BE482584A - - Google Patents

Description

       

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  NETWORK FOR RESTRICTED TELEPHONE SERVICE
The present invention refers to automatic telephony networks and particularly to those which are intended to provide services of a different nature to different categories of subscriber stations.



   In an automated telephone network serving a central office district and neighboring suburban areas, calls from subscriber stations in the central district to reach subscriber stations in suburban areas usually go first to a distribution panel corresponding to the central district to then be transmitted by operators to subscriber stations in suburban areas. While this system is entirely

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 satisfactory from the point of view of its operation, it is necessary to use for its application to the central office a large table served by a large number of operators in order to transmit calls from the zone of this exchange to the sub-zones. urban.



   Following this, the present invention relates to an automatic telephony network comprising an improved switching device so that the subscriber stations of the first category served by the exchange can be provided with a corresponding series of services. making it possible to be connected to subscriber stations in suburban areas while the corresponding services are provided to subscribers of a second category served by the central office by excluding their connection with subscriber stations in suburban areas.



   Another subject of the invention is an automatic telephony network of the type described, thanks to which the first and second categories of services recalled above are provided to the corresponding categories of subscriber stations without taking into account the fact that these telephone stations. subscribers are connected to individual lines or to grouping lines.



   The invention covers an automatic telephony network of the type described comprising subscriber stations of the first and second categories connected to the same grouping line to receive corresponding services of the first and second category according to the stations considered.



   The subject of the invention is also an automatic telephony system in which the different categories of services are provided to subscriber stations, these different categories of services being determined selectively by means of

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 of an improved system comprising different types of digit transmission mechanisms at subscriber stations.



   Finally, another object of the invention consists of a telephone network comprising a first exchange corresponding to the subscriber stations of the first and second categories as well as an automatic switching device which can be reached by the said exchange while a sophisticated device enables this switching device to operate when a long distance call (this term applies to any call from another exchange)

   occurs in order to choose an unoccupied trunk line terminating at another central office, the switching device operating again to release the selected trunk line and to direct the call to an intercept operator station in case a subsequent command The rate executed by the calling subscriber station shows that it is of the second category which does not have the right to make such a long distance call.



   Further features of the invention relate to the particular arrangement of the circuit elements of the network, whereby the above-mentioned operation as well as further details described below are made possible.



   The invention will be better understood both from the point of view of the device and of the operation by referring to the following description and to the corresponding accompanying drawing, the single figure of which represents the details of an automatic telephone network to which the characteristics of the telephone are applied. The invention.



   If one refers more particularly to the drawing, it can be seen that it represents an automatic telephone network comprising an exchange 10 associated with a remote exchange 20. The exchange 10 is connected to the exchange 20 by a group of seven inter-line lines.

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 urban areas including line 81.



   The exchange 10 can serve a group of several hundred subscriber lines to which two categories of service are provided according to their own category, namely a r @@ trei @ t service and an unrestricted service, each service comprising private or individual lines and group lines. A first set of subscriber lines comprises the grouping line 30 connected to the subscriber stations T1 and T2 to which a restricted and unrestricted service must be rendered respectively. Each subscriber station to which unrestricted service is provided has the normal station equipment, while each subscriber station to which only restricted service is provided has a single-dial device or a transmission mechanism. single digit.

   For example, the subscriber station T1 to which an unrestricted service is provided comprises a device comprising a telephone apparatus 11, a switch hook 12 and a dial 13. The dial 13 comprises two impulse springs 14 and two return springs 15. Similarly, the subscriber station T2 to which a restricted service is provided comprises a device consisting of a telephone device 21, a switch hook 22 and a dial 23, the latter comprising two impulse springs 24 and two return springs 25 one of which is earthed from post T2. Each subscriber line has its individual circuit, line 35 being the individual circuit for grouping line 30. In addition, exchange 10 includes a series of selector-searcher sets each serving a set of one hundred lines. of subscribers.

   The first set of selector-seekers comprising the selector-seeker 51 serves the first set of one hundred subscriber lines comprising the grouping line 30 terminating at the subscriber stations T1

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 and T2. This first assembly comprising the selector-researcher 51 is associated with a distributor 40 which is specific to it and each selector-researcher is constituted by the selector and the corresponding researcher, ': / the researcher selector 51 thus comprising the selector 53 and the researcher 52.

   In addition, the exchange 10 comprises a series of sets of connectors or final selectors each serving a set of one hundred subscriber lines; the first set of connectors comprising the connector 61 serves the first set of one hundred subscriber lines comprising the grouping line terminating at the subscriber stations T1 and T2.



