CH334852A - Method and device for recording a message and for the optional, at least partial reproduction of the same via a telephone device - Google Patents

Description

  

  Method and device for recording a message and for the optional, at least partial playback of the same via a telephone device It has already been proposed to switch a recording device via a telephone (hereinafter referred to as the main telephone station) to a telephone device in such a way that the device, when it is over this device is connected to a second telephone (hereinafter referred to as dictation telephone),

   picks up a message spoken on the dictation telephone in the absence of the subscriber.



  The purpose of the present invention is to provide an improved method and an improved device that allows a dictator to use his telephone system with a recording and playback device (dictation machine) that is connected to the telephony device for transmission of calls several desired processes (of which certain can be combined in a suitable way), including start, stop, atifnahine, listening or repeating and reversing, so that the device can be switched.

   can be used over the telephone equipment for ordinary bit rework.



  In Swiss Patent No. 3.19-117, which is not a prior publication, a device has already been described which has a remote control device for generating a large number of switching signals, each of which has a different and essentially constant audio frequency.

   The remote control device is connected to the telephone system on the dictation telephone to introduce the switching signals, a dictation device is connected to the telephone for voice transmission, and a master control device which is connected to the telephone system to set the dictation device responds to the required state transmitted switching signals is connected to the telephone system to receive the transmitted switching signals and to the dictation machine to bring the latter into the required setting.



  According to a preferred embodiment in this earlier patent. is described ben, the remote control device, which is arranged in the vicinity of the dictation telephone, is equipped as an active network with a tube oscillator. Thus, since a master station controller can be used by a plurality of dictators, each dictation telephone requires an active network.



  It is. one purpose of the invention is to avoid the need to provide an active network on every dictation telephone.



  The present invention accordingly relates to a method for recording a message and for optionally; at least partial reproduction of the same by a dictation machine. Both processes take place during a call via a telephone device to which the dictation machine is connected for transferring calls.

   This method is characterized in that an alternating current signal with a plurality of components of different frequencies is superimposed on the telephone line, which components can be transmitted via the telephone line, that in a dictation telephone the impedance presented to the components of the signal and thus the level of these components changes by which changes in the various components the dictation device is switched to a number of different settings under full control of these components.



  The invention also relates to a device for performing the method according to the invention. This device contains a telephone device with a Dik tierfernsprecher serving for call transfer, a dictation device connected to C-Tesprächsüber- transfer and a telephone line connecting these and is characterized in that a control oscillator for generating an alternating current signal with a plurality of components with mutually different Fre sequence is available, which components can be transferred through the telephone line and are superimposed on this, da.ss a remote control device is connected to the telephone line on the dictation telephone,

   with which device you can change the impedance presented to the signal by the telephone device ver to change the level of at least one frequency for control purposes, and that a main station control device is connected to the telephone line and the dictation machine, which control device is under full control of the The level of the components switches the dictation machine into a number of different settings.



       The remote control device expediently contains a passive network and an active network is arranged close to or in the main station control device. Regardless of the number of dictators, you only need one active network for each main station control unit.



  The expression under full control means that the dictation machine settings are controlled by the switching signals throughout the call and not just during a predetermined moment.



  The remote control device is preferably connected in parallel to the dictation telephone. The remote control device can be designed.



  and arranged. be that it normally has a high impedance, but by actuating switches at certain specific and particular frequencies, i.e. at the frequencies of the signal, it has a low impedance. The control oscillator preferably consists of a plurality of oscillator circuits, one for each signal. The oscillator output circuits can have a low internal impedance.

    The output of the control oscillator conveniently feeds the main unit control unit in series with the remote control system. For example, by changing the impedance of the remote control unit, the proportion of the oscillator output energy that is introduced into the main unit control unit can be changed.

   The arrangement can be such that, if the remote control device has a high impedance, the part of the oscillator output energy introduced into the main control device is below the minimum level to which the main control device can respond.

    If the dictator intends to change the setting of the dictation machine, "o he advantageously sets the remote control device so that it has a low impedance at the frequency of the signal corresponding to the desired setting.

