CH95919A - Installation for telephone central office. - Google Patents

Description

  

  Installation for telephone central office. In central telephone offices the calling subscriber lines must often be connected to called subscriber lines or to trunk lines leading to other central offices; which lines present different transmission characters. For example, the central office may be part of a network comprising several other central offices, some of which are very close to the office under consideration, while others are located at considerable distances. As a result, some trunk lines used for some calls are very short, while other trunk lines used for other calls are very long.

   It is also possible that these short junction lines are ordinary non-pupinized lines, while qt, ie the long junction lines are pupinized. It is therefore desirable that the translator placed in the conversation circuit has different characteristics depending on the junction line used, and in certain cases this translator must even be eliminated.

      The invention relates to an installation for a central telephone office in which a conversâtion circuit between a calling line and a subscriber located at a remote point, is produced through a trunk line and a translator by action switches. Self-mechanical According to the invention, the translator is such that it can have different transmission characteristics and even be eliminated from the conversation circuit as the case may be.

   Selective arrangements are associated with this translator in order to automatically determine either the transmission characteristic which it must exhibit or its elimination from the conversation circuit, and this, according to the. nature of the call received, that is to say according to the nature of the trunk line which is used to connect the calling subscriber with the called subscriber.



  The accompanying drawings represent, by way of example, one of the embodiments of the object of the invention. This is assumed to be applied to a central office with self-acting switches, and only those parts necessary for an understanding of the invention have been shown here. Fig. 3 should be placed to the right of fig. 1, while the, fig. 2 should be placed below fig. 1.

   The automatic selector switches used in this installation are of the well-known type called reversible pulse, and the auxiliary switches controlling the operations of the selectors are of the type called combiner. On the left of fig. 1, we have shown a line coming from a subscriber station A and being able to be connected by line seekers forming a group.

   One of these seekers is indicated schematically in <I> TF. </I> This finder then extends the calling line to a cord circuit whose contacts are controlled by a 1.00 combiner. All the contacts in fig. 1 are therefore placed under the control of this combiner, which also actuates a switch FS searching for recording and sending equipment. The purpose of the switch FS shown is to search for free equipment during a call and to connect it to the cord circuit. It can connect five devices as a result of the action of its brushes 110 to 114 and 120 to 121.

   One of these items of equipment is shown in FIG. 2. It comprises four recorder devices shown respectively by their terminal and brush sets 236, 238, 239 and 240 and by their corresponding electromagnets, of which only three are indicated at 233, 234 and 235. It is assumed that the subscribers of the proposed office are designated by numbers of four digits, but it is obvious that if they are designated by numbers of more digits, more recording devices will be required. In other words, the number of recording devices of each recording and sending equipment is equal to the number of digits forming the numerical designation of the subscribers.

    The circuits of the equipment controlling the recording devices depend on the combiner 200, ie the contacts of FIG. 2 placed to the left of the vertical dotted line are controlled by this combiner 200. The recording and sending equipment also includes a set of relay-counters forming a controller device, this set is indicated on the right side of the device. fig. 2.

   In reality it includes as many pairs of relays 0-0 ', 1-1', 2-2 'etc. that there are terminals to the recording devices, that is to say the set of counting relays shown in the drawing must contain ten pairs of relays although only three pairs have been shown. The contacts placed in fig. 2 to the right of the. vertical line dotted are controlled by the combiner 250.

    By means of the meter relays and in accordance with the positions occupied by the recording devices following the call, a first selector SS is actuated, searching for a junction line leading to a second selector 882 (fig. 3). .

   The selector, 9s, is represented by its two motor electromagnets 104 and 106, the first communicating to the brush holder rod 134 an upward vertical movement, while the cond communicates to this rod a vertical movement down. Electro 104 is energized to cause the brushes to search for a free trunk line at the start of a call, while electro 106 is energized at the end of the conversation to bring rod 134 back to rest. This rod supports a certain number of sets of brushes, but only one set is shown in the figure at 135, 136, 137.

    The selector SS, further includes a trigger solenoid 105. A junction line connecting the selectors SS, and S & <I> is </I> indicated at 138, <B> 1.39, </B> 140. The second SS drive, is shown on the left side of fig. 3 and is analogous to the SS selector ,. It therefore comprises two motor electromagnets 309 and 344, a brush holder rod 311, a triggering electromagnet <B> 315, </B> and sets of brushes, one of which is indicated in 317, 318, 319.

   The circuits of this selector are controlled by the combiner 300 on which all the contacts of FIG. 3 placed to the left of the vertical dotted line. The SS selector. connects a trunk line such as 320, 321, 322 going to a final selector F & connecting the trunk line going to the office serving the called subscriber, indicated here at B, The circuits of this final selector are controlled by the combiner 350 on which all the contacts of FIG. 3 placed to the right of the vertical dotted line.



