US2144176A - Communication system - Google Patents

Communication system Download PDF

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US2144176A
US2144176A US49092A US4909235A US2144176A US 2144176 A US2144176 A US 2144176A US 49092 A US49092 A US 49092A US 4909235 A US4909235 A US 4909235A US 2144176 A US2144176 A US 2144176A
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impulses
type wheel
impulse
groups
transmitting
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Amann Max
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L19/00Apparatus or local circuits for step-by-step systems

Definitions

  • This invention relates to communication systems in which the transmitted signals are made up of different numbers of impulses. It is usual, in systems of this type, for the-order numbers of the various signals to be transmitted to correspond to the number of impulses sent out for their transmission. If there are 25 different types which are to be selectively printed according to the signal that is received, then it is necessary for up to 25 impulses to .be transmitted for the selection of a type. A considerable amount of time is necesi sary for the transmission of such a large number signal is to be made as short as possible, it is' necessary not only to reduce the number of impulses but also to make the impulses themselves of short duration. If the number of impulses is reduced but the length of certain impulses is increased, it is clear that the time taken up by the transmission of a signal is still capable of being reduced.
  • a transmitter which can emit impulsesall of the same length in the forml of two groups separated by a shift signal and these impulses are received by a receiving device which has means for endcwing the ⁇ impulses of one group with setting values of equal magnitude and the impulses of at least one other group with setting values of unequal magnitude.
  • the 4impulses are al1 of the same length. There are no short and long impulses. The impulses can thus all be short impulses. On the other hand, thenumber of impulses can be relatively small.
  • a receiving device which may be a type wheelcan be stepped by the impulses of one group in steps of different lengths and .by the impulses of the other group in steps of the same length, the size of the steps eiected by the impulses of the rst group being a multiple of the size of those eiected by the impulses of the second group.
  • 35 different settings of the ⁇ receiving device can be obtained with (Cl. FX8- 23) impulse trains containing a maximum of seven impulses.
  • Figure 1 is a table showing the impulse trains 10 corresponding to the various signals to .be transmitted.
  • Figures 2 and 3 show in side and front elevation a device for the impulse transmission.
  • Figure 4 shows a detail of construction oi' the l5 transmitter of Figures 2 and 3.
  • Figure 5 shows diagrammatically a cam disc for determining the emission of a train of impulses.
  • Figure 6 shows in elevation a device for controlling the type wheel of the printer.
  • Figure 7 is a section through the type wheel.
  • Figure 8 shows a development of the type wheel.
  • FIGS 9, 10 and 11 show details of construction of the devices provided for setting the type wheel.
  • Figure 12 shows the arrangement of the parts of the printer.
  • Figure 13 shows in side elevation the type wheel and its controlling devices.
  • Figures 14 and l5 show details of construction 30 of the arrangement illustrated in Figure 13, and
  • Figure 16 shows a circuit arrangement for the telegraph installation.
  • the types which can be printed are arranged 35 in two rows on the type wheel ( Figures 'l and 8) This type wheel can be moved out of its normal position into 29 different positions. 29 different trains of impulses are therefore necessary for setting the type wheel.
  • These impulse trains are 40 shown one below the other in Figure 1.
  • the iirst column RI gives the order number of the various impulse trains.
  • the second and third columns R2 and R3 give the type in each of the two rows on the type wheel which is selected on reception of each of the impulse trains.
  • the spaces in these columns which are marked with an asterisk correspond to blank spaces on the type wheel.
  • Each impulse consists of a current of short duration, the current ilowing in alternate directions for successive impulses.
  • the number of impulses in the group ig increases as the order number of the signal increases, while the greatest number of impulses in the impulse group ie diminishes accordingly.
  • the total number of impulses in the two groups never exceeds seven.
  • the successive impulses of the group ig must therefore step the receiving device, that is to say,-the type wheel, through amounts of decreasing magnitude, and those of the group ie through amounts of equal magnitude.
  • the first impulse of the group ig steps the type wheel through eight single steps, the second through seven single steps and so on while those of the group ie step it through single steps.