   At this frequency, the impedance in series with the main unit control unit is considerably lower, so that the portion of the oscillator output energy that is introduced into the main unit control unit rises above the lowest level to which the main unit control unit can respond and therefore lwings the dictation machine into the desired setting.



  In this way, the activation of the passive network which is arranged on the dictation telephone can expediently cause the control oscillator to introduce a signal of the required frequency with an amplitude above the minimum level into the main station control device. The signals introduced into the main unit control unit which have an amplitude above the minimum level, that is to say. Signals to which the main unit control unit can respond are referred to as switching signals.



  The control oscillator, instead of being designed so that it generates a multiplicity of signals, each of which has a different and essentially constant frequency, can also be designed so that it emits a frequency-modulated signal. In this case, the upper and lower frequency range can extend somewhat beyond the respective highest and lowest frequency of the individual signals. The degree of modulation can be selected in accordance with the response of the main control unit.

   The control oscillator can therefore be designed in such a way that it covers the required frequency range.



  The remote control device can also be connected in series with the dictation telephone. The remote control device then normally advantageously has a low impedance, but is expediently designed so that it receives a high impedance upon actuation of switches at certain predetermined and special frequencies, i.e. at the frequencies of the switching signals.

   The control oscillator then advantageously has a high output impedance, and the main unit control device can be connected to its output terminals in such a way that, if the remote control device has a low impedance, the telephony system loads the control oscillator to such an extent that its Output energy drops below the minimum level at which the main unit control device. can address. Should the dictator intend! To change the setting of the dictation machine, he sets the remote control device with advantage so that it has a high impedance at the frequency of the signal that corresponds to the required union setting.

   The control oscillator is then no longer burdened with the low impedance of the telephone system at this frequency, and its output energy rises accordingly advantageously above the minimum level to which the main control unit can respond.



  In the following a preferred Ausfüh approximately form of the subject invention is explained with reference to the drawing.



       Fig. 1 shows a block diagram, conventional type and Fig. 2 shows a detailed circuit diagram of the exemplary embodiment of the invention.



  According to FIG. 1, the dictation telephone 1 is connected to a telephone exchange 2 by a telephone line. The remote control device 3 is connected in parallel to the telephone line to the dictation telephone 1 is connected. The remote control device 3 is a passive, that is, power source-free Schaltun; with normally high impedance, which circuit is designed so that it represents a low shunt impedance of the telephone line when one of three buttons is actuated at a predetermined frequency, namely 7, 8 or 9 kHz.

    These frequencies correspond to the dictation machine settings record, stop and listen and rewind. The listening and rewinding settings are frequency controlled, as shown below. An alarm clock is activated in the main office when the switching signals with recording and listening frequency are activated simultaneously in the main office control unit. This is achieved by pressing a fourth button, which is equivalent to pressing the first and third buttons simultaneously.



  The telephone exchange 2 is connected to the main telephone station 4 by a telephone line. The telephone line at the main telephone station -1 is also connected via a receiver unit 5, which is provided with a switch 6, to the main control unit 7 and from here to the Dik animal device 8.

   The main station control device 7 contains the control oscillator? 01. The control oscillator contains. three oscillator circuits designed to oscillate at 7, 8 or 9 kHz.

   The main body control unit 7 also contains three sieve circuits 9, 10 and 11 in parallel. The control oscillator 201 feeds the common input of the three selectors or filter circuits in series with the telephone system. Each filter circuit has an Ire frequency-selective amplifier which responds to one of the predetermined frequencies, namely 7.8 or 9 kHz, and also a detector rectifier. Each filter circuit is followed by a tube relay 1h, 13 or 14.

   The three tube relays cause the usual settings of the dictation machine to work, namely recording, stop, listening and rewind. The last two settings are controlled by a filter circuit. The return control device is controlled by a return pulse generator 15. The alarm clock 16 for calling the operator is controlled by pressing the Siebschal lines 9 and 11 at the same time.



  The input and output terminals of the dictation machine, which correspond to the settings on recording and listening, are connected through the changeover contacts of a relay E via the switch 6 to the telecommunication line for voice transmission.