  The conversation circuit, shown in the figures in thicker lines, comprises a translator 154 whose secondary winding is formed of several sections. Depending on the nature of the junction line connected by the final selector F & that is to say depending on whether the junction line is short or long, some of these sections or all of these sections are interposed in the circuit, conversely tion. On the other hand, if the subscriber A must be connected directly to the position of an interurban operator of the central office envisaged, the circuit of the translator 150 is disconnected from the conversation circuit and is replaced by a metal circuit.

   These various maneuvers are carried out through the intermediary of the counting relays and according to the recording and sending equipment which has for this purpose an additional recording device indicated at 237.



  The numbers placed next to the contacts indicate the positions of the corresponding combiners for which these contacts are closed. When two similar digits are linked by the sign -i-, it means that this contact is closed as soon as the combiner reaches the position indicated by the first digit, and that it remains closed until this combination. neur has left the position indicated by the second digit. The operation of the various apparatus and circuits shown in the drawings is best understood by the following detailed description of establishing a connection between two subscribers.



  It is assumed that subscriber -A desires a connection with subscriber B. When subscriber A removes his receiver from the hook-switch, his line is automatically extended in the well-known manner through a TF line pager from any type, and which gives access to the terminals of the lines leading to the automatic switches shown in fig. 1. If one of these switches is found free, ie 88, a circuit is closed through relay 6, test terminal 158, contact 115 (position one), and relay 101. Relays 6 and 101 are energized. and the first of these can be arranged so as to. stop the <I> TF </I> switch on the terminals of the chosen line.

    This relay 6 also closes by its right winding at low resistance a circuit which results in changing the potential of the test terminal 158 in order to prevent any other switch such as <I> TF </I> from connecting. this line already chosen. The relay 101 closes a circuit passing through 118 for the combiner 100 which comes to occupy its position two for which a circuit is closed for the searcher switch of recording and sending equipment FS, and when one of these equipments is found free, the switch FS connects it to the devices of fig. 1.

   A circuit is then closed: left armature at rest of 226, contact 243, brush 112, contact 107 and relay 102. If the equipment encountered by brush 112 is not free, the above circuit is not available. not closed, and relay 102 remains neutral, but at the same time a circuit is closed through the armature at rest and the rolling of the motor electromagnet 103, the contact 108 and the inner armature at rest of 102. The excited electro 103 interrupts its own circuit and moves the brushes 110 to 114 and 120, 121, step by step in search of free equipment.

   After establishing the above circuit corresponding to a free equipment, the electro 103 is neutralized stopping the brushes in contact with the terminals of the free equipment. The energized relay 102 closes a circuit through its outer working armature and contact 106, bringing the combiner 100 to its three position. Closed circuit: left winding of 225, brush 110, contact 117, key line the calling subscriber, contact 116, brush 111, and right winding of 225.

   This relay 225 by its excitation causes that of the relay to. slow recovery 226, which by its left armature disconnects the test terminal of the equipment from the earth and closes the circuit passing through contact 228 for the combiner 200 which comes to occupy its position two. The recording and sending equipment is now in the desired position to receive the impulses resulting from the movement of disc 5. It is evident that an arrangement can be made so that any auditory signal is sent. at this time to the calling subscriber, warning him that he can mark the requested number on the disk, but it was considered unnecessary to indicate this arrangement here.



  Position two of 200: closed circuit: motor electromagnet 233, contact 232, relay to. slow recovery 227, and inner right armatures at work 226 and idle from 2 25. As soon as the subscriber begins to mark the requested number, the previous circuit through relay 225 is interrupted one or more times following the value of the first digit marked, and the armature of this vibrating relay completes the circuit to the original earth traced through the electro 233 and the relay ?? "r. The latter being slow reset maintains its armature atfirée during the entire first series of pulses,

   while the electro 233, excited and neutralized for each impulse, advances the brushes 236 and 237 mounted on the same shaft up to. they occupy terminals corresponding to the first digit of the called number. The excitation of 227 closes a circuit through lower 230 for the combiner 200 which comes to occupy its third position. This however does not interrupt the circuit of the electro 233.

   After the first series of pulses the armature of 225 remains closed for a sufficient time to allow relay 227 to neutralize. A circuit is then closed through, through the armature at rest of this relay, and 231 for the combiner 200 which passes to its. position four. As soon as the circuit of 225 is interrupted by the first pulse of the following series, a circuit is closed through the electro 234, the contact 232, the relay 227 and the earth as before.

         Electro 234 undergoes the action of each pulse produced as a result of the second digit marked on the disc, advancing brush 238 step by step to a position corresponding to this second digit. The excitation of 227 closes a circuit through 230 to bring the combiner 200 to its fifth position. After the second series of pulses the neutralized relay 227, as already explained, closes a circuit through 231 to bring the combiner 200 to its sixth position. A circuit is then closed through the electromagnet 235, the contact 232, the relay 227 and the armature at rest 225.