  • the impulses are all of the same length but the impulses of one group (in the described example, the ilrst group) have setting values of difierent magnitudes while those of at least one group (in the described example, the second group) have setting values of equal magnitude, the former setting values being multiples of the latter.
  • the transmitter which effects the emission of these various impulse trains comprises la shaft 60 ( Figures 2 to 4) driven by a motor and on which cam discs SN are freely mounted.
  • a special cam disc is provided for each of the 29 impulse trains.
  • a ratchet wheel ZN is flxed to the shaft 60 next to each cam disc SN.
  • Each cam SN can be coupled by means of a. pawl KN vto the ratchet wheel ZN associated with it, for the duration of one rotation of the shaft 60.
  • the pawls KN are pivotally mounted on the cam discs'SN on bearing pins formed as extensions of rivets by means of which control discs 6I are xed to the cam discs SN.
  • a depression 62 is formed in each control disc 6I and in the normal position, these depressions are aligned beneath the shaft 60 ( Figure 2) and are engaged by, the free ends of a cranked lever 11 ( Figures 2 and 3) under the influence of a spring 63.
  • the lower end of this cranked lever is formed as a bar 64 which is moved to the left ( Figure 2) when the cranked lever 11 is moved against the action of its spring.
  • the number of cam discs SN is equal to the number of transmitting keys ST. These keys ST are guided by two transverse rods 65 and are under the influence of springs 66. Each key has a pawl 68 connected to it which, on depression of a key, is lowered together with the free end 69 of the key. During the first part of its movement, the pawl carries with it an intermediate lever 12 which is thus swung counter-clockwise against the action of its spring 18. The coupling pawl KN associated with this lever and which, in the normal position, rests on the end of the lever is thus released and, under the action of the spring 13 engages. in one of the teeth of the ratchet wheel ZN.
  • the cranked lever 11 is pivoted about theaxis 14 by the control disc 6I and the cross bar 6l is moved to the left and engages above the tail end 69 of the actuated key ST and below the tail ends 69 of the unactuated keys.
  • the actuated key is thus held in the actuated position and the remaining keys are latched in their normal position.
  • the cranked lever 11 again engages in the depression 62 in the control disc and the keys are unlatched.
  • the movement of the cranked lever 11 also causes a contact Sick to be opened by the projection 15 on it for the duration of the rotation of the cam disc SN.
  • a make-and-break contact SK is associated with each cam disc SN and is arranged with its centre spring resting on the circumference of that disc. All the make and break contacts SK are mounted-side by side on a frame 16 and their contact springs are multipled. In the normal position ( Figure 2), neither the upper nor the lower contact is made. 'I'he centre contact spring is connected to the transmission line Fl, the lower spring to the positive and the upper spring to the negative pole of the battery. i
  • Each cam disc is divided into 15 sections subtending equal angles as, for the transmission of signal numbers 1, I4, 20, 25 and 29 (see Figure l). a time corresponding to 15 impulses is required.
  • the cam disc illustrated in Figure 2 serves for sending out the impulse train corresponding to signal number 3. While sections I and 2 of the cam disc lie beneath the centre spring of the contact SK, the lower contact is made and positive current is therefore sent to the line for the duration of two impulses (start signal ia) While the sections 3 and 4 lie beneath the make-and-break contact SK, neither the upper iior the lower contact is made and no current flows to the line (shift signal a).
  • the sections 5 to 1 correspond to three impulses belonging to group ic.
  • the upper contact is first of all made so that for the duration of' one impulse, the negative pole of the battery is connected to the line; then, for a similar period, the positive pole is so connected and finally the negative pole of the battery is again connected to the line.
  • the cam disc for signal number 28 is diagrammatically illustrated in Figure 5.
  • the sections 3 to 6 of this disc serve for the emission of the impulses of the group ig and the sections 9 and IU for the emission of the impulses of the group ie.
  • the other discs are constructed ⁇ in accordance with the various impulse trains set out in Figure l.
