DE874157C - Circuit arrangement for triggering dialers in telephone or other telecommunications systems - Google Patents

Description

Circuit arrangement for triggering voters in telephone or other telecommunications systems. The present invention relates to the triggering of full voters in telephone or other telecommunications systems. Its purpose is to achieve a quick return of the selector to the rest position when triggered, but to use the shortest path, taking into account contact wear.

This is achieved by the fact that the selector controls switching means (cam contacts) when it is set, which, in accordance with the setting taken at the time a triggering stimulus occurs, trigger the selector on the shortest path, taking into account the number of contacts still to be exceeded at the time of triggering . The exemplary embodiments show the application of the invention in a rotary dial with square movement and stepping drive and a motor selector with forward and backward rotary movement If the selector is triggered after reaching the sixth contact in a contact bank, it is switched on in the usual way to the end of the contact bank, whereupon the switching arms slide down to the lowest position and then return to the rest position in a known manner by a return spring. If, however, the voter I b is triggered,% - "entl he ki of a contact bank is set to one of the Koiitakte i to 5 , an auxiliary magnet is actuated, which lifts the push and locking pins of the selector drive and thus causes the Retraction spring adjusts the switching arms in front of the contact bank in reverse motion, whereupon they then return to the rest position ng slide down. Similar processes take place with line voters. If the line selector is to be triggered after the lifting movement before setting it in a contact bank, the switching arms will immediately drop into the zero position by lifting the pawl of the lifting magnet by appropriately controlling the auxiliary magnet.

If the group selector GW i shown in FIG. Occupied, then speaks the Relaii C over the pipeline-Lc, head contact k 8, winding CI, battery, earth. Through contact ii c, the test relay P is applied to the switching arm in preparation. The contact ioc switches the winding 11 of the relay C im to the line Lc. Contact 1: 2 c is opened. If there is now a current impulse in any way, the relays A and B are influenced in such a way that the relay A is actuated intermittently, while the relay B remains addressed during the series of current impulses. The relay A operates its contacts ia and: 2 a and the relay B the contact 3 b. Closing the * contact ia creates a circuit for the lifting magnet H, which runs from earth via contact wii, contact i a, winding of magnet H to battery, earth. The magnet is H -erregt, and switching - wa, ARC and gwc of the selector arms are lifted a z "step In this step of the selector head, the contacts are k and k 2 k 8 is actuated by opening the contact 8 be.. the windings II and I of the relay C are connected in series to the wire Lc. The head contact k 2 prepares a circuit for the rotary magnet D. Depending on the number of current surges sent, the switch arms of the selector are raised to the desired contact bank If the series of impulses de-energizes the relays A and B, the following circuit for the rotary magnet D is established by closing the contact 3 b : earth, contacts 2 a, k 2 " 6 A 3 b, rotary magnet D ' battery, earth. In this circuit, the rotary magnet D is excited, whereby the switch arms of the selector in the selected contact bank are switched one step further. At the same time, the shaft contact wii and the multiple contact mk are actuated. When the magnet D responds, the contact 9 d is closed, so that the relay B responds via its winding II. The relay B opens the contact 3 b and thus causes the rotary magnet to drop. The relay B drops out again and re-establishes the circuit for the rotary magnet D. This alternating game is continued until the test switch arm gzuc of the group selector GW has found a free line. If, for example, the sixth line in the selected contact bank is free, the relay P responds in the following circuit: earth, windings II and I of relay P, contact iic, switching arm gwc, line Lcg, occupancy switching means (not shown) in the downstream selector battery, earth. The relay P stops the selector by opening each contact 6p. The voice conductors La and Lb are on the contacts 4p and 5p 'turned on. The downstream shading device found is blocked via contact 7P.

If relay C is de-energized for the purpose of triggering the selector , contact ii c opens the circuit of relay P. Relay P drops out and closes the following circuit for wire magnet D- earth, contacts 2a, k through contact-6, p 2, 6p, lower contact at contact 3 b, rotary magnet D, battery, earth. The rotary magnet is energized again and actuated in bursts under control by winding II of relay B. As a result, the selector's switchboard is incremented. If the switch arms of the selector leave the fixed contacts in the contact bank, the mutual play between the relay B and the magnet D is continued until the switch arms of the selector have reached the rest position. If this is the case, the head contact k: 2 opens and interrupts the working circuit of the rotary magnet D. The magnet M was not energized when the relay C was de-energized during the ' Ahslösung', because the switching arm mk, as already mentioned above, the associated segment left in position 5 .