   This circuit is closed for each pulse, moving the brush 239 on the corresponding row of terminals. Energizing relay 227 brings combiner 200 to its seven position through a circuit through 230, and at the end of the third series of pulses neutralizing 227 closes a circuit through 231 to bring combiner 200 into its position eight. For this last position, a circuit is closed for a motor electromagnet not shown in the drawing and which controls the brush 240. The recorder can be arranged so as to respond to the number of digits forming the number of the. called line, and in an important system of the kind described, subscribers are usually designated by numbers of five to seven digits.

   However, in the present case, it is sufficient for the description to indicate the recorder as responding to four-digit numbers. At the end of the fourth series of pulses, the neutralization of 227 brings the combiner 200 to its ten position, this combiner having been brought to its new position as soon as the relay 227 has been energized at the beginning of the. fourth series of pulses.



  At the end of the. transmission of the four digits, the combiner 200 occupies its ten position and the relays 225 and 226 are energized. A circuit is now closed through 241 and 261 for combiner 250 which moves from its one to two positions. Positions three of 100 and two of 250: closed circuit: left winding of 125, upper right and lower left 1.22, brush 120, contact 264, left arming at counter 0 'relay, relay not at step 265, left side of relay 266, and 263, upper right and lower left. The relays 125 and 265 are energized, while the relay 266 remains insensitive to the current flowing in this direction.

   The circuit fired through relay 265 and the relay of a selector is called a fundamental circuit. Relay 125 closes a circuit through its inner right-hand rear to work and contacts <B> 123 </B> and 124, for combiner 100 which moves to position four. Closed circuit: electromagnet 104, 147 upper, inner right armature working 125 and contact 124. Electromagnet 104 presses the lower part of rod 134 against the continuously rotating friction pulley 1.56, this which causes the different sets of brushes carried by the rod to move upwards.

    When combiner 100 leaves position four, the previous circuit driving relay 125 is broken, but a blocking circuit is closed by the left armature of the relay through upper and lower left 122 and the fundamental circuit as it is. was first traced. The excitation of 265 closes the following circuit for the counter relay N 2, assuming that the first digit transmitted is three and that the brush 236 rests on the third terminal: relay N 2, right armature at rest of 2 ' , conductor 270, terminal three of the first recorder, brush 236, conductor 271, 262 upper left and right, and armature at work of 265.

   Relay N 2 closes its blocking circuit as well as a circuit for relay N 2 'through the windings of two relays N 2 and 2' and contact <B> 273. </B> However, relay N 2 'is not excited, because it is bypassed by the previous circuit. During the upward movement of the rod 134, the brush 141 passes over the segments of the switch 144 connecting an in termittent earth to the contact 122 through 127. This earth bypasses the circuit of the relays 125 and 265 causing the latter to be neutralized, but n 'having no action on the first. When this earth is applied for the first time, the shunt around 2 'is broken, which causes this relay to be energized and extends the circuit of conductor 270 through to the armatures at work of 2' and at rest. and relay 1.

   From the first interruption of the shunt around 265, this relay is energized again, closing the circuit originally drawn for the conductor 270, which energizes the counter relay 1. Similarly after three short-circuits of 265 - and three interrupts of this shunt, the counting relays 0 and 0 'are energized. Relay 0 'by its outer left armature interrupts the basic circuit through 125, 126 which are neutralized, and by its inner left armature it closes a circuit through 274 to bring combiner 250 to its four position.

   For position three of 250 the blocking circuit of the counter relays through their armatures at work and 273, is broken, but when 250 occupies its position four, it again closes this blocking circuit for the relays in use.



  When the fundamental circuit is broken, the neutralized relay 125 opens the circuit originally drawn for the electromagnet 104, and the upward movement of the rod 134 is stopped, while by its rest contact, 125 closes a circuit to through 124 and <B> 123 </B> to bring combiner 100 to its, position five. In the ordinary two thousand line commutator of the type described, the rod 134 must carry five sets of brushes in addition to the switching brushes, and the first upward movement serves to select one of the brush sets. For position five of 100, a circuit is closed for the trigger solenoid 105, through 162.

   This electromagnet moves the rod 163 so that during the next upward movement of 134, the set of brushes, moved by the first movement, is selected.



  Position five of 100 and four of 250: Fundamental fired cir closed through 125 and 265. Relay 125 energized closes the following circuit: combiner 100, 123 upper left, inner right arming at rest of 125 and contact 1.24. The combiner 100 comes to occupy its position six. The primitive excitation circuit & 125 passing through 122 right superior is open, but a blocking circuit is closed by the left armature at work of this relay, 122 upper and lower left and the fundamental circuit. For position six of 100, the circuit of electro 104 is closed through 147, the inner right armature to work of 125 and contact 124. La.

    rod 134 is then animated with a new vertical displacement. If the second digit marked on the disc is two, a circuit is closed as soon as 265 is energized for the counter relay N 1 through the armature at rest of the, the conductor <B> 279, </B> the second contact and the brush 238, the conductor 281, 262 lower left and upper right, and the armature at work of 265.

