CH256376A - Device for the automatic selection of a determined signal formed from several signs and in particular signs of the Morse alphabet. - Google Patents

Description

  

  Device for the automatic selection of a determined signal formed from several signs and in particular signs of the Morse alphabet. The subject of the invention is a device for the automatic selection of a determined signal formed of several signs and in particular of signs of the Morse alphabet.



  This device can be particularly applied to select the reception of an SOS distress signal made by a ship, and to automatically give the alarm after selection of this signal and finally to automatically enter, in the absence of any personnel, the information. position supplied by Morse signals by the sinking vessel following the emission of the SOS signal.



  The known devices for selecting the transmission of a ship in distress can only use the reception of the so-called alarm signal, a signal formed by twelve lines of four seconds each separated by an interval of one second.



  The duration of this signal is approximately one minute, which constitutes an appreciable waste of time.



  One of the aims of the invention is to reduce this loss of time by the automatic reception of the signal S.O. S. which takes place in a period twenty times less than the emission of the alarm signal.



  The device of the invention can also be applied to the automatic switching on of a Morse signal recording device (by selecting the call sign sent at the start of the signal) from one station to another station. resignation.



  To this end, the invention relates to a device for the automatic selection of a defined signal formed of several signs and in particular of signs of the Morse alphabet, characterized in that it comprises means for controlling electrical contacts. , checks on each reception of a sign of the signal to be selected and on each spacing between two consecutive signs of this signal various electrical contacts establishing the necessary commutations for checking the spacing or <RTI

   ID = "0001.0018"> sign, according to the electrical contacts as follows: established, returning to their starting position, if the spacing or the sign received does not correspond to:

  the spacing or the sign to be received, the combination of these contacts. causing, on the other hand, when all the spaces and signs of the signal to be selected have been correctly received, the closing of an electrical circuit supplying a signal recording device and a warning device (or any other command) - and switching off the automatic selection device.



  Various embodiments of devices for the automatic selection of specific signals formed: of several signs and in particular signs of the Morse alphabet, are shown, by way of example, in the accompanying drawings, in which : Fig. 1 is a diagram of a first embodiment of the device.



  Fig. 2 shows in perspective an apparatus used in the device of FIG. 1. FIG. 3 is a diagram of a second embodiment of the device.



  Fig. 4 schematically represents an apparatus used in the device of FIG. 3. Fig. 5 shows a detail of this apparatus.



  Fig. 6 is a diagram of a third embodiment of the device.



  Fig. 7 is a circuit diagram with a general control relay and a signal change rotais; this assembly also prevents the warning device from being triggered when the determined signal is not, followed by prolonged spacing.



  Figs. 8 and 9 respectively show two variants of FIG. 7, to allow the operation of the device only if the signal is preceded by a long spacing.



  The selection device shown in FIG. 1 is intended primarily for the selection of the Morse S. O. S. signal.



  This signal is, as we know, composed of a first series of three dots, followed by a series of lines, themselves followed by a second series of three dots.



  The intervals between successive lines or points are equal to the duration of a point. Likewise, the intervals between each letter, that is to say between the third point and the first line, then between the third line and the next point, have the same value.



  This selection device is made up of the following main groups of components: 1 A so-called signal reception relay 1 with two contacts 2a, 2b, connected to the output amplifier of a radio wave receiver station, for example .



  Each time a sign is received, this relay controls a step-by-step device 3.



  2 A so-called demarcation relay 16 which, when it is attracted, controls the return of the device step by step 3 to the initial position. 3 A device for switching on the control members of the apparatus for Euregistation of Morse signals and the warning bell, and for switching off the device for selecting the S.O.S.



  This device is controlled when the stepping device reaches the end of its travel. 4 A device for checking the signs and spacing of the S.O.S. signal itself comprising the following main groups of organs: (a) a device for checking spaces; b) a point control device; c) a feature control device.



  The signals transmitted by a station transmitting modulated radio waves are received by a receiving station controlling the so-called reception relay. This relay 1 (fig. 1) attracts itself each time a sign is received by establishing a contact 2b. This contact 2b closes the excitation circuit of the step-by-step device 3, that is to say of the so-called marking relay 4, whose armature 5 (fig. 2) oscillates around an axis 7 and causes, when it is attracted, the lifting of the control pawl 8 of a ratchet wheel 9 mounted on a shaft 10.

   When the marking relay 4 de-energizes, the pawl 8 is lowered and causes the rotation in the direction of the arrow F1 (fig. 2) of the ratchet wheel 9 and its shaft 10.



  This shaft comprises a second ratchet wheel 18 cooperating with a so-called maintièn pawl 19. This pawl 19 is controlled by the .dit markdown relay 16 which, when it is attracted, releases the ratchet wheel 18 -and the shaft 10 returns to its initial position under the action of a spring 10 '.



  The shaft 10 carries three cams 11, 12, 13, which establish or cut, -depending on the angular position of the shaft 10, controlled by the marking relay 4, the contacts 11a, 11b, 12a, 13a, 14a , 14b (see also these contacts in fig. 1).



  These contacts prepare the circuits for checking signs and -spacing! received, as will be indicated below. The marking relay 4 (fig. 1) also establishes contacts 15 and 15a (see also fig. 2). Contact 15a is closed when relay 4 is de-energized. Contact 15 is closed when relay 4 is energized.



  Likewise, the unloading relay 16 (fig. 2) establishes a contact 16a (see also fig. 2), when it is energized.



  Thus, the reception of each sign, excising the marking relay 4, causes, during the following spacing, the rotation of a notch of the shaft 10. This rotation is not commanded, as will be explained. further, only if the sign received is indeed the sign to be received.



  When all the signs constituting the signal have been received, the cam 11 cuts off the contact 11a and closes the contact 11b.



  Closing this contact 11b (see fig. 1) establishes (in the following manner the power supply circuit of relay 31 for switching on the recording device and of the ringing shine 32 mounted in parallel on the relay 31: pole positive, contact 11b, relay 31, negative pole.



  The relay 31 cuts off its contact 31a which controls the general power supply to the selection device which is thus switched off.



  On the other hand, contact 31b is established, which connects the Morse recording device 38 to contact 2a, 2b of reception relay 1.



  If the sign or the spacing received does not correspond to the sign or the spacing to be received, the signs and spacing control circuits cause, as will be indicated below, the attraction of the de-marking relay 16 which returns the device step by step, in particular the shaft 10, to the initial position.



  The signs and spacing control circuits which control either the return of the device step by step 3 to the initial position, if the sign of the spacing received does not match that to be received, or the arrival of the step by step device progressively until the end of the stroke, to control in the manner previously described the action of a warning bell, the switching on of a Morse recording device and the switching off of the device SOS signal selection boxes are made up and operate as shown below.



