DE965134C - Circuit arrangement for encoders for setting dialers in telecommunications, in particular telephone systems - Google Patents

Description

The main patent relates to numerators for setting voters in telecommunications, in particular Telephone systems. These impulse transmitters are to facilitate the switching activity equipped with an additional row of buttons, each with a button for each traffic direction, at the actuation of which switching means become effective, which the transmission of the setting of the Voters on the marked traffic direction required rush series through the normal Initiate the transmission devices of the impulse transmitter.

The present invention is concerned with an expedient further development of such Encoder arrangement, which makes it possible in systems in which to build a desired Connection different groups of connection paths are available when the allows a group of connection paths to be set up via another group of connection paths enable.

According to the invention this object is achieved in that, in addition to the additional row of keys, a Auxiliary selector is provided, the setting of which

709 533/304

ment, which is controlled after pressing a button of the additional row of buttons depending on the pressed button and on the operating status of the connection routes available for the marked traffic direction, an identification of the current burst rows to be sent out by the numerator to set the voters to the corresponding traffic direction takes place. The drawing shows an application example, namely four line bundles LB ι to LB 4 are shown in Fig. A, which can be reached via three group selection levels GPFi to GW3 , while in Fig. 1b the actual numerator with a series of directional keys RTi to RTx is shown for the different traffic directions. By pressing the direction button RT 1 z. B. a switching center Vst 1 , to which connections are first made via the trunk group LB ι, as long as free connecting lines are still available in this bundle. Then namely the contact 129 Ib 1 is closed and thus the relay G 1 is energized. As a result, applying a ground potential to the contact 1 of an auxiliary selector to the contact of the direction key RTi and the contact 121g is "1. In addition, on the common for all directional keys cause key RTi to RTX. And an interrupter Un a circuit for the rotary magnet DHW this auxiliary selector closed When the switching arms reach contact 1, a circuit for relay Q is established via switching arm hw \ , which by opening contact 132 g prevents any further influence on the rotary magnet Dhw of the auxiliary selector the switching arms hwi to hw $ are put into a certain state of charge after the contacts 117 <? to 119 q have closed the capacitors Ci, C 2 and C 3. Since the contacts 1, which are reached by the switching arms hw 1 to hw $ :, are connected to points 2, 4 and 6 of the voltage divider consisting of equal resistors Wi 1 to Wi 10, the capacitors Ci, C 2 and C 3 have been connected to these points of the voltage divider. Since contact 120 g has also been closed with the excitation of relay Q , an excitation of this relay Ti has come about via contact 5 u 1. The relay T1 has closed its contact 32 1 1 and thus switched on the voltage divider via the contacts 32 1 1 and 109 χ ι to the negative pole of the 60-volt battery. The other end of the voltage divider is connected to earth via the contact for 1 s. Accordingly, the upper assignment of the capacitor C1 has been applied to -12 volts via the contact 117 g and the switch arm his / 1 , while the upper assignment of the capacitor C 2. -24 is applied via the contact 118 q and the switching arm hw-2 Volts and via the contact 119g and the switching arm hw 3 - 36 volts has been applied to the upper assignment of the capacitor C 3. The relay Ti had prepared a circuit for the relay U τ when its contact 6 ί 1 was closed via the switching arm e II. Now that the relay Q has become de-energized after releasing the direction key, the short circuit for the winding I of the relay Ui via the contacts 120 q and S ti ι is canceled, so that this relay also responds. Hence it is the following circuit for the relay V 2 concluded: earth, battery, V2, 9μ i, 8 hours, 7 ui, earth. The relay V 2 switches on the relay Vi via its contact 10ν2 , which closes the following circuit for the relay A : earth, battery, A, 13η, Ι2κΐ, τινι, 8h, 7111, earth. The relay A responds and switches on the relay B via its contact 14 a. The capacitor Co charged via the contact 15 & and the resistor 16 is now discharged to earth via the contacts 16 &, 17V, 18IV, 19III, 20II, 211 and via the winding α of the relay I. The relay I responds and closes at its contact 221 a holding circuit for its winding I b, which runs via the contacts 23III, 24ί 1 and 25 ί. At the same time, the lower assignment of the capacitor Ci, which was disconnected from ground when the relay U ι responded by opening the contact 27 u 1, is applied to the point 9 of the voltage divider via the contacts 28 u 1, 291, 30II, 31 μ ι . The lower assignment of the capacitor Ci thus has a voltage of ■ -54 volts.

