BE363079A - - Google Patents

Description

       

   <Desc / Clms Page number 1>
 
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 rBe.p4 .. (! e, irgent3.one. reports aX8'.tfils': I '. l, t + 4,1.orp.qS and. eonOG, \' ne, more .pe.rtie \ 11irement: de &I; ap jBi, its tJC! tu.r4.n get des, # omml1tateurs actuated dansi <(e Re + slst; e.8t, the \ oréationlde, poor devices check if 1, De; gne 1 is free,, on. oeoupd A type of patent te-, épG) 1ilql1e "b1enQJWlu employs ds ëommutatura 'â ploté) éhelnné8gard8tpar .Happlication of potential, of tèrsb i.uX $ otaQtsldeSS8ijl.absenoe of earth potential uSai%, s ojàiç a, indicate that the oomzÍmt8teu :, tJ4.ns "n! t.trpeettant its use for ltét8b

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 of a bond.



   One of the objects of the present invention is to mark the vacancy of the switches in a more positive way without complicating the details of the circuits or the construction of the switches and this goal is achieved, following a peculiarity of the invention, by connecting one pole of the battery to the corresponding test contact when one line is free and by connecting the other blade of the battery to the corresponding test contact when a line is busy.



   In the system just discussed, and unless special arrangements are made, it may happen that a switch is put into service after it has been released by a calling party but before it is released. returned to its normal position. These arrangements are made very simply according to another feature of the invention according to which the switches are capable of being maintained in the actuated position by applying potential to a retaining conductor while their charging is signaled by the presence of the hold potential as well as the absence of the special vacancy potential, so that a switch can be released by removing the hold potential without it being made available while the hold potential is vacancy has not been established.



   In another feature of the invention, a restraining conductor for keeping multiple switches actuated passes through switch test seekers, a potential different from the restraining potential being used to designate a vacant line. - you

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The invention will be better understood from the following description of various ways of carrying it out, which description should be considered in the light of the designs attached thereto. It will be appreciated that the devices shown and described are given merely by way of example and that the invention is not limited to these specific devices.



   Turning now to the drawings, they represent switch circuits in the ordinary manner. automatic devices according to the invention, intended to operate in various circumstances. These switches are supposed to be of the well-known rotary vertical type in which the contacts are arranged in rows.



   Fig. 1 shows an intermediate group selector, that is, a selector in which all bridges across the line are cut off to a direct cut is obtained when the switch has been fully disposed. This switch can be put into service either from a line switch or from a selector which can be of a similar type or of the battery powered type.



   Fig. 2 shows a similar switch = ni however of two sets of searchers and rows of corresponding contacts, and arranged for the simultaneous exploration of two rows, so that the test of two lines takes place at the same time.



   Fig. 3 is a first selector with transmission bridge to supply power to the caller and give the operator restraint facilities. This switch is accessible from a

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 switch of a subscriber line.



   Fig. 4 is an arrival selector accessible via a two-conductor main line.



   Fig. 5 is a selector or final connector that connects directly to a called subscriber's line and supplies inrush current, then battery current to the called line.



   Fig. 6 represents a first selector substantially similar to that of FIG. 3 except that it is arranged to measure at the end of the conversation rather than following the called party's answer.



   Fig. 7 is a first selector similarly arranged for measuring at the end of a conversation but, in this case, by a pulse by the test lead rather than by applying a potential to a lead of separate hovel.



   The operation of the various switches will now be discussed in detail. Referring to Fig. 1 when the switch is gripped by establishing a loop through the conductors 1 and, 2, it is set; a circuit affecting the Aqui line relay,

  as a result 'acts and establishes at 10 a circuit involving the upper winding of relay B. Relay B to armature 11 transfers the normal battery connection to test conductor 3 which is supplied by the intermediary of springs 24 to normal off-circuit position and an armature 8 fitted with its support contact. This battery potential which is applied via a high resistance is necessary to park the vacancy of the switch and allow it to be used from of a selection

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 previous tor, In the event that the switch is seized from a subscriber line switch arranged in order to seek the absence of earth,

  as. is in the most general case, it will be necessary that the earth potential be applied to the conductor '3 by the action of the armature 11, as indicated in the drawing, in which case the connection to the battery is superfluous .However, the switch can be mounted as shown, in which case it operates unchanged in either set of circumstances. In addition, at armatures 12,13 and 14, relay S prepares circuits respectively for relay H, relay G and rotating magnet R; at armature 15 it creates a cut in the circuit of the release magnet and prepares the pulse circuit to the vertical magnet V.



