BE429152A - - Google Patents

Description

       

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  Mounting system for telephone installations.



   The present invention relates to a system for mounting selectors for telephone installations which, following an arbitrary choice, establishing communication with telephone sets determined by their characteristics. It is known that, in systems of this type, it is possible, by means of particular contact arms carrying out the characterization by means of relays controlled by these arms, to immobilize the selectors as desired. We also know that it is possible to cause immobilization at the telephone set characterized by

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 -by relays controlled by means of a particular contact arm of the selector and by the conversation conductors of the station of the calling participant.

   These known systems require a special contact arm of the arbitrarily selectable selector for switching off, by means of which the switching members for switching to standby are controlled and, moreover, when using the telephone conductors of the switches. Annoying noises are caused in known systems when passing through busy stations.



   The present invention now aims to avoid, for the resting of the selector with arbitrary choice for a characterized telephone set, a particular contact arm and annoying noises passing over the conductors of one of the users of a connection. established, which is achieved according to in. vention by causing current to flow through the telephone wires of the station on which an arbitrary choice selector must be set; this current is directed in the opposite direction to that of the supply current of a communication station in operation and when the station characterized by the reversal of the current is reached, thus causes at the connection station the excitation of a relay mounted between the telephone wires and acting only in this determined direction of the current, and the setting to rest of the selector.



   Particular importance can be attributed to the mounting system according to the invention, in installations with auxiliary stations, with communications between the subscriber and the office, in which, after the formation of the characteristic of a connection through the office, an office wire selector is connected to the calling station and this selector is also set as a line selector, in the connections coming from the office for the station desired by the office.

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  In installations of this kind, a large number of conditions have to be fulfilled which make it necessary to control the switching operations by means of the contact arms of the selectors. The system which is the subject of the invention makes it possible to fulfill the particular conditions such as callbacks, switching, etc. even in installations where the selectors for internal communications and the desktop selectors are set as three contact arm lift-up rotary selectors rubbing against the series of studs:
Figures 1 and 2 show by way of example an embodiment of the invention.

   Figure 1 shows an installation with auxiliary stations with calling device and wire selector for establishing internal connections and selectors connected to the office for incoming and outgoing connections. The call device, the wire selector and the office selector are here constituted by rotary selectors with lifting.



   FIG. 2 also represents a group selector interposed between the calling device and the wire selector of FIG. 1 in the case where it is a major installation with auxiliary stations. If group selectors exist and if the number of extension users authorized to communicate with the office is greater than the capacity of one office selector, a second office selector must still be mounted in parallel. with the first.



   Establishment of a connection from the office.



   If the Tnl user in figure 1 wishes to communicate with the office, he must first pick up the receiver.



  The relay R is also positively excited by the negative terminal

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 winding I of relay R, contact 1t, station loop Tnl and contact 2t. Relay R activates its contacts.



  By contact 3r, the calling user is characterized at the contact arm c, of the call device AS. The row of contacts of this AS calling device, to which the calling station is connected, is characterized by contact 4r.



  The following circuit is established via contact 5r: positive terminal, resistor Wl, contacts 5r, 6t, 7c, head contact 8k of the call device AS, relay Rl, connection points 5/6, contacts 9al, llc2, head contact 10k, of wire selector LW, contact 12p, winding III of relay Al, negative terminal.



  In the aforementioned circuit, the relays Rl and Al come into action.



  Relay R1 is maintained, independently of contact 8k, by contact 31r1. Through the relay Rl, the lifting magnet H of the calling device AS receives the current through the positive terminal, the contacts 13c, 14tl, 15rl, 16u, the ripple contact 17w of the switch. call AS, the lifting magnet H and the negative terminal. The magnet H causes the call device AS to move forward by one stud. Via the lifting magnet H the contact 18h also closes and, consequently, the relay Tl is energized via the positive terminal, contacts 13c, 18h, winding I of relay Tl and negative terminal. Relay Tl opens contact 14t1 so that the circuit of magnet H is cut off again.

   Magnet H opens contact 18h: Relay Tl drops out and the circuit of magnet H closes again by contact 14t1. The cooperation between the lifting magnet H and the relay Tl remains until, by the step by step contact HS of the call device AS, the following circuit is closed: positive terminal, contacts 19t, 4r, contact not step HS, contact 20rl, winding II of relay U and negative terminal: Relay U comes into action, opens the switch.

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 tact 16u and thus immobilizes the call device AS in the row of contacts reached. Via relay U, contact 21u is closed. The following circuit is now established for the rotating magnet D of the calling device AS: positive terminal, contacts 13c, 14tl, 21u, head contact 22k of the calling device AS, rotating magnet D and negative terminal.

   The rotating magnet D is energized and the calling device AS therefore moves one pad in the row of pads reached. Magnet D closes contact 23d so that relay Tl is energized by means of: positive terminal, contacts 13c, 23d, en. bearing I of relay Tl and negative terminal. Relay Tl opens, at contact l4tl, the circuit for rotating magnet D; This and the relay Tl ooperate now as an automatic switch until the following test circuit is established by the contact arm c of the call device AS: positive terminal, contact 24r1, winding I of relay C, winding I of relay U, contact arm c of calling device AS, contact 3r, winding II of relay R, contacts 25r or 26t, relay T and negative terminal.

   In the aforementioned circuit, the relay R is maintained first, in addition the relays C and T are energized and the relay U is caused to take off by the reverse winding I of this relay. Relay C opens contact 13c and consequently cuts the circuit of magnet D and relay Tl-. The call device AS is stopped. Relay C establishes the flow of current to contacts 27c and 28c. Relay C cuts the circuit of relay Rl at contact 7c. Relay R1 comes off, By closing contact 290 the calling user is blocked in the known manner, Relay A1 has been energized in the circuit of relay R1, At contact 9al the short-circuit of relay C2 is open. Relay 02 comes into action.



   For relay C, the following hold circuit is

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 established: positive terminal, winding II of relay T1, connection points 7/8, winding II of relay C, contact 30c, connection points 5/6, relay C2, contacts 110c2, lllx or 112f, resistor W2, negative terminal. In this circuit the relay Tl is not energized.



   The following supply circuit is now available for the telephone call set Tnl: negative terminal, coil I of relay Al; contacts 32x1, 49y, 35x1, 36p1, connection points 2/1, contacts 37t1, 27c, contact arm of call device AS, winding I of relay X, loop of user's Tnl set, winding II of relay X, contact arm b of the call device AS, contacts 28c, 38t1, connection points 3/4, contact 39p1, winding II of relay Al, contact 40xl and positive terminal.



   If the user now initiates the first series of current pulses, the interrupts are transmitted by the number switch of the telephone set to the arc feed relay A1. This relay in turn transmits the current pulses to the lifting magnet H of the wire selector LW.