  The main station control device contains, furthermore, an oscillator 17 (hereinafter referred to as a stop signal generator), which audible signals, which stop or end of the recording medium, that is, the sound or speech carrier (plate, tape, wire, foil or the like) ,     Show. The stop signal generator 17 is also connected to the telephone line via the switch 6.



  In the following, the mode of operation is treated in a simplified form with reference to FIG. 1. The dictator calls the. Main telephone set by W dialing the number of the latter. When the main station telephoner rings, an operator picks up the receiver and closes switch 6 when he is informed that the dictation machine is being used.

    The dictator can then switch the dictation machine to the required setting without further assistance from the operator.



  The dictator now presses the record time button on the remote control device 3. The remote control device causes. as a result, for signals with a frequency of 7 kHz, that is to say the frequency at which the filter circuit 9 responds, a low impedance of the telephony line. As a result, the proportion of the 7 kHz external energy of the control oscillator increases? 01,

      which is fed to the common input of the three sieve sections above the minimum level, and a switching signal with this frequency is fed into the three sieve sections.

   This 7 kHz signal is amplified and rectified by the sieve 9, the output of which is then the tube relay or electron relay 1? operated, which in turn. lets the dictation machine start up and brings it to the front line -Ii ', iiistelliin # r.

    The tube relay 1 '? also causes the alternating contacts of relay 1: to connect the telephone line with the voice input terminals of the dictation machine. The dictator then dictates his own. Dictation text, which is fed to the voice input terminals of the dictation device via the telephone lines with the intermediary of the control center?, The receiver unit 5 and your switch 6 and from there via the contacts of the relay T to the voice input.



  When the dictation is finished, the dictator presses the stop button. The remote control @ verät gives. then the telephone line - a low impedance for signals with a frequency of 8 kHz, that is to say the frequency at which the screen holder 10 responds;

   (The tube relay 13 is actuated as described above, the dictation machine switches to the stop position and the changeover contacts of relay E connect the telephony line to the voice output terminals of the dictation machine.



  If the dictator intends to receive part of the dictation that has just been recorded repeatedly, he presses the button Listen>. The remote control device then gives the telephone line a low impedance for signals with a frequency of 9 kHz, that is to say the frequency at which the filter circuit 11 responds, and the tube relay 11 is operated as described above.

   The relay starts the device and switches it to the long listening setting. In addition, as long as the interception button is pressed, the return pulse generator 15, which, as mentioned earlier, is also controlled by the tube relay 11, sends a series of pulses to the return device in the dictation machine.

    The arrangement is such that the pickup or pickup head of the device is moved back over a distance that is approximately @ -ie r recording seconds for each received pulse. The dictator now continues to press the i @ bliören button until the pickup or pickup liner head is returned to the required location of the recording.

   When the beginning of the desired text passage is reached, the dictator lets go of the listening button and the dictation machine repeats the dictation. The purpose of the return pulse generator 15 is to set the dictation machine to the listening setting and to control the return through a channel, that is to say an oscillator, a sieve and a screen. To enable tube relay.



  If the dictator intends to delete part of the dictation, he causes by pressing the button from hear a return to the required text passage and then presses the button Aufna.hine; In doing so, he tries to have the filter circuit 9 activate the tube relay 12, which switches the dictation machine to the recording setting. The recording head of the dictation machine is then in the recording setting. The pickup resp.

   The pickup head is preceded by an erase head that is excited when the dictation machine is in the recording setting. The dictation machine. therefore deletes the sentence to be corrected. Simultaneously with the deletion, the dictator can dictate the corrected version.



  Switching the dictation machine into the required setting is described here using the stop position; however, it is not necessary to use the device. stop beforehand to switch it from one setting to the other.



  When the dictator has finished his dictation, he presses the button Call service. The remote control unit immediately gives the telephone line a low impedance for signals with a frequency of 7 and 9 kHz, that is. Frequencies to which both filter circuits 9 and 11 speak. In the manner described above, the tube relays 12 and 11 are then activated at the same time and energize the alarm clock 16. The operator lifts. then click on the handset of his main unit telephone 1 and open switch 6. The dictator can now give the operator the desired instructions.