   During the vertical movement of 134 an earthing takes place by in termittence for the contact 122, through 127, the switch 145 and the brush 142, shun both each time: the relay 265., After two earthings similar, the counting relays 0 and 0 'are energized and the basic circuit is still interrupted at the left armature at rest of 0', which brings about the neutralization of 125 and 265. The inner left armature from 0 'closes a circuit through to 274 for combiner 250 which goes to position six.

   For position five of this combiner the blocking circuit for the counter relays is broken at 273 and is reestablished for position six. The neutralization of 125 opens the circuit of 104 and the rod 134 stops. Finally the combiner 100 is brought to its position seven through 123 upper right and 124.



  For a switch of the type shown in fig. 1, the capacity of which is supposed to be do 500 lines, the second selective movement consists in bringing the set of brushes chosen on a group of terminals through which a free line is searched for among the ten outgoing junction lines forming the group. This search movement takes place as follows: Position seven of 100: closed circuit: left winding of 125, upper 118 and armature at work of 101. The quotation of 125 closes a circuit through 123 upper left and 124; for combiner 100 which goes to its eight position. Closed circuit: electromagnet 104, 147 upper, internal armature on the right at work of 125 and contact 124.

   The rod 13.1 is animated by a new upward movement. It is assumed that the chosen set includes the brushes 135 and 136 as well as the test brush 137, and that these run through a terminal panel through which are 138, 139 and 140. Position eight of 100: The circuit passing through the left bearing of 125 and the contact 118 is broken, and a blocking circuit passing through the left armature to work of 125 and the upper contacts 126, left and right, is connected to the brush of test <B> 137. </B> If the first test terminal 140 encountered by 137 appears on a free trunk line, the blocking circuit of 125 is not completed.

   If, on the contrary, this terminal belongs to an occupied junction line, a ground is connected to this terminal through the test brush of the switch in connection with this line, and 125 remains energized through the above blocking circuit. above traced. So in the case of a free junction line, 125 is neutralized stopping the, rod 13.1, so that the brushes remain on the terminals of this line. However in order to ensure the centering of the brushes 135 and <B> 136 </B> on the terminals, 138 and 139, a second blocking circuit is provided for 125 to. through its winding and its outer frame on the right, 130 on the left, the switch 146 and the brush 143.

   As long as the brushes are not exactly centered on the terminals, this circuit remains closed, but as soon as this condition is fulfilled, the circuit is opened at switch 146, and neutralized 125 breaks the circuit of electromagnet 10.1 by its right inner frame. Closed circuit: combiner 100, 123 upper right, inner right armature at rest of 125 and 124. combiner 100 goes to its new position. Closed circuit: left winding of 125, upper 118, and armature at work of 101.

   The energized relay 125 closes a circuit through 123 upper left, the inner right armature working 125 and contact 124 for the combiner <B> 100 </B> which moves to its ten position. At this moment, 125 is not neutralized, because a blocking circuit is closed before the relay circuit is broken at 118. This blocking circuit comprises: in bearing and left armature of 125, driver 169, 148, 108 upper armature, and 102 interior idle armature. Relay 125 therefore remains energized as long as the following switch selection operations are not completed.



  Position 8 1/2 of 100: A ground is placed on test brush 137 through 126 right, upper and lower, which places terminal 140 in the occupied condition. Position ten of 100: The fundamental circuit for relay 265 is connected through brushes 135 and 136 to the circuit of the second selector, SS2 in order to energize relays 265 and 325.

   This circuit includes: right winding of upper 325, 302 and 303, terminal 138, brush 135, 129 upper right and lower left, brush 120, contact 264, left outer armature working 0 ', relay 265, 266, 269 upper and lower left winding, 266 right-hand rolling, 121, 128 lower left and upper broom. right, broom 136, terminal 139, 304 lower and 305 left. Relays 265 and 325 are energized, but 266 remains insensitive to a current in this direction. Relay 325 closes a circuit through upper left 307 and lower 301, for combiner 300 which goes from positions one to two.

    The circuit through the right winding of 325 is then broken, but a blocking circuit for this relay is closed through its right winding, upper and lower right 302 the right armature at work of 325 ; 308 lower and upper left, 303 upper and the basic circuit originally drawn. Position two of 300: Closed circuit for the electro-magnet 309 through the upper 310, the outer left frame at work of 325 and the contact 301. The rod 311 is pressed against the pulley 312 which communicates an upward movement to it.

   During this movement the brush 313 rubs on the segments of the switch 314 intermittently connecting the fundamental circuit to the ground between the relays 325 and 265, which produces a shunt for the latter. This earth is applied through the brush 313, the switch 314 and upper right 308.



  If the third digit transmitted by the connection to the disc is the number one, the excitation of 265 in series with 825 in the fundamental circuit, closes a circuit through the counter 0 relay, the right armature at rest. 0 ', the conductor 282, the first contact of the third recorder, the brush 239, the concluding 283, 262 on the right, and the working armature of 265. After the first connection of the earth to the fundamental circuit and the Neutralization which results from it of 265, the counter relay 0 'is energized and opens by its external armature on the left the fundamental circuit.

