive organ.

   This possibility is extremely useful, whatever the machine, when the dimensions of the sheet may have varied as a result of particularly unfavorable atmospheric conditions, and it is also very valuable in the form C of the machine, since it dispenses with extreme precision in both axial and peripheral framing of the sheet relative to its support. We realize such.

    agreement by mounting an impressed sheet on the machine, arranging it for reproduction and then manipulating the adjustment knob of the lead screw until the maximum volume is obtained. It is envisioned to proceed in the factory with an adjustment of the device by adjusting, as has just been said, the axial position of the lead screw to take account of the manufacturing tolerances accepted by the reading mechanism.



  Another general consideration which has been addressed in all embodiments is the accommodation between the recorder-reader and the leading edge roller of a sheet after the. placement thereof, overlapping edges of the sheet and other very unevenness in the actual radius of the recording surface.



  In the form A. of the machine, the entire carriage can tilt around the axial slide, the recorder-reader member being in contact by its own weight with a sheet mounted on its roller and thus being able to approach or s '' move away from the cylindrical surface of the recording. When the leading edge of a sheet that is being put in place is pinched between the support and the pole pieces, the reader unit and the carriage move slightly to receive it. Likewise, the carriage tilts whenever the overlapping parts of the sheet pass under said member. The latter and the carriage are also free to oscillate on the axial slide in the event of eccentricity of the roller itself.

   In form B, of the machine, in addition to the aforesaid freedom of oscillatory movement of the carriage around the axial slide, the recording and erasing members have a certain freedom of differential movement due to the fact that 'they are mounted on a pendulum. The displacement necessary to accommodate, for example, an edge of the sheet is less than in the case of the machine <1, because the roller of the machine B has an elastic lining which can give more or less depending on the local pressure contact between the recording sheet and the surface of this lining.



  As pointed out in the criptive part of this presentation, the form B carriage can move around the axial slide without affecting the meshing between the lead lead screw and the corresponding half-nut of the drive. fact that the latter is. elastically mounted, which tends to keep it in engagement with the lead screw regardless of minimal variations in the position of the carriage with respect to the lead screw.

   In the form C of the machine, the whole carriage can likewise swing freely around the axial slide and, here again, the half-nut is resiliently applied to the lead screw, in order to make it independent of small variations in the position of the carriage.



  It should be noted here that in all machines a track is read through the overlap line in the upper layer - lower layer direction. As the top layer is. as a result, when the power is on, the recording or erasing devices are not at risk of catching an edge, as would happen if the rotation were carried out in the opposite direction, that is to say if the leading edge was at the edge. 'outside. Since the sheet is read in this direction, it is possible to urge the organs in the direction of recording with sufficient pressure to maintain a contact privacy ensuring the fidelity of the reproduction.

   In all the forms of machines described herein the reader and erasor members are held against the recording surface by their own weight. The filling shown in the case of form B helps to maintain this intimacy of contact by allowing the surface of the recording to deform slightly in the immediate vicinity of the pole pieces, which allows contact to occur. on a range and not on a single point or line, as it would be if the recording surface had no flexibility. It is true that despite their thinness recording sheets provide a certain damping effect.



  It will also be noted that in each of the machines represented we have. non-rotating guide members are provided for keeping the recording sheet substantially in contact with the roll, at least over the entire extent of a part of the conference circle thereof. These guides, which can be fixed at a short distance from the roll, as in machines A and B, or elastically applied against the roll, as in machine C, not only serve to prevent the trailing edge of the sheet. '' to be hung by other parts of the device, but also to erase the folds of the sheet, which, in turn,

   ensures a rigorous peripherical alignment of the overlapping parts of the sheet. They also help to restore the axial alignment of the overlapping portions of the sheet by forcing the sheet to conform to the cylindrical surface of the roll and therefore to assume the same position each time it is placed back on. the machine.



       In form A, a device is provided for feeding sheets from a primary position inside a magazine into a position of engagement on the roll, to guide the sheet during its stay on the roller. roll and eventually lead the sheet from its roll to a second magazine after it has been scanned. This shows that it is intended to guide the sheets not only when they are in position on their support, but also before their arrival on it and after their departure.

