BE380993A - - Google Patents

Description

       

   <Desc / Clms Page number 1>
 
 EMI1.1
 



  'P "CrfGcti0lJnCocnts aux Syst11} eS tG] Óp1oniQues autuatigu0S.



   The present invention relates in general to automatic telephone systems, but more particularly to systems in which line seekers are employed to connect a first free digital switch with a calling line; the main object of the invention is, briefly, to produce new and improved circuit arrangements for a switch-seeker system with the aim of making the system more secure, giving uniform service of higher quality and make it less expensive to install and maintain.



   According to one characteristic of the invention, the possibility of stopping a searcher on a busy line has been avoided.

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 by the fact that an improved connection circuit is provided which allows the researcher to pass on test contacts to which an auxiliary battery potential is connected. This improved connection circuit also allows the use of a less expensive line circuit than that successfully employed heretofore in a system of this type.



   Another feature of the invention is that an improved control equipment comprising relays is provided in common for a group of researchers in order to control the various functions of the researchers in this group. the researchers of a group are successively taken into service by the common control relays. and made unsuitable for selection on release for a next call, albeit free, until all seekers who are likely to be selected from the group have been taken on duty.



   The invention will be better understood on reading the description given below of several embodiments which are given by way of example and should be taken in conjunction with the drawings. The drawings comprising Figs. 1 to 5 inclusive, when they are arranged with figs. 1, 2 and 3 in a straight line from left to right or with fig. 4 and 5 substituted for fig. 1 and 3 with the corresponding numbering lines in alignment, show sufficient detail to permit a clear understanding of the invention.



   If we refer in more detail to FIG. 1, the selector SA shown on the left side is of the well known type of vertical and rotary switch and is. included in a finder selector connection. The finder switch FA is also of the vertical rotary type having wipers 230 to 235 inclusive which are moved first in a vertical direction and then in a rotary direction to select the contacts of a calling line. The finder's trotters are shown on the left side of fig. 2.



  As in the present embodiment of the invention, a seeker switch with a capacity of 200 lines is employed:

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 the FA seeker is provided with two series of wipers, the wipers 230 to 232 inclusive forming a series of wipers and the wipers 233 to 234 235 inclusive, the second series.



   The FA finder switch is also provided with a vertical test wiper 262, shown at the left corner of FIG. 2.



  The finder only includes the operating magnets and two switching relays. The two switching relays are relays of the type indicated in English patent 272872. The cores of these switching relays are provided with two windings which are separated by a magnetic spacer, a projection of which extends backwards and forms a stopper. back against which the relay armature rests. The coil at the heel end of the relay is the magnetizing coil and the flux produced by it passes through the path enclosing the rear magnetic stop, which is bypassed over the interval of air and no intensity of flux in this magnetizing coil forces the armature to operate.

   A very small current in the second winding or operating winding of the relay causes the relay to operate when it produces a flux in the same direction as the magnetizing winding. Using these relays as switching relays allows marking calling lines into the fixed contacts of finders by means of a potential through a relatively high resistance and impedance and prevents unwanted disturbances in the search circuit when the finder's test wiper encounters the auxiliary battery potential on a test contact before reaching the test contact of a calling line. All relays of this type have been shown in the drawing with tabs extending from their central parts.



   In the lower half of fig. 1, there is shown the DA searcher assignor comprising the advancement magnet 164, wipers 146 to 151 inclusive and several relays for controlling the different functions of the searchers. The DA assignor is common to several branchings of searcher-selectors, such as

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 that the FA and SA searcher selector connection shown at the top of fig. 1. The DA assignor is mechanically similar to the well-known rotary line switch while the circuit thereof has been modified in accordance with the present invention.



   There is shown in FIG. 2 the lines (the subscribers S and S and it has been assumed for the representation that the line number of the subscriber S is 125 and that the line number S 'is 295. Each line is associated with the relays standard line and interrupt circuits, the circuits of which have been modified in accordance with the principles of the present invention The normal connections of the fixed connector contacts are shown extending to the line and interrupt relays associated with the subscriber lines S and S '. In the lower part of fig. 2 there is shown the vertical fixed contacts VA and VB which with' the wipers 262 and 263 determine the vertical positions bl which the searcher switches must be operated. - 'born.



   In fig. 3 are shown the finder switch FB and the selector SB, these two switches being the doubling of those shown in FIG. 1 while halfway! lower part of fig. 3, the assignor DB is shown which is used to assign calls to searcher 'selector branches in this group. The DD assignor is, from a mechanical point of view, the same as the assignor shown in Fig. 1, but the circuits have been modified somewhat in accordance with the present invention. The DB assignor can be substituted for the DA assignor and vice versa without any change of circuit.



   There is shown in FIG. 4 a variant of the selector-searcher and assignor connection which can be substituted for the connection of the searcher and assessor selector shown in FIG, 1.

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   The SAM selector is identical to the SA selector shown in fig. 1 while the FAM finder has two additional relays, a transfer relay and a connection relay. In the lower half of fig. 4, a group of common control relays has been shown which are common to all the selector-finder connections in this group, or group A.



   This common relay equipment, or RDA assignor, is somewhat similar to the DA assignor shown in fig. 1 and instead of having a rotary switch to connect the common control equipment to the finder, a connection relay has been provided in each finder to connect the common control equipment thereto. A transfer relay is also included in the finder scope to extend the starting circuit until the next free connection of the finder selector.



   The FBM and SBM selector-finder connections and the common RDB control relay group shown in fig. 5 are identical to the equipment shown in fig. 4 and can be substituted for the switches shown in fig. 3 '
The common relay group or RDB relay assignor is used to control the various functions of the selector-seeker branches in group B, one of these being shown in the upper half of FIG. 5.



   In order to provide a clear understanding of the invention, it will now be assumed that the subscriber S starts a call and it will further be assumed that the seeker FA has been chosen by the seeker assignor DA and is ready to process. the call. Under the effect of the removal of the receiver from the hook switch at station S, the associated line relay 201! line S is energized to mark the calling line in the fixed contacts of the finder by placing a battery potential on it by means of the winding of the interrupt relay 202 and then placing the earth on the conductor of start 250.

   The grounding of the starting conductor 250 connects the ground to the second contact in the fixed VA contacts and also closes a circiit

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 for the start relay 163 in the DA searcher assignor. Assuming that both the SA selector and the FA seeker are in the normal position, the test relay 161 in the DA seeker assignor is energized to complete the start circuit for the FA seeker, after which the seeker is started in its vertical movement to search for the marking earth placed on the vertical fixed contacts VA.

   As the calling line S has a researcher designation of 125 and since this call is supposed to be handled by the group of researchers for which this line is first choice, it will be necessary for the researcher to make two vertical advancements to reach the floor containing the calling line.



  The placement of the earth on the conductor 250 and the resulting marking of the earth potential on the second fixed contact of the VA row forces the finder FA to stop on the second stage, after which its rubbers are rotated in this floor to choose the S line contacts.

   When the rubbers are rotated in the floor, tests are carried out simultaneously by the two series of trotters; the lower series of wipers comprising the wipers 233 to 235 inclusive try the line on which they rest, in this case line 121, and at the same time the upper series of wipers comprising the wipers 230 to 232 inclusive try the line on which they rest in the present case the line 221, and if neither of these lines is calling, the two series of wipers are moved to the next contact where the test is repeated.

   When the S line is encountered, the battery potential applied to the test contact associated with this line makes it likely to be chosen, which forces the FA searcher to stop on it and establish the connection in such a way. that the. calling line is connected to selector A.