  The purpose of using the filter circuits 9 and 11 in conjunction with one another is to save a complete channel with an oscillator, a filter circuit and a tube relay. The saving of channels that would be needed for controlling the operator call week and for the return also reduces the required frequency bandwidth.



  A more detailed explanation of the device shown schematically in FIG. 1 is given below with reference to FIG. 2, in which all relays are in the unexcited position, that is to say in the dropped position are shown.



  The present invention is applicable to a wide variety of types of dictation machines. A preferred embodiment is described below with reference to a dictation machine 8 with. three electromagnetic relays (not shown) to bring it into the required position is provided. These relays or actuating devices are a stop relay, an eavesdropping-P # relay and a return relay. One end of the winding of each relay is connected to one terminal of a direct current source provided with two terminals. The other terminal of the DC power source is earthed.

   The other end of each winding is connected to a terminal 20, 21 or 2'2. The terminal 18 of the dictation machine is connected to earth via a cam holder, not shown. The cam switch is closed intermittently when the recording head is within 30 recording seconds before the end of the recording medium or sound carrier. Terminal 19 of the dictation machine is. via a contact in the dictation machine, which is not shown, grounded; it is closed by the clutch of the dictation machine when it is moved out.

   The terminals 20, 21, 22 and 18 are connected to the terminals 28, 2 '; 9, 30 and 2-7 in the main unit control device 7. The voice recorder is. also provided with voice input terminals 23 and 24 and voice output terminals 25 and 2, 6. These terminals are connected to terminals 31, 32, 33 and 3-1 in the main unit control device 7.



  Terminal 2_2 is via contact B1 of the relay
EMI0006.0025
   in the main station control device 7 connected to earth. If the contact BI is closed, the stop relay is energized, disengages the clutch and thereby switches the dictation device to the stop setting; when contact B1 is open, terminal 2'2 is disconnected from earth and the clutch is engaged.

   Terminal 20 is connected to earth via contact B2 or contact El in the main unit control device 7. So if either the contact 132 or El is closed, the wiretapping-recording relay is energized. and switches the device to the listening setting.

    If both contacts .B 2 and EI are open, the terminal 20 is disconnected from the earth, and the Abliören-Aufnalime - relay is de-energized and switches the device to the recording position. The terminal '? 1 is arranged in such a way that it can be connected to earth via a contact I'1 of the relay F in dein 7.

   So when the contact F1 is closed, the Rileklauf actuator is energized. and by means of a pawl, a ratchet wheel and a screw lets the sound pickup or sound pickup head of the device run back over a predetermined distance, which corresponds to approximately four seconds of recording time. I, s becomes evident

       da.ss the Tona.aufnehmer- or cartridge head each once over the predetermined. Distance decreases when terminal 21 is grounded.



  The dictation telephone 1. is. of übli cher design and contains a microphone 35, a receiver 3, 6, coils 3'7, 3'8, 39, a hook switch 40, a. Capacitor 41 and an alarm clock 4 '?. The selector circuit is not shown. The telephone is on. connected to the telephone line via a low-pass filter 43 at terminals 44 and 45.



  The remote control device is provided with terminals 46, 47, which are connected to the telephone line with terminals 44 and 45. The remote control device comprises three series sehalt.ungs resonance circuits, the inductance 48 and the capacitance 50, h) the inductance 48 and the capacitance 51, and c) the inductance 49 and the capacitance. 52 are formed.



  Each of these regular resonance circuits can be switched on separately via terminals 4, 6 and 4 7 with switches: 53, 54 and 55. Furthermore, the series resonance circuit, which a) is formed by the inductance 48 and the capacitance 50, and the series resonance circuit, which is c) formed by the inductance 49 and the capacitance 50, can be simultaneously connected to the terminals 46 and 47 by means of a Sehalters 56 turned on who the.