   When the following series of pulses is transmitted, relay A periodically ceases to be energized and, each time, establishes a circuit starting from the earth passing through armature 7 and its contact contact, armature 10 and its support contact, the winding of the relay @, the frame 15 and its face contact the cam springs 21, the winding of the vertical electro V and ending in the battery. the vertical electri- cal is periodically energized and acts to lift searchers 27-29 by a corresponding number of steps. Relay C, which is slow to unblock, remains energized throughout the series of pulses and,

  armature 16 creates a cut in the circuit of the rotary electro.At the end of the series of pulses, the relay C ceases to be energized and a circuit is then established affecting the rotary electro and starting from earth, passing through frame 7 and its rear contact, the

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 the springs 26, the rear contact and the armature 16, the rear contact and the armature 17, the armature 14 and its front contact, the winding of the electro R to terminate at the battery The researchers 27-29 are therefore advanced by one step so as to cooperate with the first set of contacts in the chosen stage,

  and the electro also actuates the springs 19 thus constituting a circuit affecting relay G. Relay G prepares for armature 19 a test circuit intended for relay H and opens to armature
17 the circuit of the rotary electro, this one thus ceasing to be excited and opening the circuit of the relay G. If the line on which the researchers are now engaged is free, the researcher 27 will encounter the battery and a circuit causing the action of relay H will be established. If the line is busy, however, the earth will be on the associated test contact or, if the test conductor is cut, this contact will be dead;

  Whatever the case, relay H will not be able to function. Consequently, as soon as relay G ceases to be energized, a circuit is again formed affecting the rotary elec- trol and the same operating cycle is repeated. , the searchers taking a further step forward. This continues until a free line is encountered, whereupon the relay H is energized through its lower winding and, at its armature to low tension
8, establishes a blocking circuit for itself through the upper discharge intermediate earthed, from armature 11. In addition, to armatures 4 and 9,

  relay

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 H disconnects relay A and establishes communication
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 direct from the conversation threads to the researchers 128 and '' 2 $ t j to the frame 5 it extends the test conductor '3 to the researcher S7 to occupy the seized line;

  in armature 6 it creates a cut in the circuit of relayib and i that of the rotary electro and, through armature 8, it creates a
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 cut in the guard circuit, the usefulness of which will be more evident later. Relay B is sntti8ammént to ensure that the earth is maintained on the test conductor until it is fed back by,

     switch which has just been put into service. It can be noted that the existence of a spring connected to the ground and assigned to the spring 84 is only necessary in the case where the switch is accessible from a line rotary switch arranged to check for the absence of earth in the usual way. In case the switch. was accessible from a selector of similar type, the face contact of the armature 11 could be deleted as well as the contact for activating the spring 84,
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 and it would then be possible to remove 1afnature8 which is only intended to prevent the relay from remaining blocked to earth by the spring 24.

   
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 In the event that the driver could not find a free line, it would be brought to the eleventh rotary position and the cam springs 20-23 would be activated. This makes, at the springs '20, the occupancy signal.
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 pationlet the eclipse battery are connected by the conductor <31 to the lower winding of the relay A; in spring 21 a circuit is established, therefore with the occupancy maintenance conductor 30, involving the lower winding of the

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 relay B to keep this relay energized while the relay A ceases to be energized during the period of battery to the spring 22 a circuit is made to keep the relay G energized so as to prevent any further action of the electro rotary:

   finally to the spring 23 the earth is applied to the test finder 27 to actuate a self-discharge meter which can be shared with several switches.



   The unblocking of the switch is caused by the removal of the earth applied to the test conductor, after which the relay H ceases to be energized and, at the armature 7 constitutes a circuit affecting the unblocking electro Z arranged in series with relay C which, consequently, functions although without useful effect at this moment. It will be noted that the switch is only made available to be re-entered after it has returned to its normal position, to the following which the battery is reapplied to the spring 24 and the circuit of the unlocking electro is opened to the spring 25.



   Considering fig. 2, the circuitry of the switch shown there are similar except that the switch has two seekers arranged for simultaneous scanning. In addition, the guard circuit is slightly different in that the potential of battery indicating the vacancy is applied by a pressing contact of relay C and, consequently, the switch is only available slightly after the unlocking solenoid has operated.



   The various circuit changes that occur during switch operation will be briefly indicated. When the switch is

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 seized by establishing a loop through the conductors 'si and 52, Relay A operates and establishes at armature 66 a circuit for relay B which then, at armature 67 removes the' vacancy potential and ap-
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 plies the guard potential to the test conductor! 53, prepare for the armature 'S8 a circuit for the rolaisigîpàrè for the armature 69 of the circuits for the relays KA st et, f to the armatures 70 and 71 respectively of the circuits for rotary electro R and 1 electro vertical V. When transmitting the following series of pulses,

  relay A intermittently stops being energized and sends a name-
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 bre corresponding of puiggtions to the vertical electro which acts to lift the researchers 83-88 To the desired floor. The Coast relay â: kétté excâgtie with the vertical electro by the train of pulses and, at the armatureJ3 , maii keeps the rotary electro circuit open.
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 relay C ceases to be energized however, the electro R is energized to bring the researchers by one step rotation
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 in contact with the first series of contact and spring contacts 76, to constitute a circuit for the reiaieG "8 relays opens to the armature 74 the circuit of 1 electro-rotary, thus opening the contacts 76 and eoneti- kills armature 75 the test circuit for relays
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 Xà and HB If none of the test seekers 88 and:

  81 fail to meet the battery due to the fact that the associated lines are busy or disturbed, none of these relays can act and, following the relays deaxcitation
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 The rotary electro is re-energized to advance the researchers to a new country. If the seeker 88 now encounters the battery while the researcher 85 meets the earth, the HB relay is short-circuited but it is

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 established a circuit from the battery, passing through the finder 88, the support contact and the armature 61, the lower winding of the relay HA, the front contact and the armature 69, the front contact and frame 75 and earth.