   The exchange 10 also comprises a group of trunk circuits connected to the end of the trunk lines of the group leading to the remote exchange 20, the trunk circuit 82 thus terminating the trunk line 82. There is also an interception operator station. in 95. The latter is located at the end of three trunk lines comprising in particular the trunk line 92 and terminating in another group of trunk circuits comprising the circuit 91. In addition, the exchange 10 comprises a set of lines secondary interurban including in particular the secondary line 100.

   Each of the secondary lines of this set, comprising the line 100, is associated with a supply line subjected to the action of the selectors of the searcher selectors of the different sets, the secondary line 100 being associated with the line of. feed 110 subjected to the action @u selector 53, of the searcher selector 51 of the first assembly. Each of the circuits of the group comprising the trunk circuit 82 comprises a feed line subjected to the action of the tracking switches interposed in the secondary lines 100, etc. The interurban circuit 82 thus comprises a feed line 84 subjected to the action of the switch

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 of pursuit 190 inserted in the secondary line 100.



  Each of the trunk circuits of the group comprising the trunk circuit 91 has a feed line subjected to the action of the push switches interposed in the secondary lines 100, etc; thus the interurban circuit 91 comprises a line (returned 90 subjected to the adtion of the tracking switch, 190 interposed in the secondary line 100.



   The remote exchange 20 serves a group of subscriber stations comprising the subscriber station T3 and it comprises automatic switching apparatus 83 of the Strowger type terminating the trunk lines 81, etc., and controlling the subscriber lines 85, etc, leading to the corresponding T3 subscriber sets, etc. In addition, the switching apparatus 83 can be controlled by the subscriber stations T3 through the subscriber lines 85, etc.



   Preferably, each of the searcher-selectors associated with the exchange 10 is identical to that 51 comprising a searcher 52 and a selector 53 of the Strowger type. The searcher 52 can reach the first set of one hundred subscriber lines including the grouping line 30, while the selector 53 can reach the different sets of connectors including the connector 61 of the first set and it can also reach the set of. secondary lines 100, etc.



  The connector 61 can be connected to the selector 53 by the intermediary of the corresponding supply line! and the secondary line 100 can reach the selector 53 through the corresponding supply line 110.



   Preferably, each of the secondary lines is identical to the secondary line 100 which comprises a group of relays, namely a response relay R120, a detector relay R130, a line relay R140, a control relay.

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 hold R150, a dial relay R160, an interception relay R170 and a pilot relay R180, as well as a follow-up switch 190. The follow-up switch 190 'is of the rotating type with four brushes 191 to 194 inclusive, associated with series of contacts which correspond to them individually, while the electromagnet M195 serves to advance the brushes in question step by step in the direction of the hands of a watch.



   The arrangement and the connections of the telephone network will be better understood by referring to the following description of the operating mode of the equipment which constitutes it, with a view to the transmission of the various communications from the subscriber stations of the central 10 . ' LOCAL CALLS FROM THE CENTRAL 10.



   It will first be assumed that a call is made from any one of the subscriber stations of the exchange 10, for example from the subscriber station T1 for which the service is not restricted. When the call is made to the subscriber station Tl by unhooking the telephone apparatus 11, from its switch hook 12, the latter closes on the visible link formed by the impulse springs 14 of the dial. 13 and passing through the line conductors 031 and C32 of the grouping line 30. The line circuit 35 is controlled by the grouping line 30 so as to earth the starting conductor C36 leading to the corresponding distributor 40.

   The latter therefore begins to function in such a way as to allocate an unoccupied searcher selector of the first set to the calling grouping line 30, that is for example the selector-searcher 51. The line circuit 35 further defines, by applying the potential of the accumulators to the control conductor 033 of the grouping line 30, the position of the latter in relation to the finder 52 and more

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 by applying the earth potential to the control conductor 034 it indicates to the connectors of the first set comprising the connector 61 capable of reaching the grouping line 30 that the latter is occupied.

   The searcher 52 of the selector-searcher 51 is controlled by the distributor 40 so as to find the grouping line 30, after which the subscriber of the calling station Tl perceives the dial tone and can proceed to the formation of his number by bringing on the dial the first digit of the called party's directory number. The selector 53 responds to this first digit by choosing the indicated set of connectors and then an unoccupied connector from that group.

   For example, the selector 53 may choose the particular connector 61 using the corresponding feed line 71, such that the operation of the connector 61 is under the control of the subscriber of the calling station T1. The subscriber of this calling station Tl will then bring to the dial the second and third digits of the directory number of the desired party @ so that the connector 61 chooses the subscriber line terminating at this subscriber station and checks whether the latter is occupied or not, the whole being done in the classic way.