   The resonance frequency of the Reilieriresonanzstromkreise is, depending on whether the switch 43, 44 or 45 is operated, 7 kHz, 8 kHz or 9 kHz. Thus, the secondary fault impedance of the remote control device 3 is normally very high, except that one of the switches mentioned is operated;

   in this case it has a low impedance at the corresponding resonance frequency (or frequencies). In order to be able to make adjustments in the event of changes in the length of the telephone lines, a variable resistor 57 is provided between the insane point of the switch and terminal 46.



  The usual main station telephone 4 contains a microphone 5'9, a handset 60, three coils 61, 63, 62, a capacitor 64, an alarm clock 6.5 and a hook switch 66. The telephone is.

   connected to the telephone line via a low-pass filter 67 with the terminals 68, 6'9. The receiver unit 5 has input terminals 70 and 71, which are connected to the telephony line with Klem men 68, 69, and output terminals 76 and 77, which are connected to the terminals 84, 83 of the main station control unit. The input terminals are connected to the output terminals via contacts 7? and 73 of the holder 6 connected. The receiver unit also has a lamp 81.

    which is connected via a contact 7'5 on the holder 6 -in a terminal 80 which is grounded. The terminal 79 is connected to a power source with 6.3 volts DC voltage, which is not shown. The contact 74 is arranged to connect the terminal 78 in the receiver unit to the grounded terminal 80. Terminal 78 is smeared with terminal 8 "? In the control unit.



  The secondary winding 88 of the transformer 89 and the primary winding 85 of the transformer 86 are connected to the terminals 83 and 84. These windings are connected in series. The secondary winding 87 of the transformer 8: 6 is connected to terminals 91 and 9 \? connected. These terminals are placed on the movable arms of changeover contacts E2, E3 of the relay 4 via a low-pass filter 93. The two pairs of fixed springs of contacts E2 and E3 are connected to terminals 31, 33 and 32, 34.

    Terminals 31, 32 are connected to voice input terminals 2, 3, 24 and terminals 33, 34 to voice output terminals 5 and 26.



  The terminals 91 and 92 are also connected via a high-pass filter 94 to earth and to the common input terminal 95 of the three filter circuits 9, 10 and 11.



  Each filter circuit contains a frequency-selective amplifier in the form of a pentode tube 96 with a parallel resonance circuit 97 as anode load. The output voltage of the rectifier 98 is fed to the grid of the triode 100, which has the coil of the relay r1 in its anode circuit. The triode <B> 100 </B> and the relay
EMI0007.0052
   represent the tube relay or electronic relay 1.-21.

   The relay A has N working contacts E11 and A'2, which are both open when the relay is de-energized. The selectors or sieve circles 10 and 1i are similar to the selector or sieve circle 9; with the exception that the resonance frequencies of their parallel resonance circuits are 8 and 9 kHz instead of 7 kHz. Furthermore, the triode 100 'of the electronic relay 13 has a resistor 106 between Ka method and earth.

   The cathode is also connected via a series resistor 107 and a normally closed contact D1 or a relay
EMI0007.0068
   connected to terminals 82.



  Each filter circuit and the associated relay are arranged so that the associated relay
EMI0007.0069
   and is de-excited when a
EMI0007.0072
    Signal that has the same frequency as the resonance frequency of its parallel resonance circuit is applied to the input of the filter circuit. Furthermore, the relay
EMI0008.0002
   also de-energized when the switch 6 and / or the contact Dl are open.



  The stop signal generator 17 has an oscillator tube 101 and a resonance circuit 102 tuned to 400 Hz. The tuned circuit contains a capacitance 103 which is connected to the ground line and to a tapped inductance 10'4. A resistor 105 is arranged so that when it is switched into the resonance circuit 102, as a result of the increased pre-voltage that is applied to the tube and the increased losses in the resonance circuit, the oscillation is suppressed.

    The common point between the inductance 104 and the resistor 10.5 is led to the terminal 27, which is connected to the terminals 18 and 19 in the dictation machine. As mentioned above, the terminal 18 is brought to earth via a cam switch which is not shown. The cam switch is closed intermittently when the pickup head is within 30 seconds of recording from the end of the recording medium or sound carrier.