     After having operated in this circuit, the HA relay establishes direct communication to the armatures 54 and 59 between the conductors 51 and 52 and the researchers 86 and 87; at armature 55 it extends the connection to earth up to finder 88 to occupy the seized line; at armature 56 it disconnects searchers 85;

   at armature 57 it establishes a blocking circuit for itself passing through its upper winding and, at armature 58, it creates a cut in the circuits of the unblocking and rotary electros, If the researcher 85 had ren - countered the battery while researcher 88 would have encountered earth, relay HB would have acted and, at armatures 60-65, would have produced the same changes as relay SA. If researchers 85 and 88 had both encountered the battery, the two relays HA and HB would have started to act but. because the relay HB is provided with a copper ground which slightly slows its excitation, the relay HA is energized first and opens on armature 56 the HB relay circuit.

   By this means a definite choice is given when two vacant lianas are encountered at the same time, and this arrangement is very advantageous when a gradation is employed between the various groups of switches? If the switch could not find a free line in any row, it would have been raised to the eleventh position and the cam springs 77-80 would then have acted. After that, the occupy signal

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 tien and the eclipse battery are connected to the springs 77 via the conductor 90 to the lower winding of the relay A;

   at the springs, 78 a circuit is established for the lower winding of relay B from the busy hold conductor 89 to maintain this relay during the battery eclipse period; at the springs 79 a blocking circuit is established for the relay G to prevent any new action of the rotary electro and at the springs '80,1 earth, is extended, until the test finder 88 for action- a suitable self-discharge meter. The switch is reset when the earth is disconnected from the test conductor, after which, as appropriate, the HA or HB relay ceases to be energized and establishes a circuit starting from the earth;

   passing through the support contact and the armature 64 the armature 58 and its support contact, the armature 66 and its support contact, the winding of the relay C, the armature 71 and its contact d 'support. the springs 81, the winding of the release electro'2 and the battery.

   The electro Z and the relay-0 act in series in this circuit, the first recalling as usual 'the shaft and the seekers and commutator and the second, to the armature 72, applying the earth instead of the battery to the test driver 53 so as to prevent the switch from sagging at this time. When the switch is fully retracted, the springs 81 open and the relay 0 begins to release so that after a short time , the battery is disconnected at test lead 53 and the switch is ready to be re-entered.

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   Now considering FIG. 3, this represents a first selector supplied by battery; assumed to be accessible from a line rotary switch of the type which searches for the absence of earth so that it is not necessary to provide a connection to the battery for the test conductor in view indicate that the switch is ready to be seized.



  This switch is also provided with devices for counting by means of a fourth wire when the called party answers. When the switch is activated, relay A is energized by means of conductors 101 and 102 and the calling loop and armature 105, prepare a circuit for repeating the pulses to subsequent switches;

  finally, at armature 106, it establishes a circuit for relay AB, which comes into action, it opens at armature 107 a cut in the operator's retaining circuit which will be described more fully below and As a result of this, relay B establishes at armature 108 a circuit for relay BA, relay B establishes at armature 109 a circuit passing through armature 117 and its support contact and intended for the monitoring lamp CSH and passing through spring 133 to relay D and prepares several other circuits, to armature 110 it applies earth to test lead 103 to keep line switch actuated;

  at armature 111 it prepares a circuit for relay H and, at armature 112, it opens a cut in the circuit of the release electro Z and prepares a circuit intended for the vertical electro V. relay MD constitutes a blocking circuit for itself at armature 126,

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 at armature 127 it opens a cut in the measurement circuit and at armature 126 it closes a cut in the operator's restraint circuit involving relay I. In addition, at this moment, the Dial from the conductor 140 is put in communication by the springs 132 with the conductor 101 to indicate to the caller that he can operate his dial switch.



   When the first series of pulses is transmitted, relay A intermittently ceases to be energized after which at armature 106 '. it transmits a corresponding number of pulses to the vertical electro V which, in turn, acts to lift the researchers 137-139 by a corresponding number of steps.



  Relay C, which is slow to release, is energized in series with the vertical electro during the whole series of pulses and, at armature 115, opens a cut in the circuit of the rotary electro, another cut. being closed to the springs 136 as soon as the switch leaves normal. At the end of the vertical movement, the relay '0. ceases to be excited and a circuit is established starting from the earth passing through the armature 109 and its face contact, the bearing contact and the armature l19, the armature;

     115 and its support contact ylea springs 136, the armature 125 and its support contact, the winding of the rotating electro B and the battery. Subsequently, the electro B brings the researchers 137-139 to the contactee the first series of rows of contacts and, at the springs 136, establishes a circuit involving the relay G which, after that, opens at the armature 119 the circuit of the rotary electro and, at the armature 118, establishes a circuit of 'interesting essay

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 the upper winding of the relay H and leading to the test finder 139. If the line with which the communication has just been established is busy or dis- posed, as indicated by the absence of a contact battery. test, relay H cannot be energized and,

  when the relay ceases to be energized as a result of unblocking of the rotary solenoid R, the circuit of this solenoid is reestablished and acts to advance the finders * one more step. When a free line is encountered, the battery received by the researcher 130 will be extended by the intermediary of the armature 111 and its face contact, the upper coil of relay H, the front contact and the armature 118, up to the The relay H coming on at this moment connects to the reinforcements 120 and 125 the conversation conductors directly to the researchers
137 and 138;

     closed at armature 121 a cut in the measuring circuit, extend to armature 122 the earth up to finder 139 to occupy the line seized, establish at armature 123 a blocking circuit for itself passing through its lower winding, disconnects from the armature 124 the vertical electro by replacing it with a connection to the battery by means of a resistor and opens, at the armature 126, a cut in the circuit of the rotary electro for prevent any new action of this electro, A loop is then established through researchers 137 and 138, which includes:

   finder 137, armature 120 and its face contact, armature 105 and its face contact, left gat winding of polarized relay D, winding of relay l, face contact and armature 125, researcher 138 and

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 this loop is used to prepare the next switch for action in the ordinary way.