    By its left inner frame this relay closes a circuit through 274 for combiner 250 which moves to position eight. In its position seven, this combiner breaks the blocking circuit of relays 0 and 0 'at 273 and re-establishes this connection for its eight position. When 325 is neutralized, upon opening of the fundamental circuit, the circuit of the electromagnet 309 is opened and the vertical movement of the rod ceases. Relay 325 then closes a circuit to its left inner frame through right 307, and combiner 300 moves to position three.

   For this, the circuit of the tripping electromagnet 315 is closed at 305, and the set of brushes to be used during the next vertical movement of the rod 311 is thus determined.



  Position three of 300 and eight of 250: Fundamental fired cir closed through relays 325, 265 and 266 as previously described. Relay 266 is not energized due to the direction of current flowing in this circuit, but relays 265 and 325 are. Relay 325 closes a circuit through 307 and 301 to the combiner 300 which moves to its four position. The circuit of relay 325 is then broken, but a blocking circuit is closed through its right winding and armature, 302 and 308, and the fundamental circuit. In a manner absolutely analogous to that described for the switch SS ,, the rod 311 receives a second upward movement under the control of the fourth digit and the counter relays.

   It has been found unnecessary to describe in detail here the circuits necessary for these operations since these circuits can be easily realized according to fig. 1 .. After the final upward movement of the rod 311, the switch performs a search movement to choose a free outgoing junction line and it is assumed here that this line is represented by the fixed terminals 320, 331 and 322 connected. finally by ba lais 31.7, 318 and 319.



       During the second upward movement of the rod <B> 311 </B> the combiner 300 occupies its position four, and during the final search movement of this rod the combiner 300 occupies its position six.

   After this movement do search the position seven is reached through a circuit passing through 30 7 upper right, and the inner right armature at rest of 325, this last relay czya.nt been neutralized during the. search for a free outgoing junction line and when centering the brushes on the terminals of this line. Seven position of 300: closed circuit: in left bearing of 325 and contact 326. The combiner 300, excited through <B> 307 </B> and 301, goes to its eight position.

   As soon as 300 leaves its position seven, the circuit of 325 is broken at 326, but this relay is not neutralized at this time because a blocking circuit is closed through its right winding,: 302 upper and lower right , the armature (the right at work of 325, 329 lower left, the brush 318, the terminal 321, and 359 upper left and lower right.

   When the final switch FS comes into action, the relay 325 remains energized to keep the combiner 300 in its eight position during the selection movement of the final switch FS The fundamental circuit is now extended to the final switch FS, for the purpose of exciting 425. This circuit includes: right winding of 425, 363 and 364 lower left, terminal 320, brush 317, 331 and 303 upper, circuit originally drawn, and contacts 304 and 305. Relay 425 energized closes a circuit through 366 left for combiner 350 which moves to position two.

    The relay 425 remains energized on a blocking circuit comprising its right armature, 367 lower, and the preceding circuit. Relay 265, as well as the counter relays, are controlled on this basic circuit so as to determine the search movements of the final selector to connect the called line. The equipment necessary for these maneuvers has not been shown in the drawing, but it can easily be established by referring to the description concerning the preceding selectors.

   Following ordinary practice, the final selector is driven by three upward movements under the control of the recording and sending equipment. The first of these movements takes place during the excitation of 425 for the second position of 350, the second takes place for the fourth position of 350, and the third occurs for the six position of this combiner. When the .125 relay is neutralized as a result of the last or opening of the fundamental circuit, 350 occupying its position six, a circuit is closed through 366 on the right, the outer left armature at rest of .125, and <B > 371,

  </B> for the 350 combiner going to sa. new position. The line called F is now reached, and FS will try that line in the usual way to determine whether it is free or busy. In the first case, the conversation circuit is connected to the final selector and in the second case, this circuit is connected to devices producing an auditory occupancy signal. If the line is found free, 350 after the test maneuver comes to occupy its position fifteen or conversation position. The circuits producing this movement of the combiner are well known in telephony, and as they do not form an integral part of the invention they have not been described here.

    



  Position 8 1j2 of 350: neutralization of 325 for the rupture of its blocking circuit. Cir fired closed through upper right 307 and left inner frame at rest of: 325, for combiner 300 which goes to its new position. Relay 325 is then energized again through the following basic circuit: right key winding of 325, 333 and 304 lower, terminal 139, brush 136, previous circuit, brush 135, terminal 138, 303 upper, and 308 and 334 upper and lower left.

   The direction of the current flowing through this circuit is not opposed to that originally existing in the basic circuit, and hence the relays 266 and 265 are energized. After the transmission of the third digit by the recording and sending equipment, the combiner 250 goes to its eight position as was originally described. It was assumed that the recording and sending equipment was arranged to transmit a second series of pulses to the switch SSZ and three series of pulses to the switch FS3.