   Resistor 105 is short-circuited and causes the oscillator to oscillate when the cam switch is closed. Resistance 105 is also short-circuited when terminal 19 is grounded as a result of the clutch disengaging. Accordingly, the oscillator produces a continuous signal when the device is stopped and an intermittent signal or beep when the pickup head has almost reached the end of the sound carrier.

   The output of the oscillator 1'7 is fed to the terminals 108 of an amplifier which has a triode tube 109 which has the primary winding 90 of the transformer 89 in its anode circuit.



  The oscillator 201 has three similar tube oscillators 110, 111, 11: 2. Each of these three oscillators has a triode 113 and a resonance circuit 114. The output of the three oscillators is fed to the common input terminals 108 of the amplifier. The oscillators are designed in such a way that they oscillate at 7, 8 or 9 kIlz.



  The alarm clock 16 is grounded with one end of its winding, while the other end is led via the contact D 2 of the relay to the terminal 115, which
EMI0008.0043
   is connected to a suitable DC power source.



  The relay circuits and their effects are explained below in connection with a description of the operation of the entire device. It should be especially pointed out that Fig. 2 shows the device when the relay is de-energized.



  If the dictator intends to dictate ztt, he picks up the handset of his telephone from 1 and dials the number of the main station telephone. When the alarm clock 65 of the main station telephone rings, the operator picks up the handset of his telephone and closes the hook switch 6, 6. After being informed by the dictator that the dictation machine should be used, the operator actuates switch 6 so that he closes his contacts 72 to 75.

   Closing contacts 72 and 73 connects terminals 83 and 84 to the telephone line. The impedance at the terminals 83 and 84, which lead into the main unit control device 7, is similar to that of the main unit telephone behind the hook switch 66, so that the handset of the main unit can be replaced if desired. The closure of the contacts 74 connects the contact Dl in the cathode circuit of the tube 100 'of the electronic relay 13 to earth.

   Closing the contact 75 completes the circuit for the warning light g1, which lights up to indicate that the dictation machine is busy. is .. The dictator now hears a 400 Hz stop signal in his receiver, which indicates that the device is in the stop setting.



  The dictator now presses the pin line button 53,. This switches the tuned circuit with the capacity. 50 and inductor 48 to the telephone line and causes it to give the telephone line a low impedance for signals with a frequency of 7 kHz.

   The proportion of the i 7-kIIz output power of the control oscillator 201 increases, after amplification, introduced into the common input of the three selective circuits, above the minimum level, and a switching signal with this frequency is the; introduced into the three sieve circles.



  The 7-kI3z switching signal corresponds to the frequency at which the filter circuit 9 responds and, after filtering out, actuates the electronic relay <B> 12 </B> and here, by the relay
EMI0009.0015
       de-energized by causing its contacts üll and A2 to open and contact t13 to close. The relay
EMI0009.0020
       is. arranged so that it stood 116 in series with a resistor via the contact C1 is excited.

   The contact A2 and the contact E4, which are in series, are with. the relay
EMI0009.0023
   and the contact Cl connected in parallel. Opening contact A2 causes the short circuit on the relay
EMI0009.0027
   eliminates \ which is then excited. This has the consequence that the changeover contacts E'2 and E3 switch the secondary winding 87 of the transformer 86 to the Spra, eheinganb clamp 23, 2'-1 and the contacts El and E4 are opened.

    By opening the contact El (B2 is also opened, as mentioned above), the terminal 20 of the listening-Aufnalime relay is disconnected from earth and the listening-recording relay is therefore de-energized and switches the dictation machine to Orientation line position. Opening contact E4 ensures that the relay
EMI0009.0041
   cannot be short-circuited when the record button 53 is released.