  • the receiver illustrated in Figures 6 to 15 comprises a type wheel TR. which can be driven by means of the shaft 90 and a motor M.
  • Two escapement mechanisms actuated by the magnets DME and EME are provided for controlling the rotation of the type wheel. 'I'hese two escapement mechanisms are selectively brought into operation by displacement of the sleeve 88.
  • One of the escapements comprises a pair of wheels 5I and the other a pair of wheels 52.
  • a pawl ED co-operates with the wheels 5
  • the pawls can be swung transversely from the circumference of one of a pair of escapement wheels to the other according to the state of energization of the polarized driving magnet on the armature of which they are mounted.
  • and 52 are mounted on clutch sleeves 8
  • the sleeve can be displaced axially on the shaft 90 to the extent allowed by the pin 85.
  • the displacement of the sleeve 80 is effected by the armature of an electromagnet U.
  • is effected by the movement of attraction of the armature of the magnet U.
  • the escapeinent wheels 5I and 52 are provided respectively with stop pins 88 and 89 which determine the normal positions which they assume under the action of the springs 86 and 81 and into which they return when they are unclutched from the sleeve 80.
  • the type Wheel shaft 90 is driven by the motor M through gearing worm Z and a friction gear 9
  • the type wheel is provided with a return spring 93 ( Figures 6 and 14) arid normally lies with its stop pin 94 on the stop 95 ( Figures 6 and 7)
  • the discs Zi, Bu and RZ Figures 6 arid 13) are fixed to the type wheel.
  • the disc RZ is axially movable on the shaft 90 against the action of a compression spring 96.
  • a further cam 99 is provided on the disc RZ for actuation of a contact Tlc.
  • the type wheel TR has two rows of types on its circumference. One row contains the letters of the alphabet and the other gures and signs.
  • the paper strip P runs beneath the type wheel transversely to its axis. It is of thesame width as the type wheel TR and is marked with a double line, figures and signs being printed in an upper row and letters in a lower row (see Figure 6).
  • the printing strip is formed in three parts.
  • the intermediate strip consists of a double sided coloured carbon paper and the cover strip is transparent.
  • the printed text can be read through the transparent cover sheet.
  • the base strip which can be gummed in the usual manner is presse-d on to the upper side against the cover strip, the rear side of which is printed.
  • the strip feed mechanism ( Figure 12) is, as usual, controlled by a printing magnet DM. After actuation of the printing hammer DH, the strip is stepped on by'means of the ratchet IUI.
  • 83 is mounted on the leaf spring
  • the printing hammer DI-I ( Figure 13) is mounted on a link
  • the printing hammer DH is thus displaced so that subsequently received signals are printed in the other line on the strip.
  • a pawl I I1 is pivotally mounted on the pin
  • of this pawl is normally held in the notch 8 in the disc Rl by the spring
  • I9 When the type wheel is displaced, this end
  • the lever II2 is pivoted and the disc Rl is thus displaced towards the left out of the range of the pawl I2 I, the latter under the action of the spring II9 snaps back into the illustrated normal position.
  • the disc RZ is thus held against lateral movement after the return of the actuating lever II2 into the normal ⁇ position for the duration of the return movement of the type Wheel TR.
  • the disc Rl can only be displaced towards the right under the action of the spring 96 when the type wheel has reached its normal position because only then can the pawl H1 engage in the notch I I8 in the disc Rl.
  • both a transmitter and a receiver are arranged in each station of a telegraph ⁇ installation.
  • the transmitter and the receiver can be built as a unit and be driven by the same motor.
  • the circuits between two stations A and B which are connected together by means of the line Fl are illustrated in Figure 16. Other stations such as these can be connected to the line Fl.
  • the stations A and B are similarly constructed.
  • the marking contacts of all the transmitting contacts sk are connected to the poles of the transmitting batteries ABI I. and ABIZ and their centre contacts are earthed.
  • the line Fl is connected to earth through the upper windings of two polarized line relays ERII and ERI2 so that normally no current ilows through the line. The senses in which these two relays are wound and their polarizations are opposite so that when the current is positive only the relay ERI2 is energized and when the current is negative only the relay ERI I.