  The spacing is checked as follows: On reception of the first point, the reception relay 1 attracts itself and causes the attraction of the marking relay 4. The transmission of the point being completed (approximately 1/50 of a second ), relay 1 de-energizes, as does relay 4 which, in this movement, causes the ratchet wheel 9 to move one notch.



  Cam 12 then establishes contact 12a (see fig. 1). An electrical circuit for supplying relay 21, known as the control of spacings and points, is established as follows: + poles, contact 11a, contact 15a, self-induction delay 17, contact 12a, relay 21, negative pole.

       However, this relay 21 does not attract, if the space between the two signs received has only the value of one point, the choke 17 delays the establishment of the current in said relay 21, so that , when the current reaches the attraction value, contact 15a of relay 4 is already cut.



  On the contrary, if the space is larger than the. width of a point, the relay 21 attracts. It then causes by its contact 21a the excitation of the demarcation relay 16 returning the ratchet wheel 9 to the initial position.



  Points are checked as follows: during point reception, relay 4 is attracted. A power supply circuit for relay 21 is then established as follows: positive pole, contact 11a, contact 15 of marking relay 4, self-induction delay 24, contact 14a, relay 21, negative pole.



  This relay 21 does not attract, if the sign. received is a point, because the choke 24 delays the establishment of the current in the relay 21, so that, when the current reaches the value of attraction, the contact 15 of the relay 4 is already cut by the end of the point .



  On the contrary, if the sign is wider than a point, a line, for example, the relay 21 attracts and causes the attraction of the relay 16 in the same way as before, recalling the ratchet wheel 9 in position. initial. The same process occurs for the other two points.



  The lines are checked as follows: From the third point, the cam 13 closes the contact 13a until the end of the first point of the second series of points, the contact 12a remaining established.



  An electrical circuit for supplying a Wheatstone bridge 25 is established.



  This Wheatstone bridge is formed as follows: the first and second branches are formed respectively by resistors 37 and 30 connected to the negative pole. The third branch connected to the positive pole is formed by the inductor 24. This third branch cuts through the contact 14b, the contact 15, the contact 11a, and is connected to the positive pole. The fourth branch connected to the positive pole is formed by two resistors 26 and 27 mounted in parallel. The circuit of resistor 26 cuts through contacts 13a and 11a. The circuit of the resistor 27 passes, cut off by the contacts 31a and 2a. A relay 39 forms the diagonal of the bridge 25.



  Therefore: a) If the signal received is a line, the Wheatstone bridge 26 is first of all unbalanced by the fact that the inductor 24 traversed by the current in the establishment period creates a counter-electromotive force of self-induction . Relay 39 attracts a very short time.



  The contact 39a of said relay closes and short-circuits the delay choke 17. When the current reaches a permanent state, the choke 24 acts as a simple resistance, the balance of the bridge is reestablished and the relay 39 de-energizes and cut con tact 39a.



  The control of the space following the line is thus carried out in a normal manner by closing the circuit of relay 21 through choke 17. This relay is therefore not energized.



  Consequently, the markdown relay 16 is not energized.



  b) If the signal received is a point, the Wheatstone bridge 25 remains unbalanced, the branch of the resistor 27 being cut by the opening of the contact 2a and the choke branch 24 also being cut by the opening of contact 15. Relay 39 remains energized because it receives the holding current from resistor 26.



  It bypasses choke 17 by its con tact 39.



  Consequently, the control of the following space is carried out without going through the choke 17.



  As a result, the establishment of the current in the relay 21 is immediate. The relay 21 attracts and causes the attraction of the demarcation relay 16 and the return of the step by step device 3 to the initial position.



  The same process is repeated for each line.



  After the reception of the third line, the cam 13 returns the contact 14b to the position it had when the first series of three points was received, and the same process is repeated for the second series of three points as for the first. After receiving the first point of the second series of points, the cam 13 cuts off the contact 13a.



  When all of the signs constituting the signal to be selected have been received, the cam 11 cuts off the contact 11a and establishes the contact 11b. Switching off the contact 11a has the effect of cutting the power supply circuit of the device whose operation is stopped after reception of the signal it selects.



       Establishing contact llb closes the power supply circuit for relay 31 and bell relay 32. The bell rings, warning the operator that a signal S. 0. S. has just been received.



       The attraction of the relay 31 cuts the contact 31a: and establishes the .contact 31b to connect the Morse recording device 38 to the reception relay 1 which thus transmits the signals which it receives to said device.



  The device, according to the second embodiment shown in FIGS: 3, 4 and 5, is also composed of the following main groups of members: The relay 1 for receiving signs, with reverse contacts; in 2a, 2b, connected to the output amplifier of the radio wave receiver station for example.



  2 A step-by-step device 40, 42 (fig. 4) with return to the initial position, which is controlled by this relay 1 each time a sign is received.



  3 The device for switching on the control members of the Morse signal recording apparatus, the warning bell and switching off the device for selecting the S.O.S. .



  This device is controlled when the step by step device 40-42 reaches the end of its travel.



  4th The device for controlling the signs and spacing of the S. O. S. signal, itself comprising the following main groups of organs: a) the device for controlling spaces; b) the point control system; c) the stroke control device. The reception relay 1 attracts itself each time a signal is received and closes contact 2b. The closing of this contact causes the closing of the supply circuit of the marking relay 44 of the device not there not 40 to 42.



  This step-by-step device 40-42 (fig. 4 and 5) consists of an insulating sector 45 having on one of its faces a series of studs 46 interconnected as indicated in fig. 3.



  Block 46a is the starting block. The three pads 46b, which include the pad 46a and the next two pads, are mounted in parallel and correspond to the control of the first series of points. The next three pads 46e are mounted in parallel and correspond to the control of the lines. The next three pads 46d are mounted in parallel with the three pads 46b and correspond to the control of the second series of points. The last 46th stud is the limit switch.



  The other side of the sector has a conductive plate 47 (fig. 5) connected as shown in fig. 3. Four contact arms 48a, <I> 48b, 48c, 48d </I> rotate around the axis 49 under the action of a <B> to </B> ratchet wheel 50 controlled by a pawl 51 These arms are connected to the 36-volt power outlet of the device's power supply battery. Each arm ends with a fork embracing between its two fingers one of the studs 46 and the plate 47, so as to put this stud and the plate at 36 volts potential. The pawl 51 is controlled by the attraction of the marking relay 44.

   This relay comprises for this purpose an armature 52 oscillating around an axis 53. This armature 52 controls at its other end the displacement of the pawl 51. The friction is generally sufficient to prevent the rearward return of the brushes; but, for safety reasons, it is good to provide a second pawl, not shown, to oppose this backtracking.