   The subsequent operation of the connector is quite conventional and subsequently the cut of the link established to the called subscriber takes place when the subscriber of the calling station T1 places the receiver of his telephone apparatus 11 on its switch hook.



   It should be noted in passing that each time the subscriber of the calling station T1 operates his dial 13, the return switch springs 15 are brought into engagement so as to close the short circuit of the telephone apparatus. 11 in the usual way. When the control wheel of the dial 13 is opened, the impulse springs 14 transmit

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 on the grouping line 30 the pulses corresponding to the transmitted digit; when all the pulses corresponding to this figure have been transmitted, the group of return springs 15 of dial 13 acts again to pick up their circuit in the open position by cutting the short-circuit in question of the telephone set 11 in the manner usual.

   It will be noted that the series of return springs 15 comprises the spring 16 connected to the zero potential so that a single command cannot be applied on the grouped line 30 when the dial 13 is operated.



   Following the above description of the transmission of a local call from the subscriber station Tl whose service is not restricted, it will immediately be understood that a local call transmitted in the same way from from a subscriber station to which only a restricted service such as for example the subscriber station T2, is made and transmitted in an identical manner. It should be noted in passing that each time the dial 23 of the calling subscriber station T2 is actuated, the return springs 25 of this dial are brought into engagement to establish the short circuit of the telephone apparatus. 21 in the usual way. Likewise, each time the series of return springs 25 are thus actuated in this way, the spring 26 connected to ground is applied to the two conductors 031 and 032 of the grouping line 30.

   This application of a zero potential to the considered conductors of the grouped line 30 has no effect on the corresponding selector 53, etc., nor on the corresponding connector 61, etc. As a result, selectors such as 53 and connectors such as 61 respond to the corresponding digit brought on the dial of the calling subscriber station T2 so as to transmit the local call to the subscriber station in the manner already described.

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  INTER-URBAN CALL TRANSMITTED FROM CENTRAL POST 10 TO REMOTE CENTRAL 20.



   It will be assumed that a call occurs to the subscriber station T1 whose service by the exchange 10 is not restricted, that the searcher 52 of the searcher selector 51 has operated to find the grouping line 30 terminating at the subscriber station Tl, that the selector 53 of the same searcher selector 51 is arranged so as to react to the first digit brought to the dial of the calling subscriber station Tl and that finally the call is intended to be transmitted to a called subscriber station such as for example the subscriber station T3 of the remote exchange 20.

   The subscriber of the calling station Tl brings on his dial the first digit of the directory number of the called subscriber station T3 of the remote exchange 20, so as to operate the selector 53 and to choose an unoccupied secondary line from the remote exchange. corresponding group. For example the selector 53 can choose the line 110 leading to the secondary line 100, the line 110 being indicated as unoccupied by the application of the potential of the accumulators via the lower winding of the response relay R120 to the control wire. 0113 from line 110.



  When the selector 53 fuses line 11o, the branch circuit from the calling subscriber station T1 will include wires 0-111 and C-112 of line 11o which will be through contacts 121 and 124, the lower and upper windings of the detector relay R130, the winding of the line relay R140 and the impedance element 135 raised to battery potential and to ground respectively. This branch circuit leaving the call station being thus closed, the line relay R140 begins to operate, however the detector relay R130 does not operate according to the differential.

   When the on-line relay R140 operates, it closes / contacts 142 an obvious circuit causing the holding relay R15C to operate.

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 When the train-tien relay R150 operates, it closes on contacts 152 an obvious circuit applying the zero potential to the control wire C-113 of the line 110, which maintains the selector @ r finder 51 in the position in which it is. has been amgné and this designates line 110 as unoccupied to other selectors likely to reach it.



     Likewise, the holding relay R150 closes via the contacts 153 a circuit comprising the contacts 196-184 and 173 and intended to apply the battery potential by means of the electromagnet 1195 of the follow-up switch. 190 to the broom 193 of the latter. The brushes in question of the follow-up switch 190 are now in the position to which they were last brought and assuming that the brushes in question of the follow-up switch 190 ! cut the positions shown, the zero potential is applied to the brush 193 due to the grounding of the contact engaged with it in the series of corresponding contacts.

   As a result, the electromagnet 1 195 operates so as to interrupt the above-mentioned operating circuit at the right of the contacts 196. The electromagnet M195 is then de-energized and by means of the contacts 196 closes the circuit previously prepared for applying the potential of the accumulators to the brush 193 by the intermediary of the electromagnet M195.