  • Each of the line relays also comprises a lower additional winding which are connected in series in the circuit of the local batteries OBII and OBI 2. These additional windings are diierential to the main windings and exert a magnetizing force such that as long as no current iiows through the main windings, the influence of the additional windings preponderates so as to bring the contacts erII and er
  • a direct current relay UI, a slow-to-release relay VI and a hot wire relay HI connected in series are connected to the contacts erI I and erI2 from a point midway between the local batteries OBII and OBI2 by a full wave rectifier GlI.
  • the polarized magnets DMEI and EMEI controlling the type wheel escapements are selectively connected to the similar lines al, bl, through the contact uI3. These magnets are polarized in the same direction and respond only to alternate impulses which are transmitted through the lines aI, bl in opposite directions'.
  • the relays UI, VI and HI. also respond to y.these impulses; they remain, however, permanently energized in opposition to the control magnets owing to the rectication effected in the rectier GII.
  • the batteries OBI I, OBI2 alsoI serve for supplying the printing magnets DMI as well as for energization of the direct current shunt-wound driving motor MI.
  • 'I'hese circuits can be closed through the key ATI, through the contact cl2 of the relay VI and by the contact of the hot wire relay Hl.
  • An articial line VRII which is suited to the resistance of the line Fl is connected in the circuit of the upper windings of the line relays ERII and ERI2.
  • This artificial line is normally short circuited by the contact SklcI ( Figure 2) which is actuated during the transmission.
  • SklcI Figure 2 which is actuated during the transmission.
  • the circuit of the printing magnet DMI is dependent upon the contacts cl3 and TIcI.
  • the contact Tlcl is closed when the type wheel reaches its normal position ( Figure 15).
  • the armature of the magnet DMI .is attracted the energizing coil of the magnet is short circuited by the contact dmI, short circuiting of the batteries OBI I, OBI2 being prevented by a resistance.
  • the starting key ATI is rst of all depressed.
  • this key like all the keys ST of the transmitter, clutches a cam disc SN to the transmitting shaft for the transmission of a train of impulses and, indeed, the train 29 ( Figure 1).
  • the contact of the key ATI is closed, the motor at the station A is started and it immediately begins the transmission of the train of impulses number 29.
  • This current transmission begins as do all others with two positive marking current impulses which traverse the line and are received by the line relays ER2I, ER22 of station B,
  • the relay ER22 is actuated so that it overcomes the oppositely acting magnetizing force of its counter winding and throws its armature er22. mitted over the lines a2 and b2.
  • the control magnet DME2 also receives the starting impulses so that its armature is brought into the illustrated starting position should it not already happen to be there.
  • This latter impulse actuates the relays U2, V2 and H2 through the rectier G12.
  • the relay U2 eiects the above described switching step through its contact u23 during the transmission of the above mentioned impulse.
  • the hot wire relay H2 is very slow in responding and, at the start, has no effect at all.
  • the term large step is used to diiierentiate the stepping of the type wheel by the impulses of the group ig from the stepping in single steps effected by the impulses of the group ic.
  • This iirst large step corresponds to eight single steps ( Figure 9) and is determined by the teeth or notches formed on the wheels 5
  • the subsequent impulses of the impulse group ig displace the type wheel through three further large steps which correspond to 1, 6 and 5 single steps respectively and are determined, again, by the teeth or notches formed on the wheels 5
  • the relays U2 and V2 remain energized as does the hot Wire relay I-I2.
  • the electrical connection of the control magnet DME2 and also the mechanical displacement of the sleeve are thus both maintained.
  • the contact 'U23 maintains open the circuit for the printing magnet DMZ which has been prepared in the meantime by the cam contact Th2.
  • the shift signal a which consists of two no current impulses follows the impulses of the group ig. During these impulses, the relay U2 drops and reverses its contacts and displaces the sleeve 8U into the normal position. The clutch 83 is thus disengaged and the clutch 84 engaged so that the sleeve 8
  • the delay in the release of the relay V2 and that of the hot wire relay H2 are so large that the two relays are maintained operated during these no current impulses a.