   After opening the contact A1, the relay is now
EMI0009.0043
   which was previously short-circuited via its own contact B3 in series with contacts A1 and C3, excited. When the relay is energized
EMI0009.0044
   all of its contacts will be opened. Opening contact B3 ensures that the relay short-circuits
EMI0009.0045
   cannot be re-established if the contact Al closes as soon as the record button 53 is released; opening contact B1 disconnects terminal 22 of the stop relay from earth and starts the dictation machine;

   the opening of the con tact B2 together with the opening of the con tact El - as mentioned above - switches the dictation machine to the recording setting. The stop signal, which is audible after pressing switch -6, now stops as a result of the clutch disengaging. The dictator now dictates his or her dictation text.



  To stop the machine, the dictator actuates the stop switch button 54, which sends a switching signal of 8 kI-Iz to the remote control device, which de-energizes the relay in the manner described above
EMI0009.0063
   concludes, all of his
EMI0009.0064
   of the electronic relay 13 caused. The contacts. Closing contact B1 stops the dictation machine. Closing contact B'2 switches the dictation machine to listening.

   Closing the contact B3 again creates the short circuit on the relay
EMI0009.0067
   forth, and the closing of the contact B4 switches the resistor 11.7 to the voice output terminals 25 and 26 of the dictation machine.



  To switch the dictation machine to the listening setting, the dictator presses the listening button: t5, whereupon the remote control unit provides a stop signal at 9 hHz, which causes the above-described manner.

  ss the relay of the electronic electronic relay 14 is de-energized.
EMI0010.0008
   The de-energization of the relay
EMI0010.0011
   opens its contacts Cl and C3 and closes its contacts C2 and C4. The opening of contact C3 removes the short circuit on the relay
EMI0010.0014
   away, whereupon it is aroused. All contacts of the relay
EMI0010.0017
   open on it.

   Opening the contact
EMI0010.0018
   causes the short circuit on the relay
EMI0010.0019
   cannot be restored if contact C3 closes when the interception button 55 is closed. Opening contact B4 starts the dictation machine. The opening of the contact B4 separates the resistor 117 from the speech output terminals 25, 26 of the dictation machine. The stop signal, which was audible as long as the clutch was disengaged, is heard. now on.

    Opening contact C1 de-energizes the relay
EMI0010.0028
   Then its contacts El and E4 close and its changeover contacts L'2 and E3 connect the secondary winding 87 of the transformer 86 to the speech output terminals 25, 26 of the dictation device.

   Closing the contact El. (in spite of the open position of contact B'2 :) connects the terminal 20 of the eavesdropping / recording relay with the earth and excites it so that it switches the dictation machine to the listening setting. Closing contact E4 again short-circuits the relay
EMI0010.0040
   to ensure that when the contact C1 closes, after releasing the break button 55, the relay is activated
EMI0010.0042
       remains de-excited.

   Contact C4 is connected in series with contact D3, the contact <B> 1 '2 </B> of the relay
EMI0010.0046
   the resistance was 118 and the weight 1l_9 of the relay 1 '. The relay
EMI0010.0049
   has a secondary weight 120, which is exactly the same as the weight 119, which is connected in series with a capacitance 121 to the timer 119. is.



  Closing contact C4 energizes the relay
EMI0010.0057
   and due to the special arrangement of the resistor 11: 8, the capacitance 121, the relay winding 119 and 1220 and the contact h'2, the relay begins
EMI0010.0062
   to pulsate. This causes its contacts I'1 and I1'2 to continuously open and close.

   Thus, the contact 11'1 intermittently connects the terminal 21 of the return relay to earth and thereby de-energizes the return actuating device. This Einriehtung sets the pickup or pickup head of the device, each time the contact 11'1 closes, back a distance that corresponds to approximately four seconds of the recording time.

   As long as the interception button is pressed, the pickup head is moved back until the beginning of the required text passage of the recording is reached, after which the interception button is released. The dictation machine, which has already been switched to listening -Eiristellnri @ r-. has been, then gives the Dik tattext. again.