  The circuit of this wire selector magnet H is as follows: positive terminal, 41p contact, I coil of relay V, 42c2, 43a1, 44u2 contacts, 45w ripple contact, 46m, 47p contacts, H magnet and negative terminal . During the series of current pulses, relay V is energized. If, after the end of the first series of current pulses, relay V disconnects, relay U2 is energized by the following circuit: positive terminal, contacts 41p, 50v, head contact 51k of wire selector LW, 52c2 contact, U2 relay I winding, 45w ripple contact, 46m, 47p contacts, H magnet and negative terminal.



  In this circuit the magnet H is not put into action. Via relay U2, contact 44u2 opens and contact 53u2 closes.

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  The user now sends the second series of current pulses to bring the wire selector LW to a specific contact of the row of contacts reached, The current pulses are collected again by the relay Al and are transmitted now by contact 43al to the rotating magnet D of the wire selector LW. The circuit of magnet D is as follows: positive terminal, contact 41p, winding I of relay V, contacts 42c2, 43a1, 53u2, magnet D and negative terminal. After the first step of the rotation of the wire selector LW, the contact 45w opens again and the circuit passing through the winding I of the relay U2 is thus cut; But the relay U2 is maintained by the following circuit: positive terminal .; ' contacts 54u2, 55v, winding II of relay U2 and negative terminal.

   After the end of the series of current pulses, the relay V first comes off and returns its contacts to the rest position. Although the 55v contact opens, the U2 relay is maintained for a short while due to the delay in takeoff and the following circuit is therefore established:

   positive terminal, contacts 56u2, 57v, winding I and II of relay P, contact 58c2, relay P1, contact arm e of wire selector LW, wire 69, contact 60a1, coil I of relay F, connection points 10 / 11, 61rk step lift contact, HS4 relay and negative terminal ,, Wire 59 is not multi-connect, A relay F connected only to wire selector LW is energized through this wire, Next the above description, the user of the calling set, chooses two digits for setting the LW selector to position.

   The arrangement can also be adjusted so that after lifting the wire selector LW in a determined row of contacts, the contact to which the wire 59 is connected is chosen automatically.



   In the circuit passing through the contact arm c of the

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 LW wire selector, the relays Pl, F and HS4 are energized. Relay 62P1 closes contact 62pl so that the circuit passing through contact arm c of wire selector LW is maintained independent of contacts 56u2, 57v and 58c2. Relay U2 comes off, relay Pl opens contacts 63p1, 64pl, 36p1 and 39p1 and closes contacts 65pl and 66pl.

   But in the circuit passing through the contact arm c the relay F was also energized and it follows that the following circuit is now established: positive terminal, contact 40x1, winding II of relay Al, wire 67 , contact 68, contact arm b of wire selector LW, contacts 69f, 65p1, 37tl, 27e, contact arm a of call device AS, winding I of relay X, loop of station Tnl, of user, winding II of relay X, contact arm b of call device AS, contacts 38t1, 66p1, 70f, contact arm a of wire selector LW, wire 71, relay Anl and negative terminal: Relay Fa, for Consequently, the current flow is reversed in the telephone wires of the calling station Tn1.



   The relay Anl was therefore excited by the emission of the characteristic number of the office. Relay Anl closes contact 74an1, so that the following circuit is established: positive terminal, contacts 74anl, resistor W3, contacts 75vl, 76h3, 77b, winding I of relay R2 and negative terminal. Relay R3 'connected in parallel with relay R2 by means of contact 78IV is not energized,. because of the resistance W3 mounted in front of it. Relay R2 opens contact 81r2 and closes contacts 80r2 and 79r2, Relay R2 energizes the lifting magnet Hl of the AW motor of the office by the following circuit: positive terminal, contacts 80r2, 82v2, 83vs, 79r2, 88ul , wave contact 89w2, wave contact 80wl, contact 91r3, magnet Hl and negative terminal.

   This H1 magnet causes the lifting

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 the AW selector on the desk in the first row of contacts. Magnet Hl closes contact 92hl so that relay V2 is energized by the circuit: positive terminal, contact 92h1, winding II and I of relay V2, contact 89s, resistor W4 and negative terminal. Relay V2 opens contact 82v2 and thus cuts the circuit of magnet Hl. This returns contact 92h1 to the rest position, so that the relay V2 circuit is interrupted. Relay V2 closes contact 82v2 so as to re-establish the circuit for magnet H1.

   Cooperation between this and relay V2 in the manner of an automatic switch lasts until the contact characterized by contact 14hs, of relay HS4 is reached via contact 93hs. , step by step, belonging to the AW selector of the office and that the relay Ul therefore comes into action. The circuit for relay Ul is as follows: positive terminal, contact 94hs4, contact 95, contact 93hs above, contact 96r2, windings I and II of relay Ul and negative terminal. The Ul relay short-circuits 1.1, winding I of this relay by the 97ul contact and the result is that the Ul relay has a take-off delay.

   This relay cuts, at contact 88u1, the circuit of the lifting magnet H1. By contact 98ul is established for the rotating magnet Dl the following circuit: positive terminal, contacts 80r2, 82v2, 83vs, 79r2, 98ul, 83c3, 86c4, head contact 87k1 of the set of contact arms al, bl and cl of the office selector AW, rotating magnet Dl of the office selector AW and negative terminal: Magnet Dl only moves contact arms al, bl, c1 from one pad to the next. This magnet Dl closes contact 88dl so that relay V2 is energized by the following circuit: positive terminal, contact 88d1, windings II and I of relay V2, contact 89s, resistor W4, negative terminal. Relay V2 comes into action and opens via the controller.

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 tact 82v2 the circuit of the magnet Dl. This brings the contact 88dl back to its rest position.

   The relay V2 comes off and the circuit of the magnet Dl is closed again by the contact 82v2.



  Cooperation between rotating magnet Dl and relay V2 lasts until the following test circuit is established: positive terminal, contact 40xl., Winding II of relay Al, contact 68, contact arm b of selector of wire LW, contacts 69f, 65p1, connection points 2/1, contacts 37tl, 27c, winding I of relay X, wire 99, contact arm of selector AW from office, contacts 100c3, 101r2, rectifier GR, winding I of relay C4, switch arm bl of office selector AW, wire 102, coil II of relay X, contact arm b, of call device AS, contacts 28c, 38t1, connection points 3/4, con - tact 66pl, 70f, contact arm a of wire selector LW, wire 71, relay Anl and negative terminal.

   Office switch AW switch C4 will activate in this circuit, as a result of reverse current after the characteristic number has been chosen for outgoing office connections. The AW selector in the office is not stopped on an already established connection because, in this case, the current flows in the opposite direction through the telephone wires from which it follows that the relay C4 cannot be put on. in action by the current rectifier GR.