If the voters GW on the other hand i in a contact database on one of the contacts- set to 5, the magnet M in f olgendem circuit speaks in triggering the de-energizing of the relay C to: c earth contact 12, shifting the Mehrfachkontal <tes, "#le, segment i to 5 of the switching arm of the multiple contact, magnet 31, battery, earth. The magnet M actuates a pawl KL (Fig.? -), which lifts the push pawl St of the rotary magnet D from the toothing of the shaft We of the selector. Since simultaneously with the actuation of the pawl KL, a pawl is lifted, if available, the shaft We, moved by the return spring in the selector, snaps back to the rest position, whereupon the switch arms of the selector slide back to their lower setting position. This process takes place at a great speed. The push pawl actuated by the solenoid of the selector and any pawl that may be present can be lifted off in the same way as the push pawl St of the rotary magnet D shown in FIG Release process is secured. The magnet M is only de-excited again when the voter has reached his rest position. The working circuit that comes about when the rotary magnet D is triggered is interrupted by opening the head contact k: 2 after the selector has been set to the rest position.

In FIGS. 3 to 7 , exemplary embodiments of the invention are shown on the basis of motor selectors which can carry out a forward and backward drifting movement. Depending on the position of the selector at the time of the arrival of a triggering stimulus, the motor is caused to bring the selector arms of the selector to the rest position either in a forward or backward rotary motion. Figures 3 to 7 show two different designs of the motor itself and different types of control of the magnets of the motor. However, the invention is not limited to these forms of embodiment.

3 shows the circuit of a mixer selector MW designed as a motor selector. The motor armature and the associated magnets together with the drive An are shown in FIGS. 4, 5, 4a and 5a. If the mixing selector illW is occupied, the relay C is excited via the line Lc in the following circuit: earth, switching device not shown in the upstream selector, line Lc, shaft contact i wo, winding I of relay C, battery, earth. The relay C applies its winding II in series with the winding I to the wire Lc via contact i c. Contact 15 c creates the following circuit for R el ais V : earth, contacts 1 5 c, 1 6 p, 1 7 hi, relay V, battery, earth. Contact i8c is opened, which initially does not entail switching operations. C is via contact 5, the test relays on the P Prüfschaltarm sc of the mixing selector MW applied. The relay V applies voltage via contact -24v (Fi-. 4) via the cam contact mi to the magnet I of the motor selector. The magnet I is excited and switches the armature A further. The armature A arrives in front of the magnet I. Here, the cam contact in 2 is closed and the cam contact mi is opened. The coil II is energized. The armature A is moved counterclockwise to the magnet II. The IN ockenkontakt in i is then closed again, whereby the coil 1 receives current. Contact m: 2 is closed and contact fft i is opened, so that by alternately switching on coils 1 and 11, armature A of the motor is switched on in an anti-clockwise direction. Relay V2 is energized via contact 2ov, which closes contact 30V2 in preparation. If the voter finds a free line within steps i to 5, the switching arm sd is located on the contact segment i to 5 to which the relay Hi is connected. The relay Hi does not respond for the time being because the contact iSc is open. When the free line is found, the relay P responds via its windings 1.1 and I, the contact 5c, the switching arm sc, devices not shown in the downstream b selector. The stator coils I and II are switched on by contact 22p, so that regardless of whether one of the contacts mi or. M2 a stationary field is created over both coils I and II. The armature A is stopped in the position shown in Fig. 4a. When contact 16p is opened, relay V is de-energized and voltage from motor coils I and II is switched off by contact 24v. The line found is blocked by closing contact 13P. The contacts iip and i2p switch through the speech wires. The armature of the motor is now with one of its ends between the coils I and II. The contacts mi 'm2, m3 and m4 have assumed the position shown in FIG.

