DE214653C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 214653 CLASS 21 a. GROUP

Dr. JOSEF SCHIESZLER in BADEN near Vienna.

Patented in the German Empire on February 7, 1908.

The essence of the subject matter of the device for coordinated Telegraphy and wireless telephony consists in that both at the transmitting station as well as on the receiving station into one of any strong direct current The circuit through which a conductor flows is switched on, its ohmic and inductive Resistance of a magnetic field oscillating as a result of capacitor discharge is influenced in such a way that this conductor section and each branch circuit branching off from it regardless of the inclusion of a capacitance and self-induction, such as. this at Duddell circles are required by a high frequency alternating current with the period the capacitor discharge is traversed. In Fig. Ι the drawing is the circuit arrangement shown for such a facility. Fig. 2 shows a modified device a component of the transmission device.

The facility consists of the following parts:

I. The energy-supplying direct current dynamo machine,

IL the sending device,

III. the receiving device and

IV. The one between the transmitting and receiving device lying double antenna with its oscillation circles.

The circuit of the DC dynamo machine ι (Fig. 1) from about 20 to 100 amperes • and 110 volt voltage can be switched by a double-pole lever switch 2 with both the transmitting device as well as being connected to the receiving device.

The device of the transmitting device is as follows: A solenoid 6 is switched on between two choke coils 5 and 7 in the current-carrying conductor wire, instead of which two carbon electrodes with flame arcs in between can be switched on (FIG. 2). This solenoid or flame arc forms the conductor piece, the ohmic and inductive resistance of which is influenced by a magnetic field generated by a high-frequency current. At 12 and 13 an arc is switched on in the circuit of the direct current machine, from which a secondary circuit branches off, which can be connected by a double-pole lever switch 14 to either the telegraph or the microphone circuit. In the latter case, the lever is connected by the associated contacts 15, 16 to the circuit 17, to which a high-voltage microphone 20 with the resistors 18 and the fuse 19 is connected in parallel. As a suitable resistor for protecting the microphone, the part 17 ^{1 of} the circuit 17 located between the branch points of the microphone circuit can be designed to form a resistance coil with a suitable number of turns. The direct derivation from the main circuit without the interposition of a transformer coil has the advantage that, on the one hand, a separate battery for the microphone circuit is saved and, on the other hand, the unclear reproduction of the timbre is avoided when a transformation coil is used.

However, if the double-pole lever switch 14 is inserted into the scissor contacts 21, 22,

so the telegraph device with the Morse code button 23 and the magnetic spark extinction 24 is switched on. A suitable resistor w is switched on in the telegraph circuit.

The second branch circuit also branches directly from the carbon electrodes 12 and 12 13, whereby the arc is also to be regarded as a resistance, and this second one Branch circuit is with the capacitors 25 and 26 and serving as the primary coil Self-induction 27 provided. Because of this latter coil, it is of a high frequency Oscillating circuit through which alternating currents flow by means of secondary coil 28 a second, completely closed, in parallel connection also with a variable one Capacitor 29 provided resonant circuit inductively connected, which in turn is through the Primary coil 30 is inductively coupled to the solenoid 6 of the main line. Instead of This solenoid 6 can, as already mentioned, occur an arc which is caused by the in Fig. 2 shown, described later arrangement is blown off; but you can use the turns of the coil 30 also directly over the arc, whereby the same is blown off lengthwise in an S-shape and hysteresisveiiuste be avoided. In any case, like a solenoid or an electric arc (Fig. 2) and blown off in one way or another the ohmic and inductive resistance of this conductor section according to the high-frequency oscillations influenced and thereby the main stream changed accordingly.

From the main circuit of the transmitting device, a secondary circuit branches off between the solenoid 6 and the two choke coils 5, 7, in each of which a capacitor 31, 32 is switched on in order to stop the direct current. The lead wires of this branch circuit lead to the contacts of the switch 33, 34; with the other contacts 35, 36 of the same the lead wires of an oscillating circuit are connected, which is loosely inductively coupled by the coils 37, 38 to a second, completely closed oscillating circuit provided with a variable capacitor 41 through the coils 39, 40. This oscillation circuit consists of two parallel wires of half a wavelength each, which are wound into coils 39, 40 or 42, 43 (Lecher's system). At the voltage nodes, the two parallel wires are connected by simple jumper wires, but they can also be connected by inductors with an inserted iron core. The centers of the two parallel wires d, d ¹ . lead through a conductor wire to the variable capacitor 41 connected in parallel, the coils 42, 43 of this oscillating circuit are also again loosely inductively coupled by the coils 44, 45 to a double antenna 46, 47. The transmitter antenna is also to be understood as a Lecher system, the parallel wires 46, 47 of which are equal to half a wavelength and which, for practical reasons, are wound into two long coils 44, 45 in not too steep turns; this is followed by two variable capacitors 49, 51, especially at the voltage nodes, so that the capacitance of the antenna can be changed as desired. The lower covers of the capacitors are each provided with a choke coil 50, 52 to prevent the passage of electrical oscillations.