  No potential is applied to the mobile contact arms of the AW selector in the office, so that annoying noises can be avoided when passing over a busy telephone set.



   Relay C4 of the AW selector of the office activates, opens contact 86c4 and closes contact 103c4: The AW selector of the office is thus immobilized and winding II of relay 04 is short-circuited so that there is a delay in the take-off of this relay. Via the circuit: terminal

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 positive, contacts 104c4, 103c3, contact arm al of the office selector AW, wire 99, winding I of relay X, contact arm a of call device AS, contacts 27c, 37t1, connection points 1/2 , contacts 65pl, 69f, contact arm b of wire selector LW, contact 68 and wire 67, winding II of relay Al is shorted.

   Relay Al comes off so that relay C2 is short-circuited by contact 9ali. Relay C2 returns its contacts to the rest position.



  The following circuit is established for the rotating magnet D of the wire selector LW: positive terminal, contacts 41p, 50v, head contact 51k, contacts 105c2, 106u2, rotating magnet D and negative terminal. Magnet D closes contact 107d, so relay V2 is energized by the following circuit: positive terminal, contacts 41p, 108v, head contact 109k, contact 107d, winding II of relay U2 and negative terminal. Relay U2 opens contact 106u2, which cuts off the circuit of rotating magnet D. Relay D opens contact 107d, so that relay U2 comes off.

   The circuit of the magnet D is closed by the contact 106u2, The cooperation of the magnet D and the relay U2 lasts until the head contacts 51k and 109k are opened in the rest position of the selector switch. wire LW.



   By short-circuiting relay C2 by means of contact 9al, relay C2 comes off and opens the maintenance circuit of relay C2 by contact 110c2. The result is that the relay C comes off. The magnet D of the calling device AS receives current through the following circuit: positive terminal, contacts 13c, 14tl, 113rl, head contact 22k, magnet D and negative terminal. The rotating magnet D closes the contact 23d and, in this way, the relay Tl is energized. Relay Tl opens on contact 14tl the circuit of magnet D. This causes the relay Tl to take off by opening contact 23d. The cooperation of

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 relay Tl and rotating magnet D lasts until the head contact 22k is open in the rest position of the call device AS.



   By releasing the wire selector LW, the circuit passing through the contact arm of this selector is also cut off, so that the relays P1, F and HS4 return to the rest position. By the release of se. wire reader LW, the circuit of relays C4 and Anl is also interrupted. The switching elements of the internal unit of the house which were used therefore also returned to the rest position. When relay Anl takes off, the circuit of relay R2 is cut on contact 74anl. Via contact 96r2, the circuit of relay Ul is opened, relays R2 and Ul return the contacts to the rest position.

   If the blocking of the calling telephone set is removed by opening contact 29c, relay C3 of the AW selector in the office comes into action, before relay C4 disconnects, using the following circuit: positive terminal, contact 114c4, coil II of relay C3, contacts 115 µm, 266 tr, contact arm key of selector AW from office, wire 116, coil II of relay R, contact 25r, relay T and negative terminal. Relay C3 maintains the aforementioned circuit, independently of contact ll4c4, through contact 117o3. Relay C3 opens contact 110c3 and closes contacts 11 @ c3 and ll9c3, so that contact is made with the office switch AW wires.

   For the telephone set calling Tnl, the following power supply circuit is now formed: negative terminal, winding I of relay S, winding I of relay X2, contacts I20e, 118c3, contact arm al of the office switch AW, wire 99, telephone set loop Tnl, wire 102, arm of

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 office selector switch bl contact 119c3, 121e, winding II of relay X2, winding II of relay S, positive terminal. Relay S is energized. Relay X2 is established as a differential relay. Via relay S the connection of the office wire is made by means of contact 112s. This relay opens contact 89s and closes contact 123s.

   Relay V1 is energized by the following circuit: positive terminal, 123s contact, V1 relay, W4 resistor and negative terminal. When relay V1 comes into action, contact 75vl opens and contact 124vl closes. Another call excitation for establishing an outgoing office call is thereby transmitted to the excitation relays R2 or R3 of another office line. Relay vl opens contact 125vl and closes contact 126vl. Relay B is energized by the black-cured: positive terminal, 127vs, 128x2, 126vl contacts, relay 2 and negative terminal. Relay B is maintained by contact 129b, independently of contacts 127vs, 128x2 and 126vl.



   The calling user can now, to set the selectors that are reached by the AL wire from the office; operate its number disk and pulse the power supply relay on the S bridge. The current pulses are transmitted by contact 122s to the AL wire of the office: The circuit of relay V2 has been prepared by relay Vl Via contact 130v1. Also, when the pulses are emitted, the short-circuit of relay V2 is removed by contact 123s on the first take-off of relay S and relay V2 is energized. It remains excited during the series of current pulses and short -circuits via contact 131v2 the windings III and IV of the transmission member Ue.



   When it comes to a large installation, we

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   tercale between the calling device and the wire selector LW of figure 1 a group selector GW according to figure 2. The switching on takes place here so as to connect the connection point 1 of figure 1 to the point of connection 1 in figure 2, connection point 2 in figure 1 to connection point 2 in figure 2, connection point 3 in figure 1 to connection point 3 in figure 2, connection 4 in figure 1 to connection point 4 in figure 2, connection point 5 in figure 1 to connection point 5 in figure 2, connection point 6 in figure 1 to connection point 6 of figure 2,

   connection point 7 in figure 1 to connection point 7 in figure 2 and connection point 11 in figure 1 to connection point 11 in figure 2.



   The connection between points 10 and 11 in figure 1 must be cut. The relay Anl which is connected to the wire selector LW is connected on the other hand to the group selector GW of figure 2.



   When, in an installation with a group selector, a calling user wants a connection with a wire from the office, he must, after picking up the receiver and having set the call device AS, move the group selector GW to a row of contacts determined. The group selector is accessible to a certain group of users and the distribution of users takes place on the one hand in a group of users who are connected to the contact arms al, bl, cl of the selector AW of the office and that one can reach by the row of odd contacts (hence 1, 3, 5 etc.) of the group selector while the users of the other group are connected to the contact arms a2, b2, c2 of the selector AW

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 of the office and can be reached by the row of even contacts (i.e. 2, 4,

   6 etc.) of the group selector: When a user who is connected by the contact arms al, bl, cl of the selector AW of the office wishes to communicate with the office, after setting the position given to the device d 'AS call and the aotion input of relay C in figure 1, the following circuit: positive terminal, winding II of relay T1, connection point 7, winding II of relay C, contact 30c, connection point 5 figures 1 and 2, contact 136a2, head contact 137k of group selector GW, winding III of relay Al and negative terminal: In this circuit, relay C of figure 1 is maintained; furthermore, the relays C1 and A1 of FIG. 2 are energized. The relay Tl does not come into action.