When the relay B responds , the contact 34 b was closed, so that the relay R1 is excited via the contact 35 M ι. It interrupts the circuit described above for relay A at its contact 13 r 1, so that it drops out and the circuit for relay B interrupts at contact 14a. The relay B switches 34 at its contact b, the relay R1 again, so that the circuit for the relay A through the then closed contact 13 comes -1? Anew into existence. The relay A switches on the relay B again via the contact 14a, which discharges the capacitor Co , which has meanwhile been recharged via the contact 15ft, via the contacts 16b, 17V, 18IV, 19III, 20II and 261 to the winding α of the relay II. The relay II responds and closes a holding circuit for its winding b parallel to winding I b via its contact 36II. In addition, the lower assignment of the capacitors C 1 is applied via the contacts 282t i, 291, 37II, 38MI to -48VoIt of the voltage divider, so that the capacitor C ι now has a total voltage of -60 volts, which is via the switching arm ^ I and the Contact 38 u 1 is on the grid of the amplifier tube. Da'her the grating has the filament compared to no negative bias more, so that the relay H lying in the anode circuit responsive and at its contact 8 h the circuits for the relays A and the slow-release relay V2 interrupts, the latter switches by opening its contact row 2 the relay Vi off. Thus, two current impulses corresponding to the first series of current impulses of the code number have been sent via the contact 108 b. As soon as the relay V2. and Vi have dropped out, comes via the contacts 7Mi ₁

9 ^ j 40 ν ι and 41 u 1 a circuit for the relay ^ ι comes about. The relay S1 closes after his

Response via its contact 42 s 1 a holding circuit and switches on the drive magnet E of the switching mechanism equipped with the switching arms el and <? ΙΙ via contact 43 si. The switching arms el and <? II are advanced by one step, whereupon the relay H drops out and the circuit for the relay V2 closes again at the contact 8 h. After the switching mechanism has been switched on, the relay U 1 remains excited via its winding II in a holding circuit running through the switching arm III, the contact segment 44 and the contact 45 u 1. When relay Si responded , contact 24.? 1 opened, so that the relays I and II drop out. The relay A and subsequently the relay B (14a) and Ri are ι ν via the contact 11 is again turned on (34 b). The interaction of these relays with relays I and II is the same as previously described. Of the originally charged via the switching arm hw2 with -24VoIt capacitor C 2 has to emit two current surges via the contact 108 b a total charge of - 72 volts. The relay H is therefore not yet energized after the relay II has responded. With the third current surge generated by the relays A and B , the capacitor Co discharges via the contacts 16 b, 17 V, 18IV, 19III, 46II and the winding α of the relay III. This relay opens its contact 23III and thus the holding circuits for relays I and II; it closes via its contact 47 III and contacts 48 IV, 24.? 