DE416157C - Circuit arrangement for the simultaneous setting of several stepping mechanisms, especially in telephone systems - Google Patents

Description

The invention relates to the simultaneous and uniform setting of several stepping mechanisms, especially in telephone systems. A simultaneous and uniform adjustment is thereby achieved according to the invention achieved that the adjusting members of the stepping mechanisms and the surge generating devices control each other in such a way that only after the adjustment elements come into effect all of them Simultaneously to be set stepping mechanisms the current impulse generating unit into one is brought into a suitable state for delivering a further current surge. It is not necessary that the impulse generating device controlled by the drive magnets of the stepping mechanisms themselves will. The control can also be from the switching pawl or the pawl of the step ao Switching mechanism, which with special, influencing the current surge generating device Contacts is equipped.

The arrangement according to the invention can | For example, they can be used in telephone systems for a wide variety of purposes. So j it is z. B. possible that at the same time with a connection dialer a step switch is to be set, via which in telephone networks with main or sub-exchanges the connection is switched to the connection dialer of the calling sub-exchange when the desired subscriber is connected to it.

Furthermore, the arrangement can be used when having one at the same time as one Connection selector stepping mechanism to be set the connection of a switching device takes place, which increments the counter of the calling subscriber according to the value of the connection established. As further examples of the possible application of the inventive concept, there are also systems with a surge converter (Register) pointed out.

In the drawing, a system is now shown as an embodiment of the invention, for the purpose of establishing high-quality connections from the calling station from two voters at the same time and are to be set evenly, since both dialers connect to one and the same downstream connection dialer must be established.

The individual switching operations are explained using Figs. 1 and 2.

When the group selector pair // GW fa and // GW fb is occupied by an upstream first group selector, a circuit is closed over the test arm of this group selector, which is connected to earth via the test relay (not shown) of the first group selector, the test wire 1, the head contact 2 kfa and the Windings 1 of relays B ₁ and C ₁ and battery run to earth. The relays B ₁ and C ₁ respond. The relay C ₁ prepares a holding circuit via its two windings I and II by closing its contact 2n. By opening the contact 4 _C1 , the y ₀ tripping magnets M ₁ and M _{2 are} switched off and the rotary magnets D ₁ and D _{2 are switched} on in preparation via the contact Sc _1. The test relay P ₁ ah the test arm 7 of the group selector HGW fa is switched on at contact 6 _el . The relay B ₁ , which was energized at the same time as the relay C ₁ , switches the surge receiving relay A ₁ to wire 9 at its contact 8 ^ ₁ and its second winding IIB ₁ to wire 11 at _{contact 1Oj 1.} Furthermore, by closing the contact 12 ^ ₁ , it prepares the circuit for the lifting magnets H ₁ and H _{2 of} the two group selectors // GW fa and IIGW fb . Opening the contact 13 ^ ₁ prevents the rotary solenoids D ₁ and D ₂ from being switched on prematurely. If the calling station sends out current impulses to set a second group selector, a battery potential is connected to wire 11 at an upstream impulse transmitter in a manner known per se, thereby keeping relay B ₁ energized for the duration of the impulse series. Current surges are sent via wire 9. With each current surge, relay A _{1 is} excited, which closes the circuits of lifting magnets H ₁ and H ₂ at contacts i4 _{al and I5 el} : earth, contacts 12 ^ ₁ and I4 _al , lifting magnet H ₁ , battery, earth, or _1O o earth, contacts 12J ₁ , I5 _ai , solenoid H ₂ , battery, earth.

*) The patent seeker stated as the inventor:

Alfred Scheunert in Charlottenburg.

Claims (3)

When the first stroke step is carried out, the head contact 2 kfa is opened and the winding I of the relay B1 is thereby switched off. In addition, the head contacts 16kfa and i6kfb are closed. After the end of the series of current impulses, the battery is disconnected from wire 11, whereby the relay B1 is de-energized. It closes its contact 13 ^ 1, so that now the rotary magnets D1 and D2 of both group selectors are excited. The circuit for the rotary magnets runs as follows: Earth, contact 13S1, 16 kfa or the parallel contact 17 ^ / 6, ΐ8Μ, Sn, ΐ ° «ι, rotary magnet D1, battery, earth or parallel contact 2ΟΛ1, rotary magnet D2, battery, earth. When both rotary solenoids have responded, relay A1 is locally excited: earth, contact 22 ^ 1, 22rf2, relay A1, battery, earth. The relay A1 interrupts its contacts 19 ^ 1 and 20αι, so that the rotary magnets D1 and D2 are de-energized. The two group selectors have been adjusted by one step, and the falling relay A1 closes its normally closed contacts 19 ^ 1 and 2oai again. The rotary solenoids D1 and D2 can now respond again and close the circuit for the relay A1, which in turn interrupts the circuits for D1 and D2. As a result of the inevitability in the closing and interruption of the circuits for the drive magnets D1 and Da it is achieved that both group selectors are set synchronously. When a free line selector is found, the relay ^ 1 is energized by a circuit coming into effect via wire 24, it blocks the found free line selector in a known manner by short-circuiting its high-resistance winding I at contact 2βΡ1 and interrupts the circuits for by opening contact i8M the rotary solenoids D1 and D2. The further switching operations to be carried out to establish a connection have no influence on the understanding of the present invention, so that the description thereof is dispensed with. After a call has ended, the circuit for relay C1 is interrupted in an upstream connection device, relay C1 drops out and initiates the triggering of the two selector switches IIGW fa and IIGW fb, which are set at the same time, by initially connecting the circuit of relay P1 to contact 6C1 interrupts. If this relay has dropped out, the magnets M1 and M2 are excited in the following way: earth, 13 ^ 1, parallel contacts kfa and 17 kfb, 16P1, 4n, trigger magnet M1 or trigger magnet M .->, battery, earth. The two voters IIGW f α and IIGW fb go back to the rest position. In Fig. 2, a further embodiment of the invention is shown. It differs from the one shown in Fig. 1 in that the relay A11 serving as a current surge generator closes the circuits for the drive magnets D11 and D12 -two simultaneously and evenly adjustable stepping mechanisms in the energized state. It goes without saying that in the circuit for the relay A11 and the magnets D11 and D12 there can be additional contacts in addition to the indicated switch-on contact η. When the contact η closes, the relay A11 is excited via the parallel contacts dn and d12 of the drive magnets D11 and D12. The relay .A11 closes its two contacts O11 and A11 '. The excitation circuit for relay A11 is only interrupted when both magnets D11 and D12 have attracted their armature. 85 godparents τ-Α ν Proverbs: 1. Circuit arrangement for the simultaneous setting of several stepping mechanisms, especially in telephone systems, characterized in that the adjusting _{elements (D 1} D ₂ ) of the stepping mechanisms (selector IIGW fa, fb) and the control device (A ₁ ) are dependent on each other in such a way that only after The setting elements (D ₁ , D ₂ ) of all stepping mechanisms (selector IIGW fa and fb) to be set simultaneously, the control _{device (A 1} ) can cause the setting elements to be re-excited. 2. Circuit arrangement according to claim I, characterized in that a relay (A ₁ ) serving as a control element is excited only after all adjusting elements (D ₁ , D ₂ ) come into effect and interrupts the excitation circuits of the adjusting elements. 3. Circuit arrangement according to Claim i, characterized in that the excitation circuit of a relay (A ₁₁ ) which serves as a control element and switches on the setting elements in the energized state is interrupted only after all the setting elements (D ₁ , D ₂ ) have come into effect. 1 sheet of drawings.