   In form B, the guide path of the sheet is partly defined by elements integral with the casing, elements which not only constitute a feed passage for the machine, but also delimit the path of a sheet when it is ejected from the machine.



       In the form C, there is shown a mechanism. In which the establishment of a sheet on its roll is carried out manually, its framing being accomplished by visual means as has been said. However, form C nonetheless includes, like all the others moreover, a device intended to cooperate with the trailing edge of the recording sheet when the roller is turned backwards.

   Such a device is particularly desirable when employing sheets which are adhesively retained on the roll, since the release bar helps to release and separate the adherent portions of the recording sheet and the roll.



  In all the embodiments, the release plate helps to deflect the trailing edge of the support when the latter is rotated backwards, and in the case of forms A and B it aids in unhooking the sheet; since the hooks are inclined in the direction of normal rotation, the hook is released automatically when the roller continues to rotate beyond the radial position at which the sheet contacts the release plate.



  For the initial installation of any of the machines described, it suffices to place the device at a point chosen for the convenience of the person who will have to. to use it, to connect it to a source of electric current, to connect a dictation microphone and a foot switch controlling the solenoid clutch. In the case of form A, a packet of blank recording sheets is placed in the magazine assigned to them, with the sheet heads facing the roll.

   The sheets are mounted one by one on the roll by the actuation of the feed mechanism. In the case of forms B and C, the placement is carried out by hand, the perforations or the adhesive strip indicating which edge of the sheet should be presented first to the roll.

   After closing the clutch switch, the roller begins to rotate and the carriage to move relative to the roller at a speed which is determined by the rotational speed of the motor and the construction of the transmission mechanism. When using commercial format sheets, it has been found that a suitable range of operating conditions is obtained with a spacing of between four and twelve lines per hundred and a linear scanning speed of 10 to < B> 25 </B> cm per second.

   An exploration of eight lines per centimeter at a speed of about 14 cm per second gives, on a commercial format sheet, about five minutes of dictation.



  For recording, we place the multipolar switch in the sound pickup position and start dictating to the microphone after closing the clutch switch. To reproduce the dictation taken, one operates in exactly the same way, except that the multipolar inverter is placed in the read position, thus reversing the connections of the amplifier and demagnetizing the eraser.



  An example of the flexibility and convenience of the mail pickup apparatus is the ease with which it is possible to erase certain passages of a previously recorded message and replace them with new text. If a mistake has been made in the dictation, the carriage is called back either semi-automatically or by hand, up to a point somewhat upstream of the passage to be deleted. The device is placed for reproduction and the clutch switch is closed until the end of the text is heard. must remain.

   At this point, the clutch switch is opened, the device is placed again for recording, the clutch switch is closed and the corrective text is dictated into the microphone. his. As the erasing member scans the track immediately ahead of the inserting member and is energized as long as the apparatus is ready for recording, the previously recorded text is erased and the erased entry is immediately. re-recorded following the new text.

   When the clutch switch is of the foot pedal type, this dictation erase and resume cycle can run with great precision. For example, it is possible to make corrections reduced to a single word which will be replaced by another, and thus we obtain, on hearing, a recording where nothing reveals that. the text was not recorded all at once. Another proof of the precision of alignment which one obtains is the fact that one can even put back on the apparatus a recording which one had removed and correct it by erasing and new dictation, as well as one. just explained it.



  In addition to the recording and re-production of dictated texts such as can be performed on the devices described, this is also the case: to use them for recordings in several copies.

    Although it is conceivable for a technician to use the apparatus to simultaneously impress several letter-type sheets by plugging together a suitable number of recording elements for this purpose, it has been found that even on a single machine it is possible to impress simultaneously by means of one and the same recording device at least .two layers of sheets; two blank sheets are mounted on the cylindrical form which, as has been said previously with regard to single recordings, and when the preferred form of recording sheet sensitized on one side is used, one places the sheets so that their sensitized faces face each other.

   The registration is done through the part forming the lining of the sheet located on the outside.