1, 25.9 a holding circuit for its winding b. At the same time, the lower assignment of the capacitor C 2 is applied via the contacts 28 m 1,49.1,50111,51 lii to -42 volts of the voltage divider. The next time relay B responds, capacitor Co discharges via contact 52III to winding α of relay IV. This closes a holding circuit for its winding b via contact 53IV and contacts 541, 24 j 1 and 25 s. At contact 48IV the holding circuit for the holding mechanism III & is interrupted, so that now the lower assignment of the capacitor C2 via the contacts 28 mi, 491, 55 III, 56IV, 571 and 58mi is at -36 volts of the voltage divider. The capacitor C 2 has now received a total charge of -60 volts, which is via the switching arm e I and the contact 38 μ ι on the grid of the amplifier tube. Now the relay H responds and initiates the same switching processes as after the first series of current impulses had been sent. In the meantime, four current impulses have been sent via contact 108 & as the second row of the code number for the desired exchange. The switching mechanism E takes a further step as above and thus applies the capacitor C3, which has a voltage of -36 volts, to the grid of the amplifier tube, so that the relay H drops out again. Through the interaction of the relays A, B and Ri , the counting relays I to IV are energized again one after the other, via whose contacts the lower assignment of the capacitor C 3 receives a negative voltage which drops by 6 volts each time the relays I to IV respond. At the fifth response of the relay B , the capacitor Co discharges via the contacts 16 b, 17 V, 60IV to the winding α of the relay V, which responds and closes a holding circuit for its winding b at its contact 61V. At the same time, the lower assignment of the capacitor C 3 is placed on the contacts 28mi, 491, 55III, 56IV, 65V, 66mι at ■ -30Volt. The next time relay B responds, capacitor Co discharges via contacts 16 b and 68 V to winding α of relay I, which closes a holding circuit for its winding b ^{at contact 221 and 1 in} parallel via contacts 62 V and 63 u 1 turns on the winding I of the relay X ι. The relay X1 closes a holding circuit for its winding II via its contact 64-r 1. By opening the contact 541, the holding circuits for the relays IV and V are interrupted, since the contact ι ΙΟ'χ ι is now also open. When relay X 1 responded, the voltage divider was switched over by connecting resistors Wi 5 and Wi6 between contacts is and 67x1 earth and switching on resistor ' Wi 1 1 by opening contact logxi. The resistor Wi 11 has a resistance value which corresponds to the sum of the values of five resistors Wi ι to Wi ιό. The lower occupancy of the capacitor C 3 therefore receives a voltage of ■ -24VoIt ₁ so that its total voltage is now -60 volts after the relay B has emitted six current surges via the contacts 28 ui, 291, 30II and 31 uι; this is pressed onto the grid of the amplifier tube via the switch arm el and the contact 38mi. The relay H is activated and interrupts at its contact 8 h the circuits for the relays A 'and V 2, whereupon the latter by opening the contact 10 ^ 2 Vi, the relay off. As soon as the relay Vi is de-energized, the relay Si comes via the contacts 7mi, 39Ä, 40 vi and 41 μ ι to respond, which switches on the drive magnet E at contact 43 j 1 and, by opening the contact 24 ^ 1, the holding circuits of the relays I and X 1 interrupts. The switching mechanism takes another step and short-circuits relay 6 "1 at contact 59 e , which in turn switches off drive magnet E by opening contact 43 ^ 1. The interplay between relay S 1 and magnet £ lasts as long as until the switching arms el and e II d! occupy ie rest position shown on the grid of the intensifier tube above the switching arm e I, the frequently switched contacts 111 and μ ι via the contacts 28mi, 491, 55ΠΙ, 112IV 113, 109x1 continuously a potential. of -60 volts, so that the relay H remains energized. If the switching arm III leaves the contact segment 44, the relay Ui drops out and establishes the indicated idle state of the numerator.