  • the impulses in alternate directions of the impulse group ie now follow and act on the control magnet EME2 so that the type wheel is displaced in single steps' which are determined by the teeth or notches formed on the wheels 52.
  • the relay U2 is not influenced by these impulses because its winding ⁇ is short circuited by the contacts '02
  • the shift signal b which consists of at least four no current impulses follows the impulses of the group ie. After about the middle of the third no current impulse, the relay V2 drops and through the'contact U23 closes the circuit for the printing magnet DM2. On attraction of its armature, this magnet actuates the printing hammer DI-I ( Figures 12 and 13) and, at the end of its attraction, closes the contact dm2 which short circuits its energizing winding.
  • the armature has dropped, as is described above, the resetting of the type wheel TR is initiated by the lever devices
  • the contact dm2 is preferably so formed that its opening is delayed in order to prevent a further actuation of the printing magnet DMZ during the running back of the type wheel.
  • the impulse train of the transmitted signal number 29 was also received in the transmitting station A.
  • the contact Ru ( Figure 14) is closed by the pin 91 of the discs Bu and Zz' so that a signal identifying the station B can be automatically sent out by that station. This signal indicates to the station A that it is connected to the station B.
  • the key Bu must rst of all be actuated.
  • the type wheel, and with it the disc Bu is set so that the cam abuts against the lever
  • the printing hammer is brought beneath the outer row of types on the type wheel which contains the letters of the alphabet.
  • the train number 21 is 4not associated with any type, no impression is effected on the paper strip P.
  • the hot wire relays HI and H2 can cool sufciently tof'open their contacts. In this way, the motor circuits in the transmitter and in the receiver are opened and the devices in the stations A and B are brought to rest. Only the additional windings of the line relays are traversed by marking current from the local batteries and hold their armatures in the illustrated normal position.
  • a single polarized relay can be used, the armature of which is under the action of a spring and which assumes an intermediate position in the absence of current in which none of the contacts is actuated. In practice, such relays work less satisfactorily than the illustrated arrangement.
  • a system for transmitting signals comprising a transmitting device for the emission of signal combinations made up of two groups of substantially equal impulses emitted in alternate directions, a receiving device and a transmission path connecting said devices, said receiving device comprising two polarized relays connected in series, each of said relays being provided with two windings, one of which is connected in a local circuit, a type wheel, means for stepping said type wheel in steps of diierent sizes and in steps of equal size and a printing device.
  • a system for transmitting signals comprising two stations, a line between said two stations, a transmitting contact at each of said stations, devices for controlling said transmitting contacts for sending out signal combinations made up of two groups of substantially equal impulses emitted in alternate directions, an earthed source of current at each station, each of said contacts being adapted to connect alternately the two poles of one of said sources of current to said line, polarized relays at each of said stations, said relays being connected between said line and earth and being adapted to be influenced by the impulses in alternate directions, artiilcial line for damping the ow of current through said relays and means actuated by said devices for controlling said transmitting contacts for connecting said damping artificial line.
  • a system for transmitting signals comprising a transmitting device, and a receiving device and a line connecting said devices, said transmitting device comprising a transmitting battery earthed at the middle, a transmitting contact adapted to connect said line alternately to the poles of said battery without interrupting the connection between said transmitting and receiving devices and devices for controlling said transmitting contact for sending out impulses in alternate directions, and said receiving device comprising a type wheel and means for stepping said type wheel in steps of different sizes and in steps of like size.
  • a system for the transmission of signals comprising a transmitting device and a receiving device, said transmitting device being adapted to emit signal combinations made up of a plurality of groups of impulses of equal length and to emit a shift signal between successive groups and said receiving device comprising means for endowing the impulses of one of said groups with setting values of unequal magnitude and the impulses of at least one other of said groups with setting values of equal magnitude.