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   When the switch establishes the connection to the calling line, the finder switching relay operates and connects ground to the common trigger conductor 136 extending to the assignor, after which the advancing magnet of the assignor 164 is actuated to prepare the assignor for choosing another free selector finder connection.



   The general operation indicated above explains the normal operation of the seeker and the assignor. It can happen in certain cases when a selector-finder connection such as the one shown in fig. 1 has been chosen by an assignor and a call is initiated by a subscriber such as S, the SA selector is in an out-of-normal state or the searcher selector connection is defective. In this case, the assignor test relay 161 is not energized and after a time interval, the relay 165 is energized to actuate the advancement magnet of the assignor in order to force the assigner to choose another finder-selector connection.



   In some cases, due to a fault, the seeker may not establish the connection and release the assignor, or the assignor may not function properly and in such a case a relay is energized in the assignor, controlled by a vibrating spring. The energization of this relay produces a warning and temporarily puts the DA assignor and the selector finder connection such as FA and SA out of action until the fault or fault is corrected by the attendant.



  Calls originating in group A are currently handled by assignor and group B selector-searcher branches, but in the event that all group B seekers become busy, assignor DA and branch- The selector-selector elements of group A are automatically put back into service.

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   The DA assignor and the branchings of selector-Seekers such as FA and SA in the. group A handles all the calls from subscribers in group A normally. In the case where all the selector-searcher connections of group A are busy; the busy common relay 162 in the DA assignor is de-energized and the DB assignor and the connections of selector-seekers such as FD and SB handle calls for the subscribers of group A. The operation of the assignor DB and branches- Seeker-selector elements, such as FB and SE; of group B is similar to the general operation that has just been described for group A of selector-seekers and assignor branches.



   The operation of the researchers. Represented in FIGS. 4 and 5 is similar to that of those shown in FIGS. 1 and 3, except that in each of the searchers a connection relay is energized to connect the first free searcher in the chain to the group of common control relays. A transfer relay, such as relay 404, transfers the call to the next free seeker in the chain in the event that the FAM seeker is busy when a call is started. The transfer relay is held latched after the finder releases until common busy relay 461 de-energizes when all searchers in the chain have been taken in service.

   By this arrangement the researchers of the group are successively taken into service.



   The general operation of the system having been outlined, a detailed description of its operation will now be given.



   We will assume that the S line wants to call. With the removal of the receiver, a circuit is completed from earth, through the normally closed contact and armature 206, conductor 253, switch hook, receiver, transmitter and device. call from station S, the driver

 <Desc / Clms Page number 9>

 tor 255,1 armature 209 and its normally closed contact and by winding line relay 201, towards the battery. Line relay
201, by energizing by the circuit- traced above applies to the location of the armature 207 a battery potential to the finder test contact by means of the winding of the interrupting relay 202, which makes the S line likely to be chosen for the researcher.

   At armature 205 the line relay 201 connects the earth to conductor 250 to earth the second vertical fixed contact in row VA and to complete a circuit extending from conductor 250 through resistor 251, conductor 260 , the armature 179 and its working contact, the winding of the start relay 169, the working contact and the armature 178, the switch contact 183 of the feed magnet 164 and by the winding of magnet 164 towards the battery. Due to the high resistance of the starter relay 163, the advancing magnet 164 is not energized by this circuit.

   The starter relay 163, on the contrary, is energized and at the armature 181, it prepares a point in the trip circuit for the advance magnet; at armatures 182 and 184, it closes a circuit to energize relay 161 if the seeker selector connection is in the normal position and is not faulty, and at armature 185 it prepares the circuit for change relay 165.



   Assuming that the seeker-selector connection is in the normal position, a circuit is completed to energize test relay 161 as follows: earth, contact and armature 184, lower winding of the relay 161, the make contact and armature 182, the guard slider 147, the conductor 141, the vertical springs out of normal 130 in their normal position, the release junction conductor 135, by the upper windings of polarization of the switching times 104 and 105 towards the battery. The switching relays 104 and 105 are polarized by means of this circuit but do not actuate their armatures.

   The relay 161, when operating, opens to the armature 196 a previously closed circuit for

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 change relay 165 before the slow acting change relay 165 has had time to operate; at armature 194, it closes a circuit through trotter 146 to excite line relay 102 of the SA selector, at armature 195 it closes a circuit to excite vertical magnet 109 of seeker, with ar - mature 197 he completes a locking circuit for himself, at the armature 198 'he prepares a circuit to keep the starter relay 163 energized until the switch establishes the connection, so that in the case where this finder switch is the last available free finder;

   the deactivation of the common occupancy relay 162 does not open; the starter relay circuit163, and at armature 199 it starts the vibration of the weight attached to it. Relay 160 is a slow to operate relay, and therefore during vibration of springs 199 the relay is not energized until a determined time after springs 199 are held closed At rest contact of armature 198 , relay 161 also opens a point in the trip circuit so that operation of shift relay 165 does not operate feed magnet 164.



   Line relay 102 of the SA elector is energized by the following circuit: earth, resistor 193, armature 194 and its working contact, wiper 146, conductor 140, conductor 154 , armature 119 and its normally closed contact, the upper winding of line relay 108, towards the battery. At armature 124, relay 102 closes a circuit to energize the release relay 101 and the release relay grounds, at armature 120, the release junction conductor 135.



  At armature 121, the release relay ICI opens another point in the selector release magnet circuit 106 and also opens another point in one of the parallel circuits for the common busy relay 162 that had been opened. prior to the rest contacts of the armature 124.

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  The common occupancy relay 162 is however kept energized by the earth provided by free selectors in group A.



   The circuit to excite the vertical magnet 109 of the finder can be drawn as follows: the earth, the armature 195 and its working contact, the armature 191 and its rest contact, the armature 186 and its contact of rest, the wiper 150, the conductor 144 and by the winding of the vertical magnet 109, towards the battery By the operation of the vertical magnet the wipers of the researcher are moved by one advance in the vertical direction, the wipers 230 to 235 inclusive being actuated, in front of the first stage of the finder-finder and the vertical test wiper 262 being actuated until it engages with the first contact of the row of vertical fixed contacts VA.



  As there is no earth on this vertical fixed contact, no circuit is completed for the change relay 165. the progress relay 166 is energized from the earth, supplied by the springs 111 of the vertical magnet by the conductor 139, and at the armature 191 it interrupts the circuit to the vertical magnet 109, after which the magnet is released and in turn opens to the springs 111 the circuit of the advance relay 166. The relay of advancement 166 by de-energizing, completes the armature 191 again the circuit for the vertical magnet, after which the vertical magnet raises the rubbers of a new vertical advance, and, at the spring 111, again completes the circuit for the advance relay 166.

   As the second vertical fixed contact has been earthed by the calling subscriber S, a circuit is completed to energize the change relay 165 as soon as the vertical magnet 109 is released under the effect of the excitation of the switch. advance relay 166. This circuit can be traced as follows: earth, the armature 205 and its working contact, the conductor 250 'the second vertical fixed contact, the vertical test wiper 262, the conductor 174, the conductor 145, the slider 151,1 'arma, - ture 189 and its rest contact, the armature 185 and its work contact and by the lower winding of the change relay

 <Desc / Clms Page number 12>

 165 and the winding of the advance relay 166 towards the battery.

   The advance relay 166 is kept energized in series with the change relay 165 until the moment when the change relay 165 is fully energized and has opened the initial excitation circuit for itself at frame 189. after having first completed a locking circuit for itself at armature 188.