The upper connecting piece of the two parallel wires 48 is a choke coil, possibly designed with an iron core and is also located in the nodes of the spanmxng see according to the bridge of the Lecher Systems. On the two parallel wires 46, 47 and the associated coils 44, 45 are formed therefore stationary electrical waves, which are mostly in the two nodes are reflected and prevented from passing through the choke coils 50, 52. . The. The greatest voltage amplitude of the wave is in the middle, that is to say in the area of the coils 44, 45. But since the coupling was carried out precisely here, the maximum is thereby the Effect achieved. In the event that the antenna is through the switch lever with the receiver device is connected, the two lower vouchers of the capacitors 49, 51 are through a plug contact is also provided with a bridge so that it is completely closed Establish oscillation circuit.

The receiver device is built analogously to the transmitter device and also exists from a main circuit, which by flipping the lever switch 2 in the sliding contacts 80, 81 is fed by the DC dynamo machine. This main circuit splits at 67 and feeds two primary / auxiliary circuits with resistors 66, 68, one of which is the telegraph, the other the telephone listened to. The lever switch 55 allows one or the other to be switched on as required. If the lever has the position shown in the scissors contacts 56, 57, then the circuit through the coil 58 is complete closed and the incoming electrical impulses are by induction on the completely closed oscillating circuit 59 provided with a capacitor 60, · 60, 61, the arc 62 being transmitted through the scattering poles of the double solenoid 61 is influenced in such a way that the by a

The light beam 82 emerging from the aperture in the aperture 65 from the room g falls on a mirror 83, which is either fixed or attached to a prong of a tuning fork 84 tuned to the tone of the arc, in which latter case a branch circuit with the appropriate capacity and self-induction would have to be branched off . The bundle of light rays reflected here is concentrated by the converging lens 85, freed from all chemically inactive rays by a Wood see absorption plate 86 and thrown onto a drum 87 which is constantly rotating due to a clockwork and which is covered with a photosensitive paper (film). The choke coils 63, 64 prevent the oscillations generated by the blow-off of the arc from penetrating into the main circuit and from the machine circuit.

so the lever switch 55 but in the Scissor contacts 74, 75, 76 inserted, then the solenoid 72 connects to the capacitor 73 provided oscillation circuit closed, the incoming pulses by induction on the solenoid 71 of the main circuit transmits, whose choke coils 69,70 the dispersal of the resulting Prevent alternating currents. From the coil 71 provided with the appropriate number of turns The telephone 79 provided with resistor 77 and fuse 78 branches off.

However, the device shown in FIG. 2 can also be used here. Above one of well-annealed, copper-plated and

varnished, soft iron wires, closed except for a short air gap, at the poles tapered core 88 of an electromagnet from that in the drawing shown shape become two near the poles corresponding to the bipolar solenoid Coils 89, 90 placed with - a parallel-connected, variable capacitor 91 and a secondary coil 92 form a completely closed oscillation circuit, which the vibrations from the antenna system by induction (as in the drawing) or transferred immediately. The arc 62 is located between the cores of the two coils the main line '.

The device works as follows:

A high-frequency alternating current occurs in the oscillation circuits branching off at the carbon electrodes (at 12, 13) and provided with capacitance 25, 26 and self-induction 27; this charges the capacitor located in the second oscillating circuit 28, 30 and discharges it again. So there are vibrations from the period z. B. one million, which are transmitted from the completely closed oscillating circuit 28, 29, 30 to the coil 6 of the main circuit by induction. The coil 6 is designed as a resistance coil; in the process, fluctuations are caused in the main circuit according to the period of the capacitor discharges. Because if by any external means, e.g. B. influencing the Joule heat as conduction and radiation etc. an influencing of the ohmic resistance of the supply circuit is achieved, then there is the inductive resistance fluctuations caused by the superposed alternating current, which would not be able to increase the vibrating energy, nor the ohmic resistance fluctuation of the Feed current, and with it the oscillating energy of the wave current grows. As a result of the choke coils 5 and 7, this wave current cannot get into the dynamo, but enters the antenna system via the capacitors 31/32. Is now at the same time z. B. spoken into the microphone, so arise current fluctuations, which are through the secondary circuit 17, 16, 12, 13, 15 on the arc, from this in the oscillating circuit 28, 29, 30, from this on the resistance coil 6 and through the capacitors 31,32 propagate into the antenna system and thus superimpose the above-mentioned vibrations of a million changes, thus disturbing them in the rhythm of the tone vibrations. If a second arc is switched on instead of the resistance coil 6, it is either influenced by the magnetic field of the coil 30 with the period of the capacitor discharge or the oscillating circuit 28, 29, 30 assumes the form of a magnetic fan shown in FIG. In any case, the antenna system emits vibrations of a million alternations, on which the current fluctuations of the microphone (about 800 on average) are superimposed; By pressing the button, however, the continuously emitted vibrations of the system are disturbed in the rhythm of the button movement. Will . Now the receiver device is connected to the dynamo by the scissors contacts 80, 81 of the lever switch, so when the switch lever 55 of the receiver device is in the position shown and the switch of the antenna is connected to the contacts 33, 34, the telegraphic receiver is switched on. If, however, the switching lever 55 lies in the scissor contacts 74, 75, 76, the telephone receiver 79 is switched on. In the former case, when the switching lever is inserted into the sliding contacts 56, 57, an arc 62 arises between the two carbon electrodes enclosed in space g.