   The calling user receives the supply current through the rest contacts 138p2, 139p2 and the windings I and II of relay A2; This breaks the short circuit of relay Cl through contact 136a2. The characteristic number of the office is picked up by relay A2 and trance put to the lifting magnet (not shown) of the group selector GW. After the first displacement of one step, the head contact 137k opens, the relay C of figure 1 and the relay C1 of figure 2 are kept energized by the intermediary of the contact 140c1.

   After raising the group selector GW on a row of determined studs, the group selector starts to rotate in the known manner. When the contact, to which relay An1 is connected, is reached, relays P2 and Bl in figure 2 are energized by the following circuit: positive terminal, contacts 141c1, winding II and I of relay P2, contact arm c of selector group GW, wire 133, contacts 134b1, 135anl, winding I of relay Bl

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 and negative terminal i Relay P2 comes into action:

   Through the inter. middle of the contact arm c of the GW group selector in figure 1, the following circuit is established: positive terminal, winding II of relay Tl, connection point 7 of figures 1 and 2, contact 132p2, winding I of relay P2 , GW group selector switch 0 arm, wire 133, relay Anl, contacts 143bl, 144anl, resistor W5 and negative terminal.

   Although relay Anl has opened contact 135an1 and consequently disconnected winding I of relay B1, this relay is maintained by the circuit: positive terminal, winding II of relay Bl, contact 145abl, arm group selector switch a GW, contact l46p2, connection point 1 of figures 2 and 1, contacts 37t1, 27c, contact arm a of the call device AS, winding 1 of relay X, telephone set loop Tnl, winding I of relay X, contact arm b of calling device AS, contacts 28c, 58tl, connection point 3 of figures 1 and 2, contacts 147p2, contact arm b of group selector GW, contact 148abl, resistor tance W6 and negative terminal.

   The current flows through this circuit through the telephone wires in the opposite direction to that of the supply current when a communication is established.



  By this reversal of current in the telephone wires, the calling user who has chosen the characteristic of the office is characterized in turn: The relay Anl closes the contact 149anl. The positive potential is applied from the connection point 11 of figures 2 and 1 by the contact 150h5 working step by step up from the group selector GW, so that by the direction contact 61rk of the device AS re-connects it. lais HS4 operating step by step is energized, relay by which is characterized the connection of the calling user of the 4th row of contacts of the calling device AS and of the

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 contact al, bl, cl of the desktop AW selector. The relay Anl of figure 2 closes the contact 74anl of figure 1 and consequently energizes the relay R2.

   This first causes, in the manner already described, the operation of the lifting magnet H1 of the selector AW of the office (set of contact arms a1, b1, c1). Then, the rotating magnet Dl is put into action for the positioning on the contact of the row of pads reached. When the switch AW of the office reaches the contact of the calling telephone set, the relay C4 of figure 1 is energized by the intermediary of the telephone wires as a result of the reverse current produced: This results in same way as that described, immobilization of the AW selector of the office, putting in communication, etc.

   By momentarily earthing wire 99, after relay C4 comes into action via contact 104c4, relay Bl in figure 2 is short-circuited, comes off and opens the circuit via contact 143bl. of relay P2 in figure 2: Relay P2 is released: this relay opens, via contact 151p2, the holding circuit of relay C in figure 1. This relay drops out and releases the release device. call AS and the blocking current of the AW selector of the office comes into action thanks to the contact arm c1, by the release of the relay P2 in figure 2; the group selector is returned, in the known way, to the idle position.



   The AW selector of the office is put to rest on the set of a calling user who wants a communication leaving the office; as emerges from what precedes, by means of telephone wires, by reversal of the current. But, when reversing the AW selector in the office after establishing a secret communication

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 callback of the user requesting this communication with the called back user, the latter is also characterized by the reversal of the current in the telephone wires.



   When a communication is established between the telephone set Tnl and the AL wire of the office, the momentary actuation of the key energizes the differential relay X2. Via contact 155x2, relay Q is energized by the following circuit: positive terminal, contacts 12? 'Va, 155x2, 216b, winding I of relay Q, thermo-relay Thl and negative terminal. Relay Q uses contact 156q to open the short-circuit via winding II of relay g. Relay Yl is energized by the following circuit: positive terminal, contacts 129b, 154vl, 153x2, 157z1, 158q, winding I of relay Yl, contact 159as and negative terminal. Relay Yl closes contact 160yl.

   When the user releases the button, it causes the differential relay X2 to take off: Relay Q is then maintained by winding II. For Zl and Yl relays the following circuit is established: positive terminal, contact 129b, 154vl, 160yl, winding I of relay Zl, contacts 157zl, 150q or 152x2, winding I of relay Yl, contact 159as and negative terminal. The Zl relay comes into action, opens contact 157z1 and closes contact 161zl. The following circuit now exists for relay Zl: positive terminal, contacts 129b, 154bl, 160yl, coil I of relay Zl, contact 161zl, coil II of relay Zl, contact 159as, negative terminal.

   Relay Zl opens contacts 162z1 and 163zl and closes contacts 164zl and 165zl. This results in switching from the office wire AL to the booster wire 166/167. Communication with the office is maintained by contact 168zl and resistor W7. By switching to the return wire 166/167 a loop is established.

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 blie. In this way, the call relay (not shown) of the return wire 166/167 is energized and thus the positioning of the call device AS on the return wire 166/167 is caused. After placing the call device AS in position, the series of current pulses for setting the selector of the recall path are sent by the calling user.

   The current pulses are collected by relay S and transmitted by contact 122s to the return wire 166/167.



   When group selectors and two desktop selectors connected in parallel are used in the installation, the first series of current impulses, by which the group selector switch takes place, is also transmitted to the device. driven consisting of relays I, II, III and IV. This driven device characterizes whether the connection point alerted in the reminder is in an even or odd series of the group selector and, therefore, whether it is connected to the contacts of the contact arms a2, b2, c2 or al, bl , cl of the desktop AW selector.



   The GW group selector is placed in the way already described,
At the same time as the first series of current pulses, for the positioning of the GW group selector of the return path, the chain of drive relays constituted by relays I to IV is activated. The first take-off of relay S in the series of current pulses brings relay I into the following circuit positive terminal, contacts 192zl, 193s, 194 IV, 195 II, relay I and negative terminal. In addition, relay III is energized by the circuit: positive terminal, contacts 192zl, 196s, 197 IV, relay III and negative terminal. Relay III is maintained by contact

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 198 III, independently of contacts 196s and 197 IV.