   The change relay 165, by energizing, transfers, to the armature 186, the circuit for advancing the vertical magnet 109 to the rotary magnet 108; at armature 187 it prepares a circuit for the operating winding of switching relay 108, at armature 189 it prepares a circuit for the operating winding of switching relay 105, and at armature 190 it closes the circuit to maintain the starter relay 163 in the energized position independently of the common occupancy relay 162.



  The advancement relay 166, by de-energizing under the effect of the operation of the change relay 165, closes the armature 191 a circuit to energize the rotating magnet 108 as follows: the earth, the armature 195 and its contact armature 191 and its rest contact, 3: armature 186 and its working contact, the trotter 149, the driver 143. the armature 154 and its rest contact, the armature 158 and its rest contact and by the winding of the rotary magnet 108 towards the battery. The rotary magnet 108, by being energized, advances the wipers 230 to 235 inclusive until it engages with the first contact of the second stage and also turns the vertical test walker 262 out of engagement with the contacts of the vertical row VA.

   To springs 110; the rotary magnet 108 completes a circuit for the advance relay 166. after which this relay energizes and opens the circuit of the rotary magnet.

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  The further rotation of the FA seeker wipers depends on whether the test wipers 231 and 234 encounter negative battery potential or not.



  In the event that a negative battery potential is not present on one of the test contacts with which the test wipers 231 and 234 are now engaged, neither of the test relays 104 nor 105 is engaged. excited. Accordingly, when the rotating magnet 108 energizes the advancing relay 166, the advancing relay 166 in turn opens the circuit of the rotating magnet 108, the rotating magnet in turn opens the circuit of the relay. advance 166, after which the advance relay de-energizes and again closes a circuit for the rotating magnet 108. This cycle of operations continues until one of the test wipers 231 or 234 encounters a potential of battery negative.



   Assuming that no other line of the second stage of the fixed finder contacts is calling, apart from subscriber S, when the test wipers 231 and 234 are rotated until they engage with the fifth contact series, the test wiper 234 encounters a negative battery potential which is applied to it by the winding of the relay 202. When the test wiper 234 encounters this battery potential, the switching relay 105 is energized by the following circuit: earth, make contact and armature 189, wiper 151, lower winding of switching relay 105, conductor 173, test wiper 234, test contact engaged with the latter, the conductor 256, the armature 207 and its working contact and by the winding of the interrupt relay 202 towards the battery.

   Test relay 105 and interrupt relay 202 energize in series through the circuit shown above.

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   It should perhaps be mentioned that when the ICI release relay of the SA selector was actuated, earth was supplied by means of the release junction conductor 135 to the upper windings of the two switching relays 104 and 105 to produce the polarization effect. The circuit traced above passing through the lower winding of the switching relay 105 aids the circuit through the bias winding, with the result that the switching relay 105 energizes very quickly to stop the rotation. trotters.



   It should also be noted here that in the event that either of the test wipers 231 or 234 encounters an auxiliary measuring battery potential during the rotation before the calling line is reached, the potential of Auxiliary battery would close a circuit through the lower winding of the associated switching relay, but since this circuit would be in opposition to the circuit through the bias winding, the test relay would not be actuated. Likewise, if the test walker meets earth as a result of the line being occupied, the lower winding of the test relay is short-circuited and therefore unable to operate. .



   Interrupt relay 2Q2 disconnects at armature 206 and 209 line relay 201 and the normal battery and earth connections of the subscriber line conductors, and at armature 208 it completes a circuit. locking for itself and also prepare a circuit to protect the line from intrusion by means of the fixed contacts of the connector. The line relay 201, by de-energizing, removes the earth of the conductor 250 from the armature 205.



    'If we now come back to the FA researcher,

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 point where the switching relay 105 energizes in series with the interrupt relay 202, it should be noted that the frame 158 operates very quickly and opens the circuit to the rotating magnet so that it does not There is no possibility that the rotating magnet will operate to advance the wipers one further advance after the calling potential has been met by the 234 test wiper.

   To armatures 156 and 159, the switching relay 105 connects the lower series of wipers 233 and 235 and to armature 157 it connects the grounded release junction conductor 135 to the test wiper 234 by means of the conductor 173 so as to ground the test contacts both in the fixed contacts of the finder and the connector, to force them to be occupied for other researchers and for connectors, respectively, having access to these.

   Operation of armature 157 temporarily short-circuits the lower winding of relay 105 but this has no effect on a relay of this type because after it has once been activated. When energized, the relay is kept energized by its bias winding until earth is removed from the release junction conductor 135. At the NO contact of the armature 178, the relay 105 extends the armature earth. 195 to the common trigger conductor 136 to energize the advancing magnet 164 of the DA assignor.



   When the switching relay 106 connects the line conductors of the calling line S to the conductors 134 and 137, the dial switching sound is connected through these conductors to the calling line in the well known manner and when the calling subscriber hears the sound of the dial maneuvering, he knows that the researcher has found and is connected to his line, and that he can continue

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 nuer to establish the desired connection to the called subscriber, such as the operation of the wire selector. and of the remaining switches in the train of switches to the called line is old and well known, it is not necessary to describe or show their operation.

   By means of the vertical springs outside normal 129 of the finder, and also of the switching relay 103 of the selector, one of the multiple earth circuits of the common occupancy relay 162 is opened. In the event that all group A selectors or all group A searchers are busy or in an out of normal state, all the multiple earth to conductor 138 is removed and the circuit for the common busy relay. 162 is then open.



   If we now come back to the assignor DA; at the point where the advancing magnet 164 has been energized by the operation of the switching relay 105, the aid. mant 164, when energized, opens at switch springs 183 the starter relay circuit 163. The starter relay 163 then de-energizes and at armatures 182 and 184 it opens the locking circuit of relay 161. which forces this last relay to be released, and at armature 181 it opens the circuit to the advancement magnet 164.

   At armature 194, relay 161 disconnects the earth of conductor 134 so that the pulses transmitted by the calling device of the calling subscriber can act to actuate the line relay of the selector; at armature 195 it disconnects the earth from the advancement and tripping circuit; at armature 197 it opens another point in its own interlock circuit, at armature 198 it opens a point in-circuit for start relay 163, and at vibratory spring 199 it opens circuit d 'energization of relay 160 before the relay acts

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 slow 160 has had time to fully function. At armature 195, relay 161 also opens the latch circuit of change relay 165, after which the latter relay is de-energized.

   Relay 165, when de-energizing, disconnects at armatures 187 and 189 the earth of the lower operating windings of switching relays 104 and 105, and at armature 190 it opens another point in the circuit to maintain the relay. start 163 in the actuated state. The switching relay 105 is held in the actuated position by its upper bias winding.



   The advancing magnet 164, by de-energizing, advances its wipers 146 to 151 inclusive until it engages with the next series of fixed contacts culminating in the next branch of selector finder in group A. In the event that this finder-selector connection is in an out of normal position and is occupied, the vertical springs out of normal corresponding to the vertical springs out of normal 130 are actuated to connect the earth to the ground conductor similar to the guard conductor 141, which in this case continues until the next fixed contact with which the slider 147 is now engaged.

   This earth connection extends by means of the wiper 147, the armature 182 and its rest contact, the working contact of the armature 178, the switch springs 183 and by the winding of the coil. - front mantle 164 towards the battery. Magnet 164 operates like a shaker as long as wiper 147 meets the occupation-earth potential and as soon as wiper 147 encounters a guard conductor resulting in a free selector-finder connection, the rubbers of the seigneur come to rest in a

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 position such that they choose this free searcher-selector connection for the next calling participant.



   The searcher assignor DA therefore chooses another free searcher-selector connection as soon as the searcher with which it is associated has established the connection to the calling line.