If the connection is to be released, the relay C is deenergized by opening the Lc wire. The following circuit for relay Hi is established via contact i8c: earth, contact 1 8 c, switch arm sd, relay Hi, battery, earth. The contact 17hi is folded, whereupon, after the c made-energizing of the relay P following by turning the contact 5 circuit for the relay Vi concluded kommt.- earth shaft contact: 2wo contacts 16p 17hi, relays Vi, battery, earth. The coil II (FIG. 4) is now switched on via contact 25 v i. This causes the armature A to move in a clockwise direction . H. switched from the intermediate layer between the coils I and II before the magnet II, whereupon the magnet III is excited by closing the contact m4 and the armature continues in the same direction of rotation. The switch arms of the selector are therefore switched back to position o in a reverse motion. If the switching arm sd reaches the position o, the following circuit is established for the windings 1 and II of the relay P: Earth, battery, contact 1 8 c, switching arm sd, position o, contacts 30 V 2, 5 c, windings I and II of relay P, earth. The relay P responds and, by closing the contact 23 p, generates a stationary field by exciting the coils III and II. The armature between the poles of the magnets II and III (FIG. 5a) is then also stopped accordingly. The Nockenkontaktemi to m4 take the position shown in Fig. 5. In the zero position, contact 2W0 is opened, so that relay V i also drops out. As a result, the relay V2 is de-energized by opening the contact 2 1 v i, so that after opening the contact 30V2, the arrangement shown has reached its rest position. The motor armature and the cam contacts in 4 are in the positions shown in FIGS. 5 and 5a.

If the selector MW with the motor Mo i is to be started from the position shown in FIGS. 5 and 5a, when the relay V is energized, the motor is switched on counter-clockwise. If the motor has been stopped in the position shown in FIG. 5a, a stationary field has been created by magnets II and III. Are shown in the set position of the armature check the cam contacts M 1, M 2, m 3 and 114 as shown in FIG. Position shown in Figure 5. If the relay V is therefore energized, when the contact 24v closes, the magnet II is energized in the following circuit: earth, coil 11, cam contact m2, contact 24v, battery, earth. The armature A (Fig. 5a) then leaves the position shown and is in front of the magnet II. If the cam contact is now closed, the magnet I is excited. The forwarding of the now available. accumulated engine in a conventional way by alternately turning on and off of the coils 1 and II If the selector MW shown in FIG. 3 is set to one of the contacts 6 to io., the shutdown takes place in the manner previously described by operation of the relay P A stationary field is produced again for the coils I and II, whereupon the armature adjusts itself between the poles of the magnets I and II. The relay Hi did not respond because the switching arm sd has left segment i to 5 to which the relay Hi is connected. If the connection is to be released, relay P will first fail when relay C drops out. Closing contact 16p creates the following circuit for relay V: earth, shaft contact 2 wo, contacts 16p, 17hi, relay V, battery, earth. Relay V switches on relay V: 2 via contact 2o v and energizes coil I via contact 24 v. The dial is then switched on in the same direction of rotation (counterclockwise) in which it was originally set and thus reaches position o. In this, the test relay P is excited via the switching arm sd, contacts 30 V 2, 5 c . A stationary field established via coils I and II through contact 2: 2 p (Fig. 4) stops the motor, whereupon after the relay V has dropped by opening contact 2 where the selector is in its rest position (Fig. 4a). It should also be mentioned that a cam disk can be arranged on the shaft of the armature A , which, provided with notches, determines the rest position of the armature A under control by a spring after the drive coils have been de-energized.