  As a result, after the transmission of the final or seventh series, 250 reaches its sixteen position. The relay 266 energized by the fundamental circuit brings 250 from positions 16 to 16 1/2 through a circuit comprising 274 upper left and the armature to work of 266. This last armature also closes a circuit through the brush 113 for the relay 148 which ex-cited opens the blocking circuit of 125. The neutralization of this last relay closes a circuit through 124, its inner right armature at rest, 123 upper right, and the combiner 100 which passes to its eleven position.

    After position ten of 100, the fundamental <B>. </B> circuit passing through relay 325 is interrupted at 128 and 129, and neutralized relay 266 closes a circuit through 274, on the right for 250 which moves from positions 161n to 17.



  Positions eleven of 100 and seventeen of 250: closed fundamental circuit; left winding of 125, 122 upper right and lower left, brush 120, 264, outer left armature at rest of 0 ', relay 265, left winding of 266, and 203 upper right and lower left.

   The relays 125 and 265 are energized, while 266 remains neutral. The relay 125 closes a circuit to bring the combiner 100 from positions eleven to fifteen, unless it is stopped in one of the intermediate positions, determined by the search for a conversation circuit by the recording equipment and d. sending as described below. The circuit closed by 125 includes: combiner 100, 123 upper left, inner left armature working 125, and contact 124.

   After position eleven of 100, the circuit of 125 is or green at 122, but a blocking circuit is established through its left winding and armature, 122 upper and lower left, and the basic circuit. When this fundamental circuit is closed through relay 265 for position seventeen of 250, a circuit is closed for relay 0 through the right armature at rest of <B> 0 ', </B> the conductor 282, terminal N 3 and recorder brush 237, conductor 284, 262, and armature to work from 265. The energized counter 0 relay closes a circuit for relay 0 'which however does not is not excited because of the presence of a working contact earth of 265.

    For the 115u position of 1.00, a ground is applied to the fundamental circuit between relays 125 and 2.65, through lower right and upper left 126, and the left armature of 125. Relay 265 is thus bypassed. and neutralized, which allows the excitation of 0 ', which breaks the fundamental circuit by its outer left armature, while it closes by its inner left armature a circuit cooked through 274 lower left for 250 which passes at its eighteen position. The blocking circuit of 0 and 0 'is thus interrupted.

    When the fundamental circuit is broken by the 0 'armature, the neutralized relay 125 opens the 100 circuit by its inner right armature. However, through its own contact 119, the combiner 100 continues its movement towards its position twelve which it occupies during the conversation.



  After the eleven position of 100, the circuit of 225 is broken at 116 and 117. The neutralization of 225 opens the circuit of 226 which however remains energized through a circuit passing by the brush 114, 147 lower, the inner armature of right at work of 125 and 124. This relay 226 therefore remains energized as long as the conversion circuit is not chosen, which takes place during the excitation of 125. When this circuit has been found, the recording and sending idle, ready to extend a call to another trunk line. This reestablishment takes place when 226, neutralized, closes a circuit through the contacts 230 to its right external armature to bring the combiner 200 into its fifteenth position.



  Position fifteen of 200: following circuits established to bring brushes 236, 237, 238, 239, 240 etc to rest: windings of the respective motor electromagnets 233, 234, 235 etc., sub-normal contacts <I> ON, </I> contact 294 and switch 295. Each electromagnet motor operates until its contact <I> ON </I> is open and then it stops with its brushes in the normal position. When all brushes 236, 238, 239 etc. have been brought to rest, the N contacts are closed and a circuit is established through these N contacts in series, 228 lower, and the combiner 200 which goes to its position one.

   After position ten of 200, a circuit is prepared to return combiner 250 to rest, and this circuit completed for position eighteen of 250 includes lower 261 and 241. The registrar having now returned to rest, an earth is placed on the terminal in contact with the brush 112 to release the recorder. This terminal is connected to this earth through the left armature at rest 226 and the contact 243 position one.



  The neutralization of 325 following the opening of the fundamental circuit in 128 and 129, closes a circuit through 307 upper right and the inner left armature at rest of 325, for the combiner 300 which leaves its new position . Suitable ringing circuits are usually provided for the SS switch. to supply inrush current to the called line through the junction line.

   As these circuits are well known in telephony, and as they do not form an integral part of the invention, their representation has been omitted from the drawings for the purpose of simplification, but it is assumed that the arrangements are such as the combiner 3U0 goes to its fourteenth position for which the called subscriber is rung. Position thirteen of 300: closed circuit: left winding of 325 and contacts 326. The energized relay 325 closes a circuit for 300 which goes to its fourteen or call position. This circuit includes: <B> 307 </B> upper left, left armature working from 325, upper 301, test terminal 140, brush 137, and 126 upper and lower right.