   After each attraction of the marking relay 44, the ratchet wheel 50 rotates by one notch - and causes the passage of a contact arm 48 from one stud 46 to the next stud. When the contact arm 48a, for example, arrives at the last pad 46e the next contact arm 48b prepares to make contact with the starting pad 46a.

   The relay 44 controls, on the other hand, a contact 44a (fig. 3) mounted in autocolfage, -so that said relay 44 operates as a vibrator, when it is supplied through this contact 44a until an arm 48 comes into contact with the starting stud 46a.



  Thus, the reception of each sign causes the displacement of a contact arm from one pad 46 to the next pad.



  <B> This </B> displacement takes place if the received sign or recorded spacing matches the sign or spacing to be received.



  Otherwise, the signs and spacing control circuits cause the demarcation relay 56 to be drawn. This relay 56, energized under the action of the unwanted sign or spacing, closes its contact 56a connected to the potential 48 volts and to the first winding 56 'of this relay, the output of which is linked to the potential 36 volts.

   The relay 56 therefore remains attracted and, by closing its contact 56b, causes the relay 44 to be supplied through its self-adhesive contact 44a. The relays 44 then vibrate until the moment when a contact arm 48 comes into contact with the starting pad 46a. This is the return to the initial position. When all the signs and spaces of the received signal correspond to the signs and spaces of the signal to be received, the contact arm 48 comes to the end position on the pin 46e and causes the attraction of the bell relay 57, and the attraction of the relay 58 for switching off the device for selecting the SOS signal.



  This relay 58 cuts off its contacts 58a and 58b, through which the power supply to the device for selecting the S.O.S. signal passes, respectively during a separation and when a sign is received.



  This device is thus switched off. On the other hand, this relay 58 establishes its 58th contact which closes the supply circuit of a Morse recording device 59.



  The control of the signs and spacings received commands either the return of the device step by step 40-42 in the initial position, if the sign or the spacing received does not correspond to that to be received, or the gradual arrival of the arm contact 48 on the limit switch 46e to control in the manner previously described the action of a warning signal, the putting into circulation of a Morse recording device and the deactivation of the control device. SOS signal selection.

   This check of signs and spaces is carried out by the following circuits: The spacing check circuit is made up as follows: Contact 2a connected to 48 volts potential closes the following circuit: 48 volts potential, 2a contact, 58a contact, delay choke 60, coil 561 of the demarcation relay 56, potential 36 volts by the plate 47.



  The demarcation relay 56 is therefore supplied through the inductor 60 which introduces a delay in establishing the current corresponding to the duration of a point. Therefore: a) if the space has the duration of a point, the relay 56 does not attract and the contact arm of the stepping device remains on a stud 46; b) if the space has a duration greater than one point, the relay 56 attracts itself causing, in the manner previously described, the return of the device step by step to the initial position.



  The point control circuit is constituted as follows: Contact 2b closes the following circuit: potential 48 volts, contact 2b, contact 58b, inductor of points 61, coil 62 of relay 56, pins 46b and 46d, control arm. contact 48 connected to the potential 36 volts. Therefore: a) if the sign is a point, the relay 56 is not attracted because of the delay in establishing the current in this relay by the action of the choke 61.

   The contact arm 48 of the stepping device 42 remains on a pad 46b or 46d; b) if the sign is a line, the relay 56 attracts itself, the current having time to be established, the device step by step, step 42 returns to the initial position.



  The line control circuit is made as follows: a) potential 48 volts, contact 2b, contact 58b, coil 64 of the line control relay 65, which is a differential relay with three coils, one of the pads 46c, contact arm 48 re linked to the potential 36 volts; b) potential 48 volts, contact 2b, contact 58b, choke 61, coil 66: of relay 65, potential '36 volts.



  On the other hand, the differential relay 65 com carries a third coil 67 which is always live, except - when the device is on 46a.



  Therefore: a) if the received signal is a dash, the two coils 64 and 67 are first supplied, but the current has not yet established in coil 66 due to the delay provided by the choke - 61. Relay 65 attracts a very short time. Contact 65a of relay 65 closes and short-circuits spacer 60.

       When current is established in coil 66, the relay de-energizes and cuts off the contact. 65a. The control of the space following the line is thus carried out in a normal manner by closing the demarcation relay 56, through the choke 60. The contact arm 48 of the step-by-step device remains on its pad 46c; b) if the signal received is a point, the current does not have time to establish itself in the coil 66 of the relay 65 which remains energized. The choke 60 is short-circuited by the contact 65a.

    As a result, the following space is checked without going through the choke 60 which is short-circuited.



  As a result, the establishment of the current in the coil 561 of the relay 56 takes place immediately. The relay attracts, causing the device to return to its initial position step by step 42.



  The 48 volts and 36 volts voltages have been chosen only by way of example, and it is obvious that other voltages may be suitable for the idea of the invention; in particular, one can be satisfied with one and the same voltage source to supply the various relays; in which case, it would be necessary to interpret figs. 3 and 4 by reading - instead of + 36 V and instead of + 48 V.



  Fig. 6 represents another form of execution of the device for selecting the signal S. 0. S..



  This device is made up of the following main groups of components: 1 The receiving relay for signs 1, with reverse contacts 2a, 2b.



  This relay controls each time a sign is received a first relay 70, then the space following a second relay 71, then the sign following a third relay 72, and so on, for the signs of a series of three signs. Thus, the three signs in a series successively attract the sign relay 70, the spacer relay 71, the sign relay 72, the spacer relay 73, the sign 74 redo.



  All of these relays close the sign marking and spacing relays. The attraction of these five relays after the reception of a series of signs controls the series relays 76, 7 7 and 78, 79, as will be indicated later. 2 The markdown relay 75, which, when it is attracted, controls the de-energization of the marking relays 70 to 74 already energized and of the relays 76, 77 and 79.



  3 The device for switching on the control members of the Morse signal recording apparatus, the warning bell and switching off the device for selecting the S.O. S. signal.



  This device is controlled, when all the sign and space marking relays 70 to 74 and the last relay 78 of the sign series are energized.



  4 The device for checking the signs and spacing of the signal S.O. S. itself comprises the following main groups of organs: a.) The device for checking the spaces between signs of a series of signs; (b) the device for checking the spaces between the last sign of a series and the first sign of the following series; c) the point control device; d) the trait control device.



  The reception relay 1 attracts each time a sign is received and closes contact 2b and opens contact 2a.



  The first closing of contact 2b causes the coil 80 to be supplied with the first sign relay 70. This relay is held attracted by the closing of its contact 70a connected, on the one hand, to the second coil 81 through a current limiting resistor 82 and, on the other hand, to the holding current circuit 100.



  The relay 70 also closes its contact 70b preparing the supply to the first space marking relay 71.