   When the following series of pulses is transmitted, relay A emits pulses as before and intermittently opens at armature 106 the lamp circuit which has just been indicated so as to produce the action of the following switch in the ordinary way. In addition, at armature 106, an intermittent circuit dastinated to relay a is established which, as a result, energizes and, at armature 114, relays 1 and D short-circuit so as to form a better pulse circuit. .

   These successive trains of pulses are transmitted in the same way to arrange the various switches and if,) the called party's line is vacant at this time, it is connected with it and the signal sounds. called responds by moving its receiver the current flowing through the conversation conductors is reversed at the final selector and this is used to activate the polar relay D which, consequently, at armature 117 turns off the CSH lamp and opens the circuit blocking of the MD relay while it opens another cut in the measuring circuit The MD relay is slow to unlock and stops being energized after a short time,

  after which it extends to the armature 127 the earth existing on the armature 109 to the hut conductor 104 to activate the caller's meter.



   The subscribers can then converse at their leisure and, when this is finished, hang up their receivers.If the called party replaces the first receiver sound

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      relay D ceases to be energized and re-establishes a circuit affecting the CHS lamp which, therefore, serves to indicate that the called party is held by the calling party. When the caller hangs up his receiver, relay A ceases to be energized and opens at armature 105 the loop leading to the following switches so as to cause their unblocking in the ordinary manner and opens at armature 106 the circuit affecting relay AB and establish the circuit for relay C.

   Ceasing to be energized, after a short delay, the relay AB opens the circuit of the relay B which, after that, at the armature 110, switches on the armature 113 which at this moment, is on. position actuated as a result of relay energization. Relay B also establishes at armature 112 a circuit for the release electro Z in series with relay 0 and the electro acts to release the switch. The earth is now on the test conductor 103 until that the return is complete and that, consequently, the circuit of the electro Z and the relay C is open to the springs 134.



   If it happened that the switch could not find a free line at the chosen floor, it would be advanced to the eleventh rotary position, thus causing the cam springs to act, After that, the busy signal passing through the conductor 141 is connected to the springs 129 with the conductor 101 to warn the caller that he cannot get his communication, the ground is connected to the springs 130 with the test finder 130 to actuate a self-discharge meter and to the springs 131, a blocking circuit

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 is established for relay G in order to prevent mowing from new action of the rotary electro,

   Unblocking takes place when the caller hangs up his receiver after relay A ceases to be energized with the result previously described. 11 is then not necessary to switch on the eclipse battery since the switch shown n is only accessible from a subscriber line switch and not from an operator position .;

  If the link is extended until an operator position, in which case it is desirable for the operator to control the release of the link. sound, no battery inversion occurs and, therefore, as relay D does not operate, relay MD remains actuated and no measurement takes place. In addition, the connections at the operator's position are such that the battery is applied to the lower speaker wire as well as the upper wire. Thereafter, when the caller hangs up his receiver at the end of the conversation and that the relays A and AB cease to be energized, a circuit is established starting from the earth,

  passing through the armature 107 and its support contact, the armature 128 and its face contact, the winding of the relay leading to the battery on the lower conversation conductor. Subsequently, redo 1 is kept energized and continues to armature 116 a spare circuit for relay B, so that unlocking can only occur when the battery is disconnected from the lower conversation conductor when the operator cuts off the conversation.



   Considering now fig. 4,

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 it represents an arrival selector, that is to say a selector capable of being entered by the intermediary of a two-wire junction so that it is obviously impossible in such a case that the switch feeds the battery back to the test conductor to indicate that the latter is vacant. The arrangement adopted is that, in the row of the switch having access to the transmission and of the line at a long distance a corresponding battery connection is made to the corresponding test contact so that if the main line is free this battery connection is effective. If, however, the line is busy,

  the test contact is earthed as usual, which has the effect of making the connection to the battery ineffective.



  * When the switch shown in fig. 4 is seized by the connection of a loop through the conversation conductors 151 and 152, the line relay A is energized and prepares the armature 156 for the output loop and establishes at armature 157 a circuit for relay AB This relay opens at armature 158 a cut in the operator restraint circuit for relay 1, establishes at armature 159 a cut in the circuit for repeat occupancy eclipses, energizes relay B at armature 160 and disconnects directly to armature 150 'the lower conversation conductor independently of armature 164'. After being energized at this time, relay B prepares for armature 161 the restraint circuit of relay H, prepares for armature 162 a test circuit for this relay,

  prepares, in frame 163 a certain number of circuits and lights the

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 CSH surveillance lamp, finally preparing for the frame 164
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 the pulse circuit.When transmitting the following series of dilmpuloiom, the relay xyz ceases to be excited by inter * mittenoes and, at each dezoltation Ita- 1 sets to the armature 151 a circuit which includes the armature 181 and its contact dappa3, the relay release <O, the armature 164 and its face contact, the armature 176 and its support contact, the winding of the vertical electro
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 V and the battery, so the eleetro V acts to bring seekers 183-185 to the desired level. Being slow to unlock,