    For position fourteen, the circuit of relay 325 is broken at 326, but a blocking circuit is closed through its left winding, the armature at rest of the RCO bell switch relay, 310 lower, the rear mature outer left at work of 325 and the previous circuit. The combiner 300 occupies position fourteen during the call, and upon the called subscriber's answer, the RCO relay is energized in the ordinary manner through a circuit not shown, opening the blocking circuit of 325 which is overridden. .

   A circuit is closed through the inner left armature at rest 325, and 307 on the right, for the combiner 300 which moves to its fifteen position. Relay 325 becomes energized again through the circuit comprising its left rolling sound and contacts 326. A circuit is then closed through upper left 307, upper left armature at work of 325; Upper 301, test terminal 140, and earth as before, for the combiner 300 which moves to its sixteen position.

   For this position, relay 325 remains closed through its left winding, the resting armature of RCO, 310, the left armature of 325, upper 301, terminal 140 and contact 126.



  The combiner 100 being brought into its twelve position, by the recording and sending equipment and the combiners 300 and 350 respectively occupying their sixteen and fifteen positions, a conversation circuit is established. between subscribers A and R. This circuit comprises the primary winding of translator 154 connected to the calling line by contacts llti and 117.

   The secondary circuit includes the 135 brush, upper <B> 129 </B>, the highest part of the translator, 132 upper left, the 160 capacitor, 186 lower, the lowest part of the translator, 128 upper, and the broom 136. So only a part of the secondary windings of translator 154 are included in the talk circuit, since it is assumed that the connection is made through a short junction league joining the desks. Contacts 306 and 804 are now closed for position sixteen connecting the primary windings of translator 341, while the secondary windings are joined to the next switch by 629 and 631.

   In the final selector, the talk circuit is joined through 659 and 664 to the final brooms and calling line terminals with which they are in contact.



  When the called subscriber answers, direct current is sent on the circuit of the called line and the ex-cited 642 supervision relay places an earth by its armature on the upper conversation conductor through to the upper section of the translator primary. 341. Closed circuit: upper secondary battery 641, 333, lower conversation conductor, lower side of the conversation circuit described above, 166, polarized relay 181, 132, upper side of the conversation circuit and armature earth of 342. The relay 131 is energized, but has no action since the combiner 100 occupies its position twelve.

   For position 10 3/4 of 100, supervisory relay 152 is bypassed on the calling line A circuit. For positions three through eleven of 100, slow reset relay 153 has been and remains energized. . The excitation of 152 closes a blocking circuit for 153, through the armature at work of this relay. It follows that 153 remains energized after the eleven position of 100 and the opening of its circuit in 108 lower right.

    The relays 152 and 842 remain energized during the conversation, the current for the calling line being supplied by the battery of the translator 154 and that for the called line being supplied by the battery of the translator b41.



  When the calling subscriber hangs up his receiver at the end of the conversation, 152 is disabled, opening the blocking circuit of 153 which is also disabled. A circuit is then closed at the break contact of 153, and 149 upper left and lower: right for the combm.eur 100 which goes to its eighteen position. Closed circuit for the electromagnet 106 in 149 lower and upper left. The rod 134 pressed against the continuously rotating pulley 157 returns to rest.

   When this rod reaches its lower position the brush 141 makes contact with the plate 144 'and a circuit is closed through the lower combiner 100, 123, the plate 144' and the brush 141, which brings 100 into its unstable position. or normal position. After position seventeen of 100, the circuit originally drawn through relay 101 to keep the .TF junction line finder switch occupied, is broken at contact 115, and test relay 6 of this neutralized switch brings up his recovery in the well-known way.

   After position 141n of 100, the blocking circuit of 325 is broken at 126 lower right, and the neutralized relay 325 brings combiner 300 to position eighteen through a circuit comprising 307, upper right, and of inner left armature, 325. Eighteen position of 600: closed circuit: electromagnet 344 and contact 346. The rod. 311 comes back down. For its normal position, the brush <B> 313 </B> rests on the plate 314 ′ closing a circuit through to 307 lower left for the combiner 300 which returns to rest.



  After position 161l4 of 300: the earth connected to brush 619 through 664 upper right and lower is removed, and the opening of this circuit causes the re-establishment of the final selector FS, by opening the circuit connected to the test terminal 622 in the well-known manner. This circuit opening can be arranged so as to cause the re-establishment of the combiner 350 to its normal position. The whole installation has now returned to idle and can be used for a new call.



  The preceding description considers the case of a called line, reached by a short junction line, and we have seen how the desired number of windings on the secondary of translator 154 was chosen. This selection depends on the first digit of the called line.

    If the requested subscriber can only be reached by a long loaded line, the first digit of the number of this line is such that the brush 237 is brought to a contact connected to the counter relays so that two pulses are produced in order to '' bring the 1.00 combination to its thirteenth position during the choice of the conversation circuit.

   Consequently, the primary rolling of 154 is still included in the calling line as before, but the four sections of the secondary rolling of 154 are connected to the circuit. This can be drawn as follows: broom 135, upper 129, the two upper sections of 154, lower 132, capacitor 160, 163 upper, the two lower sections of 154, upper <B> 128 </B>, and broom 136. Using the maximum number of turns of the secondary winding of the translator produces a higher transformation ratio and more voltage is applied to the outgoing trunk line.