  When relay 1 de-energizes, it establishes contact 2a, which supplies, through contact 70b of the first relay 70, the closing of the supply circuit of relay 71, and so on for the other marking relays signs and -spaces 72, 73, 74.

   When the five relays 70 to 74 are attracted during the reception of the first series of the three signs under the condition that the signs and spaces received correspond to the signs and spaces to be received, the contacts mounted in series 70b, 72b , 74b of the three sign marking relays 70, 72 and 74 supply the coil 80 of the relays 79 and 76 with two coils 80 and 81. These two relays are energized. The relay 79 remains energized until the end of the signal by its contact 79a connected, on the one hand, to the positive pole, on the other hand, to the holding coil 81 through the resistor 82.



  On the other hand, the relay 86 for spacing between series of signs has been attracted at the same time as the relay 79 to which it is connected in parallel. However, this relay 86 attracts only during the spacing between two series of signs, since it is not supplied by the holding current.



  The relay 76 is supplied by the holding current circuit by its contact 76a re linking said circuit to the holding coil 81. The energization of the relay 79 causes for a very short time, by breaking the contact 79b, the breaking. of the holding current circuit of the mark and gap marking relays 70 to 74. These relays de-energize and are thus prepared to record the series of lines. The main current circuit 100 then closes by the contact 79d. This recording is done in the same way as before.



  When the five relays 70 to 74 are energized, they close through the contacts 70b, 72b, 74b, the contact 79c, the supply circuit of the control relay of the series of lines 77.



  This relay remains powered directly by its contact 77a which connects the positive pole to the holding coil 81 of said relay.



  The attraction of the relay 77 causes the opening of the contact 77b which cuts the holding current of the relay 76 and the marking relays 70 to 74. These relays de-energize and are thus prepared to record the second series of points of the same way as before. When the second series of points is registered, the power supply circuit of the control relay 78 of the second series of points is closed through the contacts 70b, 72b, 74b 79c, 77c, relay 78. The relay 78 s 'excited. The bell relay 88, mounted in parallel with the relay 78, is also energized.

   The attraction of the relay 78 closes the contact 78a which directly connects the positive pole to the relay 78 which remains permanently energized. This relay 78 cuts the power supply contacts 78b and 78e of the S.O.S. signal selection device. . This positive say is switched off.



  It establishes, on the other hand, the contact 78d which connects the Morse recording apparatus 45- to the contact of the reception relay 1.



  The markdown relay 75 cuts by its excitation the holding circuit of all the relays by cutting off its contact 75a. This release is drawn when the sign or space received does not correspond to the sign or the space to be received. To this end, the relay 75 is controlled by the device for checking the signs and spacings received.



  The circuit for checking the spacing between signs of the same series is made up as follows: Contact 2a is connected to the positive pole and closes the circuit. following: positive pole, contact 2a, contact 78b, contact 70b, space choke 87, coil 88, of relay 75, negative pole.



       The starter relay 75 is therefore supplied through the choke 87 and, as before, this relay does not energize., If the spacing has the length of a point and is energized, if the spacing is the length of a stroke.



  The circuit for controlling the spacing between two series of signs: is constituted as follows: positive pole, contact 2a, contact 78b, contact 86a of relay 86 which is energized only between two series of signs, as indicated previously, choke 87 , coil 88 of relay <B> 75. </B>



  The markdown relay 75 is therefore supplied through the choke 87 and, as previously, this relay is not energized, if the spacing has; the length of a point and gets excited, if, the spacing is the length of a line.



  The point control circuit is made up as follows by establishing the \ contact <I> 2b :. </I> positive pole, contact <I> 2b, </I> contact 78c, .self - 89, contact 76b, coil 90 of the demarcation relay 75. The relay 75 is therefore supplied through the choke 89 and, as previously, this relay is not energized, if the received sign is a point. It attracts, on the contrary, if the received sign is a trait.



  The line control circuit is produced as follows: Contact 2b closes the circuits of a Wheatstone bridge 92 in the following manner, one of the diagonals of which is formed by relay 93.



  a) the first branch is formed by the following circuit: positive pole, contact 2b, contact 78c, resistor 91.



  This Wheatstone bridge 92 comprises, on the other hand, the second and third branches 94 and 95 connected to the negative pole, a branch 96 mounted in parallel with the first branch 91 and connected to the positive pole through the contact 76th which is at this time established. The fourth branch is formed near breaking by the contact 76d at this moment established by the choke 89 connected to the positive pole through the contacts <B> 78e </B> and 2b.



  Therefore: a) if the signal received is a line, the Wheatstone bridge 92 is first of all unbalanced by the fact that the choke 89 traversed by the current during the settling period creates a counter-electromotive force of self-induction . Relay 93 attracts a very short time.



  The contact 93a of said relay closes and short-circuits the spacer 87. When the current reaches a permanent state, the choke 89 acts as a simple resistance, the equilibrium of the bridge is reestablished and the relay 93 de-energizes. and cut off the contact 93a.



  The control of the space following the line is thus carried out in a normal manner by closing the circuit of relay 75 through choke 87. This relay is therefore not energized.



       b) if the signal received is a point, the Wheatstone bridge remains unbalanced, the first circuit of branch 91 being cut by cutting the contact <B> 92b, </B> as well as the fourth branch with choke 89. The relay 93 remains energized. It bypasses self 87 through its contact 93a. As a result, the following space is checked without going through choke 87.



  As a result, the establishment of the current in the coil 88 of the markdown relay 75 is immediate. The relay 75 attracts itself and causes the de-excitation of those of the relays 70 to 74 which were at that moment attracted.



  The three devices described above allow the selection of the signal S.0 to be carried out in a particularly simple manner with the minimum number of relays. S. or any other Morse signal, the automatic start of a Morse recording device.



  Operating safety is increased and the setting of the relays is made easier by separating their two selection and switching functions; for this purpose, the selector device comprises only a single delayed relay checking the conformity of the signs received with the signal to be received and controlling a point control relay and a line and spacing control relay which control in turn, a step relay actuated by the signs received and whose arrival at the end of the travel command-under the control of the delayed relay, a relay triggering a warning device.



  The assembly diagram of such a device is shown in FIG. 7, which shows, on the other hand, means for preventing with certain altitude the warning device from being triggered, when the succession of signs constituting the signal is not followed by a prolonged space. , that is to say if this succession of signs is part of a signal longer than that to be selected and having a part in common with the latter.



  Fig. 7 also shows the use of a switching relay with multiple contacts making it possible to receive a second signal different from the first, this relay being controlled by the pad of the step-by-step relay, the order of which corresponds to the sign of the second signal which differs from the sign of the same rank of the first signal -and having the effect of modifying by its contacts the. connections of the step by step relay pads with the command and control relays.

