DE520307C - Device for reproducing signals recorded on a non-conductive body as an uninterrupted conductive track, with the aid of electron tubes - Google Patents

Description

The invention relates to automatic "forwarding" of telegraph signals, which appear as an uninterrupted sinusoidal trace made of a conductive or semiconductive material a non-conductive material and wants an improved device provide for repetitions of the original signals in the form of amplified

\ o Receives current pulses that are suitable for operating a relay relay.

The main feature of the invention is that the sinusoidal conductive Track is used to influence the performance of an amplifier tube device, by removing the ineffective circuit connecting parts and the effective circuit connecting parts the conductive track, which alternately excite separate circuits,

ao is arranged in such a way that it has an impedance which is parallel to the grid-anode path of such a Tube amplifier lies, change in proportion to a fixed resistance that lies parallel to the path of the hot cathode grid.

An advantageous embodiment of a reinforcement device that is used to implement of the invention is useful in practice is described below and is essential characterized by the combination of two electron tubes or lamps with three electrodes connected to each other and with the contacts under which the strip carrying the semiconducting track passes, are connected in a new and improved way, and the power of which energizes a relay, which repeats and retransmits the signals recorded on the strip. The principle of operation of these two tube amplifier systems is based on Potential differences between the grid and the hot cathode in succession first lamp to the extent that successive different parts of the semiconducting signal trace under the electrical contacts. As a result this potential difference will cause the first tube, like a changing impedance to act, whereby in a corresponding way changing potential differences between the grid and the hot cathode of the second tube and, as a result, the passage of current fluctuations increased amplitude on the path between the hot cathode and the anode of this second lamp

causes which current fluctuations in a known manner a relay zura pass on of the signals in action.

In the drawing a reinforcement device according to the invention is in one Embodiment shown.

The device comprises two tubes A and B, each provided with three electrodes i, 2, 3 and 4, 5, 6, respectively, which represent the hot cathodes, the grids and the anodes. 7 and 8 are the hot cathode heating batteries.

The apparatus also includes a transformer C, the primary circuit 9 of which is connected on the one hand to the anode 6 of the tube 2? and on the other hand to the anode 3 of the tube .A and to the positive pole of the battery 10, which serves as an anode battery for both the tube A and for the tube B and the negative pole of which is connected to the hot cathode 4 of the tube B.

The secondary circuit 11 of the transformer C is closed via the windings 12, 12 of the polarized relay D , the armature 13 of which closes either one or the other local circuit 16 of the batteries 17 or 18 by being in contact with contacts 14 or 15.

α is a strip of paper or other suitable material which is moved by any device at a uniform speed in the direction of the arrow. Signals have been recorded on this strip with ink (e.g. Chinese ink or the like) or some other material which leaves a conductive trace, which signals are represented by the wavy line b , which is divided into two paths b ¹ and b ² runs, one of which is the connecting path and the other is the effective path. The strip is printed as it moves against a set of three contacts 19, 20, 21, the first of which coincides with the connecting path, the second with the active path and the third with both paths at the same time.

The contact 19 is connected to the hot cathode 1 of the tube A by a battery 22, the positive pole of which is connected to the negative end of the hot cathode 1 and the task of which is to generate a negative grid bias for the grid 2 of the same tube, if this as set out below is required. The contact 20 is connected to the anode 3 of the tube A and the contact 21 to the grid of the tube A.