In Figs. 6, 6a, 7 and 7a the principle of a motor selector is shown, which can be operated also in the circuit of FIG. 3. Instead of the control coils I, II and III according to FIGS. 4, 4.a, 5 and 5a, the arrangement at FIG. 6 occurs. The rest positions that the armature R of this motor can assume are shown in FIGS. 6a and 7a shown. If the armature is in the rest position according to FIG. 6a or according to FIG. 7a, it is moved counterclockwise when the control: t: 24v (FIGS. 6, 7) is closed. If the motor Mo, 2 is in the rest position according to FIG. 6a, the cam contacts are in the position shown in FIG. 6-. If the contact 24v is closed, i. H. the selector should be switched counter-clockwise, this creates the following circuit for coil I: -Earth, battery, Kontakt24v, Nockenkontaktmi, coil I, earth. The armature R, which is in front of the coil Ha, is now moved to the pole of the magnet I. During this movement, the cam contact m 2 is closed, as a result of which the coil II b receives current directly and via the resistor Wi to the coil Ha. As a result, the armature R is switched on from the magnet IIb to the magnet Ha. In the meantime, the cam contact m 2 is opened and the cam contact mi is closed again. As a result, the magnet I is again excited, so that the motor Mo 2 is switched on in a proper manner in a counterclockwise direction #. If the voter is to be shut down, the test relay F responds, whereby the contact: 22 p creates a stationary field through the coils I and Ha and Hb. The armature assumes the setting shown in Fig. (#A) influenced by this field.

. If the motor from the set position shown 6a are indexed in a clockwise direction in Fig, so the contact will upon energization of the relay Vi upon closure 25 V i the windings IIa and IIb in the following - energized circuit: ground coil Ha, - is parallel thereto the coil IIb and resistor Wi - contact 30 v I, cam contact Ilt 3, contact 25 v i, battery, earth. The armature R is switched clockwise - when the coil IIb switched on via the resistor Wi is excited. By opening the cam contact liz 3 and closing the cam contact 1n4, the magnet III is excited, so that the progression of the motor from left to right is ensured.

The running motor is stopped when it moves clockwise by producing a stationary field by exciting coils Ha, IIb and III. As a result, the armature R assumes the setting position shown in FIG. 7a. If it is to be switched counter-clockwise from this position, in which the cam contacts in, i, in: 2, in.3 and m 4 assume the position shown in FIG. 7 , then when the contacts 24v and 31 V first the winding IIb and then the winding Ila excited via the resistor Wi. The armature R receives a torque which moves it counterclockwise. By closing the cam contact mi, the coil I is now switched on, so that the armature R is switched in the direction from right to left.

Claims (2)

PATENT CLAIMS: i. Circuit arrangement for the triggering of voters with several directions of movement in telephone or other telecommunication systems, characterized in that the voter, when setting, actuates control switching means (cam contact inc, sd) which, according to the position of the roller assumed at the time of the arrival of a triggering stimulus, are triggered which, taking into account the contacts that still have to be crossed during the triggering process, arrange for shorter distances. 2. Circuit arrangement according to claim i for rotary dial with square movement, characterized in that a multiple contact (inc) adjusted in the selector during the rotary movement »causes the excitation of an auxiliary magnet (H) only when the selector is set to contacts of the first half of the individual contact banks during the tripping process which lifts the pawl and pawl (St) out of its teeth for the rotary movement. - 3. Circuit arrangement according to claim 2, characterized in that the auxiliary magnet (M) lifts not only the push and pawl for the Drehbeweaung, but also for the lifting movement. 4. Circuit arrangement according to claim i, for voters with motor drive, characterized in that the auxiliary switching means controlled by the voter (sd) turn on that motor coil of the drive motor as the first through which the torque corresponding to the desired direction comes about on the armature of the motor. , 5. Circuit arrangement according to Claim 4, characterized in that, depending on the setting of the selector at the time of the triggering stimulus, the control switches permit one of two starting circuits (V, Vi), one of which determines the forward run, the other the reverse run. 6. Circuit arrangement according to claim 4, characterized in that the selector two en- adjacently arranged magnets (IIa, Ilb) are assigned to ZD, one of which is directly, the other I delayed, for. B. is switched on via a resistor. 7. Circuit arrangement according to AnsiDruch 6, characterized in that depending on the, 1 direction of rotation in which the motor is to work, one or the other of these Ma-Neten is directly reached. 8. Circuit arrangement according to claim 7, characterized in that the shutdown of the motor armature by a stationary field. which is formed by exciting the two closely spaced magnets and a third magnet (z. B. I or III) takes place. G. Circuit arrangement according to Claim 4, characterized in that the rest positions of the selector are different depending on whether it has been stopped after a forward or backward movement. I.