53. 54, as indicated by dashed lines. The ones arriving from the antenna continuous electrical waves then run over the contacts 53, 54, 56, 57 to the transformer coil 58, are transferred from this to the capacitor connected in parallel 60 provided, completely closed oscillation circuit through the loosely inductive Transfer clutch. The solenoid 61 placed over the arc 62 shows two stray poles, which are immediately in front of the arc. This is determined by the incoming electric waves influenced in such a way that the fluctuations of the through the opening in the Aperture 65 exiting, in the rhythm of the interruptions of the current through the Morse code button of the transmitting station fluctuating light beam falls on the mirror 83, from this reflected, concentrated through the converging lens 85, through the Wood see absorption plate 86 freed from all chemically inactive rays and applied to the light-sensitive, is thrown over the rotating drum 82 tensioned film, with corresponding the interruptions of the button from the 'photographic' produced on the film Image of fluctuating light, d. H. an alphabet from the light intensity curve can be produced analogously to the dots and lines of the Morse code. The same thing takes place when instead of the solenoid 61 with the two scattering poles, the vibrations on a Duddell circle branching off directly from the coals or on the arrangement of a bubble magnet described above be transmitted. The fluctuating light beam can just as well hit a light-sensitive cell with in series switched telephone or knocker. However, if the shift lever 55 When the receiver device is inserted into the scissor contacts 74> 75 <76, the antenna is with connected to the telephone receiver. The incoming vibrations are planted through the resonant circuit provided with the capacitor 73 connected in parallel the contacts 74, 76 to the transformer coil 72 and are inductive from this Transfer clutch to part of the main circuit. So that the vibrations cannot dissipate in the latter are on both sides of the secondary coil 71 - the chokes 69, 70 switched on. From this coil 71 branches off directly with resistor 77 and fuse 78 provided circuit des. Telephone 79, the Secondary coil 71 is also used as a resistor.

Since the antenna as a receiver is a completely closed oscillation circuit, so the coherer and any wave indicator in general are omitted. So are they Avoid spark gaps, which means that an extremely large amount of attenuation disappears from the system.

Claims (7)

Patent Claims: 1. Device for coordinated telegraphy and wireless telephony, characterized in that both at the sending station and at the receiving station into a circuit through which any strong direct current flows Conductor piece is switched on, its ohmic and inductive resistance of one as a result of continuous undamped electrical oscillations changing magnetic Field is influenced in such a way that this conductor piece and each branching off from it A high-frequency wave current flows through secondary circuit regardless of capacity and self-induction will. 2. Device according to claim 1, characterized in that as a conductor piece, whose Ohmic and inductive resistance is changed, one designed as a resistance coil Solenoid is used and the influencing by inductive coupling of this solenoid with a completely closed Oscillating circuit is effected in which a capacitor connected in parallel is charged by the alternating current of a Duddell circuit and becomes undamped when the capacitor is discharged Vibrations. very high frequency device. 3. Device according to claim 1, characterized in that as a conductor piece, whose Ohmic and inductive resistance is influenced, an arc is used and the Influencing by an immediate; Coaxial solenoid placed over the arc or an electromagnet is effected, the solenoid or the electromagnet act as a magnetic fan and with a capacitor connected in parallel are placed in a completely closed oscillation circuit, so that with each electrical disturbance in the oscillation circuit, a change in the magnetic field occurs. 4. Device according to claim 1, characterized characterized in that the undamped electrical oscillations generated in this way either directly or through the interposition of one or more completely closed, with parallel connected variable capacitor oscillation circuits provided by induction on one in the form of a bridged by a choke coil Lechers see systems-trained antenna systems be transmitted. 5. Device according to claim 4, characterized in that the two wires of the The antenna system is wound into coils at its lower end and over capacitors are placed on earth. 6. Modification of the device according to claim ι to 4 as a receiver, characterized in that that the two antennas on the lower occupies the final capacitors by a bridge in itself are closed, and that the incoming disturbed vibrations by induction either directly or through the intermediary of one or more self-contained, oscillating circuits provided with a capacitor connected in parallel to an arc be transmitted in such a way that the. Arc is blown off magnetically, and that the electrical occurring in the same Disturbances are registered optically with the help of a light beam and thereby the closures and the openings of the Morse code. 7. Modification of the device according to claim ι and 2 for transmission by telephone Conversations, . characterized by the arrangement of a microphone in place of the Morse code button of the transmitter and one Telephone connected to a secondary circuit branching off from the main circuit at the receiving point, with the main circuit oscillating to the rhythm of the incoming electrical waves. 1 sheet of drawings.