DEP0009038DA - Circuit arrangement for protecting electrical lines against overload, in particular in telecommunications systems - Google Patents

Description

Circuit arrangement for protecting electrical lines against overload, in particular in telecommunications systems.

If strong in a plant Often / Deree parts, in particular the supply lines, endangering * e ^ tröme auftrete ^ is the consumption of fuses erheblioher ₀ Besides the fact that the frequent replacement of fuses is uneconomical, is still the fiachteil that in many incidents the plant c is shut down longer * -fr than necessary ·. The torong, which results in the extraction of an impermissibly strong current, only exists for a short time in the Hegel. Until the call is made as to whether new fuses can be used without the risk of immediate blown and until the fuses are inserted, it will take a long time. In order to reduce the high consumption of fuses, to adequately protect the lines against impermissibly strong currents and to shut down the systems no longer than absolutely necessary, anorogens are known in which an overcurrent relay that responds only to a significant increase in the current has a high protective resistance switches on the circuit causing the strong current draw. These arrangements require a larger number of switching elements for this purpose.

Bio v ^ arliogoiad '«» Invention shows a way of reliably protecting electrical lines against overload and, when using it Discontinuation of the state that required the withdrawal of too strong current,

so after the end of the danger period, the normal operating circuit is automatically restored vHrdj although only one opposite the known arrangements much less © number of switching elements is needed.

The invention consists in that an overstroairelals, when responding , switches its own second winding into the Leittiagjsiiaschie to be protected and that this winding is dimensioned in such a way that it. for the layman, al. also as iSSßfeS? K? Ä ^ R ^ ^

The protection of the lines is ipitMn only peo of a by applying ~ • £; en_Relals with two 3Ή 'eklitngen rw ¹ reaches a contact * Suitably dieser_e1nzige relay contact is designed as a break contact and öffnet.beim response, the Uberetrojnrelais shorting of the second and holding ckli? / ^ '.nid protective resistance v / acting winding.

In the drawing, two games of entertainment are shown ο

<lie y.r Π η dung, connected ^^ n let in systems fed by direct current, while i: i ^ go2 ciae WsoHoöIstrom-fed systems caused is",

Tie ^v r'fiinung canoe for electrical installations of any kind at £, e? ^ Ends vjerdan. At Jferronoldesnla ^ en j, ls bberstroiarelais a HeIeAa of the 3 ^ oh used in the plant ^a , a Type can be used.

Paa über ^ trornrclais A1 lies ntf τ sr-inar 'liicklung, I, ciie eiron lower Tideri3tar.d has, in the SpelaoleitUiig, which asu. any number of consumers V, for example to. 'siner Gruppo of voters, leads «· As long as in the Strorakrais: -Pol of the battery B, Eclaia ü1 winding Ij contact al, consumer V. + Pal of the battery ^ B or'änn-itigsgsi & ^ e hetr-lebDverhältaisse prevail, over ütron . accordingly oine b ^ v'tiitsrta height does not exceed ^, the relaio A1 cannot ansorecheric

But reached the removed from the battery B power from some reason or other, for example due to an event occurring at a load short-circuit, such a level "that the leads are at risk, the over current relay A1 responds and opens his only contact ^ .. Thereby, the Short circuit of winding II of the overcurrent relay canceled. The winding II is placed in the feed line, in series with the winding I ·. This winding II is measured in such a way that when it is switched on, the current drawn from battery B is reduced to a value that no longer endangers the feed line and the overcurrent relay is safely held in its working position despite the decrease in current.

At the end of the condition that causes the unacceptably strong current to be drawn from the consumers or from the supply lines between äem überatromreiais A1 and the consumers, the high resistance of winding II causes the current drawn from battery B to drop to such a level that the overcurrent relay A1 can no longer hold its armature in the working position. It drops out and closes the contact at «Hunmore, that is, immediately at the end of the danger time, * the normal operating state is established in which only the low-resistance winding I of the overflow relay is in the feed line.

During the entire danger time, but only during this, the lines are through a relay with two windings and one single Contact, a normally closed contact, safely protected against overload.

Depending on the given conditions, the overcurrent relay can be used for one consumer, for a group of consumers or only once for the entire system.

2:

The system is not fed from a battery, but from an AC power source. In a feed line there is again an overcurrent relay A2 with its low resistance I. The overcurrent relay can be provided jointly for a group of consumers _{or the like}

If the over-atmospheric relay A2 responds when a large part of the system is removed, especially the supply lines " danger a &e", and opens the contact a2, the short-circuit of the high-resistance winding II is canceled Rectifiers G1, G2 ₁ G3> G4 switched on. Due to the alternating current, one half-wave of which flows via: rectifier G1, relay A2 winding-IJ ₁ rectifier G2 and its second «" half-wave-via rectifier G3, Heiais Δ2 winding II, rectifier G4, - the relay A2 remains safely addressed during the danger time * At the same time, however, due to the high resistance of Widklung II, the current is reduced to a value that no longer endangers the lines.

If, as a result of the elimination of the excessively strong current-causing condition, the current drops, which would no longer endanger the lines even with the winding II switched off, relay A2 no longer attracts its armature. It closes the contact a2 Winding II and the rectifiers G1, G2, G3> G4 briefly

2 figures

Claims (1)

4 claims, Claims ϊ 1) Circuit arrangement sua contactors of electrical lines against overload, especially in permanent installations, because it is known that sin u'baratromrelo / la (A1, A2) offered his response an own wide winding (ll) in the protective line and that this switches on Winding (II) is dimensioned in this way. that all the time of the danger time as well as * · Haltewicjcluns ) cF aTs ~ c mtc at for the HGlaia (A1, A2) as aucF aTs ~ c mtc betw 2) circuit arrangement according to claim 1, characterized in that the holding voltage (II) when the overcurrent relay responds " (Al, A2) by removing a short circuit (al, a2) in the line. 5) A circuit arrangement according to claim 1, for j »it AC-ge <" - speiat "lines, characterized in that <He holding Wick lung (A2II) üfeer arranged according to their Eiiaschalten in Qrätasehaltung rectifier (Gt - 04) 'in <OCE to Achützeadsn management 4-) Circuit arrangement according to claim. 3, due to the fact that if the overroBrelait (A2) is not addressed, the holding position is triggered (II) and GHelchrichter (oil - G-4) are taugtechloeeea.