   Since the FA seeker is a 0.200 point finder and therefore has two sets of wipers, it may happen that the test wiper 231, instead of the test wiper 234, meets the calling potential of bat- negative terie of the calling line while the test scrubber 234 does not meet it.

   In this case, the finder is actuated in the same way as described above and when the slider 231 encounters the negative battery calling potential on the test contact associated with the calling line, a circuit is completed to operate the switching relay 104 as follows: earth, the NO contact and armature 187, the friction contact 148, the conductor 142, the lower operating winding of the switching relay 104, lead 172, test wiper 231, and associated test contact to negative battery potential.

   The switching relay 104, by energizing, connects for use, to the frames 152 and 155, the upper series of wipers; to armature 153 it connects the release junction conductor, grounded, to the test contact of the calling line for guard purposes and to armature 154 it opens the circuit to the rotating magnet and also completes the circuit to the trigger conductor to trigger the assignor in order to choose another free selector-finder connection.



   In the event that the test walkers 231 and 234

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 would simultaneously encounter calling potentials, the two switching relays 104 and 105 energize and the energization of the switching relay 105 has no effect because the switching relay 104 disconnects the lower row of wipers. The calling subscriber can then complete the call to the desired called subscriber in the well known manner.



   When the called subscriber answers, the slow-to-release counter relay in the connector is momentarily energized to momentarily connect the auxiliary battery through the release junction line in order to actuate the home's counter. subscriber calling in a well-known manner.



   At the end of the conversation, when the calling subscriber replaces the receiver, earth is removed from the connector switch retainer conductor in the well known manner, whereupon the switch relay circuit 103 of the selector SA is open. The switching relay 103, on de-energizing, completes the circuit of the selector release magnet 106 in the well-known manner, after which the selector returns to its normal position. The release of the switching relay 103 also closes a circuit for the release magnet 107 of the FA finder by means of the armature 126, the armature 124 and the test springs 127, to the vertical springs outside. of normal 129 of the researcher.

   The seeker release magnet 107 energizes and returns the FA seeker to its normal position. When earth is removed from the restraining conductor in the connector switch, it is also removed from the release junction conductor 135 so that the circuit extending through the bias windings of the switching relays 104 and 105

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 is open to cause de-energization of these relays.



  When the SA selector and FA finder reach their normal positions, the circuits for their respective release magnets are opened to the out-of-normal springs and the switches are ready to be used in another call.



   If we now consider the operation of the assignor DA, shown in Figure 1, from the point where the starter relay 163 has been energized by the effect of a call, we will assume that the negative battery is not connected to the guard conductor 141 because the SA selector or the FA searcher is in an out of normal position or because of a fault. Under these conditions, the circuit for relay 161 is not completed and consequently the slow-to-energize change relay 165 will have had time to operate fully through the circuit: earth, the contact of work and armature 184, armature 196 and its normally closed contact and by winding change relay 165 to the battery.

   Relay 165 energizes and at armature 190 completes a circuit to energize the feed magnet 164 which in turn at switch springs 183 interrupts the starter relay 163 circuit. This causes the starter relay 153 to de-energize and open the circuit for the advancing magnet 164 and the change relay 165. De-exiting the advancing magnet 164 advances the wipers of the DA assignor towards another free searcher-selector connection and when this connection is found, the call continues in the same manner as described previously.



   Another circumstance that can occur is that the researcher does not establish communication within a certain timeframe as a result of a fault. If we consider the

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 case in which the finder has been taken up and activated but has not established the connection within a determined time and in which therefore the assignor has not triggered and has not opened the circuit for the slow-to-operate relay 160, under these conditions the vibrating springs 199 stop vibrating after a determined time they are kept in contact, after which the slow-to-operate relay 160 is actuated.

   Relay 160 completes to armature 192 a latching circuit for itself from earth, through make contact and armature 383, conductor 114, jack springs 169, make contact and armature 192 and by winding relay 160, to the battery. When this occurs the relays 161, 162, 163 and 165 are in the energized position. At armature 168, relay 160 opens the circuit of common occupancy relay 162 and at armature 167 it completes a circuit to operate feed magnet 164 as follows: earth, l The armature 195 and its work contact, the armature 167 and its work contact, the work contact and the armature 181 and by winding the feed magnet 164 towards the battery.

   The feed magnet 164, when energized, interrupts the starter relay 163 circuit to the springs 183, after which the starter relay de-energizes. At the armature 181, the relay 163 opens the circuit of the advancing magnet 164 to force the rubbers of the assignor to advance to the next connection of the seeker-selector; at armature 182 and its rest contact it prepares the assignor selection circuit and at armatures 182 and 183 it opens the locking circuit of relay 161 which de-energizes.

   Relay 161, when de-energizing, opens at armature 198 'the latching circuit of relay 165, which

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 forces this relay to de-energize and at the vibration springs 199 it opens the initial energization circuit of the slow-to-operate relay 160, which relay, however, is maintained by the latch circuit drawn previously.



  All relays in the DA assignor except relay 160 are de-energized and relay 160 remains energized so as to keep the circuit to the common occupancy relay 162 open, so that all calls from group A are now transferred to the assignor DB and are processed by the selector-finder connections such as FB and SB shown in Figure 3, as a result of the engagement of the frame 179 with its rest contact.



  At armature 178, the common occupancy relay opens the advancement circuit of advancing magnet 164 to prevent unnecessary operation of magnet 164 when all researchers in group A are busy and out. armature 180 it removes the earth of conductor 115 to open, a point in the latching circuit of monitoring relay 353 in the assignor DB in the event that this relay is. excited at this time. Until the agent in the switch room corrects the fault, calls from both groups A and B are handled by assignor DB and selector-seeker connections from group B.



  In the event that all group B selector-finder connections become occupied, the common occupancy relay 358 in the DB assignor de-energizes and disconnects the earth from conductor 114, after which the interlock circuit of the relay 160 is open and the de-energize relay to complete the circuit again for the common busy relay 162. After relay 162 energizes, calls are processed by the assignor and seeker connections. - selector in group A in the same way

 <Desc / Clms Page number 23>

 as previously described.



   It will now be assumed that when station S starts a call all seekers in the group containing the seeker FA are busy, in which case the call is handled by the seeker in the group containing the seeker FB, provided that no call is in progress at this time in group B. Note that placing the earth on conductor 250 and contact 2 of the vertical row of fixed VA contacts also places earth on the contact 9 of vertical row VB. Note that the rows of fixed finder contacts are reversed between group A and group B so that the lines appearing in the lower half of fixed contacts of group A finders appear in the upper half of fixed contacts. of researchers from the B.

   Under the effect of the grounding of the conductor 250 and as all the selector-finder connections, such as FA and SA, are occupied and the common occupancy relay 162 is in the de-energized position, the start relay 359 in the assignor DB is excited to put a finder in group B, for example the finder FB, in operation in a vertical direction until the vertical slider 263 meets the marked fixed contact, in this case the ninth fixed contact in the vertical row VB. The finder's rubbers are stopped in this stage and are rotated in a horizontal direction until they engage with the fixed contact of the calling line.



   Similarly, the line S 'has group B hunters as the first choice and calls are handled by the switches of group B in a manner more or less similar to that described for 1 s. switches of group A. While the selector-finder connections in groups A and B are identical,

 <Desc / Clms Page number 24>

 it should be noted that the circuits of the assigners DA and DB are different and in order to describe the operation of the assignor DB, it will be assumed that the line S 'starts a call.



   By the fact that the subscriber S 'has removed his receiver, the line relay 203 is energized by the conductors 257 and 259 and the called subscriber loop. At the armature 210, the line relay 203 grounds the second fixed contact in the vertical row VB and also connects the ground to the starting conductor 261 by means of the resistor 253.