   Via relay 1, contact 199 1 closes so that relay II is energized by the circuit: positive terminal, contacts 192zl, 199 I, relay II, contact 195 II, relay I and negative terminal.



  Relay II opens contact 195 II and closes contact 200 II. At this moment, contact 193e opens again and contact 201s closes. Relays I and II are maintained by the circuit: positive terminal, contacts 192zl, 199 I, relay II, contacts 194 IV, 201s, relay I and negative terminal. In addition, for relay II the following holding circuit exists: positive terminal, contacts 192zl, 199 1, relay II, contact 200 II, relay II and negative terminal. When the second switch-off of relay S takes place, contact 201s opens and contact 193s closes. The circuit of relay I is therefore cut, relay I detaches and opens contact 199 1 so that relay II also returns its contacts to the rest position. In the aforementioned chain, only relay III is still excited.

   Although after termination of the second interruption, the contact 193s is open and the contact 201s closed, there is therefore no energization of the relays 1 or II because the contact 199 1 is open. When a third interruption of relay S takes place following the third current pulse, relay I is again energized by contact 193s following the disconnection of relay S, relay I causing the relay to activate. II by the closing of contact 199 I. As can be seen from the foregoing, relays I, II, III are therefore energized when odd current pulses occur, while for even pulses only the relay III is energized.

   When after the end of the first series of pulses

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 relay V2 comes off, relay IV is energized by the circuit: positive terminal, contacts 130v, 202r2, 203um, 204v2, 205 III, relay IV and negative terminal. Relay IV is kept stuck by the circuit: positive terminal, 192z1 contact, 206 IV contact, IV relay and negative terminal. Relay IV opens contact 194 IV and closes contact 207 IV, which prevents another influence from acting on relay I and II by subsequent series of current pulses.



   Consequently, in the case of a user connected to a series of odd contacts of the group selector GW, the relays I and II are energized and characterized by the fact that the user desired for the callback is connected to the contact arm al to c1 of the office selector AW. When relays I and II come into action, contact 208 1 opens and contact 209 1 closes.

   In addition, contact 210 IV is also closed:
The excitation of relay R2 is prepared by the closed contact 209 1 and consequently the setting of the switch AW of the office, that is to say of the play of contact arms al, bl, cl, is also prepared: But when it comes to a recalled user who is connected to a series of even contacts, relays I and II are at rest so that, through contact 208 I, the excitation of the relay R3 and, consequently, the positioning of the office selector with its contact arms a2, b2, 02 is prepared.



   When setting the LW wire selector to the telephone set, the relay P is only energized by the test arm of the LW wire selector. Relay P comes on. tion when the set is free and blocks the set by closing contact 168p. Through the contactor at 5 seconds 5sec, contacts 169u, 170z, 171p, relay M and negative terminal, relay M is energized at intervals of 5 seconds and applies the inrush current to the telephone wires by opening contact 172m and contact closure 173m. The calling circuit goes through the following points:

   inrush current source R, contact 173m,

 <Desc / Clms Page number 22>

 winding I of relay Y, winding I of relay X, contacts 174p, 63pl, 175f, contact arm of wire selector LW, telephone set bell Tn2, contact arm b of wire selector LW, contacts 176f, 64pl , 177p, winding II of relay X, contact 178m and positive terminal. If the user announces himself to telephone set Tn2, relay Y is energized during the call pause. Relay Y closes the circuit for relay Z with the following elements: positive terminal, winding 1 of relay Z, contact 179y, 180al and negative terminal. Relay Z opens via contact 170z the circuit of relay M. The telephone set Tn2 receives the supply current via contact 172m. Via relay Z communication is established to wire selector LW by means of contacts 181z and 182z.

   Communication is maintained by means of contact 183z in wire selector LW independent of contact 49y.



   If the user called back from set Tn2 must resume the conversation through the office, he must press the Ta2 key, which energizes the differential relay X located in the supply circuit. This relay X closes for relay x1, the following circuit: positive terminal, 184x contact, X1 relay, 185z contact, 186p, resistor W7, negative terminal. Relay X establishes a holding circuit for relay Y and an excitation circuit for relay V. It follows the following path: positive terminal, winding III of relay Y, winding II of relay V, contacts 187x, 186p , resistor W7 and negative terminal. Relay Xl is maintained by means of contact 188x1, independently of contact 184x. By opening contact 40x, winding II of relay F is switched on. However, relay F does not yet come into action.

   When the user of the telephone set Tn2 releases the key Ta2, the differential relay X detaches. On contact 187x, the relay V circuit is cut. This delay relay V keeps the contacts in the operating position for a short time. During this time the upper telephone wire is cut at the 48v, 35x1 and

 <Desc / Clms Page number 23>

 191x. Therefore the relay of the office wire comes off.



   The relay UM is energized by means of the following circuit: positive terminal, contacts 211ab, 212q, 215yl, winding I of relay UM and negative terminal. This Um relay comes into action and closes contact 267um. The following circuit is established: negative terminal, resistance W8, contact 267um, wire 167, contact arm b of the call device AS, contacts 28c, 38t1, connection point 3 in figures 1 and 2, contact 147p2, control arm contact b of group selector GW, connection point 4 of figures 2 and 1, contact 39p1, winding II of relay Al, winding II of relay F, positive terminal. In this circuit, relay F is energized.

   There is now the following power supply circuit for the telephone set Tn2: negative terminal, contact 172m, winding I of relay Y, winding of relay X, contacts 174p, 63p1, 69f, contact arm b of selec- LW wire feeder, station loop Tn2, LW wire selector switch arm a, contacts 70f, 64p1, 177p, winding II of relay X, contact 189f, positive terminal. Relay ES4 is energized by relay following circuit: positive terminal, contacts 269xl, 268f, tens dek contact of LW wire selector, HS4 relay and negative terminal, which characterizes that the requested telephone set connected to the 4th row of contacts of the LW wire selector is also connected to the 4th row of contact of the AW selector. from the office.



   By the activation of relay UM the circuit of relay C3 is cut off at contact 115um, because contact 214q is open. Relay C3 comes off and cuts; at contacts 118c3 and 119c5, the circuit of relay S: This relay comes off.



  The UM relay is now maintained by the circuit: positive terminal, contacts 192zl, 196s, 215 IV, 216ùm, winding II of the UM relay, common relay AB, negative terminal. Common relay AB is energized

 <Desc / Clms Page number 24>

 and, at contact 211ab, the excitation circuit passing through the windings I of all the UM relays is open. Therefore a UM relay of no other wire in the office can be energized and consequently no other F relay of other wire selectors can come into action by a reversal excitation and carry out the characterization for the activation. position of the desk selector by reversal of the current.



