DE513758C - Telegraph system with periodic automatic switching of the traffic direction - Google Patents

Description

Telegraph system with periodic automatic switching of the Traffic direction The invention relates to a telegraph system with automatic Switching arrangement for the direction of traffic on a telegraph line or cable to reverse.

In previously known telegraph systems, groups of electrical Current surges alternately in opposite directions via a telegraph line sent that each station was provided with rotating distributors, which alternate switched the circuit to the transmitter and to the receiver.

With other known telegraphing systems there was a heavy traffic in one direction than in the other is taken into account by the fact that the alternating Transmission occurred in opposite directions for periods of different duration; by sending several transmitters in a station in sequence while the same number Receivers received in the other station, whereupon the traffic direction is reversed and causes a smaller number of transmitters in the last-mentioned station will be sent in order, while the corresponding .receiver in the first mentioned station received in sequence.

According to the present invention, in a telegraph system with periodic automatic switching of the traffic direction at each station controlled by synchronous setting devices that switch in changing Periods. switch the traffic direction, and distributors work with the Switch together that during each period the transmitter and receiver are repeatedly connected to the Line are laid.

In order to change the transmission periods in one or the other Direction using switches are several cam disks with different types trained control cam provided. The distributor and the adjustment device in the same station are controlled by a common drive. The distributors are preferably rotating distributors, the shafts of which are motor-driven, and the adjustment devices are preferably driven by one of the distributor shafts.

Relays and their circuits are preferably used as switches at the same time depending on the position of the distributors and contacts of the setting devices being controlled. The contacts of the setting devices of each station are located preferably in series with a relay, which in turn has the effect of the switching relay controls in the relevant station. Figs: 1 and 2 show schematically a system in which switches the transmitter of a station in alternating periods and the receiver of the other station for unidirectional signaling and the Receiver of the first-mentioned station and the transmitter of the second station for signaling connect to the line in the opposite direction.

Each end of the cable is provided with a distributor consisting of a transmitter ring 13o, consisting of a receiving ring 131, consisting of a correction ring r32; where the Brushes 133, 134, 135 by a pulse motor 136 driven by a tuning fork 137 is driven, receive their drive: the two distributors move in synchronism by a known electrical correction method. This consists of a relay 138, a corrective relay 139 and a resistor 40, which in Series with the magnet 141 driving the tuning fork. The signaling takes place in the usual manner by means of a perforated tape of the transmitter 142, which in conjunction with segmented ring 143 and ring 144,: segment 145 and Brush 133 is working. The line pulses are from a line relay 146 or another apparatus or an amplifier device received and after the pressure relay 147 transmitted, which with the receiving ring 148, the local ring 149, the segment i 5ö and the brush 134 cooperates so that the received pulses after the correct selection magnet of pressure 151 distributed in a manner known per se will.

The shaft 152 carries a cam 153 and is through the distributor shaft 154 driven by means of gears 155 and 156; which are so dimensioned that the shaft 152 makes approximately one revolution per minute when the shaft 154 rotates at the speed that corresponds to the normal signal speed. The shaft 157 with the cam disks 158, 159 and i 6o is supported by shaft 152 Arrangement of gears driven so that they can rotate for one full turn Makes 2o revolutions of the latter shaft or approximately one revolution in 2o Minutes. A stop 161 driven by a cam disk is raised by the raised Part 162 of the cam pressed against the negative contact, and through the recess 162 on the periphery of the cam 158, it is applied to the positive contact. The contact 164 is through the raised portion of the cam 153 once in each Minute closed, and since one of these contact closures of contact 164 coincides with one actuation of the stop 161, negative battery 165 is over 161, Switch 166, contact 164 for a short time every 20 minutes period to the Line 167 put, and on the other hand, the battery 168 receives in the same way its positive pole connection to the line 167. The stop 163 of the cam disk r58 is diametrically opposite the raised portion 162 and they will be short Pulses changing polarity applied to line 167; one at a time every 10 minutes. The cam disks 159 and 16o finite depressions and elevations on their circumferences represent different time intervals and control the stops 169 and 17o in a corresponding manner, and by means of the switch 166, which is manually operated with can be linked to any of his contacts, the Stop and the contacts r'69 or the stop and the contacts 17o in place of the cam plate 158 and the contacts 161 in the circuit are brought into effect will. Line 167 has a segment 171 and a receive segment 172 tied together. With the segment 171 is during a short part of a revolution Brush 133 connected to segment 173. This is via a polarized relay 174, Contact 175, armature 176 of relay 177 controlling the printer connected to earth 178. An equal segment 179 on the receiving surface of the manifold is above the polarized one Relay 18o with contact 181 of relay 182 in connection.