   In addition, on operating and returning to idle the M195 electromagnet circuit drives the relevant brushes of the tracking switch 190 to make them take one more step clockwise. shows; consequently the brush 19 @ comes to rest on the contact of the series of corresponding contacts which terminates the control wire of @ the first trunk line connecting the central 10 to the remote central 20.

   The subsequent operation of the electromagnet

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 M195 depends on the busy or unoccupied state of the first trunk line in question connecting the exchange 10 to the remote exchange 20; if it is assumed that all the trunk lines connecting the said exchanges and preceding the trunk line 81 are occupied at this moment, the electromagnet M195 operates in the manner of a buzzer so as to drive the brushes (the l ' follow-up switch 190 to make them advance not in the dextrorsum direction and come to bear on the contacts of the corresponding series of contacts which terminate the supply line 84 leading to the interurban circuit 82 forming in turn the end of the interurban line 81 connecting the exchange 10 to the remote exchange 20.



   When the brushes of the tracking switch 190 thus bear on the contacts of the corresponding series of contacts terminating the supply or input line 84, all subsequent operation of the tracking switch 190 stops because the accumulator potential in the trunk circuit 82 is applied to the control wire of the feed line 84 and consequently to the brush 193 of the chase switch 190, closing a path roughly analogous to that which has been described above for the short circuit of the M.195 solenoid. At the same time a circuit comprising contacts 152-153 and 196 closes to energize the winding of test relay R180 in series with the electromagnet M195, so that this test relay R180 starts to operate. little time aorès, f @ it he is the late type at the start.



  However, the M195 electromagnet does not work due to the high series resistance of the winding of the test relay R180. While operating, the test relay R180 interrupts to the right of the contacts 18 @, the connection previously formed between the electromagnet M195 and the brush 193 of the inter-

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 following breaker 190 and this relay R180 closes via the contacts 183 a path comprising the contacts 152 and 173 for the application of a zero potential to the brush 193 and consequently to the control wire of the supply line 84.

   In addition, test relay R180 closes through contacts 181 and 182 a circuit comprising contacts 162 and 141 forming a branch on the upper winding of response relay R120 and passing through line brushes 191 and 192 of the. tracking switch 190 and hence on the line wires of fine line 84 so that trunk circuit 82 is in a condition for use. The application of a zero potential to the control wire of the feed line 84 also serves to give the busy signal of the trunk line 81 with respect to the tracking switches corresponding to the other auxiliary lines likely to reach it. .

   When the branch circuit referred to between the upper winding of the response relay R120 and the trunk circuit 82 is thus closed, the response relay R120 does not operate since it is interposed in a direction such that it operates at the result of a potential interruption in the branch circuit in question, as will be explained below in more detail. Consequently, and at this moment, the continuation switch 190 interposed in the secondary line 100 will have operated automatically so as to use the feed line 84 terminating at the trunk circuit 82 terminating the trunk line 81 connecting the exchange 10. at the remote exchange 20, when the selector 53 has operated to connect to the feed line 110 terminating at the secondary line 100.



  Also at this time, the trunk circuit 82 operates to control the connection between the trunk line

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 81 and the switching apparatus 83 of the remote exchange from which it follows that the switching apparatus 83 is able to operate according to the indications of this figure transmitted by the trunk line 81.



   At this moment, the subscriber of the calling subscriber station Tl brings on the dial the second directory digit of the called subscriber station T3 served by the remote exchange; it follows that the pulses of this second digit are transmitted from the dial 13 of the subscriber station 'Tl by the derivative circuit already indicated comprising the searcher selector 51 and leading to the line relay R140 in the secondary line 100 and consequently this line relay R140 is working. The first time that line relay R140 is de-energized, it closes through contacts 143, a circuit including contacts 151 operating dial relay R160.

   While operating, dial relay R160 closes through contacts 166 a multiple contact point connected to contacts 132 of detector relay R130 to close the circuit already indicated and keep test relay R180 energized. In addition, the dial relay 160 opens through the contacts 162 the circuit already indicated forming a derivation on the upper winding of the response relay R120, passing through the line wires of the supply line 84 and prepares through the lines. contacts 163 a replacement bypass for the call to the dial passing as described later between the line wires of the supply line 84.

   In addition, dial relay R160 closes through contacts 161 an obvious path for shorting the top winding of detector relay R130 and closes at contacts 164 an obvious path for shorting the impedance element. 135, whereby it improves the dial calling circuit from call station Tl to line relay R140. Finally, the R160 dial relay

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 opens at contacts 165 an additional point of the circuit indicated below to operate the interception relay R170.