  At armature 212, relay 203 connects the negative battery through the winding of interrupt relay 204 to the calling line test contact to mark line S 'calling.



   Under the effect of the grounding of the conductor 261, the starting relay 359 is energized by means of the armature 381 and this relay completes the armature 384 with a circuit for operating the differential relay 357 as follows: , the normally closed contact and the armature 374, the normally closed contact and the armature 380, the armature 384 and its work contact, the armature 397 and its rest contact and by the lower winding of the relay differential 357 to the battery. At armature 385, the start relay 359 prepares a circuit for the two phase relay 355 and at armature 386 it closes a circuit to energize the auxiliary start relay 362 in the event that the relay 362 is not not shorted by guard slider 347.

   The differential relay 357 energizes and vibrates the left springs 377 and 378. In the event that the DB assignor and the selector-seeker connections are functioning properly, the differential relay 357 does not perform any useful function at this time.

 <Desc / Clms Page number 25>

 



  Assuming that relay 362 is not shorted by means of guard slider 347, it energizes by the following circuit: earth, armature 382 and its make contact, the armature 386 and its working contact, the winding of the relay 362, the armature 379 and its working contact, the switch springs 376 and by the winding of the advancing magnet of the distributor 363 towards the drums. Due to the high resistance of the auxiliary starting relay 362, the advancing magnet 363 is not energized by the circuit traced above.

   However, relay 362 energizes and at armature 394 it closes a circuit to energize selector SB line relay 302; at armature 395, it closes a circuit to energize the vertical magnet 309, at armature 396 it prepares a latching circuit for change relay 360, at armature 397 it opens circuit s extending through the lower winding of the differential relay 357 and closes a circuit to energize the upper winding of the differential relay 357; at armature 398 it prepares a circuit for the change relay 360 and at armature 399 it closes a circuit to temporarily hold the common occupancy relay 359 in its energized position.

   Line relay 302 in selector SB energizes and release relay 301, when energizing, grounds armature 320 to release junction conductor 335 and also energizes the top bias windings. switching relays 304 and 305 of the researcher FB. At armature 324, line relay 302 also disconnects a disconnection! of earth in multiple connected to the common occupancy conductor 338 to keep energized the common occupancy relay 358 in the assignor.

   When the circuit extending through the lower bearing of the differential relay 357 is open

 <Desc / Clms Page number 26>

 by the operation of armature 397 and a circuit is closed by the upper winding, the magnetic flux is established in opposition to the magnetic flux created by the lower winding, with the result that the differential relay 357 releases its armatures 377 and 378 and very shortly thereafter, restarts these armatures to vibrate the ballasted springs so as not to operate the differential relay 356.

   Relay 366 is a slow-to-operate relay and will not operate, until weighted springs 377 or 378 have stopped vibrating, to keep its circuit closed for a period of time.



   The circuit for energizing vertical magnet 309 can be traced as follows: earth, make contact and armature 395, the normally closed springs controlled by armature 392, armature 388 and its contact rest, the wiper 350, the conductor 344 and by winding the vertical magnet 309 towards the battery. By operation of the vertical magnet 309, the wipers 236 to 241 inclusive and the vertical test trotter 263 are actuated vertically one advancement to bring the vertical slider 263 into engagement with the first vertical contact in the vertical fixed contacts VB and to position the wipers 236 to 241 inclusive in front of the first stage of fixed line contacts.

   The out-of-normal vertical springs 329 are actuated under the effect of this first vertical advance to prepare a circuit for the finder's release magnet 307 and to open one of the multiple earth connections to the common occupant conductor. 338. At the vertical springs out of normal 330, earth is connected to conductor 341 to prepare a new point in the circuit.

 <Desc / Clms Page number 27>

 lock of the change relay 360. At armature 311, the vertical magnet 309 completes an excitation circuit for the advance relay 361 which then energizes and at armature 393 opens the circuit extending through the upper winding of the differential relay 357 and closes a circuit to energize the lower winding of the differential relay 357.

   This causes the differential relay to be de-energized and immediately re-operated to cause the weighted springs 377 and 378 to start vibrating again.



  At armature 392, the advance relay 361 opens the circuit of vertical magnet 309 and the vertical magnet, when freeing itself, opens at armature 311 the circuit of advance relay 361. This interaction between vertical magnet 309 and switch relay 361 continues until vertical test wiper 263 meets earth on test contact of vertical contact row VB . In this case, since the second vertical test contact is grounded, the researcher will have made two steps to reach that contact and as a result a circuit is completed to energize the interrupt relay 360 when the earth is removed from conductor 339.



  This circuit extends as follows: earth on test contact 2, wiper 263, conductor 374, conductor 345, wiper 351, armature 391 and its rest contact, armature 398 and its working contact, the lower winding of the change relay 360 and by the winding of the advance relay 361 towards the battery.



  In this circuit, relay 361 is kept energized in series with change relay 360 until the latter has completed its lockout circuit at armature 389 and then has opened its initial exci circuit. - tation to the frame-391. At frame 390, the remake of

 <Desc / Clms Page number 28>

 change 360 completes a circuit to energize the upper winding of differential relay 357, with the result that differential relay 357 gives the weighted springs an additional shock to keep the springs vibrating.

   At armature 387, change relay 360 prepares a circuit for the operating winding of the polarized test relay 304 and at armature 391 it prepares a circuit for the operating winding of the test relay. 305 by simultaneously opening its initial excitation circuit and the advance relay circuit 361. At armature 388, the change relay 360 changes the advance circuit of the vertical magnet 309 to the magnet rotary 308. The latching circuit for the change relay 360 extends by means of the finder scope vertical out-of-normal springs 330, through the conductor 341, the wiper 347, the armature 396 and its contact. the armature 389 and its work contact and by the upper winding of the change relay 360 towards the battery.

   As soon as the advancement relay 361 de-energizes, the advancement circuit for the rotating magnet 308 is completed and by the operation of the rotating magnet the seeker rubbers are rotated into engagement with the first contact in the selected stage, and at armature 310 the circuit for re-energizing the advancement relay 361 is completed. The progress relay 361 opens again at. armature 392 the circuit to the rotating magnet. The continued rotation of the wipers depends on the encounter of a call potential by the test wipers.

   By the operation of relay 361, the advancement circuit to the rotating magnet is interrupted and the rotating magnet interrupts the circuit of the advancing relay 361, with the result that this interplay between the rotary actuator 308 and the pelais.

 <Desc / Clms Page number 29>

 Advance 361 advances the finder scopes step by step over the fixed contacts until a calling potential is encountered by either of the test wipers 237 or 240.

   When the test wiper 237 meets the calling potential applied to the test contact of the line S ', a circuit is completed to operate the switching relay 304 as follows: earth, the normally open contact and the armature 387, wiper 348, conductor 342, lower operating winding of switching relay 304, conductor 372, wiper 237, test contact of line S ', conductor 258, the armature 212 and its working contact and by the winding of the interrupt relay 204 towards the battery. Interrupt relay 204 and switch relay 304 energize in series, and interrupt relay 204 disconnects the normal battery and ground connection of the subscriber line.

   The switching relay 304, to armatures 352 and 355, connects the upper series of wipers to conversation conductors 334 and 337, to armature 353, it connects the grounded release jumper conductor 335 at the test contact of line S 'to keep the line from intrusion, and at armature 354 it opens the circuit extending to the rotary magnet 308 and connects the advancing earth to the conduc - common triggering agent 336. The calling subscriber S 'can then complete the remainder of the connection in the well-known manner.