   Relay AB closes contact 217ab so that winding I of relay F is shorted. This prevents the possibility of a reversal of the current in a wire selector after choosing the characteristic figure, so that the AW selector of the office, which causes the reversal, can in no case be in the posi - tion corresponding to another user who has chosen the characteristic number for outgoing calls from the office.



   If the installation is fitted with group selectors, relay AB in figure 2 opens contact 2I8ab and closes contact 2I9ab. If now another user sets the group selector to position using the characteristic number of the office, the relay Anl is indeed activated, but relay AB1 is energized by contacts 2I9ab and 220 Anl, which causes the opening of contacts 145abl and 148abl and closing of contacts 22Iabl and 222abl. This avoids the current reversal so that the selector AW of Figure 1, of the office which is to be reversed can in no case make an adjustment to reach a calling user who has chosen the characteristic digit for outgoing communications from the office. But in the group selector according to figure 2, the relay B1 is kept energized despite the inversion of the current.

   If therefore, after the meeting

 <Desc / Clms Page number 25>

 When the office selector in FIG. 1 is installed, the common relay AB1 comes off, the contact llgab in FIG. 2 also opens, which causes the relay AB1 to take off. This AB1 relay will return the contacts to the idle position, and an office selector then has the possibility of making a test for the user who has chosen the characteristic number for outgoing communications. by the take-off of relay S after reversal excitation having become effective, relay V1 is short-circuited by contact 189s; this remakes the contacts to the rest position. The opening of the 154vl contact produces the takeoff of the Yl and Z1 relays.



   After take-off of the C3 relay, the rotating magnet
Dl of the AW selector in the office, receives current through: positive terminal, head contact 223k1, contacts 82v2, 83vs, 81r2,
84e, 85c3, 86c4, head contact 87kl, rotating magnet Dl, negative terminal. The magnet Dl comes into action, moves the arms al, bl, ol of the desk selector AW forward by one step and closes the contact 88dl. This energizes relay V2 which opens contact 82v2, so that the rotating magnet circuit
Dl is interrupted. The cooperation between the magnet D1 and the relay V2, as an automatic switch, lasts until the selector AW of the office has reached the rest position in which the head contacts 223kl and 87kl are open.

   When the AW selector switch on the desk is with its contact arms al, bl, cl in the rest position, the wave contacts are also returned to the rest position.



   For the following, it will be assumed that the called user is a user who has been reached by passing over an odd row of contacts of the group selector GW. In

 <Desc / Clms Page number 26>

 in this case, the circuit for relay R2 is prepared by contact 209 1. Consequently, when the switch AW of the office has reached the rest position, the following circuit is established for relay R2: positive terminal, contacts 192z1 196s, 215 IV, 2I6um, 210 IV, 209 I, winding II of relay R2, ripple contact 89w2, 90w1, contact 91r3, lifting magnet Hl, negative terminal. In this circuit, relay R2 is energized. It follows that the following circuit is established for the magnet Hl: positive terminal, contacts 80r2, 82v2, 83vs, 79r2, 88ul, wave contacts 99w2, 90w1, contact 91r3, lifting magnet Hl, negative terminal .

   The magnet Hl cooperates as a switch with the relay V2 (by means of the contact 92hl) until the following circuit, characterized for the relay Ul by the step-by-step step relay HS4, has been established: positive terminal, contact 94hs4, step by step raise contact 93hs, contact 96r2, winding I and II of relay Ul, negative terminal. The Ul relay closes the 97u1 contact, so that the Ul relay experiences a take-off delay. On contact 88u1 the circuit of the lifting magnet H1 is cut.

   Relay Ul closes contact 98ul, so that rotating magnet Dl cooperates as an automatic switch with relay V2 until the following circuit is established for relay C4 of the AW selector of the office: terminal positive, contact I89f, winding II of relay X, contacts 177p, 64pl, 70f, contact arm a of wire selector LW set to recalled station Tn2, wire 224, contact arm of selector AW from office, contact 100c3, lOlr2, rectifier GR, winding I of relay 04, contact arm bl of office switch AW, wire 225, contact arm b of wire selector LW, contact 69f, 63p1, 174p, winding I of relay X, winding I of relay Y, contact 172m, terminal

 <Desc / Clms Page number 27>

 negative.

   In the aforementioned circuit, the relay 04 comes into action, so that by opening the contact 86c4 the rotating magnet D1 is immobilized. Relay 04 in turn causes wire 224 to momentarily ground, so relay Y in wire selector LW is shorted and peeled off. Relay Y cuts the circuit passing through winding I of relay 2, by opening contact 179y.



  However, relay Z is still maintained by means of coil II. The relay 02 is short-circuited by means of contacts 226z and 227y. Relay 02 comes off and causes, in the manner described, the release of wire selector LW, group selector GW and calling device AS which is set on the return wire. After releasing the relay P in the wire selector LW, the blocking circuit is established by the key arm of the selector AW of the office., In which the relay C3 is energized. This causes the connection of the office wire with the contacts 118c3, 119c3.



  Relay S is energized again and, via contact 123s, relay V1 is also energized. On contact 196s the UM relay circuit and the AB common relay circuit cease to be energized. The result is that the requested user is connected to the office wire AL by reversing the AW selector of the office.



   The relay chain I, II, III, IV is also used for the characterization of the burean selector by which the user desired by the office is called in the incoming communications of the office. When a call comes from the office, the AR relay is energized through the idle contact 228vl. Relay H3 is energized by the circuit: positive terminal, resistor W7, contact 229ar, winding I of relay H3 and negative terminal. This relay H3 is maintained by the circuit: positive terminal, contacts 127 vs, 128x2,

 <Desc / Clms Page number 28>

 125vl, 284h3, winding II of relay H3 and negative terminal.



  At the same time, the call lamp AL1 is lit by the circuit: positive terminal, contacts 230h3, 231b, lamp AL1 and negative terminal. The employee picks up the receiver and presses the AT key corresponding to the office call wire. The AS relay is energized; it is maintained by means of the 233as contact. By opening contacts 234as and 235as and closing contacts 236as and 237as, the BA device is connected using the rest contacts 238vs and 239vs to the calling wire. The employee can hear which user of an auxiliary set that a calling user wishes. It then operates the 240VT connection button. The VS relay is energized by the 24Ias make contact. The VS relay is maintained, independently of the VT key, by the 242vs contact.

   The VS relay opens the 238vs and 239vs contacts and closes the 243ve and 244vs contacts. The BA device is connected to the office wire connection side by the work contacts 245as and 246as and the relay S is energized. This relay causes excitation of relay VI by closing contact 123s. By opening contact 125vl and closing contact 126vl, the holding circuit of relay H3 is cut and relay B is energized. Relay B is maintained by contact 129b.