  Although we can see that the recording obtained on the underlying layer is slightly more blurry than on the other, this does not matter much, because we can always modify the intensity of the hearing in other wide limits by judicious handling of the volume control, and it is therefore easy to see that the second recording is very suitable as a copy to be classified.



  We can see, from the above, that we collect magnetic recordings, in the form of what is in fact a single helical track, on foldable and crumplable rec tangular sheets previously bent to the cylindrical shape. . After the sheet has been removed and unrolled, this single track is divided into sections which can be subsequently stitched together for continuous reproduction.

   Both the unwinding and the splicing can take place semi-automatically, as in the case of embodiment A shown in FIGS. 4 and 5, or by moving a sheet by hand along a guided path, as in form B shown in Figs. 8 and 9, or the phis simply by manual movement and visual guidance of a sheet. as in the form C shown in fi-. 12 and <B> 13. </B>

 

Claims (1)

CLAIM I: Method for obtaining a magnetic recording on at least one recording sheet and for reading this recording, characterized in that the sheet is only temporarily applied to a roll, so that the opposite edges lie side by side and in that the sheet enveloping the roll is magnetically explored along a track crossing these adjacent edges repeatedly, the sheet comprising magnetizable particles dispersed in a non-magnetic binder and being flexible in nature allowing it to be repeatedly folded and unfolded. SUBCLAIMS: 1. A method according to claim 1, characterized in that the sheet is fed radially to the roller. 2. Method according to claim I, charac terized in that the sheet is brought tangen tially to the roller. 3. Method according to claim 1. charac terized in that the explored sheet leaves the roll by its edge. 4. Method according to claim I, charac terized in that the sheet is wound around the roll, so that one of its edges is tangent to the latter along a line substantially parallel to 1-axis of said roll, the other edge of the sheet covering the first. 5. A method according to claim I, characterized in that the sheet is wound onto the roll by rotating the latter. 6. Method according to claim I, characterized in that the roll is rotated to explore the sheet mounted on the latter. 7. A method according to claim I and sub-claim 6, characterized in that the reverse roller is rotated to release an explored sheet. CLAIM II: Apparatus for covering the process according to claim 1, characterized in that it comprises a roll for temporarily supporting at least one sheet wound around it, so that its opposite edges lie on the side. at. side, as well as a device for magnetically exploring this sheet thus wound up, following a track which repeatedly crosses said adjacent edges, the sheet comprising magnetizable particles dispersed in a non-magnetic binder and being of a flexible nature allowing it to be folded and unfolded repeatedly. SUB-CLAIMS: 8. Apparatus according to claim 11, characterized in that said scanning device comprises a magnetic recorder-reproducer arranged to scan a recording track having multiple sections extending side by side. 9. Apparatus according to claim II and sub-claim 8, characterized in that means are provided for reestablishing the alignment between the portions of the track which cross said adjacent edges of the sheet mounted on the roll afterwards. that the. sheet has been removed from the device and then reassembled. 10. Apparatus according to claim II and sub-claims 8 and 9, characterized in that means are provided for locating the sheet in the axial direction of the roll. 11. Apparatus according to claim II and sub-claims 8 and 9, characterized in that means are provided for identifying the sheet in the peripheral direction of the roll. 12. Apparatus according to claim II, comprising recording sheets provided with means for distinguishing their edges from one another, characterized in that the key roller the apparatus is arranged to cooperate with these distinctive means. 13. Apparatus according to claim II and sub-claim 8, characterized in that it comprises a mechanism for rotating the roller and a mechanism for moving the recorder-reproducing member by a translational movement along the axis of the roller. the water. 14. Apparatus according to claim II and sub-claims 8 and 13, characterized in that it comprises means for coordinating the translational movement of the recording-reproducing organ with the rotational movement of the roller to produce the exploration. of a helical track on the sheet mounted on the roll. 15. Apparatus according to claim II and sub-claims 8, 13 and 14, characterized in that it comprises means for initiating and simultaneously interrupting the movement. of roller rotation and movement. of translation of the recording-reproducing organ. 