The cable is connected to the common transmitter ring 186 via armature 183 and contact 184 of relay 182, capacitor 185, and the transmitter 142 comes into operation when earth 187 is applied to it via armature 188 and contact 189 of relay 182. The line circuit after receiving relay 146 and the distortion correcting artificial line rgo is switched off at contact igi of relay 18s, and the tongue of pressure relay 147 is separated from ring i92 by armature 193 leaving contact 194 of relay 177. Printer 151 is disabled by opening contact 195 of relay 177 and the speed correcting circuit is shut off by shunting ground 196. Here, the contacts of the correcting relay 139 are shunted via contact 197 and armature 198 of the relay 177.

Operation of a synchronous system requires that the distributor brushes rotate at the cable ends with the same angular velocity and that the angular v he pushing the receiving brush in relation to the sending ' brush in at each instant represents the time it takes to convey a signal along the entire length of the line to run through, plus the time it takes for the receiving relay to open address an incoming signal.

If the distributors at the cable ends are in synchronism in this way and the phase relationship between the sending and receiving brushes is correct, the printer at the station remains inactive and the sender puts .Signalimpulse on the line until the coincident The end of the stop 161 with its negative contact, the contact 164 and the brush connection between the segments 171 and 173 put negative battery on the polarized relay 174 so that its armature switches over and the magnet of the relay 182 is excited. The latter causes the cable connection to be transmitted from the common ring 186 to the line relay 1 [6] and at the same time removes the earth 187 from the transmitter 142 and applies it via armature 188 and contact 181 of the relay 182 to the polarized relay 18o. This turns off the broadcast circuit, and if segments 171 and 173 are correct, this operation occurs after brush 133 has sent a combination of five units but before it has started sending the last combination set on the transmitter. Since the brush 134 belonging to the receiving surface continues to rotate, a connection is established between the segments 172 and 179 , and since contact 164 remains closed and stop 161 is on the negative contact during this short interval, the polarized relay receives i8o negative Current. This relay has come into operation by applying the armature 188 to contact i 8 i, and the armature of the relay 18o is turned over and the magnet of the relay 177 is excited as a result. Since the armature of the relay 177 picks up, the earth 178 is switched off by the relay 174 by opening the contact between armature 176 and contact 175. This causes relay 17.I to drop out. Earth 178 is simultaneously applied to the printer via contact 195 of relay 177, and the armature circuit of printing relay 147 is connected to receiving ring 192 via armature 193 and contact 194 of relay 177 so that the printer responds to the incoming pulses. The energization of relay 177 also opens the connection between its armature 198 and contact 197, thus disconnecting earth 196 from resistor 14o. This brings the speed correction of the fork under the action of the relay 139. If the brush 134 has completed several turns before contact 164 at cam 153 is opened, the signal direction is not affected because the polarized relay i8o via segment 179, brush 134, segment 172, contact 164, switch 166, stop you, Battery 165 supplied additional pulses have the same direction as the initial pulse, so that the position of the armature of the relay i8o remains unchanged. Since the two distributors run in synchronism and the brushes have the correct phase setting, the same operations are carried out at both stations, but in reverse order, so that the remote station becomes the transmitting station and the direction of the signaling is reversed.