   This being done, each time the line relay R140 is de-energized and operates again, it opens and then closes via the contacts 142 the circuit already mentioned, maintaining the Maintain circuit R150 in operation, so that the latter is maintained. in operation during pulse transmission because of its slow release type. Likewise, each time the line relay R140 is de-energized and operates again, it closes and then opens through the contacts 143 the circuit already indicated to keep the dial relay R160 in operation, so that the last one remains in the circuit. position to which it was brought during the transmission of the impulses since it is of the slow release type.

   Finally, each time the line relay R140 is de-energized and operates again, it then opens and closes via contacts 141 the dial call bypass in question, comprising contacts 163-181 and 182. and the brushes 191 and 192 of the tracking switch 190 and connecting the line wires of the lead line 84. As a result, the pulses of the second digit are repeated under the effect of the line relay R140, by the lines. contacts 141 in the line wires of the feed line 84 leading to the trunk circuit 82; This digit is therefore repeated by the trunk circuit 82 which transmits it via the trunk line 81 to the switching apparatus 83 in the remote exchange to make it function in a corresponding manner.

   By the way, it will be noted that each time the branch circuit already indicated between the line relay R140 and the calling subscriber station Tl is closed by the

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 impulse springs 14 of dial 13, the lower winding of detector relay R130 is energized; the upper relay of the detector relay R130 being short-circuited at this moment, the elective relay R130 operates and is brought to rest intermittently, This intermittent operation of the detector relay R130 has no action at this time,. causes the dial relay in operation R160 to keep open at contacts 165 the circuit indicated below intended to operate the interception relay R170.



   At the end of the call of the second digit by the calling subscriber station Tl, the line relay R140 is maintained in its operating position by keeping open by the contacts 143 the indicated circuit intended to keep in operation. the dial relay R160, so that the latter returns to idle shortly thereafter because it is of the slow release type. Returning to idle the dial relay R160 opens via contacts 161 the already mentioned circuit serving to short-circuit the upper winding of the detector relay R130 so as to force the latter to return to idle since both the lower winding and the upper winding of the latter now found excited and that it is of the differential type.

   Likewise the dial relay R160 interrupts at contacts 164 the path already indicated for the short-circuited adobe of the impedance element 135 and it opens to the contacts 166 the multiple connection point already mentioned connected to the contacts 132 of the detector relay at rest R130. In addition, the dial relay R160 again prepares at contacts 165 another point of the already mentioned circuit to operate the interception relay R170 and it opens at contacts 163 the already mentioned bypass between the line wires of the line of lead 84 for the dial call. Finally, it closes by means of the contacts 162 the primitive circuit already described comprising the winding

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 top of the response relay R120 between the line wires of the feed line 84.



   Likewise, the third digit and the following digits of the directory number of the called station T3 served by the remote exchange 20 are called on the dial, this call made to the calling subscriber station Tl served by the central 10 being repeated by the line secondary 100 which: transmits it to the interurban circuit 82 and from there via the trunk line 81 to the switching apparatus 83 of the remote exchange 20 to operate the switching apparatus 83 for line selection. subscriber 85 terminating at the subscriber station called T3.



    The subsequent operation of the switching apparatus 83 depends on the busy or unoccupied state of the called subscriber station T3, in the usual manner. If it is assumed that this called station T3 is unoccupied and that the call is received there with answer from the interested party, the switching apparatus 83 carries out the polarity inversion in the trunk line 81, in such a manner. so that the trunk circuit 82 performs the polarity reversal on the feed line 84. When the polarity of the latter is thus reversed, the upper winding of the response relay R120 is connected for operation.

   Response relay R120, when so operating, reverses polarity at contacts 121-122-123-124 of the branch circuit extending between call station T1 and line relay R140; this polarity reversal of the branch circuit considered can be used to ensure counting in the conventional manner. The link established between the calling subscriber station T1 of the exchange 10 and the called subscriber station T3 of the remote exchange 20 persists for any duration, at the request of the subscribers of the stations in question.



   When the subscriber of the subscriber station called T3 from the remote exchange 20, at the end of the conversation, the

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 receiver of the telephone on its switch hook, the switching apparatus 83 is controlled so as to ensure the reverse polarity on the trunk line 81 so that the trunk circuit 82 again inverts the polarity on the line feed 84 in order to return the response relay R120 to its initial position. The response relay R120 thus brought back to its initial position again causes a reverse polarity at the contacts 121-122-123-124 in the branch circuit going from the subscriber station T1 to the line relay R140.