16. Device according to. Claim II and sub-claim 8, characterized in that the recorder-reproducer is permanently biased in the direction of the surface of the roll and serves to exert a sweeping action on the sheet, in order to smooth it even after that it was folded. 17. Apparatus according to claim II, characterized in that the recorder-reproducing member is mounted so as to be able to approach and move away from the roll to receive the leading edge of a sheet presented to it. 18. Apparatus according to claim II and sub-claims 8, 13 to 15 and 17, characterized in that it comprises means for simultaneously controlling the movement of the recording-reproducing member towards the roller and. in the opposite direction, and the initiation and interruption of the rotational movement of the roller and of the translation movement of the recording-reproducing organ. 19. Apparatus according to claim II and sub-claims 8 and 13, characterized in that it comprises means for rotating the roller against the direction of the direction. corresponding to the normal scan, to produce the scanned sheet tithe ejection. 20. Device according to. claim II and sub-claims 8, 13 and 19, characterized in that it comprises a release member disposed along a line generally parallel to the axis of the roller and intended to come into contact with a edge of the sheet mounted on the roller when the latter is turned backwards. 21. Apparatus according to claim II and sub-claims 8, 13, 1.9 and 20, characterized in that it comprises a rear return mechanism for moving the recording-reproducing organ parallel to itself in the chamber. direction opposite to that of normal exploration. 22. Apparatus according to claim II and sub-claims 8, 13 and 19 to 21, characterized in that it comprises a device for winding said sheet around the roll during the rotation of the latter. 23. Apparatus according to claim II and sub-claims 8 and 13, characterized in that it comprises an erasing member for erasing a recorded track. 24. Apparatus according to claim II and sub-claims 8, 13 and 23, characterized in that the erasing member explores the track in front of the recorder-reproducer member in the peripheral direction of the roller and at a distance. angular of it equals â. a small fraction of a circle. 25. Apparatus according to claim II and subclaims 8, 13 and 23, characterized in that it comprises a mechanism for reprinting at will a track on a selected part of the sheet. 26. Apparatus according to claim II and sub-claim 8, characterized in that it comprises on its roller means of the tines to cooperate with perforations of the sheet in order to fix with precision the place of the latter relative to said roller. 27. Apparatus according to claim II and sub-claims 8 and 26, characterized in that said means comprise a hook intended to penetrate into a perforation of the sheet. 28. Device according to. Claim II and sub-claims 8 and 13, characterized in that the apparatus comprises a device for interrupting the rotation of the roll in a predetermined position for the removal of the sheet. ? 9. Apparatus according to claim II, characterized in that it comprises a device for placing the sheet axially with respect to the roll, this device comprising a guide surface which generally extends radially outwards from of the surface of the roll. 30. Apparatus according to claim II, characterized in that it comprises a non-rotating guide device for establishing a pitch for said sheet as it approaches the roll and when it leaves it. 31. Apparatus according to claim II, characterized in that it comprises a magazine assigned to the sheets and means for conveying a sheet from the magazine to the roll. 32. Apparatus according to claim II, characterized in that it comprises a sheet collecting magazine and a device for feeding a sheet from the roll into said magazine. 33. Apparatus according to claim II and subclaims 8 and. 13, characterized in that it comprises a magnetic device for producing the translational movement of the record-eur-reproducteiir organ against the direction of the normal exploration movement. 34. Apparatus according to claim II, characterized in that it is enclosed in a furniture and comprises a guide device arranged in the cabinet for leading a sheet from the outside of the cabinet on the roll. 35. Apparatus according to claim II and sub-claim 31, characterized in that the cabinet is. constructed so as to leave the roll partially uncovered to facilitate placement and removal of recording sheets. 36. Apparatus according to claim II, characterized in that the roll has a guide for use. with a recording sheet which carries an adhesive for fixing it to said roll. 37. Apparatus according to claim II, characterized in that the recording sheet has means for distinguishing its ends from one another, in order to facilitate re-exploration of the same track of the recording in the same. direction. 38. Apparatus according to claim II and sub-claim <B> Ô7, </B> characterized in that the recording sheet has a rec tangular shape and a format suitable for flat filing like that of the correspondents. dances and to the mailing in folded form in the style of a letter.