        The device shown in FIG. 7 comprises an RA input relay receiving the signals and whose armature is connected to the + of the source. This relay controls, by its working contact 118, the PA relay actuating a step-by-step device similar to that described with reference to FIGS. 3 and 4, and comprising, on the one hand, pads 1A, 2A ... 15A in number equal to that of the signs of the signal to be received plus one (or in the embodiment described in the number of signs of the longest of the two signals likely to be received plus one), and a crown 20A having a continuity solution facing the pad 1A, a pair of brushes connected to the negative pole of the source moving by one pad each time the electro PA and thus connecting the corresponding pad = laying and the crown 20A (except opposite IA) to the negative pole.



  A general relay g for checking signs and spacing comprises two windings 108, 109, respectively controlled by the make contact 113 and the rest contact 101 of the relay RA. The winding 108 is connected to the negative via a choke S ', while the winding 109 is mounted in series with a choke S placed on the same core as the choke S', and a coil B with two windings S ", S" ', the output of S "being connected to the crown 20A of the step by step and the output of S"' forming part of a circuit which will be discussed below.



  The general control relay K controls, by its armature 127 and its contact connected to the +, the winding 103 of a point and spacing control relay PE with three windings 102, 103, 124, including the coming to work causes, by the armature 115, the setting in vibrator of the relay PA whose plates corresponding to the points of the signals to receive are connected to the output of the winding 103. The relay g controls indirectly, on the other hand, by by means of relay TE which it puts on work for a prolonged spacing, thus making it close the control circuit of windings 102 and 105, relay C causing: 1 By its working contact 126, the triggering of the ringtone SO.



  2nd By attraction of its second armature, the cutting in 114 of the whole of the selector device.



  3 Connection via this same armature and via contact 114 ′ of a Morse signal recorder M.



  This relay C comprises for this purpose a winding 105 mounted in series with a delay inductor S1v and a safety winding 104 through which a current of direction opposite to that of 105 flows, the role of which will be explained below.



  The relay K also controls a relay TE for controlling lines and spacing with three windings 106, 107, 112; the excitation of the first, 106, is enough just to keep the relay working, the simultaneous excitation of 106 and 107 allows this relay to be put to work, while the last, 112, is. traversed by a current in the opposite direction to that of the first two and its excitation causes the relay to return to rest, if 106 and 107 are traversed by a current, but causes the operation of the TE relay, if 106 alone is traversed by a current or, even more so, if 106 and 107 are not excited.

    The winding <B> 106 </B> could be connected to 20A and the winding 107 to the <I> PA </I> pads which concern the lines, for certain forms of mounting of the electro C: The contact 118 of the <I> TE </I> relay controls the connection of the winding 102 of the PE relay with the reset contact 101 of the BA input relay, as well as the circuit of the winding 105 - of the S0 alarm C tripping.



  The device finally includes. a relay switch D with multiple contacts and two windings 110, 111, the purpose of which is to allow the reception by the same selector device of two different signals and whose role is to modify the connections of the pads of the step-by-step relay through its contacts. pas), PA with the other parts of the device.

   For example, in addition to the signal S. 0. <B> S. , </B> the device can receive the code ffh. The operation of the apparatus will now be described in the case of reception of the signals to which the selector is set.



  At the origin, the brushes are in IA, the circuit 109, S, S "is open. Suppose S. 0. S. regularly emitted. The first point puts RA on work. A circuit is closed by +, 113, 114, 115, winding 0 of PA and -. PA goes to work. At the moment when the current ceases, PA returns to rest and its brushes advance by one pad and thus connect circuit 109, S, S "to the -. The same is true for the following two points. The shunt through the winding 108 and the choke S 'has no action on K, the current there not reaching its permanent state. Likewise, the current which passes through the winding 107 is insufficient to make TE operate, the circuit of the winding 106 being open.



  The first stroke still puts RA to work. Three circuits are closed: one by +, 113, 114, 115, O and -, PA goes to work; the other by +, 113, 114, 107 and -, TE goes to work, because the winding 106 is crossed by a current which follows +, 106, 116 (4A, 5A, 6A), brushes, and -; the third by +, 113, 114, '108, S' and -, K goes to work, because the current is prolonged, the circuit of winding 112 is closed by +, 127, 112 and -, TE re comes to rest. At the end of the first line, IK and P A come back to rest and the brooms of PA advance by contact. It is the same for the following two traits.



  For the points of the last series, all the phenomena of the first series are repeated. The brushes thus arrive at the contact 10A and connect to the output of the winding 105. But this circuit is only closed when K comes to work for a prolonged spacing, which is the case here, since the signal is regular. Returning to idle after receiving the last point of SOS, RA closes the circuit of winding 109 by +, 101, 109, S, S ", 20A, ba lais and -, K operates, the spacing extending , and closes circuit 112, by +, 127, 112 and -.

   TE goes to work, because 107 is not crossed by any current, and closes the circuit of winding 105 by +, 101, 118, SIv, 105, 119, 10A, brushes and -. Electro C goes to work, because its winding 104 is not traversed by any current and the current which passes through the bearing 105 only finds the resistance of this winding. C is maintained on work by its sticking current which follows the circuit +, 123, 126, 105, 119, 10A, brushes and -. The Morse receiver is then substituted for the selector and the bell works. PE could not function, because its winding 102 is, at that moment, short-circuited by contact 10A.



  The operation of the apparatus will now be described when receiving a signal other than that which is to be selected.



  A. A line in place of a point: the emission extending through the choke S ', on the +, 113, 114, 108, S' and - circuit, K goes to work and closes the circuit +, 127, 103, contacts 1A, 2A, 7A (7A through 120), 8A, 9A, brushes and -; PE comes to work, is caught there by its holding current which follows -f-, 121, 104, 124, 20A, brushes and -, and places <I> PA </I> in vibrator. <I> PA </I> returns to its starting point. The holding current flowing through winding 104 prevents C from operating, if any.

   For greater safety, the + for hooking up the rolling 105 is removed when PE is running. PE is unhooked when the bays arrive in <B> IA </B> where its circuit is open.



  It will be noted that the contact 3A, which concerns the third point, is not, like the other contacts which concern the points, connected to the output of the winding 103, but to that of the winding 1.11. It is because this third point of <B> S.O.S. </B> corresponds to the third signal element of the indicative ffh which is a line.

   Therefore, if a line is received in place of the third point of S.O.S., it is possible that the correspondent sent the call sign ffh du Havre. Consequently, this trait has, here, the effect of making D operate which then establishes the relations between the contacts of PA and the other organs for the ffh combination, and which increases the choke of S "by removing the saturation current of coil B which follows +, 123, 117, S "', 20A, brushes and -. The operation of D takes place by +, 127, 111, 3A, brushes and -.