The operation of the device is as follows:

In the position shown, the contact 19 or normally closed contact is electrically connected to the contact 21 through the signal trace b , so that there is a conductive path from the negative end of the hot cathode 1 via the battery 22, contact 19, track 6 and contact 21 to the grid 2 . Since the track has a low conductivity, only weak currents can flow in it, but this has no disadvantageous consequences, since the task of the battery 22 is merely to influence the potential of the grid 2. From the drawing it can now be seen that when the contacts 19 and 21 are connected in this way, the grid 2 of the tube A is connected to the negative pole of the grid before voltage battery 22 and consequently becomes negative with respect to its hot cathode 1. The path between the hot cathode and anode 1 to 3 of this tube is then non-conductive, so that essentially no current from the battery can flow through this path which, as can be seen, is shunted to the path between the grid and the anode of tube B lies. The grid 5 of the tube B, which is connected to the hot cathode 4 _N through a very high resistance 23, then acquires the potential of the negative end of the hot cathode 4, and a current which, however, is relatively weak, can therefore from the battery ι ο flow through the path of the hot cathode - anode 4 to 6 and the anode circuit of this tube, which circuit contains the primary winding 9 of the transformer C. It is evident, however, that this anode circuit cannot have any effect on the relay D via the transformer C.

If now, as a result of the progression of the strip α under the contacts 19, 20, 21, the contact 20 or active contact hits a track part in the active path ^ and is electrically connected in this way to the common contact 21 through the track, the grid becomes 2 of the tube A is connected via the contact 21, the track b and the contact 20 to the anode 3 of the tubes, which anode in turn is connected to the positive pole of the anode battery 10 common to both tubes A and B. The grid 2 of the tube A therefore suddenly becomes strongly positive and allows a current to flow from the battery 10 via the hot cathode - ■ anode 1 to 3 path of this tube and also via the high resistance 23. The value of this resistor 23 is very high in relation to that of the path between hot cathode and anode 1 to 3 of tube A , the grid 5 of tube β is brought to a potential approximately equal to that of the positive pole by means of this path between hot cathode and anode of the battery 10, and consequently becomes strongly positive with respect to the hot cathode 4. The current which is in the

Anode circuit of these tubes Z? and thus flowing in the primary winding 9 of the transformer C , therefore suddenly increases. This powerful current pulse is inductively transmitted in a known manner from the primary winding 9 to the secondary winding 11 of the transformer C and generates a current pulse in the secondary circuit of the transformer which is strong enough to excite the winding 12 of the polarized relay D strongly.

An opposite pulse is achieved when the contacts 20, 21 of the effective Track stop being connected to each other, and the contacts 19, 21 of the rest track reconnected to each other.

With each passage under the contacts 19, 20 a change of path of the track b of the strip α corresponds to a sudden

ao lie change in the current which goes through the primary winding 9 of the transformer C. These current changes induce currents in the circuit of the secondary winding 11 of the transformer and in the winding 12 of the relay D , which cause the relay armature to alternately go from the contact 14 to the contact 15, depending on how the ink track b is the normally closed contact 19 or the active contact 20 connects to the common contact 21. The local circuit 16 of the relay D then generates current pulses of alternating direction through the batteries i ~ and 18, which precisely reproduce the recorded signals and, using suitable apparatus, can be used for automatic transmission, forwarding, deciphering, transmission, etc. of the transmitted signals.

The invention is particularly applicable to the automatic transmission of telegraphic signals, for this purpose only recorded on a strip of paper or the like without using a special mechanism or perforated strips.

It is also applicable to repetition such signals after they have been automatically received, or for their transmission or for their deciphering by means of a buzzer or finally for transferring to printed characters the operation of any transmission device operating under the action of the currents sent into the local circuit 16.

Claims (2)

Patent claims: 1. Device for reproducing signals on a non-conductive Bodies are recorded as a continuous conductive trace, with the help of Electron tubes, characterized in that cooperating with the conductive track Contact means (19, 20, 21), such as the three springs of a changeover contact work to one or the other potential to the input circuit of an electron tube according to the location to create the signal track. 2. Apparatus according to claim 1, characterized in that the contacts are arranged in such a way that one (21) is permanently on the signal track, while two others (19, 20) only on the Trace lie when these approaches their outermost positions across the non-conductive body and that said contacts are connected in such a way that when one of the latter goes over the signal track, the input circuit of an electron tube receives such a potential that, depending on which contact goes over the track, in the output circuit of the Tube causes or prevents the creation of a current. 1 sheet of drawings