   The earth applied to the common trip conductor 336 is extended to the winding of the magnet 363 after which, at the switch springs 376, the magnet 373 opens the circuit of the auxiliary start relay 362. so that the relay de-energizes. Relay

 <Desc / Clms Page number 30>

 362, by de-energizing, removes from armature 394 the earth of the upper winding of line relay 302 so that the line relay can act under the effect of the pulses;

   at armature 396 it disconnects the earth of the advancement and tripping circuits, at armature 396 it opens the locking circuit of changeover relay 360 and it prepares the advancement circuit for the distributor DB, at armature 397 it reverses the circuit again towards the differential relay 357 in the event that the rage release relay is kept energized and at armature 399 it opens the locking circuit extending by the winding of the relay common occupancy, so that the latter relay can be released in the event that all the selector-searcher connections are interrupted.

   As, the circuit of advance by the magnet 363 is now open to the armature 395, the magnet de-energizes and advances the rubbers 347 to 351 to the contacts of the next branch of the searcher selector. , and in the event that this selector-seeker connection is occupied, the friction device 347 meets the earth, with the result that the advancement magnet is again energized and again interrupts its second circuit to advance the rubbers step by step in the search for a free connection of a selector-finder.



  Magnet 363 continues to operate as a shaker until wiper 347 no longer meets the occupancy potential, after which the wipers stop in engagement with the next free-off branch. reader-researcher.



   When the line relay 203 de-energizes, under the effect of the excitation of the interrupt relay 204, the line relay 203 removes, at the armature 210, the earth of the start-up conductor 252 in order to de-energize the relay. 359. However, in the event that another

 <Desc / Clms Page number 31>

 born from group B would be calling at this time, the start relay 359 would be kept energized but the auxiliary start relay 362 would be kept short-circuited from the earth potential encountered by the wiper 347 until the The assignor has chosen the following free connection of selector-searcher.



   The operation described above is the normal operation of the assignor DB and the differential relay 356 controlled by the vibrating springs 377 and 378 has not energized because its circuit has not been maintained. closed long enough by the vibration springs 377 and 378. It will now be assumed, on the contrary, that because of any fault, the auxiliary starting relay 362 has not functioned properly after the starting relay 359 has switched on. excited under the effect of a call.

   In this case, the circuit previously drawn for the differential relay 357 is held closed for an interval of time sufficient to allow the vibrating springs 377 and 378 to be held in engagement and a circuit is therefore closed to actuate the differential relay 356 as follows: earth, rest contact and armature 374, work contact and armature 380, armature 384 and its work contact, armature 397 and its rest contact, vibrating springs 378 currently closed and by the lower winding of the differential relay 356 to the battery.

   At armature 373, differential relay 356 completes a circuit to energize the advancing magnet 363, at armature 374 it opens its own excitation circuit as well as the circuit extending to the lower coil of the relay differential 357, and at armature 375 it completes a circuit to energize the two-phase relay 365 in its first phase; to this

 <Desc / Clms Page number 32>

 At the moment it only closes the springs 372 to prepare a latching circuit for itself. After a short time interval, the differential relay 356 de-energizes and at armature 373 opens the circuit to the advancing magnet 363 , after which the rubbers of the assignor DB are advanced a notch;

   at armature 374 it again prepares a circuit for differential relay 357 and at armature 375 it removes the short circuit from its own lower winding with the result that relay 355 is energized by means of its two windings in series in its second phase to operate armatures 370 and 371. At armature 370, the two-phase relay 355 closes a circuit to energize the slow-to-operate warning relay 353 and at armature 371 it prepares a circuit to energize emergency warning relay 354.



  Relay 353 closes armature 365 a circuit to operate a warning device which indicates to the attendant an incident of incidental trouble, and armature 366 completes a latch circuit for itself from the conductor set. to earth 115 by means of spring jacks 364. If the auxiliary start relay 362 operates properly when the following selector-searcher connection has been chosen, the differential relay 357 is actuated in the manner previously described. - the differential relay 356 does not energize a second time and the switch operates in the same manner as described previously.

   However, in the event that relay 362 does not operate when the new selector-selector connection is chosen, the differential relay 356 is re-energized after a short interval and on this occasion closes the circuit of relay 354 which energizes. and locks to frame 368 and, to frame 369,

 <Desc / Clms Page number 33>

 issues an emergency warning. At armature 367, relay 354 opens the circuit of common busy relay 358 and this latter relay de-energizes and transfers calls to group A in the same way as described for transfer. calls from group A to group B.



   In the event that the progress relay 361 or the change relay 360 does not operate properly within a determined time, the differential relay 357 is kept energized, as described, for a time sufficient to energize the differential relay 356. to force the assignor to issue a warning, to advance the assignor out of a particular selector-finder branch and to introduce an emergency warning in the event that the same fault occurs after the assignor chose another selector-finder connection.

   The reason for the two warnings is that if only the ordinary warning sounds, the trouble is incidental in nature, perhaps in the selector-searcher connection, and if the attendant is busy with other important work the trouble may be. neglected for the moment, tahdis that when an emergency warning sounds, the disturbance is serious enough and in all probability the disturbance is in the assignor and therefore all of group B is no longer available for handle calls. When hearing the emergency warning, the attendant therefore immediately takes the necessary measures to correct the fault.



   In order to describe the modifications shown in Figures 4 and 5, Figure 4 is substituted for Figure 1 and Figure 5 is substituted for Figure 3. As a result of the removal of the receiver by the calling subscriber. S, the conductor 260 is grounded by the effect of the

 <Desc / Clms Page number 34>

 operation of the line relay 201 and the start ruler 464 is energized by the following circuit; of the earthed conductor 260, by the armature 471 and its normally closed contact, the normally closed contact and the armature 474, the closed contact and the armature 487 and by the winding of the start relay 464 towards battery.

   To armature 481, relay 464 connects the negative battery via resistor 480 to conductor 451 from which it is extended by means of the normally closed springs controlled by armature 429, by the winding of the relay. 405 connection to earth; at armature 459 it prepares a latching circuit for relays-463 and 465 and also prepares the advance circuit for the vertical and rotary magnets of the seeker and at armature 482 it closes a circuit to excite the re - slow change leave a. energize 465, which however is normally open at armature 475 before slow-acting relay 465 has had time to fully operate.

   Connection relay 405, energized by the circuit traced above, closes armature 430 a circuit for test relay 463 and the bias windings of relays 406 and 407 in series; at armature 431 it opens a point in one of the latch circuits of transfer relay 404 and prepares an excitation circuit for this relay; armatures 432 and 433 it prepares circuits by the operating windings of switching relays 406, and 407, at armature 434 it prepares the circuit for the rotating magnet 409 and at armature 435 it completes a circuit of excitation for the vertical magnet 410.

   The circuit for energizing test relay 463 can be traced as follows: earth, armature 477 and its normally closed contact, lower coil of relay 463, conductor 454,. contact 'and the armature 430, the release junction conductor 415 and by

 <Desc / Clms Page number 35>

 the bias windings of the switching relays 406 and 407 to the battery.

   Relay 463 completes armature 476 with a latch circuit for itself before it opens its own drive circuit to armature 477; at armature 475 it opens the circuit for slow-acting change relay 465; at armature 478 it prepares a circuit for slow-acting relay 460 and at armature 479 it places a bypass around armature 487 to keep the starter relay energized independently of the change relay 465. The circuit for energizing vertical magnet 410 can be traced as follows: earth, make contact and armature 459, the normally closed springs controlled by armature 488, armature 483 and its contact. de rest, the vertical common conductor 456, the armature 435 and its working contact and by the winding of the vertical magnet 410 towards the battery.