   The employee now sends the first set of current pulses to the desired user. This first series of pulses is collected by the relay S and transmitted to the relay chain I, II, III, IV; on the first interruption of relay I, it is energized by the circuit: positive terminal, contacts 247vs, 193s, 194 IV, 195 II, relay I and negative terminal. Relay I closes contact 199 I,

 <Desc / Clms Page number 29>

 so that relay II is also activated. After the relay S has taken off, the relay I holding circuit is established by contact 201s so that relay II is kept energized by contact 199 1.

   If by the second interruption the relay S is detached, the maintenance circuit for the relay I and consequently for the relay II is interrupted. The relays I and II remain in the rest position for the even series of current pulses. When the first series of current pulses is completed, relays I, II, and III are energized in the case of odd series of pulses, while for these odd series of current pulses, relays I and They are in the rest position.



   The following series of current pulses for the first odd series of pulses is passed to the lifting magnet H1 through the circuit: positive terminal, contacts 247vs, 196s, 215 IV 247um, 88ul, wave contacts 89w2, 90w1, contact 91r3, lifting magnet H1 and negative terminal. The contact arms al, bl, cl of the switch AW from the office are raised in a determined row of studs. If, after the end of the second series of current pulses, relay V2 comes off, relay Ul is energized by the circuit: positive terminal, head contact 223k1, contacts 82v2, 248vs, ripple contact 250w2, 251wl, winding III of relay Ul and negative terminal. Contact 88ul opens and contact 98u1 closes. The following series of current pulses is transmitted to the rotating magnet D1.

   After the first notch of rotation, although the circuit of winding III of relay Ul opens at ripple contact 251wl, the relay.Ul is kept energized, during the last series.

 <Desc / Clms Page number 30>

 current pulses, through the circuit: positive terminal, head contacts 223kl, 252v2, 253ul, winding III of relay Ul and negative terminal. After the end of the last series of current pulses, relay V2 first comes off and relay E is energized by the circuit: positive terminal, head contact 223kl, contacts 82v2,248vs, 286wl, 259ul , winding I of relay E and negative terminal. parallel to relay E, relay H3 is energized.

   Relays E and H3 are maintained, independently of contact 259ul, by contact 258e. Shortly before the take-off of the V2 relay, the U1 relay also took off. Via the circuit: posi- tive terminal, contacts 254vs, 255h3, windings I and II of relay C3, contacts 115um, 266tr, contact arm key of the office switch AW, wire 116, winding II of relay R, contact 26t, relay T and negative terminal, a test circuit is established in which relays C3, R and T come into action when the user's set is free. Relay C3 closes contacts 11803, 119c3; relay T interrupts the telephone set calling circuit at contacts lt and 2t.

   R, T and C3 relays are kept energized by contact 25r, independently of contact 26to
Office selector AW switch 03 closes the inrush circuit: inrush current source R, coil II of relay E, contacts 256e, 118c3, office selector switch arm al, wire 99, station bell Tnl telephone, wire 102, office switch AW switch arm bl, contacts 119c3, 257e, positive terminal. When the user announces himself, the reverse winding II of relay E comes into action in the calling circuit. Relay E comes off.

   At contact 258e, the winding holding circuit

 <Desc / Clms Page number 31>

 The I relay of the E relay is interrupted because, after the release of the V2 relay, the Ul relay has already detached and the holding circuit is interrupted at the 259ul contact.



  The employee hooks up the receiver and thus cuts the holding circuits for the AS and VS relays; connection is then established in the office via the 234as / 235as contacts. Following the take-off of relay E, the supply circuit of the called station now passes through relay S so that the latter remains energized.



   In the case of an even series of pulses, the following circuit of relay R3: positive terminal, contacts 282vs, 281 I, 280 IV, winding I of relay R3 and negative terminal is closed when, after the end of the first se - due to current pulses, the relay has come off and relay IV is energized. Relay R3 opens contact 91r3 and closes contact 290r3. The next series of current pulses are sent to the lifting magnet H2 and thus the contact arms a2, b2, c2 of the selector AW of the desk are lifted in a determined row of pads.



  Head contact 285k2 is closed so that the next series of pulses act on rotating magnet D2.



   After the end of the communication and the receiver has been hooked up to the called telephone set Tnl, the relay S comes off and short-circuits the relay V1 by the contact 89s, so that this relay also returns its contacts to the rest position. The relay Thl is energized after a certain time by the circuit: positive terminal, contacts 127vs, 128x2, 125vl, 260e, 26Ib, winding I of relay Q, relay Thl and negative terminal. This Thl relay, when it comes into action, closes the 262thl contact, so that the

 <Desc / Clms Page number 32>

 relay B is shorted and comes off.

   By disconnecting relay S, relay V2 is momentarily energized by contact 89s, before relay VI takes off, and the following circuit is thus established for relay TR: positive terminal, contacts 263b, 264vl, 265v2 , TR relay and negative terminal. Relay TR opens contact 266tr so that relay C3 comes off. This relay 03 closes contact 85c3; the rotating magnet cooperates, as an automatic switch, with the relay V2 until the selector A has reached the rest position, in which the head contact 23kl is open.



   The selectors which had been used therefore returned to the rest position.


    

Claims (1)