  relay '0 remains energized throughout, the pulse train and, at armature 165, opens a
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 pure in the circuit of the electro rotatit, short-circuits to the armature 166 the relays I and D establishes to the armature 167 a circuit affecting the upper winding of the relay I which, consequently operates but still without resul - state When relay C ceases to be energized at the end of
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 train of pulses, the rotary eJ eJetro circuit is established from the earth by the armature bzz and its face contact, armatare 175 and its contact contact the contact contact and armature 165, the springs there7, the teloctroR winding,

  .Up to the battaria. The rotary electro acts to bring the searchers in contact with the first series of contacts and closes their spring 185,
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 thus establishes a circuit for the relay G equipped with lsxaetnrei. "0 opens the circuit of the electro R and to the armatare 171, establishes a test circuit for the winding 8tp. with delays H. The relay H is only activated as long as the test finder 185 finds the battery indicating that the line is free;

  if this does not happen, to which
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 case the relay stops being excited by liontver party

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 connection to the springs 185, it again establishes a circuit intended for the rotary electro R so that the seekers are advanced one step. When a free line is reached, the relay 5 is actuated from the battery discovered by the test researcher and, at armatures 172 and 177, connects the conversion conductors directly to researchers 183 and 184, connects to armature 173 the earth at researcher 185, hangs at the frame 174 by its lower winding,

  opens the circuit for the rotary electro at armature 175 and prepares a circuit for the LP relay and disconnects the vertical electro at armature 176. A loop comprising relays 1 and D is then placed through the searchers 183 and 184 and hence the switch which is now engaged is ready to operate in the ordinary manner.

   When the next series of pulses is received, the relay '. reacts as before and repeats the pulses at armature 156. Relay '0 is re-energized and short-circuits to armature 166 the I and D relays to improve the pulses while at the same time maintaining relay I actuated at armature 167 and that subsequent series of pulses are repeated in the same manner The device for keeping relay 1 saturated also reduces to the impedance when relays I and D are subsequently reestablished in the loop and this annihilates any tendency on the part of the relay of the remote switch to de-energize momentarily and to emit a false impulse.

  has been fully established and the called party answers, the direction of the current passing through the conversation conductors is reversed when selected.

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 endor and is now in such a way that it can
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 actuate relay D * Consequently, this relay, in addition to frame 169, the circuit of the monitoring lamp iceatet establishes the circuit of the relay DR which, at the armature 153 'opens a new cut in the retaining circuit of the operator and, at reinforcements 154 and 155, reverse the con-
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 nectente of the relaioià to conductors 151 and 152 thus repeating in retoae the monitoring signal.



  At the end of the conversation when the called party hangs up his receiver, relay D stops
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 still to be excited and switches on the lamp C8g, the prolonged glow of which indicates that the called party is ringing, When the calling party hangs up the receiver, the relay lA is excited and unlocks the AB relay to the frame 155;

   
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 at armature 6 it opens the loop for the following oommatatears so as to unlock it as at 1 + or- '
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 The relay 'AB opens the circuit of the relay' Bet, when the relay lA has ceased to be energized, the circuit of the unlocking electro is established as follows: earth, p armature 157 and its contact of support of armature 181 and its os contact dtapp # i, winding of relay0,, armature 164 and its contact dissuipregsort 186, winding of ldletatro8 '1 battery. The unlocking electro acts to return the switch to normal and the relay C is off * s'xc1t4 although without any particular effect in this case.



   If the switch had not been able to find a free line at the chosen level it would have moved to the eleventh position, then actuating the book springs' At the springs 188 the earth is connected to the test finder
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 18th to operate a connected bridge discharge meter '

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 at the eleventh contact, to the springs 189 a blocking corcuit is established for the relay G in order to prevent any new action of the rotary electro and, to the springs 190, the interrupted earth is connected via the conductor 191 to the relay BF who, therefore, is alternately excited and de-excited.

   After cola, at armature 182, the battery is connected to the lower winding to re- link A instead of the normal earth connection; at armature 181 the pulse circuit is opened in order to prevent the transmission of electric vertical pulses following de-energization of relay A;

  finally, at armature 180, a spare circuit is made for relay AB in order to prevent this relay from de-energizing following the release of the relay. * Consequently, the occupancy batteries with eclipses usually emerge. - folded are connected back to actuate an eclipse signal located at an operator position or to control a battery power switch by means of which the busy signal is relayed to the caller. or. this is an occupied state that is encountered beyond the switch shown in fig. 4, the battery and earth are intermittently connected to the lower conversation conductor.

    application of the battery, relay 1 ceases to be energized and a circuit is formed as follows: battery, lower winding of relay B, support contact and armature 178, face contact and armature 159 contact contact and armature 168. face contact and armature 175, face contact and armature 163, earth. The LP relay is of the two-step type and at this time it only actuates its