Due to the contact b io8 which three rows of the current surge indicator has 246 accommodated for transmission in accordance with, the in FIG. 1, a direction indicated three Gruppenwa'hlstafen the managerial

processing bundle LB ι set, via which the further connection can be set up in the desired direction in any way up to the exchange Vst ι.

Since in the numerator of Fig. Ib the buttons T ι to To have been operated according to the code number of the desired subscriber, the following switching operations have taken place regardless of the sequence of further processes: ίο When you press a button, z. B. T3, according to the first digit of the subscriber code, the following circuit is created for the relay T: earth, battery, T, 71 r, buttons Ti to To, yow, 69 u, earth. The relay T responds and with its contact 72 1 switches on the voltage divider via the resistors W 1 to W 10, which are identical among themselves, so that the capacitor Co 1 , which is grounded for 75 s and 76 1 , is via the contacts 73 s, 74ti , Switching arm dl receives a voltage of -18 volts. By closing its contact 771, relay T simultaneously switches on relay 5, which is placed in a holding circuit via contact 78 s and at contact 79 j creates a circuit for drive magnet D of the switching mechanism equipped with switching arms dl to dIV. In addition, the relay R is switched on via the contact 81 s , which interrupts the holding circuit of the relay T via the contact 80 ί by opening its contact 71 r . The switching mechanism switches its switching arms ei I to rf IV so that now the second capacitor Co 2 is connected to the voltage divider via the switching arm dl after the relay .S has dropped out by closing the contact 90 d . When the next key is pressed, the relay T and then the relay 6 ″ and the drive magnet D are switched on again. The capacitor Co 2 is charged accordingly. The same processes take place in the same way every time another key is pressed Operations involving the transmission of the code number for the direction of traffic marked by pressing the RT button 1 are prevented as long as the relay Ux is addressed. After completing the setting of the desired subscriber code using the Ti to To buttons, the officer presses the ST button, which activates the O relay The relay O is held via the contacts 810 and 82 u 1 in order to close a starting circuit for the transmission of the subscriber code via its contact 8150. This circuit runs via: earth, battery, V 2, WI, 87VI, 86u, 85 0, multiple switched contacts 84, dll, 83 «i, earth. The relays W and V 2 respond and switch via their Ko ntakts 88 w or 10 ν 2 the relay V 1 on. By closing the contact 89 w , a holding circuit for the winding II of the relay W is closed via the contact 69 u , which runs via the relay .S ¹ . The latter switches on the drive magnet D at its contact 79 ^, so that the switching arms dl to dTV take a further step. At the same time, the drive magnet D short- circuits the relay JT via its contact 90 d , so that it drops out and, by opening the contact 79 s, interrupts the circuit of the drive magnet D. When the short circuit for relay J? at contact 90 d this responds again and switches the drive magnet D on again. The interplay between the relay 6 * and the drive magnet D continues until the switch arms d1 to dIV have reached their rest position. In this speaks via the contact 83 tu, switching arm ei II and contact 91 vi the relay U to. It opens its contact 69 u and thus interrupts the holding circuit for winding II of relay W and the circuit for relay 5. This is achieved via contacts 92 iij 93 t, 8 h, 11 vi, 94 «i, 95 r Relay A switched on. The relay B is energized via the contact 14 a, which switches on the relay R by closing its contact 34 b via the contact 96 u 1. The capacitor Co charged via resistor 16 and normally closed contact 15 & now discharges via contacts 16 b, 17 V, 18IV, 19.HI, 20II, 211 to winding α of relay I. This relay provides a holding circuit at contact 221 for its winding b and applies the lower assignment of the capacitor Co 1 via the contacts 75 s, tyjt, 98WI, 29I, 30 · II, 99MI to - 54VoIt of the voltage divider, which is via the contacts 100i, ioiw, 114 ^ and 115 s is switched on. When relay R responds, the circuit for relay A is interrupted by opening contact 9Sr, which switches off relay B at contact 140. The capacitor Co is charged again via the contact 15 b and the resistor 16. As soon as the relay R, whose circuit was interrupted at contact 34fr, drops out again, the circuit described above for relay A is closed again; it responds and switches relays B and R on again. The capacitor Co is now discharged through the contact 261 to the winding α of the relay II, so that the storage capacitor Co 1 is connected to -48 volts of the voltage divider through the contacts 75 s, 97f, 98 wi, 291, 37II, 102 mi. In the next operation of the relays A, B and R , the relay III of the counting chain is energized, which by opening its contact 23III interrupts the holding circuits of the relays I and II and the lower assignment of the capacitor Co 1 for 75 s, 97 1, 98 α i, 491, 50III and 103 u 1 applied to -42 volts of the voltage divider. The capacitor Co 1 now has a charge of -60 volts, which is connected to the grid of the amplifier tube via the switching arm d 1 and the contact 104M. Relay H responds and interrupts the circuit for relays A, W and V2 at contact 8> h. As soon as the relays have dropped out, they interrupt the circuit for the relay Vi at their contacts 88 w and 10 ν 2, so that the relay 5 "is switched on via the contacts 92 u, 93 1, 39 h, 402/1 and 105 Mi. It closes a circuit for the drive magnet D via its contact .r, so that the switching arms dl to dTV are switched one step further. The relay H drops again

away. The relay U initially remains energized when its circuit at contact 91 π is opened, since it is designed as a delay relay. After switching arm d III it is held via contact segment 106 and its own contact 1071 /. When the relay // drops out, the relay W and V 2 and thus also the relay V 1 are switched on again via the 8 A contact. By closing the contact ιιζί the circuit for the relay A comes about again, so that the interaction of the relays A, B and R with the relays I to V of the counting chain goes on in the manner already described, until the capacitor Co 2 again Total charge of - 60 volts. The emission of the remaining series of current impulses is readily apparent from the above explanation.