  • a system for the transmission of signals' comprising a transmitting device and a receiving device, said transmitting device being adapted to emit signal combinations made up of a plurality of groups of impulses of equal length and to emit a shift signal between successive groups, said receiving device comprising means for endowing the impulses of the second of said groups with setting values of equal magnitude and means for endowing the impulses of the first of said groups with setting values of diierent magnitudes divisible by said setting values of equal magnitude.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of a plurality of groups of impulses of equal length and to emit a shift signal between successive groups, 1said receiving device comprising a type wheel Vand means for setting said type wheel in steps of different sizes and in steps of equal size.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of a maximum of seven impulses of equal length subdivided into two groups and to emit a shift signal between successive groups, said receiving device comprising a type wheel having 29 different working positions and means for displacing said type wheel in steps of diierent sizes and in steps of like size.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of a plurality of groups f impulses of equal length and at least two shift signals, said receiving device comprising a type wheel, means for displacing said type wheel in steps of diierent sizes and in steps of like size and a magnet having a delayed release and adapted to be caused to. release by one of said shift signals.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a printing device, said transmitting device being adapted to emit signal combinations made up of two groups of impulses of equal length, each followed by a shift signal, said receiving device comprising a type wheel, means controlled by the impulses of said groups for displacing said type wheel in steps of diierent sizes and in steps of like size, a printing device, a magnet having a delayed release and adapted to be inuenced by the shift signal transmitted at the end of the rst of said impulse groups and to influence said type wheel setting means, and a magnet adapted to be inuenced by the shift signal transmitted at the end of the second of said impulse groups and thus tov control said printing device.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, and a printing device, said transmitting device being adapted to emit signal combinations lmade up of a plurality of groups of impulses of equal length emitted in alternate directions, said receiving device comprising a type wheel, an escapement mechanism for controlling the stepping of said type wheel in steps of different sizes and in steps of like size, a polarized magnet for controlling said escapement mechanism and a printing device.
  • a system for transmitting signals comprising a transmitting device adapted to emit signal combinations made up of two groups of impulses of equal length emitted in alternate directions and a plurality of shift signals, a receiving device comprising a type wheel, an escapement mechanism for stepping said type wheel in steps of diierent sizes and in steps of like size, a polarized magnet for controlling said escapement mechanism under the influence of said impulses, a rectifier, a plurality of magnets having a delayed release and adapted to be controlled by the impulses through said rectifier and a printing device controlled by one of said magnets.
  • a system for transmitting signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of two groups of substantially equal impulses and of a shift signal between said two groups, said receiving device comprising a type wheel, two escapement mechanisms for controlling said type wheel and a switching device for selectively coupling said type wheel with one of said escapements.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of a plurality of groups of impulses of equal length and a shift signal between successive groups, said receiving device comprising a type wheel, a shaft for said type wheel, two escapement mechanisms arranged on said type wheel shaft for stepping said type wheel in steps of different sizes and in steps of like size, and an electromagnetic controlling device for selectively coupling one of said escapements to said type wheel.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of a plurality of groups of impulses of equal length and a shift signal between successive groups, said receiving device comprising a type wheel, a spring for resetting said type Wheel into its normal position, a shaft for said type wheel, two escapement mechanisms arranged on the same shaft for setting said type wheel in steps of dierent sizes and in steps of like size and an electromagnetically actuated controlling device for selectively coupling said type wheel with one of said escapement mechanisms.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of a plurality of groups of impulses of equal length and a shift'signal between successive groups, said receiving device comprising a type wheel, a spring for resetting said type wheel in its normal position, a shaft for said type wheel, two escapement mechanisms arranged on said shaft for setting said type wheel in steps of different sizes and in steps of like size, springs for returning said escapement mechanisms to their normal position and a controlling device for selectively coupling said type wheel to one of said escapement mechanisms.
  • a system for transmitting signals comprising a transmitting device adapted to emit signal combinations made up of two groups of impulses of equal length, a receiving device and a transmission path connecting said devices, said receiving device comprising a type wheel, a spring for resetting said type Wheel, means for displacing said type wheel in steps of different sizes and in steps of like size, means for ensuring the return of the said type Wheel into its norma-l position, a printing device and means adapted to be lniluenced by said printing device for controlling said type wheel displacing means.