       If the dictator intends to call the operator, he presses the control button 56, whereupon the remote control device simultaneously causes switching signals of 7 and 9 kHz to be output, which de-energize the relay in the manner described above
EMI0010.0088
   of the electronic relay 12 and the relay
EMI0010.0090
   of the electronic relay 14 caused the de-excitation of these two relays.

   again that contacts .13 and C2 close, whereupon the relay
EMI0011.0003
   is excited. The excitement of the relay
EMI0011.0004
   causes it to open its contacts Dl., thereby causing the relay
EMI0011.0007
   of the electronic relay 13 is de-energized. Once the relay
EMI0011.0010
       entreg1 is the device. - as described above - stops.

   The closing of contact D2 lives the alarm clock <B> 16 </B> via terminal 11'5 to a track power source. The alarm clock then emits an audible signal to call the operator. The operator loves the hand-held part of the main station telecommunication device and opens switch 6. The dictator can now give the operator the instructions he wishes.



  In order to ensure that the switching signals that are sent from the stereo oscillator 201 are not passed into the telephones, low-pass filters 13 and 67 are connected directly upstream of them. These filters also ensure that the impedances presented to the signals are not only affected by the telephones.

    In a similar way, the signals are prevented from reaching the speech terminals of the dictation device via a low-pass filter 93; so that the speech transmission does not disturb the effect of the three sieve circles. they are preceded by a Hoelipassfilter 9-I. The cutoff frequency of all of these filters is 3.5 kHz.



  In the operation of the device described above, the dictator sits down with; the operator at the beginning and at the end of the dictation. But such a connection is not absolutely necessary. Thus, if so desired, the operator only needs to close switch 6 when the main unit telephony device. gives the call sign at the start of operation and open switch 6 to release the call, and the recording medium or

    to replace the sound carrier when the service call lamp 90 lights up at the end of the dictation, in that the dictating person presses the button Call service. If the intention is to use the facility without a voice connection between the dictator and the operator taking place, the main station telephone can be replaced by a bell and a capacitor corresponding to bell 65 and capacity 6.1 .



  The operation is described here with reference to a hand acceptance of the call of the dictator and a hand release of the connection. However, this assumption can also be made automatically in some telephone systems or systems.

 

Claims (1)

PATENT CLAIMS I. A method for recording a message and for the optional, at least partially, playback of the same by a dictation device, both operations being carried out during a call via a telephone device to which the dictation device is connected for the purpose of communicating, as characterized in that an alternating current signal with a plurality of components of different frequencies is superimposed on the telephone line, which components can be transmitted via the telephone line, so that in a dictation telephone the impedance presented to the components of the signal and thus the level of these components is changed, Which changes in the various components are used to switch the dictation machine to a number of different settings under full control of these components. II. Apparatus for carrying out the method according to claim I, containing a telephone device with a dictation telephone used to transmit calls, a dictation device connected to transmit calls and a telephone line connecting them, characterized in that that a control oscillator for generating an alternating current signal with a plurality of components with mutually different frequencies is available, which components can be transmitted through the telephony line and are superimposed thereon, since a remote control device with the telephone line is connected to the dictation telephone, with which device the dem Signal can change the impedance presented by the telephone device in order to change the level of at least one frequency for control purposes, and that further a master station control device is connected to the telephone line and the dictation device, which control device switches the dictation device to a plurality of different settings under full control of the levels of the components. SUBClaims 1. The method according to claim I, characterized in that the dictation device is only kept in the return position as long as the response level of the associated component is maintained. 9. Method according to dependent claim 1, characterized in that the component corresponding to the reverse position is also used to switch the dictation machine to the listening position. 3. Device according to claim II, characterized in that the main station control device and the dictation device are designed so that the dictation device. is only switched to the return position as long as the response level of the component that corresponds to this position is maintained. 4th Device according to dependent claim 3, characterized in that the main station control device is designed so that it also switches the dictation device into the listening position at the response level of the component which corresponds to the return position. 5. Device according to claim 11, characterized in that the remote control device has a plurality of series resonance circuits which can optionally be connected in parallel to the telephone line, and that the main station control device has a plurality. frequency-selective circuits Lund has switching elements that are effective at the response level of the relevant components to switch the dictation machine to the ge desired position, and that the control oscillator in the main unit control device is arranged so that it sends the signal in series to the input of the circuits the telephone line feeds.