   By the operation of vertical magnet 410, seeker rubbers 230 through 235 inclusive and vertical slide 262 are actuated vertically and the out-of-normal springs 412 and 413 operate to prepare the circuits for l. Seeker release magnet 467 and for grounding to armature 427 of transfer relay 404 to prepare a latch circuit for this relay. At armature 447, the vertical magnet connects the earth to the common conductor 455 to energize the advance relay 466.

   The interaction between the vertical magnet 410 and the advance relay 466 is the same as that described for figure 1 and when the vertical slider 262 meets the earth on the second contact of the vertical row VA , a circuit can be drawn as follows to energize change relay 465: earth on contact 2 of vertical row VA, wiper 62, conductor

 <Desc / Clms Page number 36>

 174, the normally closed contact and the armature 433, the common conductor 452, the armature 486 and its closed contact, by the lower winding of the change relay 465 and by the winding of the advance relay 466 towards the battery. This circuit acts to energize the change relay when the vertical magnet has de-energized and removed the earth from common conductor 455.

   The advance relay 466 is kept energized in series with the shift relay 465 until the relay 465 opens its own initial energizing circuit to the armature 486 after it has closed a circuit. locking for itself by the frame 485 and its upper winding.

   At armature 483, relay 465 disconnects the advancement circuit for the common vertical advancement conductor 456 and extends it to the common rotating advancement conductor 453 to prepare a circuit for the rotating magnet 409; in frame 484 it prepares a latching circuit for trip relay 462, in frame 486 it prepares a circuit for the lower operating winding of switching relay 407, and in frame 487 it or - vre the initial excitation circuit of the start relay 464, which circuit is however maintained at the armature 479. As the armature 486 opens the holding circuit of the advance relay 466, this last relay is released and closes the circuit to energize the rotating magnet 409.

   At armature 446, rotating magnet 409 grounds common conductor 455 to cause feed relay 466 to be energized which in turn opens the circuit to rotating magnet 409. This interplay between the rotary magnet 409 and the advance relay 466 continue until one of the test wipers 231 or 234 returns.

 <Desc / Clms Page number 37>

 against a calling potential, i.e. a negative battery potential connected to the test contact.

   When the test wiper 234 encounters the negative battery potential applied to the test contact of line S by means of the interrupt relay 202, the switching relay 407 is energized by means of the conductor 173, then. - lower bearing, by the working contact and the armature 433, the common conductor 452 and the armature 486 and its working contact towards the earth.

   As both switch relays 406 and 407 had their top or bias windings energized by armature 430 when relay 405 energized, switch relay 407 operates immediately and to armatures 441 and 445 it connects the calling subscriber loop to line relays 402 of the SAM selector; at armature 442 it disconnects one of the multiple earth connections of the common occupancy conductor 448, at armature 443 it extends the earth to conductor 173 to protect the line from intrusion, and at armature 444 it opens the circuit of the rotating magnet 409 and connects the earth by means of the common trip conductor 450 to the trip relay 462.

   When the advance relay 466 de-energizes, a circuit is closed to energize the trip relay 462 as follows: the earth, the work contact and the armature 459, the normally closed springs controlled by the armature 488, armature 483 and its work contact, conductor 453, armature 434 and its work contact, armature 439 and its rest contact, armature 444 and its work contact, conductor - common triggering tor 450 and by winding the trigger relay 462 to the battery. Relay 462 completes the 473 armature with a locking circuit

 <Desc / Clms Page number 38>

 for itself to earth at armature 484 and armature 474 it opens the circuit of start relay 464, after which the latter relay releases.

   At armature 481, start relay 464 opens the bypass circuit around the top winding of transfer relay 404, allowing the transfer relay to energize in series with connection relay 405, and to armature 459 it opens the initial energizing circuit of trip relay 462 and opens the latch circuit of relays 463 and 465. Relay 463 de-energizes before slow-to-operate relay 460 has had time to operate. - fully operate and relay 465 de-energizes after the time interval for which it has been set and opens the latching circuit of trip relay 462 to armature 484.



   When the switch relay 407 connects the calling subscriber loop in series with the selector line relay 402, the line relay energizes and at frame 423 completes a circuit for the release relay 401. , after which this latter relay prepares the selector for operation and, at armature 419, grounds the release junction conductor 415 to keep the switching relays energized after releasing relay 405 and for protect the calling line from intrusion.



   When the transfer relay is energized in series with the relay 405 as a result of the de-energizing of the start relay 464, with the normally closed springs controlled by the armature 429 it opens the circuit of the connection relay 405, after which last relay de-energizes; to armature 429 and to its working contact it connects the starter conductor 451 to the starter conductor 414

 <Desc / Clms Page number 39>

 extending to the next seeker in the chain and to frames 427 and 428 it completes two locking circuits for itself.

   The upper latch circuit extending to ground to the out-of-normal springs 413 by means of the armature 427 and its upper winding maintains the transfer relay in the energized position as long as the finder is in an out of normal position . The other interlock circuit extends from ground to armature 470 through retaining conductor 449, armature 428, and through the lower coil of transfer relay 404 to the battery. This holdback circuit is active until all seekers in the group have been taken on duty.

   When the last finder in the chain comprising group A has been taken into service, all the multiple earths are disconnected from the common occupancy conductor 448 to reinforcements such as 426, and the common occupancy relay 461 is released by therefore and opens the latch circuits extending to all transfer relays such as 404 which at this time are latched in the actuated state. This arrangement obliges each searcher in the chain to be taken on duty in suitable succession, provided of course that these searchers have been released again before all searchers in the chain have been employed on previous calls. The transfer relay 404 also prepares the armature 426 for a point in the circuit of the finder release magnet 457.

   The connection relay 405, by de-energizing, disconnects to the armatures 430, 433, 434 and 436 the common group of RDA control relays of the seeker switch. It can be seen therefore that on subsequent calls, when the start relay 464 is excoriated, the start circuit is broken.

 <Desc / Clms Page number 40>

 piety for the connection relay of the next seeker by means of the conductor 414.



   The calling subscriber can then complete the communication to the called subscriber in the well known manner and the counting is carried out as indicated in FIG. I. Under the effect of the receivers hanging up by the subscribers. at the end of the conversation, ground is removed from the connector switch release junction conductor which in turn removes ground from the release junction conductor 415, after which the switching relays 403 and 407 are de-energized.

   At armature 442, switching relay 407 completes a circuit to energize the finder releasing magnet as follows: earth, armature 442 and its normally closed contact, armature 437 and its closed contact. , armature 426 and its working contact, vertical springs out of specification 414 and through the coil of release magnet 457 to the battery. By operation of the release magnet the seeker switch wipers are returned to their normal position and the out-of-normal vertical springs are opened.

   Operation of the vertical springs out of normal 413 opens the latch circuit extending through the upper winding of transfer relay 404, but this relay does not de-energize at this time as it is held by its lower winding connected to the common retaining conductor 449.



   On subsequent calls, subsequent seekers in the chain are seized and when the last free seeker in the chain has established the connection, common busy relay 461 de-energizes in a manner previously described. At armature 471, the common occupancy relay 461 transfers the

 <Desc / Clms Page number 41>

 starting from group A starter conductor 260 to group B starter conductor 261, and at armature 472 it removes earth from conductor 115 to unlock relay 560 in the event that it can be energized at this time.

   At armature 470 the common occupancy relay disconnects the earth from the common restraining conductor 449, with the result that the interlock circuits by the lower windings of the transfer relays in all researchers of group A are open and therefore - that those researchers who have returned to their normal position and have opened the circuits by their upper windings, de-energize and reestablish the circuit for the connection relays, such as relay 405. The researchers, who at this time do not 'have not been released, keeping their transfer relays in the energized position during the next seeker chain operating cycle.