  When the subscriber of the calling station T1 of the exchange 10 places the telephone receiver 11 back on its switch hook, the branch circuit defined above and terminating at the line relay R140 is interrupted so as to put the line relay back on. R140 in its initial position. When this line relay R140 is thus brought back to its starting position, it opens to cor @ acts 142 the circuit mentioned above intended to operate the holding relay R150, so that the latter returns to its rest position shortly thereafter since it is of the slow release type.

   The holding relay R150 thus brought to rest opens at contacts 152 the circuit already indicated serving to apply the ground potential to the control wire C-113 of line 110 as well as the circuit also mentioned serving to apply the ground potential to the line 110. brush 193 of the tracking switch 190 and thereby to the control wire of the supply line 84.

   When the control wire C-113 of the line 110 is thus no longer at ground potential, the finder 52 and the selector 53 of the selector-finder 51 are both released and the potential of the accumulators is applied by the intermediate of the lower emmpulament R120 to the control wire 0113 of the line 110; the latter will thus be indicated as unoccupied with respect to the selectors

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 of the different selector-researchers who can reach it.



   When the Fasse potential is no longer applied to the control wire of the feed line 84, the trunk circuit 82 is released so as in turn to release the switching device 83 which is connected to it by the trunk line 81. ; thus the subscriber line 85 terminating at the called subscriber station T3 is again indicated as unoccupied for the switching apparatus 83.

   When the finder 52 of the finder selector 51 is released as indicated above, the individual line circuit 35 corresponding to the grouping line 30 is controlled so as to remove the grounding of the control wire C34 of said line with reapplication of the potential of the accumulators to this control wire C34, so that the grouping line 30 is indicated as unoccupied at the connectors 61, etc., in the first group likely to reach it. In addition, when the ground potential is no longer applied to the control wire C-133 of the line 110, the holding circuit indicated above which keeps the test relay R180 in operation is interrupted so that this last relay returns to its rest position.

   At this time the secondary line 100 is completely free and all the devices used in the connection established between the calling subscriber station Tl of the exchange 10 and the called subscriber station T3 of the remote station 20 are completely free and available for calls. subsequent conversations.



   If it is assumed that a call has been made to the subscriber station T2 which can only receive a restricted service from the exchange 10, that the searcher 52 of the selector-searcher 51 has operated to determine the line of communication. group 30 leading to said subscriber station T2, which the selector 53 of the selector-searcher 51 is able to respond to

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 when the first digit called to the dial of the calling subscriber in T2 is called and the subscriber of the calling subscriber station T2 seeks to obtain a communication terminating at a called subscriber station dependent on the remote exchange 20,

   in this case the subscriber in T2 brings on his dial the first digit of the directory of the subscriber station of the remote exchange 20 in order to ensure the operation of the selector 53 in order to determine an unoccupied line in the group. including line 110 like this. has already been explained. Assuming that the selector 53 operates the particular line 110, the line relay R140 and the holding relay R150 of the secondary line 100 start to operate so that the chase switch 190 begins to operate, all this as explained above.

   More exactly, the tracking switch 190 operates in such a way as to determine an unoccupied line connecting the exchange 10 to the remote exchange 20 and it can be assumed that the said tracking switch 190 chooses the feed line 84 leading to the interurban circuit. 82. It follows that the switching apparatus 83 of the remote exchange 20 is controlled by the intermediary of the trunk line 81 so as to become capable of responding to the second digit of the directory number of the subscriber station called in the remote exchange. 20, the whole being done in the manner indicated above.

   At this time, the test relay R180 in the secondary line 100 begins to operate and the secondary line 100 is then able to repeat the second digit of the directory number brought to the dial of the calling station T2 as described.



   However, in the example considered, when the calling subscriber T2 rotates the dial disc 23 to prepare it to transmit the second digit of the directory number of the called subscriber station dependent on the remote exchange 20,

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 it brings into contact the series of return or inhibition springs 25. This brings the earthing of line wires 031 and C32 of the grouping line, and consequently of line wires C-111 and 0 -112 of line 110.

   This grounding of line wire 0-111 of line 110 closes an obvious bypass circuit allowing the series energization of the top coil of detector R130 and the coil of line relay R140; on the other hand, bringing to ground potential at the line wire C-112 of the line 110 closes an obvious short-circuit in series of the lower winding of the detector relay R130 and of the impedance element 135. As a result, the upper coil of the detector relay R130 is energized while the lower coil is short-circuited whereby the detector relay R130 operates since it is of the differential type.

   This operation of the detector relay R130 closes at contacts' .131 the already mentioned circuit comprising the contacts 165 for excitation of the coil of the interception relay R170 and the latter begins to operate shortly afterwards since it is of the operating type. deferred. The same operation of detector relay R130 opens at contacts 132 the holding circuit already mentioned, energizing the winding of test relay R180 in series with the electromagnet M195, which forces the latter relay to return to its position of. departure. Returning test relay R180 to the rest position opens at contacts 181 and 182 the branch circuit already indicated from the upper winding of response relay R120 to the line wires of feed line 84.