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 light armature 119, thus preparing an unlocking circuit for itself. The battery period being over, relay I is re-energized, thus removing the armature
168 the short circuit involving the upper winding of the LP relay which, then,

   is excited to the bottom prepares for the armature 178 an IC for the LF relay. When this relay I then ceases to be energized, the previously indicated circuit is extended up to the LP relay which, consequently, is energized with the results previously described * 'The relay I now continues to act in synchronism with the pulses. eclipses and the LF relay will provide analog pulses, thus repeating the busy signal to the calling party
If the connection is extended to an operator's station, it is desirable that the operator be able to control the release, as has been said with regard to fig. 2. In this case, it is not possible to proceed. - results in no inversion and, consequently,

  relays D and DR are not actuated but, as long as the connection remains made, the battery is connected to the lower conversation conductor. When the caller hangs up his receiver, relays A and AB are demagnetized and he goes out. - establishes a circuit starting from the earth, passing through the armature 158 and its contact contact;

  the armature 153 and its contact contact, the lower winding of the relay I to end up with the battery connected to the lower conversation conductor of stupid that this relay '1 remains actuated and establishes at the armature 168 a feedback circuit changes to relay B, so the connection remains retained, and since relay B is now

 <Desc / Clms Page number 24>

 energized while relay AB is not, the battery connection to the lower conversation conductor is repeated back through face contact and armature 164 and normally closed reeaorts commanded by the frame 160 'to the conductor 152 to retain the preceding switches.



   Considering now Fig. 5, this represents a selector switch or final connector, that is to say a switch intended to connect to a requested line and not performing any search operation. It is assumed that this switch is accessible via selectors modified according to the invention, for example as indicated in any one of figs. 1 to 4. When the switch is called upon by the establishment of a loop through the conductors 201 and 202, the line relay A is actuated and establishes in the armature 207 a circuit for the lower winding of the relay B. The latter, by acting,

  removes the normal battery connection to armature 208 affecting test conductor 203 and replaces it with earth, prepares armature 209 for circuits for relays E, F and H and disconnects at armature 210 l 'Z unblocking electro and prepares the vertical electro V circuit.' During the transmission of the next series of pulses, relay A is de-energized correspondingly and each de-energization re-establishes a circuit starting from the earth, passing through the reinforcement 207 and its contact contact, the frame A10 and its face contact, the reinforcement 219 and its contact contact, the reinforcement '251 and its contact contact ,

 <Desc / Clms Page number 25>

 the lower winding of relay C and leading to the battery and, parallel to this,

  ! 'armature'223 and its
 EMI25.1
 contact of support, the winding of 1961ettro vertioni V and ending in the vertical batterlegleileetro is actuated as usual for that it lifts the seekers 235 to the desired level and the relay C is also actuated and comé it conrt - if its winding is higher than the armature 212, it is made slow to unblock and thus remains excited during the entire pulse train. It prepares the armature 211 a circuit for the relay G which does not is not yet active ,, It opens a
 EMI25.2
 cut to armature'213 in the eclipsing occupancy circuit and it bypasses armature 814'319 and 231 although this has no effect at this stage.

   At the end of this series of pulses, the relay C ceases to be energized and it constitutes a circuit in the following way.
 EMI25.3
 vante: earth, armature i209 and its faoe contact, armature 228 and its support contact, support contact and armatar 22, reaaorta w3rl, relay winding and battery.% both energized at this moment, the .relay establishes, for itself for armature S22 an independent blocking circuit of relay 0 and armature '325, substitutes a.

   there connection of the vertical electro V that of the electro-rotatiff B.lioreqqe the final series of impulses is set, the relay 0 is energized by the intermediary of the same circuit as before and impulses are transmitted to the 'electro rotary R which, therefore, brings the searchers step by step in contact with the desired line. The upper winding of relay C is now connected to the test finder 235 so that, if any connections

 <Desc / Clms Page number 26>

 occupied tacts are explored during the rotational movement. relay G is energized.

   This does not produce any detrimental effect, however, since the occupant circuit is kept open at armature 213 and the pulse circuit is kept intact at armature 214.



   Assuming first that the line sought is interrupted when the link is made with it, in this case the finder 235 will meet the earth and, consequently, the relay G will have actuated when the seekers come to a standstill. , when relay G ceases to be energized, a blocking circuit affecting the upper winding of relay C is established via the normally firm springs controlled by the armature 211 and, to the armature 218 , the eclipse busy battery is connected to the lower winding of relay A while at armature 219 a circuit is established affecting the upper winding of relay B up to the holding conductor occupancy 239 when relay A ceases to be energized during battery periods.

  a usual busy signal is sent back to the caller who realizes that he cannot obtain his communication and, consequently, hangs up his receiver. This done, relay A ceases to be activated. and, consequently, during the following earth period of the eclipsing occupancy signal, the relay B also ceases to be energized. Following the demagnetization of the relay B, the circuit of the unblocking electro is established at from the earth via the armature 207 and its contact contact, the armature 1210 and its contact contact, the springs 236, the release electro Z up to the battery and, at the same time,

  by the lower coil of the relay

 <Desc / Clms Page number 27>

 
G up to the battery; As a result, the relay G is kept energized until the switch has reached its normal position and removes at armature 216 the battery link indicating the vacancy state so as to ensure that the switch will not be contributory until it is fully recalled.