When the last series of impulses has been sent out, the relay H remains energized, since the grid of the tube is directly at -60 VoJt via 104M, dl, 97t, 98Mi, 491, 55III, 112IV, 116μm and 114jr. The relay H keeps the circuit of the relay 5 ¹ closed via its contact 39 A until the relay U 1> eim reaching the rest position of the selector D, when the switching arm d III has left the contact segment 106, is brought to waste. This means that all of the numerator's facilities have returned to their rest position.

Should the trunk group Li first be used to set up the desired connection? If there is no longer a free connection line, the contact 129 Ib 1 is open. As a result, the relay G 1 is de-energized; Instead of contact 121 gi , contact 122 g 1 is closed. The line bundle LB 3 is now available as the line bundle to be used initially. If there are still free lines in this bundle of lines, relays G 3 and G 3 'are energized via contact 13.1 / & 3. As a result, inter alia, the contact 127 g3 'is closed. When the directional key RT 1 is pressed, a ground potential is therefore applied via contact 1270-3 'to contact 3 that can be reached by switching arm Aze / 4. The auxiliary selector is not brought to a standstill on contact 1 as before, but on contact 3. As FIG. 1b shows, the contacts 3 which can be reached by the switching arms hw 1 to Aw 3 are connected to points 1, 8 and 9 of the voltage divider Wi 1 to Wi 10 , so that the numeric transmitter via the contact 108 & in a corresponding manner As explained above for the code number 246, the code number 189 is transmitted in three series of current impulses. As a result, the voters of the three group selection levels Gf ^ i to GW2 reach the trunk group LB 3. In the further connection setup, the desired exchange V st ι is now reached via this in some way.

If there are no more free lines in the trunk group LB 3 either (contact 13 τ Ib 3 open) or if this trunk group is to be blocked for setting up to the exchange V st 1 and kept free for other directions (key 'open), then there then the contact 12% gi 'is closed due to de-excitation of the relay G 3', the contact 4 to be visited by the switching arm hw 4 is marked via the direction button RT 1. The contacts 4 that can be reached by the switching arms hw 1 to Aze / 3 are connected to points 3, 6 and 10 of the voltage divider consisting of the resistors Wi 1 to Wi 10. As a result, three rows of current impulses with the code number 360 are transmitted via the contact 108 b. After setting the three group selection levels GWi to GW2, a free line from the bundle LB 4 is then reached through this code number.

The numeric transmitter works in the same way when you press other direction keys.

By assigning an auxiliary selector to the numeric transmitter, the direction key itself Corresponding code number if the route indicated by this is busy or blocked be converted in such a way that another route is reached.

It should be mentioned that the additional row of buttons does not need to consist of manually operated contacts, but these can also be contacts that are controlled by relays so that the auxiliary selector (switching arm hw 4) does not go directly to manually marked contacts, but adjusts to contacts which z. B. are marked remotely by means of a relay.

Claims (4)

Patent claims: i. Circuit arrangement for numeric transmitters for setting dialers in telecommunications, in particular telephone systems, according to Patent 961 811, characterized in that in addition to the additional row of keys (row of contacts) an auxiliary dial (hw 1 to hw 4) is provided, through its setting, which after pressing a Button (actuation of contacts) of the additional button row (contact row) depending on the pressed button (contact actuation) and on the operating status (free, occupied, blocked) the connection routes available for the marked traffic direction are controlled, an identifier for the setting of the Voters on the corresponding traffic direction from the numerator to be sent power surge rows takes place. 2. Circuit arrangement according to claim 1, characterized in that the setting of the auxiliary selector is terminated by switching devices (Q) which are influenced after reaching a contact which is to be used by the pressed key and possibly by contacts from the operating state of the corresponding to the pressed key Connection path dependent relay (Gi, G 2, C 3j G ?, ') is marked. 3. Circuit arrangement according to claim 1, characterized in that the auxiliary selector allocated to a memory device (Ci, C 2, C 3) is what after setting the 709 533/30 * Auxiliary voter to obtain the appropriate The direction of traffic required to be sent by the transmitter of the numerator indicates the series of current impulses. 4. Circuit arrangement according to claim 3, characterized in that the auxiliary selector has a number of switching arms corresponding to the number of switching arms required for setting the voters to the desired Verkehrsriehtning and an adjusting member (Ci, C 2, C 3) via each of these switching arms the memory device is actuated. 1 sheet of drawings 709 533ß <M5.57