   Thus the trunk circuit 82 and consequently the switching device 83 of the remote exchange 20 are returned to the idle state.



  When the interception relay R170 starts to operate, as indicated above, it closes to contacts 171 a holding short circuit of said relay passing through contacts 152, interrupting to contacts 173 an additional connection in the indicated circuit. allowing to apply @

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 the accumulator potential via the electromagnet M195 to the brush 193 of the tracking switch 190t Similarly, the interception relay R170 closes on the contacts 172 a circuit comprising the scontacs 184-153 and 196 allowing the accumulator potential to be applied via the electromagnet M195 to the brush 194 of the tracking switch 190. This brush 194 is applied against a

  grounded contact of the series of corresponding contacts by virtue of the position of the considered brushes of the tracking switch 190 at this time. It follows that the electromagnet M195 works like a shaker so as to advance the brushes of the tracking switch 190 on the contact pads of the corresponding series of contacts, forming the terminals ending the other lead lines terminating in the trunk circuits forming the end of the trunk lines connecting the exchange 10 to the remote exchange 20.

   When the brush 194 of the follow-up switch 190 is driven and leaves the last grounded pad of the corresponding series of pads to come into contact with the next pad forming the terminal terminating the control wire of the first supply line of the group of three lines ending at interception station 95, the feed line considered is checked to define whether it is busy or not.



  Assuming that the first line 92 of this last group is unoccupied at the time considered, the accumulator potential applied to the trunk circuit 91 appears on the control wire of the feed line 90 to close a circuit to roughly identical to that already indicated for the short-circuiting of the M195 electromagnet. Consequently, at this moment, a branch circuit passing through the contacts 152-174 and 196 is closed so as to energize the winding of the test relay R180 in series with the electromagnet M195;

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 it follows that said test relay R180 operates with a slight delay since it is of the delayed operation type.



  However, the M195 solenoid does not work due to the high series resistance of the R180 test relay winding. The operation of this test relay R180 opens at contacts 184 the mentioned circuit serving to apply the accumulator potential to brush 194 through the electromagnet M195 and it closes through contacts 183 a circuit passing through them contacts 152 and 172 serving to apply the earth potentiem directly to brush 194. In addition, test relay R180 closes to contacts 181 and 182 a branch circuit roughly similar to that already indicated connecting the upper winding of the control relay. response R120 to the line wires of the feed line 90 leading to the interurban circuit 91.

   When the tracking switch 190 thus operates so as to control the supply line 90 terminating in the circuit 91, the latter operates so as to transmit through the line 92 a call signal to the interception station 95 to indicate & l ' operator of this set that a call awaits a response on line 92. Consequently, when the subscriber of the calling set T2 releases the disk from its dial 23, the second digit of the directory number of the called subscriber set dependent on the remote station 20 is transmitted to the line relay R140 to be transmitted by the latter to the trunk circuit 91 via the feed line 90, these various operations having no practical result at this time.



  While receiving the pulses corresponding to the second digit in question, the R160 dial relay starts to operate again and at the end of the transmission of the second considered digit, the R160 dial relay returns after a short delay to its rest position. by bringing the

 <Desc / Clms Page number 24>

 detector relay'R130. The operator of the. intercept station 95 then answers the call on line 92 so as to form a branch circuit from there through line 92, trunk 91 and feed line 90 to terminate at the top coil of the relay response R120 from auxiliary line 100.

   It follows that the upper winding of the response relay R120 is not connected in the direction intended to operate since the call has been transmitted to the interception station 95. As a result, at this time, the link was established between the calling subscriber station T2 and the interception station 95 of the exchange 10 and when the subscriber of the calling station T2 has completed placing on his dial all the digits of the call number of the called station of the remote center 20, the operator of the interception station 95 intervenes to say. to the subscriber of the calling station T2 that he is not allowed to directly call the remote exchange 20 since the service provided at the subscriber station T2 is restricted.

   The operator of the interception station 95 can undertake to transmit the communication to the requested station of the remote exchange 20 or else she can notify the subscriber of the calling subscriber station T2 to have to request the dial of the prepayment station. not shown after abandonment of the communication in progress.



  The connection established between the calling subscriber station T2 and the interception station 95 is abandoned in the conventional manner when the subscriber of the calling station T2 resets
21 place the receiver of his device / on its switch hook.