  If the number marked on the disc designates a line served by an interurban operator, the broom 237 occupies such a position (three pulses are read by the sender, and the combiner 100 occupies its fourteen position. The blocking circuit of 125 through its left armature and the fundamental circuit, is now broken as before at the outer left armature of 0 ', but relay 125 is not neutralized at this time due to the excitation of the re left polarized 131 by the battery of the operator position on the circuit originally traced through contacts 132 and 133.

   A circuit is then closed through the winding and the outer right arm at work of 125, 130, the armature at work of 131, and 126 lower. - This circuit is kept momentarily closed as long as the combiner 100 goes from its fourteen position to its fifteen position or conversation position, and this through the circuit comprising 123 upper left, upper right armature of <B> 125 </B> and contact 124.

   After the eleven position of <B> 100, </B> the slow reset relay circuit 153 is broken at 108 lower right, but 152 energized for the 10 "/ 4 position, the remainder to the 111th position by following the closing of contacts <B> 116 </B> and 117, and in this way the relay 153 is not neutralized before position 141J is reached. A moment later the circuit of 152 is broken, and before 153 is neutralized, a blocking circuit for this relay is closed through 151 and its arming to work, so this relay 153 does not neutralize for position fifteen.

   The relay 125 cannot be neutralized after the opening of the circuit of 131, because a blocking circuit exists through the winding and the armature on the left of this relay, the upper 126, the brush 137 and the earth in the position of the operator. For position fifteen, a direct metal connection connects brushes 135 and <B> 136 </B> as follows: brush 135, upper right 117, calling line, lower right <B> 116 </B>, and brush 136. The translator 15-1 is far from this circuit since the connection is made to an operator position.

   When the earth is removed from the test base 137 by the operator at the end of the conversation, the relay 125 is neutralized and closes a circuit for the combiner 100 through 123 upper right, the armature at the rest of 125 and 124. The combiner 100 moves to its sixteen position and when it leaves its position 114, the blocking circuit of 153 is broken at <B> 151. </B> A circuit is then closed through 149 upper left and lower right for the combiner 100 which passes to its eighteen position for which the restoration of the circuits takes place as explained above.



  For the sake of simplification, it has been assumed that the gender of the conversation circuit is determined, automatically and in accordance with the characteristics of the junction line, by the first digit of the number which fixes the position of the brush 23-7. It is however obvious that in the case of large central offices one can provide recorders choosing conversation circuits arranged similarly to 137, but operating according to the first two digits of the called number, or even according to an even greater number of digits. , and having their contacts interconnected in such a way that the type of conversation circuit chosen automatically depends, for example, on the first two, three or four digits of the called number.

   Finally, it is obvious that the invention is not limited to the particular kind of switches shown and described here, since it resides in the fact of automatically choosing the suitable conversation circuit independently of the other parts of the apparatus which may be. in accordance with ordinary practice.

 

Claims (1)

CLAIM Installation for a central telephone office in which a conversation circuit between a calling line and a subscriber located at a remote point, is made through a trunk line and a translator, by self-acting switches , characterized in that this translator is such that it can have different transmission characteristics and even be eliminated from the conversation circuit as the case may be, selector arrangements being associated with this translator in order to automatically determine either the transmission characteristic that it must present, either its elimination from the conversation circuit, according to the nature of the call received, that is to say according to the nature of the trunk line which is used to link the calling subscriber with the called subscriber. SUB-CLAIMS: 1 Installation according to claim, comprising selector switches serving to extend the conversation circuit to the called subscriber, and pulse sending devices. determining the movement of these selector switches, characterized in that the selector arrangements changing the transmission characteristics of the translator are arranged so as to be controlled by the pulse sending devices. 2 Installation according to claim and to sub-claim 1, wherein said pulse sending devices comprise recording and sending equipment, recording the pulses sent during a call, and a controller device controlling transmission of the recorded pulses, characterized in that circuit arrangements are provided for first actuating the selector switches under the control of the controlling device in accordance with the operation of the devices of the recording and sending equipment , in order to extend the conversation circuit to the called subscriber, then then to actuate the controller device also in accordance with the operation of the devices of the recording and sending equipment, either to change the characteristics of the translator, or to eliminate it, depending on the numerical designation of the called subscriber and, consequently, according to the nature of the junction circuit used to extend the connection circuit. 3 Installation according to claim and to sub-claim 1, characterized in that the selector arrangements comprise a combiner arranged to first control the search movement of one of the selectors under the control of the sending devices of pulses, then to move afterwards, still under the control of the pulse-sending devices, either in a position for which a determined number of winding sections are included in the secondary of the translator connected to the conversation circuit, or in a position for which a metal circuit is substituted for the translator circuit, and this depending on the nature of the junction line with which the conversion circuit is connected.