   Supposing now that the line of the bait is free when communication is established with it, in this case when the rotational movement ends ,,, the cherbheur 235 does not meet the earth and the relata G is demagnetized. then established a circuit starting from the earth, passing through the armature 207 and its support contact, the internal winding of the relay 'H, the support contact and the armature 211, the test finder 235 , the isolating relay and the electro of the calling party line switch and ending at the battery.

   The isolation relay and the relay H feel energized in series in this circuit and the latter establishes for itself at the armature 229 a blocking circuit passing through its upper winding. In addition, the relay H switches on to the armatures 225 and 232 researchers' 233 and 234 and, at armature 226, closes a circuit for emitting an acoustic signal towards the caller, prepares at armature 227 a circuit for the surveillance lamp, puts the researcher directly on. 236 to earth and opens the relay circuit, ± to armature 228,

   earths to armature 230 the lower winding of rear relay D and opens to armature 231 the impulse circuit to prevent any new action of the rotary electro if the subscriber actuates his dial again .Relay F is

 <Desc / Clms Page number 28>

 slow to unlock and, when it falls, it connects the call generator to the desired line to the reinforcements
220 and 224 in series with the top winding of the bell relay F. This slight delay is useful to ensure that the inrush current will not be connected until the desired line has been released from its lines. normal battery and earth connections by the action of the isolation relay in order to avoid premature action. The called party's bell will sound and,

  when it responds by unhooking its receiver, the continuous coprant bridge thus formed across the line is used to actuate the relay F which, then, establishes in the armature 215 a blocking circuit by its lower winding in series with the relay B. This is then actuated again and interrupts the inrush current at armatures 220 and 224 and establishes the conversation connections. The rear relay D is now actuated via the loop of the 'apt call and reverses the connections of line relay A to conductors 201 and 202 to arrays 205 and 206 for measurement or monitoring purposes. When the called party hangs up his receiver at the end of the conversation,

  relay D de-energizes again and restores in its original direction the current flowing in the conversation conductors and establishes at armature 204 a circuit comprising the surveillance lamp whose prolonged glow indicates that the called party has been retained because the caller has not hung up. When the caller hangs up his receiver, the unblocking takes place in the manner previously described, relay G being actuated in parallel with the electro

 <Desc / Clms Page number 29>

 release to ensure that the switch is not designated as available until it has properly returned to normal,
Now considering fig, 6, as has been said, it is substantially identical to fig,

  3 but arranged so as to give the measure at the end of the conversation rather than at the called party's answer This arrangement is sometimes preferable when it is possible that a local call will be interrupted in favor of a long distance call, Fig.

   6 also differs slightly from fig * 3 with regard to the retaining circuit of relay S in that the contact of relay B has been included in the circuit of the retaining winding and not that of the winder. . The complete operation of the switch will therefore not be described in detail but it will suffice to indicate that the relay MD is actuated again when the relay B energizes and blocks according to the relay D When the called party answers, relay D acts and opens the circuit of relay MD, after which it unlocks but no masure circuit is formed. When the caller hangs up his receiver,

  relay A de-energizes and opens the circuit of relay AB which also de-energizes after a short interval Relay AB opens the circuit of reai lais B but as relay B is slow to unblock, a short time elapses for which relay AB is de-magnetized and relay B energized. Note that relay H depends on relay B. As a result, a circuit is now established starting from the earth, passing through the contact support and the frame 251, the support contact and the mature rear 252, the frame 253 and its face contact and ending in the measuring conductor 254.

   The circuit is maintained until the armaturs 253 comes back in place

 <Desc / Clms Page number 30>

 following the demagnetization of relay H following the unblocking of relay B. Relay C is energized during the unblocking operation as before and earths the test conductor for safety purposes. note that if no answer is obtained or if the call is extended to an operator, the MD relay is kept energized and, therefore, does not begin to unblock until the relay B has dropped, at which point the circuit of relay H is open so that the measuring circuit cannot be established.



   Fig. 7 is similar to Fig. 6 except that the measurement is made by connecting an auxiliary battery to the test lead instead of connecting an earth potential to a separate measurement lead and that the contact of relay H in the measuring circuit are unnecessary because the test conductor includes the contacts of relay B.



  However, the operation is substantially similar, with the auxiliary battery being switched on while relay B drops out. In addition, as in the previous case! the call is unsuccessful or if it has been extended to an operator, the relay MD does not start to release until the relay B is demagnetized, so that the establishment of the measuring circuit is impossible.



   The arrangement shown in Figs. 6 and 7, according to which the blocking winding of relay H, which extends to the battery, is connected to the test conductor via the intermediary of relay B contact, remedies a drawback possible in that, if this winding is connected directly when the holding earth is removed to perform unblocking, the bat-

 <Desc / Clms Page number 31>

 terie which is applied until the relay It drops is similar except as regards its resistance to the vacancy potential and could, therefore, in
 EMI31.1
 particularly adverse circumstances, causing malfunction;

  Seen the extreme temple
 EMI31.2
 If the relay S is released short, this possibility is extremely improbable.



   As it is, the difficulty can also be overcome by arranging that, in Fig. 1 for example, the face contact of the armature 5 is connected directly to the earth and not the test conductor ' 3, thus producing the successive unlocking of a
 EMI31.3
 switches in a progressive direction.