  • a system for the transmission of signals comprising a transmitting device, a receiving device and a transmission path connecting said devices, said transmitting device being adapted to emit signal combinations made up of a plurality of groups of impulses of equal length and a shift signal between successive groups, said receiving device comprising a type wheel, means for actuating contacts, means for displacing said type wheel and said contact actuating means in steps of different sizes and in steps of like size.
  • a system for transmitting signals compris,- ing a transmitting device and a receiving device, said transmitting device being adapted to emit signal combinations made up of two groups of impulses of equal length and a shift signal before the emission of each group, said receiving device being adapted to endow said impulses of. the second of said impulse groups with setting values of like size and the impulses of the first of said impulse groups with setting values of different size divisible by the said setting values of like size.
  • a system for transmitting signals comprising a transmitting device adapted to emit signal combinations made up of a long current impulse in a particular direction, a group of impulses all of equal length in alternate directions, a short impulse pause, a further group of impulses all of the same length and of the same length as the impulses in the previously mentioned group in alternate directions and a longer pause, a receiving device comprising a type Wheel, means controlled by the impulses of the first of said impulse groups for stepping said type wheel in steps of different sizes, means controlled by the impulses of lthe second of said impulse groups for stepping said type wheel through steps of equal size, means controlled by the impulse pause before the impulses of the second of said impulse groups for selectively connecting said type wheel to one of said means for stepping said type wheel and a printing device controlled by the impulse pause at the end of the second of said impulse groups.
  • a system for transmitting signals comprising a transmitting device, a receiving device, a transmission. path connecting said devices and a printing device, said transmitting device comprising keys, transmitting contacts, a rotary shaft, cam discs provided each with a coupling device actuatable by one of said keys for coupling it to said rotary shaft, and adapted to control said transmitting contacts for the purpose of signal combinations made up of a plurality of groups of impulses of equal length and said receiving device comprising a type wheel and means for stepping said type wheel in steps of different sizes and in steps of like size.
  • a system for transmitting signals comprising a transmitting device, a receiving device and ⁇ a transmission path connecting said devices, said transmitting device comprising keys, cam discs, transmitting contacts controlled by said cam discs, a rotary shaft, each of said cam discs being provided with coupling devices adapted to couple said cam discs to said rotary shaft for the duration of one rotation, each of said cam discs also being provided-With controlling devices, a member for latching said keys in any position they may assume, said member being influenced by said control devices of said cam discs, and said receiving device comprising a type wheel, means for stepping said type wheel in steps of different sizes and in steps of like size on reception from said transmitting device of impulses of equal length and a printing device.

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US49092A 1934-01-01 1935-11-09 Communication system Expired - Lifetime US2144176A (en)

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US (1) US2144176A (en, 2012)
FR (1) FR795108A (en, 2012)
GB (1) GB464471A (en, 2012)
NL (1) NL42743C (en, 2012)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2459821A (en) * 1943-11-29 1949-01-25 Int Standard Electric Corp Electrical code printer
US2787210A (en) * 1953-01-22 1957-04-02 Jr Francis H Shepard Hammer impelling means in high speed printers
US3307676A (en) * 1965-12-30 1967-03-07 Ibm Printing apparatus with type wheel disconnected from selection means during return to home position

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2459821A (en) * 1943-11-29 1949-01-25 Int Standard Electric Corp Electrical code printer
US2787210A (en) * 1953-01-22 1957-04-02 Jr Francis H Shepard Hammer impelling means in high speed printers
US3307676A (en) * 1965-12-30 1967-03-07 Ibm Printing apparatus with type wheel disconnected from selection means during return to home position

Also Published As

Publication number Publication date
NL42743C (en, 2012) 1938-03-15
GB464471A (en) 1937-04-14
FR795108A (fr) 1936-03-04

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