   If ffh is indeed the combination sent, all the components function as it was previously said, the alarm is given shortly after the arrival of the brushes on 13A. 8i ffh is not the emitted combination, the return of PA to its starting point <B> IA </B> takes place as soon as a signal element is not that expected. D is maintained on work by its holding current which knows +, 123, 122, 110 and-. It is picked up by PE which removes the + when it works.



  B. A dot instead of a line. As soon as the brushes have encountered the contacts 4A, 5A and 6A, the winding 106 is traversed by an insufficient holding current for the attraction of the TE armature. But when BA comes to work, the winding 107 is formed by +, 113, 114, 107 and -; TE gets to work. It remains there after the current ceases in 107 thanks to the holding current of the winding 106, because, due to the shortness of the current, K did not work and, as a result, did not bring TE back to rest by winding 112. As a result, a circuit is closed when RA returns to rest by +, 101, 118 (SIV, 105, B), 102 and -. PE comes to work and, by the same operations as for a trait received in place of a point, brings PA back to its starting point.

   Electro C did not work because in the circumstance the resistance of winding 105 was found to be increased by that of 102 and then a reverse current flowed through its winding 104. In addition, the + of its sticking current has been removed by PE on work.



  C. Spacing too large. If, after reception of a signal element (except for the last element, since after this there must be an extended spacing) the spacing is prolonged, a steady state current is established through the selfs S and S "by +, 101, 109, S, S", 20A, brushes and -. K closes winding 112 with +, 127, 112 and -. The circuit 107 receiving no current, TE goes on work and closes the winding 102 by +, 101, 118 (SIV, 105, B), 102 and -. PE goes to work and performs the switching and opening and closing of circuits, as indicated above. PA brings his brooms back to the point. start 1A. C does not work for the reasons already given.



  If the last signal element is not followed by prolonged spacing, C does not work since K does not come to work because of the shortness of the quiescent current and the SIV choke further delays its operation; the PA brushes return to their starting point under the action of the points which would be received or of PE for a line or an extended spacing which would follow the surplus signals.



  It is possible, although infinitely improbable, that for a word ending in S. 0. S., the brushes return to their starting point, at the precise moment when the first point of this ending S. 0. S. puts RA to work. In this case, the alarm would be given wrongly. We will therefore, perhaps, have to keep the distress signal forward as it is to the rear. To this end, the modifications shown in. fig. 8 can be made to the diagram of FIG. 7.



       Two additional contacts x and J are used, a resistor <I> HI </I> is placed -in the circuit connecting the relay <I> RA </I> to the stepper and a third winding <B> 109 '< / B> in series with choke Sv is added to electro K. Contact x gives - to winding 109 '. The contact there short-circuits winding 0 <I> of PA </I> for currents coming from <I> RA. </I>



  If <I> TE </I> were slow to come back to rest, it would be necessary, when the brushes are on xy, to short-circuit the winding 108. For this purpose, the resistor HI would be placed in the link. common to this winding and to 0. The output of the choke S 'would be connected to y which would short-circuit 108, but which would prevent the operation of <I> PA </I> only by insufficient intensity in 0.

   It is important, in fact, here that <I> HI </I> is of low resistance so as not to use a voltage of more than 18 volts for the control of the step by step.



  The process of returning the brushes to their starting point is carried out in two stages. For an irregular signal, <I> PE </I> places <I> PA </I> in vibrator. In xy, the PE latching circuit is open or its resistance greatly increased. The brooms stop there. Therefore, <I> PE </I> can only place <I> PA </I> in vibrator under the action of 109 'and as a result of prolonged spacing. The point control circuit 103 is in fact open. Likewise, TE cannot hang, for the control of the lines, its circuit 106 being also open. Finally, 0 of PA being short-circuited, for the currents coming from RA, the step by step cannot advance the brushes. So these brushes stay on xy until the moment when for extended spacing <I> K, TE </I> and <I> PE </I> work.

   PE then places PA in a vibrator to bring the brushes to 19 where they stop under the conditions already indicated.



  This device would leave the brushes idle during prolonged interference, which would be a very important advantage.



  The same result could be obtained without the addition of the winding 109 'by connecting only the output of 124 to 209 by putting the output of 109 at - after the choke S "and by shorting 109 by a contact placed in sight of 1A, being deleted there.



  A device which also gives good results is the following: the only modifications made to FIG. 7 consist in the addition of a contact x in front of <B> IA </B> and of a half-contact y opposite x, so that the interval preceding y is greater than that preceding x.



  x PA or PA and 108 short-circuit under the conditions already indicated. y is connected to 20A which then presents two continuity solutions for resting PE booster.



  The operating process is exactly as indicated, except for the winding 109 'which no longer exists. The modification at the moment of attraction of the armature of K instead of being obtained using the coil B could be obtained by modifying by D the value of a resistor shumting the winding 109. This process could be extended to windings 108 and 109 '.



  Fig. 9 gives an example of application of these two methods, example in which the sector 20A is interrupted by less than one step (of the progress of the step by step) before the pad y in front of which the pad x is located, while that in front of the end of 209 is the last stud which, for example, could be the stud 159 of FIG. 7. It is necessary, in fact, to keep in mind that the brushes of the step-by-step device always turn in the same direction and that, when a broom has traveled through all the blocks successively, the next brush comes into operation on the first block. ; so that it can be considered that the last plot precedes the first, as has been shown in FIG. 9.

   This being said, we will notice that before reaching y, the brushes encounter the solution of continuity B 'which opens the circuits of 124 and 109, which results in bringing back the relay <I> PE </ I> at rest, and the brushes stop on xy. Winding 0 is then short-circuited, and the circuits of coils <B> 109 </B> and 124 are closed by y, through an additional choke SvI. Under these conditions, the <I> PA </I> relay can only advance the brushes by one step for a prolonged space, because the circuits, 103 and 106:

  are open and the circuits 109 and 102 which control the gaps are closed. The fanctivation of K by the. bo bine 108 and, consecutively, the operation of <I> TE </I> for a line, cannot determine the advancement of a step, since at this moment <I> RA </ I > is on work. We could also short-circuit 108 by placing the resistance <I> HI </I> in H 'on the common circuit of 0 and: 108.

   Stopping the operation of <I> PA, </I> instead of being operated by short-circuiting., Could be done by decreasing the intensity, again setting <I> HI </I>: in <I> H ', </I> by removing the <I> Ix </I> link and linking the output of S' to x. On the other hand, the diagram of FIG. 9 differs from that of, fig. 7, in that the chokes S "and S" ', the contact 117 of the relay D, the line connecting 117 to S "', and that a contact 133 has been added (fig. 9) whose blade Me is connected to the resistor shunting coil 109, so that when 133 'comes into contact with 133, the value of shunt resistance 109 is reduced, which delays the operating moment of K.