  RBVEIID10ATIONS ........, .... ¯6 ... ¯¯.- * t * << w <tl) Telephone system employing searcher commata- turns in which a free line is marked by the connection of one of the blades of the battery with the
 EMI31.4
 corresponding test contact, while a busy line is marked by the connection of the opposite battery pole with the corresponding test contact.
 EMI31.5
 



  2. Telephone system employing researcher switches. A number of which are also available.

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


    

Claims (1)

tible to be maintained in the actuated position by the application of a potential to a holding conductor to which a switch is marked occupied due to the presence of the holding potential and also to the absence of a holding potential. special vacancy so that a switch can be <Desc / Clms Page number 32> released by removing the holding potential without making it available for the service until the vacancy potential is restored. 3. Telephone system employing seeker switches, a number of which are intended to be held in actuated position by applying potential to a restraining conductor, in which the restraining conductor passes through the test finder of a switch. - operator and a potential different from that retained is used to designate a vacant line. 4. Automatic switch for use in telephone systems, in which a relay intended to switch on the line seekers is connected by one of the terminals of its winding to the test finder during the search operation. of the switch, the other terminal of said winding being connected to a potential source each time the test finder comes into contact with a different contact. 5, Seeker switch for use in telephone systems, in which a relay intended to be actuated when communication is established with a busy line is intended to be actuated again during the unblocking operation of the switch and of keep the switch until it is back to normal. 6. Automatic switch for use in telephone systems, in which the relay which parks the occupancy of the switch when it is put to contribution is provided with two circuits, one controlled by a slow relay actuates when the switch is put on. at <Desc / Clms Page number 33> in service and the other while it returns to normal 13. A telephone system according to Claim 12 in which the two relays also control the disconnection of the vacancy potential of the test conductor. 14. A telephone system according to Claim 2 or 3 in which when the unlock is de-locked, the hold potential is removed to allow the preceding switches to unblock and, when a switch is returned to normal. , the vacancy potential is connected to the test contact to make the switch available for service in other connections. 15. Switch according to Claim 4 in which said source of potential is switched on by a relay which is actuated each time the test finder is brought to a different contact. 16. Switch according to Claim 15 in which the electro controlling the search operation acts intermittently and closes on each action a circuit relating to said relay. 17. Switch according to Claim 15 or 16 in which said relay is intended, when it acts, to open the circuit of the electro controlling the search operation. 18. Switch according to Claim 15, 16 or 17 in which if all the contacts in a selected group are occupied, a set of springs is intended to be actuated to close a blocking circuit relating to said relay whereby all movement. researchers is now prevented. <Desc / Clms Page number 34> 19, Switch according to Claim 4, wherein said relay as a result of its energization closes a blocking circuit for itself with respect to the test conductor, 20. Switch according to Claim 4 or 19 in which said relay, as a result of its action, opens a cut in the circuit of the electro controlling the search operation. 21. Switch according to Claim 6 in which the second relay is intended to be energized in a loop circuit when a connection is extended to a party called by means of automatic switches and to be energized by the intermediary. of a single conversation leader when the connection is extended to an operator station. 22. Switch according to Claim 21 in which the energization of the relay is intended to prevent unblocking of the switch. 23. Switch according to any one of the preceding claims in which a relay which is energized during the action of the primary electro of the switch is intended to be actuated again when the electro which controls the return of the switch to the switch. standard is actuated, and then to connect) The occupancy potential to the test conductor. 24. A switch as claimed in any one of the preceding claims, in which a circuit is established for a slow relay when the switch is activated, said relay being intended to unblock when the called party next answers. <Desc / Clms Page number 35> contribution and the other controlled by a relay which is intended to be energized when the said tilt slow relay of *. blocked by the calling subscriber when the connection was extended to an operator station, 7. 7. Telephone system according to Claim 1, 2 or 3 in which the potential connected to the test lead of a switch when it is in the normal position is intended to be replaced by a potential, different when the switch is turned on. to contribution. 8. Telephone system according to Claim 1, 2 or 3 in which the connection of the vacancy potential is effected by means of normally open contacts. 9. A telephone system according to Claim 1, 2 or 3 in which the vacancy potential is normally connected to the outgoing main line straight contacts. A telephone system according to Claim 1, 2 or '3 in which the paging movement of a switch is intended to continue as long as the test seeker encounters the busy potential, the electrical circuit. control being established independently of the test finder. He. A telephone system according to Claim 1, 2 or 3 in which the relay energizing the 8 line seekers of a switch is energized by the way of the test finder. 12. Telephone system according to Income dication 1, 2 or 3 in which the connection of the guard potential to the test lead is under the control of two relays which are actuated while the switch is on. <Desc / Clms Page number 36> close a break in the measuring circuit. 25. Switch according to Claim 24 in which the measuring circuit is intended to be established when the calling party replaces his receiver. 26. A telephone system according to any one of the preceding claims in which the pulses for controlling the operation of the switches are received through the speech conductors in a loop circuit. 27. Automatic switches for use in telephone systems as substantially described and shown in the accompanying drawings. $ 2. Telephone system as substantially described and shown in the accompanying drawings. <Desc / Clms Page number 37> ABSTRACT EMI37.1 ## * #. * ## * m Telephone system using seeker switches, a special potential used to indicate the vacant state of a line while a different potential is used to indicate the busy state, The potential indicating the busy state is connected to on conductor encompassing multiple switches, and also serves for retention, the potential indicating that a switch is free is not replaced until the @@ switch returns to its normal position