   IN SUMMARY, it emerges from the above description that the subscriber stations to which a restricted or unrestricted service is provided and connected to individual or group lines can selectively control the device (the

 <Desc / Clms Page number 25>

 automatic switching ensuring the response to local calls served by the exchange 10.

   However, only the stations of subscribers with unrestricted service connected to both individual lines and to grouping lines can selectively determine the operation of the automatic dialing device in order to obtain a response to suburban or long distance requests. leading to subscriber stations at remote station 20. ' In addition, in the event that restricted-service subscriber stations connected to individual or group lines attempt to obtain the operation of the automatic switching apparatus in order to succeed in suburban or long-distance requests corresponding to the telephone stations. subscribers served by the remote exchange 20, such calls are intercepted by the interception station 95 of the central 10.



   Although we have described above an embodiment which can currently be considered as the best with regard to the invention, it must be understood that various modifications can be made to it without those. - These fall outside the scope of the invention which consequently covers all the variants falling within the real spirit and possible modes of application of said invention.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

CLAIMS 1. Telephone network comprising at least two exchanges, several trunk lines connecting the exchanges between them and being able to cooperate with switching devices which can be controlled by the subscriber stations served by <Desc / Clms Page number 26> the so-called exchanges, characterized in that one of these exchanges comprises subscriber stations to which first and second category services are provided, means being provided to respond to the transmission of a communication from the 'one of the subscribers' stations to the switching device to control the latter automatically with a view to selecting an unoccupied line leading to the other central office while means are provided to respond to a command, supplementa: re starting from a first category calling subscriber station to transmit the call to the second exchange via the line selected beforehand and other means ./ respond to the additional command from a calling subscriber station from second category in order to block any subsequent transmission of the communication by the selected line in the second exchange so that any transmission of a call originating from a calling subscriber station from the first exchange can only take place in the case of first category subscribers. 2. Telephone network according to claim 1, characterized by means responding to the same additional command carried out at the calling subscriber station of the second category with a view to restarting the switching apparatus in order to free the line. long distance selected by the first ordering operation. 3. Telephone network according to claims 1 and 2 characterized by means responding to the additional command executed by the calling subscriber station of the second category to operate again the switching device to release the trunk line selection. - Born and also to transmit the communication from the second category calling subscriber station to an operator station that can cooperate with the switching device. <Desc / Clms Page number 27> 4. Telephone network according to claim 1, charac- terized in that the first and second category subscriber stations respectively comprise mechanisms for transmitting digits of different types, the mechanism for transmitting digits of the second category subscriber station. - line comprising a device responding to a command executed at said subscriber station to stop the transmission of a second digit from this second category calling subscriber station along the trunk line selected during the first operation of the digit transmitting mechanism. 5. Telephone network according to claim 4, characterized in that each subscriber station of the first category comprises a conventional encryption transmitter mechanism while each subscriber station of the second category comprises a transmission mechanism of the second category. single digit capable of carrying out the transmission of the corresponding digit in the conventional manner and capable of also performing a special command, this special command carried out by the single digit transmitting mechanism of the second category subscriber sets being intended to lock the transmitted - Zing of the corresponding digit along the trunk line selected by the first operation of the digit transmission mechanism. 6. Telephone network according to claim 1, characterized in that the switching apparatus comprises a first switch which can be reached by subscriber stations of the first and second category and a second switch capable of being. reached by the first switch which fatted it to operate, the selection of the trunk lines connecting the exchanges being carried out by the second switch. <Desc / Clms Page number 28> 7. Telephone network according to claim 6, charac- terized in that the first switch comprises a device responding to a digit transmitted from the calling subscriber station of one or the other category in order to operate. operate said switch and have it control the second switch, the latter being able to automatically select an unoccupied line connecting the exchanges as well as a device responding to the second control operation executed at a second category subscribed station. stops transmitting a. digit along the trunk line selected by said second switch. 8. Telephone network according to claim 1, characterized in that the first and second category subscriber stations are served by a grouping line capable of cooperating with an automatic switching device, the first subscriber stations. and of second categories being arranged so as to control transmission via the grouping line to the switching apparatus, while the means responding to the additional command executed at the switching device can be operated via the grouping line. a second category calling subscriber station in order to prevent any subsequent transmission of the switching. 9. Telephone network according to claims 1 - 6 and 8 characterized by a device capable of being controlled by means of the grouping line under the action of an additional command executed at a calling subscriber station of the second category, of so as to restart the switching device to automatically release the trunk line selected after the first operation <Desc / Clms Page number 29> control and transmit the group line communication to the operator station. 10. Telephone network substantially as described and shown.