  The same device could sound the alarm for a very large number of selected combinations. We would be stopped in this way by the congestion of the electron switches D.



  The operation of the electro C could be carried out by cutting off the sector 20A so as to open the circuit of 109 when your brushes reach the contact 10A or 13A, and to introduce the chokes, S and S "in the circuit of electro C. For its use, the output of the electro PE hooking circuit must be earthed and the release is operated by short-circuiting the winding 124 when the brushes arrive at 1A where a The contact of the sector 20A is connected to the input of said winding This is the method used in the apparatus currently constructed.



  The operation of C could still be achieved based on the following observations: For a point emitted instead of a line, RA and g are at rest and TE is on work at the moment of sending the current which crosses the windings 105 and 102; for extended spacing, RA is idle, and K and TE are on work at the time of said current send. Hence, by connecting 127 to the inlet of the winding 104 and closing.

    the circuit by the rest contact, 123 of PE whose middle blade would be connected to 20A, C would receive a current which, added to that which would go through the winding 105 when its output is connected to - by 10A and 13A, would be sufficient for the operation of C. The hooking of PE and D would be obtained by linking the inputs of 124 and 110 to + and their outputs to 121 for one, to 122 for the other. The median strip of 125 would be connected to the +.



  The method would be used in the event that TE is slow to come back to rest.



  Electro K could be delayed electro attracting a common type. Such an electro would even be necessary for combinations having very long intervals between certain signal elements. Similarly, it would be advantageous to use this type of electro for C, which would allow the suppression of the SIV choke and of the resistor R.



  The increase of the self S "without modi fication of its ohmic resistance could still be obtained by giving the coil B, by S" ', an opposite orientation and a magnetic flux of half the value than that given to it by the circulating current. in S ", so that the magnetic field varies within the limits where the coefficient of permeability is the highest. But it appears that the best method is still that of the ohmic variation. of a shunt placed on the electro in series with a self.



  It is obvious that - D is not necessary in devices which can give the alarm for several combinations when the combinations comprising the most signal elements present at their start and in the same order all the elements, elements. combined previous sounds. So,

   the same device hurray to give the alarm for
EMI0014.0034
    without the help of electro D.



  Winding 104 is not essential: It prohibits any operation of C when <I> PE </I> is working; but this operation would have no effect here at this time the PE removes the + at C. I <B> 1 </B> replaces a resistor for winding 124 while preventing unnecessary displacement of: C.



       The devices, the methods of controlling the signals, hooking and unhooking, as well as the operating mode of the organs were:

  established in the diagram fig. 7 with a view to achieving a standard type in which the changes of the combinations to be received require only mutations in the connections of the stepping contacts and, where appropriate, in those of the contact blades of the electro D. So the best methods were not always used. For a single permanent combination the device could be much simpler.

 

Claims (1)