   At armature 426, transfer relay 404 and other similar transfer rules complete the multiple earth connection of armatures such as armature 442 to common conductor 448, after which common busy relay 461 is again energized to prepare the latch circuit by the lower windings of the transfer relays to armature 470, and armature 471 to prepare the circuit extending to start relay 464 so that calls subsequent in group A actuate start relay 464.



   In the event that the upper series of wipers 230 to 232 inclusive are brought into engagement with a calling line, the switching relay 406 in the finder is energized in place of the switching relay 407 and in this case the re-energizes. lower wiper is not

 <Desc / Clms Page number 42>

 connection. The switching relay 406 performs functions similar to those described for the switching relay 407.



   Considering the common group of RDA relays in Figure 4, it will now be assumed that when the start relay 464 has been energized by a call, the negative battery is not connected to the common conductor. 454 by means of the armature 430 and the release junction conductor 415 due to a fault. Under these conditions, test relay 463 does not energize, with the result that slow to operate relay 465 is energized.



  At armature 487, relay 465 opens the starter relay 464 circuit, with the result that the starter relay de-energizes and removes the bypass battery from the top winding of transfer relay 404; it will be remembered that the connection relay 405 has energized under the effect of the energization of the start relay 464. The transfer relay 404 is then energized in series with the connection relay 405, with This results in the transfer relay being locked and the call being transferred to the next seeker in the chain. Relay 465 de-energizes when starter relay 464 opens its interlocking air to armature 459.



   Another situation that can occur is that the finder does not establish the connection within a specified time due to a fault. In this case the test relay 463 is kept energized for an interval of time sufficient to close the vibrating springs 478 in order to cause the energization of the slow to operate relay 460.



  Relay 460, by energizing, opens at armature 467 the circuit of common occupancy relay 461 and at armature 468 it closes a latch circuit for itself by

 <Desc / Clms Page number 43>

 the driver 114. The de-energization of the common occupancy relay 461 connects the starter conductor A designated by 260 to the starter conductor B designated by 261, so that calls originating in group A are handled by the driver. equipment of group B until the fault is corrected or until the locking circuit of relay 460 is opened as a result of all the connections of the selector-searcher in group B becoming occupied.

   This operation described last is similar to the operation described for the group A apparatus shown in FIG. 1.



   As the apparatus shown in Figure 5 is identical to the apparatus shown in Figure 4, its operation is the same as that described for Figure 4 and no detailed description will therefore be given.

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


    

Claims (1)

CLAIMS: 1.- An automatic switch for use in telephone systems or other similar systems, arranged so as to seek simultaneously by means of a number of series of wipers, in which a separate relay is provided for connection. each series of wipers, the connections extending by contacts controlled by all the relays in such a way that if a certain number of lines capable of being chosen are encountered simultaneously by means of different series of wipers, all the associated relays operate but a defined series of the different series of rubbers is connected. <Desc / Clms Page number 44> 2.- A non-digital automatic switch for use in telephone or other analogous systems, in which the test relay which during operation stops the search movement of the switch is provided with two windings, the energization of both in appropriate directions is necessary to effect operation of the relay, such that the relay operates to bring the switch to rest when a potential of a particular nature is encountered on a contact. test but not when zero potential or a potential of opposite character is encountered. 3.- A telephone system employing two-way searcher switches arranged to search freely in both directions of movement and having their operating magnets powered by pulses from a group of relays common to a group of researchers, in which the primary magnet and the secondary magnet of a researcher are both arranged so as to connect, during operation, a potential to a conductor common to all researchers of the group, conductor which extends to a progress relay arranged so as to open, when energized, the circuit by which the current is supplied to the operating magnets. 4.- A telephone system employing searcher switches intended to have their operation controlled by a series of relays common to a searcher group, in which after a searcher has been used to handle a call, it is made unavailable until all other hunters in the group have also been employed to handle calls. 5.- A telephone system employing two sections of switch-seekers having common access to the group <Desc / Clms Page number 45> lines, in which if a pager switch in one group does not establish a connection with a calling line within a specified time, the call waiting and all subsequent calls are handled by a pager in the other group unless all researchers in that group become busy, after which the researchers in the first group are again made available for service. 6.- A telephone system employing seeker switches which are taken into service in turn under the control of an assignor, in which in the event that a seeker switch does not function properly within a specified time after that it is taken in service, a warning is given and the next available seeker switch is taken in service, while if that switch does not function properly either, another warning is given and the call is transferred to another group of switches having access to the same group of lines. 7. An automatic switch according to claim 2, in which the non-digital flushing operation is intended to associate a calling line with a first digital switch and the test relay is unable to operate when the The test wiper does not encounter any potential (lines not calling) or meets zero potential (lines occupied) or the auxiliary battery potential (lines on which the counting takes place). 8. A telephone system employing automatic switches according to claim 7, wherein a battery potential indicating a calling line is applied to the test contact of a switch through the coil of the relay. interruption by contacts of the line relay while during operation of the interruption relay these contacts are shunted by <Desc / Clms Page number 46> ç the interrupt relay contacts and the line relay is de-energized. 9. An automatic switch according to claim 2, in which one winding of the test relay is connected to the restraining and protective conductor and serves as a bias winding while the other winding is connected to the. test wiper and serves as the operating winding. 10.- An automatic switch according to claim 9, in which the test relay is intended to be kept actuated subsequently by the polarization winding only, II.- A telephone system according to claim 3, in which the circuit for the primary magnet is intended to be opened by a relay energized under the effect of a potential picked up by the wiper controlling the primary movement. 12. - A telephone system according to revendis cations 3 and 11, in which each seeker switch is provided with two series of wipers which are connected respectively by two test relays which are both intended to open the circuit of the secondary magnet. 13. - A telephone system according to claim 4, in which a relay associated with each finder is intended to be actuated when the switch has been fully set in position and to transfer the starting circuit to the next switch. 14.- A telephone system according to claim 13, in which the transfer relay in each finder is provided with two latch circuits, one depending on a holding potential on the conductor of <Desc / Clms Page number 47> release function and the other of a relay located in the common equipment and which is arranged so as to de-energize and open the locking circuit when all researchers in the associated group have their transfer relays operated. 15.- A telephone system according to claims 13 and 14, in which the common relays are associated with a particular finder by means of a connection relay which, during operation, completes a circuit for the control relay. series transfer aveo itself, a circuit which becomes active when the potential of the junction of the two relays is removed when the finder-finder has been completely placed in position. 16.- A telephone system according to claims 5 and 6, in which when a call is initiated a circuit is completed for a differential relay for actuating weighted vibrating springs, the arrangements being such that circuits are completed alternatively- ment for the two windings which oppose each other in such a way that each time the flow is reversed, an additional support is given to the vibrating springs to prevent them from coming to rest during normal operation and completing a circuit excitation for a slow-to-operate relay arranged to initiate a warning. 17.- A telephone system according to claim 6, in which the failure of the first seeker switch to operate activates a two-phase relay which then produces the operation of the secondary warning and prepares a circuit for another disposed relay. so as to produce the operation of the urgent warning. 18.- A telephone system according to claims 5 and 6, wherein-in the event of a fault occurs <Desc / Clms Page number 48> In order to prevent the correct operation of the group of relays in the assignor, the relay ordinarily used to change the primary magnet to the secondary magnet of a seeker is energized to force the assignor to choose another. searcher. 19.- A telephone system in substance as described above and shown in the accompanying drawings.