R E V E N D I C A T I O N S. 1. - Neutral system for selectors in telephone installations which; following an arbitrary choice, establish communication with telephone sets determined by their characteristics, characterized in that, for the plague to which an arbitrary choice selector must be connected, one passes through the wires; . telephone a current directed in the opposite direction to that of the supply current of an occupied connection station and thus causes at the connection station, when the station characterized by the reversal of current is reached, on the one hand, the excitation a relay mounted, between the telephone wires and only operating in this determined direction of the current and, on the other hand, the setting to rest of the selector. 2.- Mounting system according to claim 1, characterized in that, in series with the relay (C4) mounted in a bridge with respect to the telephone wire and causing the immobilization of the selector (AW) is mounted a device. (GR current rectifier) which admits flow in only one direction so that current flow is avoided, by the contact arms of the selector (AW) which is set to a characterized position , when passing over other occupied telephone sets supplied with current from another direction. 3.- Assembly system according to claims 1 and 2, characterized in that after the characterization of a communication in the office by the user of an auxiliary station calling in auxiliary stations, a selector (AW) corresponding to the wire of the office is immobilized by a relay (C4), mounted between the telephone wires of the office wire (AL) and coming into action under the influence of a current of determined direction, on the telephone wires of the calling station, at the result of the current reversal, Clan ,, 3 the telephone wires of this post, caused by the <Desc / Clms Page number 34> EMI34.1 characteristics of the connexic, i1c 2912 EMI34.2 4.- Assembly system according to. claim 3, cii-i c tL ;, 1 # in that after setting the thread selector (L ") pi. - establishment of internal communications by a ciii ± ì? ... characteristic for connections; cr t lîtoN of the office, a relay (F) subordinate to the selector of; .il (.;) and causing e reversal of the supply current of the calling station 12i, - :: 'ex- EMI34.3 cited. EMI34.4 'jar. "' Mounting system according to claim 4, characterized in that the relay (F) is connected to the contacts>, '1 ;; e>, not provided with multiple connections, of the selector of iil iÉ .. '). 6. A mounting system according to claim 5, charac- terized in that the relay circuit (1 ") passes through a device EMI34.5 (6lrk) which characterizes the row of selector contacts in which the characterized post is connected. EMI34.6 7. A mounting system according to claim 4, characterized in that, in the supply circuit a. reverse current EMI34.7 is energized a relay (Anl), transmitting the excitation to the EMI34.8 devices (relays R2) intended for = .1¯ = leifi the selector <: '; ) of EMI34.9 office. EMI34.10 8. A mounting system according to claim 3, CÇ #, CtSJ 6C in that, by choosing the characteristic number for outgoing connections from the office; the selector for this group for internal connections is put in position on an aetennine contact to which is connected a bridge (by lu ... 1 and l16) carrying a COI in the opposite direction. 8. A mounting system according to claim b, c: -roctea i .. ;. in that, by setting the group selector (G, <:), the ne- lais (Anl) transmitting the excitation for the r ;;;; 'lb; e du. , Jé1: - ,: c- tor (AW) of the office is put into action and seen this relay c..ectus, by means of a step by step contact U blëvation (15t: .zs) to select: ur EMI34.11 group (Glii) and a cont & ct iJ; .s; x jJ.G te elevation (Girk) of the <Desc / Clms Page number 35> EMI35.1 call device C; :: '). characterization of the row of selector contacts (-, of the office to which the calling set is connected. 10.- Mounting system according to claims 1 and 2, charac- terized in that after establishment of a communication EMI35.2 Ge caj7pel in the cis to an existing connection with the office, the direction of the current G.'0limentatioE of a connected station (Tn2) secretly requested is directed in the opposite direction and that thus the selector (+ é, 1 ) of burec.u, of the existing office cozuiiunication is immobilized on the requested connection station. 11. A mounting assembly according to claim 10, characterized in that the reversal of the feed current is EMI35.3 ar.icrcé by an operation due to switching the user of the requested set (Tn2). 12. A mounting system according to claim 11, characterized in that, by momentary earthing of the telephone wire, a differential relay (X) located in the supply circuit is energized, relay which causes inter- EMI35.4 momentary rupture of the wire of the return circuit and that the switching devices (relay Q, UM), subordinated to the wire of the office and causing the reversal of the selector (AW) of the office. EMI35.5 13. A mounting system according to claim 1 &, charac- terized in that the switching members (relaJbUM) transmit an excitation by one of the wires of the return circuit (via the 267 μm contact), to the wire selector ( LW) activating the relay (F) which causes the reversal of the direction of the current EMI35.6 power supply. 14. A mounting system according to claim 13, charac- terized in that the relay (F) is energized by an increase in the intensity of the current. 15.- A mounting system according to claims 4 and 13, characterized in that, in the case of outgoing connections of <Desc / Clms Page number 36> desk and switch reversal (AW) of the desk, the same EMI36.1 relay (') causes the reversal in the direction of the current but a re-requested station (Tn2). EMI36.2 16. A mounting system according to claim 12, characterized in that the switching members (relay @, UM) of: 1. the office cause (by opening the contacts 114q, 115um) the release of the selector ( AW) from the office. 1 7.- A mounting system according to claims 7 and 12, characterized in that the switching members (relay Un.) EMI36.3 from the office wire activate the devices (relay -sé) for the setting of the selector (Je;: ,,) at the office after 1ii.) (:; r6tiun of this selector. 18. - Mounting system according to claims 7 and 17, characterized in that the device (R2) connects between the EMI36.4 telephone wires (via contact ll1r), -. The relay (C; 4) causing the switch (xi .;) to immobilize the office. 19.- Assembly system according to l'eve: here: .. tioLS 17 and 1, characterized in that the relay z4) 1¯ which causes the immobilization of the selector (AW) of the office, is not connected only momentarily between the telephone wires. EMI36.5 2C.- An assembly system according to claim li, ca.i% <. Co-c;> 1- se in that the relay (c4) causing the immobilization of the selector (AW) of the office prepares a circuit for the relay of EMI36.6 blocking (C3) which comes into action <o.pl'è. ::; the release úe6 selectors (i> SL1: V) for connections = ī1: 'G1'ües. 21.- Assembly system according to 11, ::. "V el.tîC i.1.0i1 L. c, 1 ', -, 0" (, G1, i- se in that the relay (C4) causes, pu .1, a momentary setting u .LE. We;, i% ;. of one of the telephone wires (ßo4, l: Le contac-ù 1 = .c), release of the selectors for internal connection. -: 2.- Mounting system according to the: C'E'V'311ci.icç, ticn ::: '1, CLl'e-c'Cu'l- S8 in that the earthing GlOfilC,' LÜ '", lG6 causes the release of the pon supply relay (., 1) r..u selecteu ..' ue lil (LW) and that, consequently, the 1ibGl ', - uioll aes Clec teurü is U-1¯; i primed. <Desc / Clms Page number 37> 23.- Assembly system according to claims 7 and 17, of the group characterized in that, under the control of / the calling connection station or the requested station, the device is activated (Relay R2 or R2 and R3 or even R2 or R3), for the adjustment of a game chosen between two sets of contact arms, mounted in parallel and immobilized by the same relay (C4), of the selector (AW) of the office. 24. A mounting system according to claim 23, characterized in that the plague group connected to one of the sets of contact arms (a1 to cl) of the selector (AW) of the office is charac- terized by l 'determined access to a group selector (GW) through which only the device (An1, R2), for adjusting the contact arm set is controlled. 25.- Mounting system according to claim 23, characterized in that the group of the requested parts is characterized by a driven device (relay I to IV) which is set at the same time, when the path is established. .reminder. 26.- Mounting system according to claim 25, charac- terized in that the driven device consisting of a group of relays (I to IV) characterizes the odd or even row of contacts of a group selector (GW) and therefore one of the sets (a1 to cl) or the other set (a2 to c2) of the selector contact arm (AW) of the desk. 27.- Mounting system according to claim 17, characterized in that the relay (]; il) which causes the reversal of the current characterized, by means of a tens contact (dek) of the selector wire (LW), the row of contacts to which the requested extension is connected in the wire selector (LW) and in the selector (AW) of the office.