The other station now continues to give signals, and the incoming ones Pulses actuate printer 151 until shaft 154 rotates a sufficient number of revolutions has made and causes the incision 163 of the cam 158 to be opposite the stop 161 comes and initiates positive contact. As mentioned, it will be at this moment contact 153 closed, and the next time brush 134 passes over segments 172 and 179 of the receiving surface 131 receives the relay i8o positive current, puts its Armature around and causes relay 177 to drop out. Since the armature of relay 177 get back to their normally closed contacts, resistor 140 is short-circuited via earth 196, the latter being connected via armature 198 and contact 197. Consequently the station changes from a corrected station to one indicating the step. At the same time, earth 178 is applied to polarized relay 174 at contact 175, and the opening of the circuit at contact 193 and contact 194 of relay 177 sets the printer 151 out of order. The next pass of the brush 133 over the segments 171 and 173 of the transmitting surface 130 applies positive battery to relay 174 and causes the release of relay 182. This causes the cable from line relay 146 to drop Contact igi switched off and via armature 183 and contact 184 with the transmitting capacitor 185 and ring 186 is connected. The local circuit of the transmitter 142 is coming in action by earth 187, which is applied between anchor 188 and contact 189 while the polarized relay 18o goes out of service when the earth 187 is switched off by contact 181. The distributors are located at both ends of the cable in synchronism, and the passage of brush 134 over segments 172 and 179 takes place at such a time in relation to the passage of the transmitter brush above those corresponding to segments 171 and 173 of the transmission area at the transmitting station Segments instead that the local and the line connections at this station of the sending to the receiving position at the moment of arrival of signal pulses or shortly before.

It is necessary that disks 153 and 158 close their contacts at approximately the same time as the corresponding cams on the remote station. This is achieved in the following way: Between the shaft 154 and the shaft 152 there is a coupling Zoo, which guides an arm 2o1 which prevents the rotation of the shaft 152 without affecting the shaft 154 when the magnet 2o.2 responds: and the pawl 2o3 engages with the arm.2oi: the magnet 2o2 is controlled by a relay 204; which is under the influence of the line pulses of low frequency, which are transmitted by rotating selector buttons 205 and 2o6 at both ends of the line. The manifolds at both stations are started and phased in the usual manner, with shaft 15a being stopped in the manner described above. After signaling in one direction, when the transmit and receive distributors rotate in the correct phase relationship, the button 2o5 is actuated. This sends a single prolonged negative pulse from battery 2o7 over the cable, which causes the relay 204 and the corresponding relay of the other station to open the circuits via the stop magnets 2o2 so that the pawls 203 are free and the shaft 152 on both Set stations in motion in the correct phase relationship, which depends on the time; which an impulse needs to cross the line. The positive selector key 2o6 is used to stop the rotation of the cam disks 153 and 158 preparatory in order to start them in the correct phase relationship. The inductance 208, which is in series with the line and the relay 204, serves to prevent this relay from being actuated by currents of the signal frequencies.

So that the periods during which transmission takes place in the two directions can be changed, additional cams 159, 160 of various shapes are arranged on the shaft 157, which cooperate with the additional stops 169 or 170, which alternately in the circuit of contacts 164 can be switched on. By bringing the switch 166 at both ends of the cable into connection with the various stops 161, 169 or 17o with associated cams 158, 159 or 16o, the signal periods can become unequal in both directions. The circumference of the cams 159 is shaped in such a way that the signal periods when the stop 169 is switched on are the same for both directions, but are half the periods that arise when the stop 161 is switched on. The circumference of the cam 16o is shaped such that the signal periods. become unequal in both directions when the stop 17o is switched on. With these arrangements, unequal traffic volumes can therefore be taken into account in both directions.

For example, pressure telegraph sets were designed for only one signal path shown. As many paths can be used as necessary, with additional ones Segments are to be provided in the distributor rings. Additional local and controlling Segments 15o ', I79', 172 ', I45', 173 'and 171' are for a second signal path shown in the drawing.

Claims (6)

PATENT CLAIMS: e.g. Telegraph system with periodic automatic Switching of the traffic direction, characterized in that on each station are controlled by synchronous setting devices switches that are in change the traffic direction changing periods, and that distributor with the Switches so that the transmitter and receiver work together during each period be placed on the line several times. 2. Plant according to claim i, characterized by several cam disks (158, 159; 16o) with differently designed Control cam for changing the transmission periods in one or the other Direction using toggles. 3. Plant according to claim i or 2, characterized characterized in that the distributor and the adjustment device in the same station can be controlled by a common drive. 4. Plant according to claim i or 2, in which the distributors are rotating distributors whose shafts are motorized, characterized in that each adjusting device has a camshaft. which is driven by one of the distributor shafts. 5. Plant according to claim i or 2, characterized in that relays are used as switches, the circuits of which are in simultaneous dependence on the job Jung the distributor and Contacts of the setting devices can be controlled in the same station. 6. Plant according to claim 5, characterized in that the contacts of the adjustment devices in a station in series with a relay (17q.), which in turn has the effect of the switching relay (182) controls in the same station.