CLAIM: Device for the automatic selection of a determined signal formed of several signs and in particular of signs of the Morse alphabet, characterized in that it comprises means for controlling electrical contacts controlling each reception of a sign of the signal in selecting and at each spacing between two consecutive signs of this signal, various electrical contacts establishing, on the one hand, the switchings necessary for checking the spacing or the following sign, the electrical contacts as well. established reverting to their starting position if the spacing or sign received does not correspond to the spacing or sign to be received, the combination of these contacts causing, on the other hand, when all the spacings and signs of the signal to be selected have been received, aecompletion of the operations to be performed following receipt of said signal. SUB-CLAIMS: 1. Device according to claim, characterized in that the combination of the contacts causes, when all the signs and spacings of the signal to be selected have been received, the commissioning of the signal recording device. , the operation of a warning device. 2. Device according to claim, characterized by a step-by-step member moving by one step on each reception of a sign of the signal to be selected and establishing, with each advance; the switching operations necessary for checking the following spacing, this step-by-step device returning to the initial position as soon as a sign or a spacing of the received signal does not correspond to the spacing of the signal to be selected, the arrival at the end of this organ step by step being thus done when all the spacings and signs of the signal to be selected have been received in the order determined by the signal to cause at this moment the accomplishment of the operations to be carried out following receiving said signal. 3. Device according to sub-claim 2, in particular for receiving the signal S. 0. S. in Morse alphabet, characterized in that the step by step member which moves during the spacings under. the action of each sign preceding control by cams as it progresses: a) the establishment of a first contact which closes immediately after the reception of the first point until the end of the signal to cause, through a choke between the reception of two signs, the closing of the supply circuit of a point and spacing control relay controlling by attraction the return of the component step by step to the initial position, this relay not attracting if the received spacing is equal to a point, the establishment of the current being delayed from this time by the. choke mounted in series with said relay, but attracting on the contrary if the spacing is equal to a line, and so on for all the spacings of the signal ', the control of the points being in the same way carried out during the reception of a sign by closing through a second choke and a second normally closed contact of the power supply circuit of the points and spacing control relay which attracts itself if the signal received is a line; b) on the one hand, the establishment of a third contact which closes immediately after. the reception of the third point until the end of the third line and, on the other hand, the establishment of a fourth contact which closes at the same time on the third contact until, the end of the first point of the second series and the opening under the same conditions of the second contact controlling the points, the closing of the third contact causing the closure of the supply current of a ZVheatstoné bridge in the middle branch of which the lines control relay is mounted, which is at this time carrying insufficient holding current to attract the relay, the fourth contact establishing the closing of the fourth branch of said bridge formed by the second choke, so that when the signal received is a line, the period of establishment of the current at the start of the line causes the attraction of the bridge relay which is unbalanced by the fact that the second choke acts as self-induction, then the de-energization of said relay when the current is in operation permanent, the balance of the bridge being reestablished by the fact that at this moment the second choke acts as resistance, the very brief attraction of the bridge relay closing the supply circuit of the points and spacing control relay which does not have time to attract, while, when the received signal is a point, the bridge relay remains attracted as a result of the persistence of the imbalance of the bridge and causes the attraction of the point and spacing control relay bringing the component step by step to the initial position; c) The opening of the third and fourth contact after receipt of the lines and the first point of the second series to return the device to the point control position by only closing the second contact; d) the closing of a fifth contact when the step-by-step member has finished its travel to cause the completion of the operations to be carried out following reception of the signal to be selected. 4. Device according to sub-claim 3, characterized in that the step-by-step member controls a selection translator contact sending electric current into the spacing control circuits when there is no sign and sending current. electrical in the sign control circuits when receiving a sign. 5. Device according to sub-claim 3, characterized in that it comprises a relay controlled by the attraction of the point and spacing control relay to control the return to the initial position of the organ step by step. 6. Automatic selection device according to sub-claim 2, in particular for receiving the S.O.S. in Morse alphabet, characterized in that the step-by-step device comprises a rotary switch comprising at least as many pins plus one as there are signs in the signal to be selected, and at least one arm successively establishing the contacts with these pads, each of the first pads corresponding to a sign to be received and to the spacing preceding this sign and the last pad corresponding to the triggering of the operations to be carried out following reception of the signal to be selected, said arm moving a plot after receipt of a sign, if this sign is indeed the corresponding sign. the signal to be selected and moving rapidly until it returns to the first plot ,. as soon as the sign or spacing received does not match the sign or spacing to be received. 7. Device according to sub-claim 6, characterized in that the com switch carries several arms. arranged in such a way that when an arm leaves the last block, the next arm comes to the first block. 8. Device according to sub-claim <B> 6, </B> characterized in that it comprises a line control circuit comprising a differential relay with three coils, one of these coils being supplied through an inductor, so that if the received sign is a point, said box does not have time to intervene in the operation of said relay, which maintains the attraction of this relay to control, during the following spacing, the return to the initial position of the step by step apparatus, while if the sign Teçu is a line, the coil receiving control of said trait intervenes after establishing the control current to de-energize the differential relay, so that at the following spacing = none, Action does not occur on the step-by-step device which continues, for the other signs of the signal, its movement towards its end-of-travel position ..> 9. Device according to claim, characterized in that it comprises several relays for receiving signs and spacing, the first relay attracting the reception of the first sign, the second relay receiving the signal. following spacing, the third relays upon receipt of the second sign, and so on, each of these relays establishing, on the one hand, for each sign or each spacing that it selects the necessary commutations for the control of the 'spacing or of the next signal, all the relays at that moment attracted de-energizing as soon as a sign or a spacing of the received signal does not correspond in order to the sign or to the spacing of the signal to be received, the attraction of all these relays is thus accomplished when all the spacings and signs of the signal to be selected have been received in the order determined by the signal to cause at that moment the closing of an electrical supply circuit of a signal recording device, a warning device and the deactivation of the automatic signal selection device. 10. Device according to sub-claim 9, for receiving the signal S. 0. S. in Morse alphabet, characterized by the fact that five relays for receiving signs and spaces attract each other successively for the first series of points and at this time cause the attraction of a recording relay of the series of points which prepares the stroke control circuit, these reception relays then de-energize to attract each other successively for the series of strokes and at this moment cause the attraction of a recording relay of the series of strokes which prepares the circuit for control of the second series of points, these reception relays then de-energize a second time to attract each other successively for the second series of points and at this moment cause the attraction of a recording relay of the second series of points, this last relay causing the closing of the circuits a recording device and an alarm and the switching off of the automatic signal selection device. 11. Device according to sub-claim 6, characterized in that it comprises a delayed relay controlling the conformity of the signs received with the signal to be received and controlling a point control relay and a line and space control relay. - mountains which in turn control the functioning of the organ step by step. 12. Device according to sub-claim 11, characterized in that the delayed relay comprises two windings, one supplied by the closed contact, the other by the working contact of the input relay receiving the signals, and both mounted in series with delay chokes, placed on the same core. 13. Device according to claim, arranged for the selection of several signals, characterized in that it comprises a switching relay to change the signal to be received, this relay being put into service as soon as a sign of the first signal to be selected on which the organ is adjusted step by step, differs from the corresponding sign of the second signal to be selected, this putting into service causing the organ to be adjusted step by step on said second signal. 14. Automatic selection device according to sub-claims 12. And 13, characterized in that the winding of the delayed relay which is supplied by the rest contact of the input relay and which controls the spacings. , comprises in series a coil whose self is automatically increased when the signal change switch is placed on the second signal which requires larger spacings. 15. Device according to claim, characterized in that it comprises means for preventing a limit switch relay (which causes the completion of the operations to be carried out on reception of a predetermined signal) from functioning if the signal received is not followed by extended spacing. 16. Device according to sub-claim 15, characterized in that the circuit of the limit switch has a delay inductor, such that said relay operates only after a prolonged spacing. 17. Device according to sub-claims 2 and 16, characterized in that the limit switch relay comprises a second winding acting in the opposite direction to that of the main rolling bearing and having the aim of preventing this relay from come to work unexpectedly when the brushes pass over the stepper contact connected to the output of the main winding when the stepper returns to its starting point for an irregular signal under the influence of the nut the stitch control relay, commanded by the stroke and spacing control relay. 18. Device according to sub-claims 14 and 17, characterized in that the point control relay comprises three windings, one of which is energized when the delayed relay comes to work when the -is given by the brushes to the studs. to which it is connected, the second of which is energized when the delayed relay comes to work, on condition that the stroke control relay is also working, and that the input relay is at rest, and the third of which mounted in series with the auxiliary winding of the limit switch relay is the latching circuit. 19. Device according to sub-claim 18, characterized in that the line and spacing control relay controls the limit switch relay by its contact and comprises three windings controlled one by the pads of the step-by-step relay which correspond to the reception of the lines, the second by the working contact of the input relay, and the third by the contact of the delayed relay, the current in the last winding being in the opposite direction to that of the first two. 20. Device according to sub-claim 19, characterized in that the windings of the line and spacing control relay are calculated in such a way that the excitation of the first is sufficient to simply keep this relay at work, that the excitation of the first two windings is enough to bring the relay to work, while the excitation of the third brings the relay to rest despite the excitation of the first two, but brings it to work if one or neither of them is traversed by a current. 21. Device according to sub-claim 6, characterized in that it comprises means for preventing normal operation of the organ step by step, as long as the signal to be selected is not preceded by a prolonged spacing. 22. Device according to sub-claim 21, characterized in that the non-lias member comprises a pair of rest pads preceding respectively the first pad of the signs and the sector, the pad preceding the first pad being connected to a third winding provided on the delayed relay and the pad preceding the sector being connected to the working contact of the input relay by means of a resistor and to the rest contact of the relay control of the points controlling the winding of the step-by-step relay which is thus short-circuited as long as a prolonged spacing does not cause the operation of the delayed relay, of the line and spacing control relay, and of the point control relay. 23: Device according to the sub, claim 21, characterized in that the member step by step. has a pair of studs. rest preceeding respectively the first pad of the signs and the sector, the pad preceding the first. contact of the signs being connected to the working contact of the input relay by means of a resistor. and to the rest contact of the point control relay controlling the input. bearing of the relay step by step, the pad preceding the sector being Such ù this sector via a choke. 24. Device according to sub-claims 13, 15, 23, characterized in that the delayed general control relay comprises a coil shunted by a resistance, the value of this resistance being able to be modified: under the control of the relay. change of signal to be received.