DE1018521B - Arrangement for the protection of telecommunication systems against direct influence of heavy currents - Google Patents

Description

Arrangement for the protection of telecommunication systems against direct influence of heavy currents In the lines of telecommunications systems, so-called surge arrester (gas discharge arrester) and for protection against impermissibly high External currents built-in fuses. The arrangements made so far set up Reason of the respective stage of development only imperfect and uneconomical Solutions. After high-quality gas discharge arresters with high surge current capacity, low response delay, low response voltage (230 V) and long service life have become known, it is possible to make such an arrangement that on the so-called coarse fuse can be completely dispensed with. In case one long-lasting influence of heavy current, as it is z. B. by one on a telecommunication line Lying power lines can occur, must be used to protect the telecommunications system or the telecommunication device a safety effect can be maintained.

While previously a fine current fuse, a re-soldering fuse or an inert current fuse with a carbon, silite or graphite rod the securing effect was transferred as a radiator and low-melting solder, it is transferred to a gas discharge arrester according to the invention. According to the invention is the gas discharge arrester with a switching device that reacts when heated provided that interrupts the current path in the direction of the protected object when responding and short-circuits the gas discharge tube.

The subject matter of the invention is explained in more detail with reference to the drawings. As shown in Fig. 1 in principle, flows when influenced by heavy current, z. B. 220 V alternating voltage, a constant current in the F., - rr, _irneldel-: i: tung 1, which divides at the junction according to Kirch.hoff's law and via the Protected object 2 (telecommunication device) and flows through the gas discharge arrester 3 to earth.

This dangerous continuous current through the protected object and through the gas discharge arrester must be stopped. The gas discharge arrester, which responds at 220 V, remains continuously ignited and heated by the glow and arc discharge. This warming is used in the arrangement according to the invention to have a soldering point lower melting point, the protective object must be disconnected from the line and the gas discharge tube short-circuit.

In Fig. 2, the mode of operation of the invention is shown. Of the Line 1 flows a partial current via the electrode feed 7 through the gas discharge arrester 3 to the electrode feed 9 and further to the earth. The further partial flow flows from the electrode feed 7 via a pretensioned leaf spring 4 attached to it, which with a low melting point: the Lo.t5 is soldered to a contact piece 6, further via the protected object 2 to earth. Instead of a soldered leaf spring 4 can if necessary, other contact organs can also be used. For example is also a known bimetallic spring suitable for this purpose. Because of the warming of the gas discharge arrester, solder 5 melts in the time z2 sec and releases the leaf spring 4. The partial flow through the protected object is interrupted. The leaf spring 4 makes contact with the contact part 8, which is on the electrode lead 9 is attached, and short-circuits the Ahleiter in a known manner. Of the This prevents the arrester from being destroyed.

This leaf spring 4 can be soldered back. so the arrangement again is operational.

The triggering device according to the invention is considered to be the normal case. the The embodiment according to FIG. 3 is provided with an additional device and is for the Case thought that there is a fear that the arc will not break after tripping goes out by itself. In this case, the insulating piece 10 should z. B. in the Shape of a tube under the pressure of a @. @ Terideldruckfeder 11 between the Push the contact part 6 and the release spring 4.

Because of the dimensioning of the fuses of the power lines it is not to be expected that they will with the given resistance conditions Trip despite the earth fault, a current flow continues until from sides the fault service intervenes. Due to the short circuit of the gas discharge tube there is a certain security against physical damage when touched by Current exposure given. In the case of transfer terminations, a additional contact device and one of this contact device connected in parallel Glow lamp emits an optical signal when the shutter is opened, which indicates that the telecommunication lines are under external voltage. Be for this purpose all surge arresters in the transfer end closure designed according to the invention via a common bypass switch 12, which is passed through the cover of the transfer termination is operated, connected to the earth. Fig. 4 shows the principle. Through all of them Power lines influenced lines then the current flows after response the corresponding surge arrester via the respective short-circuit contact 48, the common bypass switch 12 to earth. When opening the transfer end cap the bridging contact is opened and the signal lamp is activated.

Claims (5)

PATENT CLAIMS: 1. Arrangement for the protection of telecommunications systems against direct influence of heavy current using a gas discharge arrester, which is connected in front of the object to be protected between an incoming line and earth is, characterized in that the gas discharge arrester (3) with a heating the arrester responsive switching device (4, 5, 8) is provided, which at their If they respond, the current path in the direction of the protected object (2) is interrupted and the gas discharge arrester is interrupted (3) shorts. 2. Arrangement according to claim 1, characterized in that the Switching device (4, 5, 8) contains a pretensioned leaf spring (4) which has a Changeover contact of the switching device forms and in its operating position by easily melting Lot (5) is held. 3. Arrangement according to claim 1, characterized in that that the switching device contains a bin metal spring which acts as a changeover contact. 4. Arrangement according to claim 1, 2 or 3, characterized in that the contact member (4) of the switching device (4, 5, 8) is under spring tension (spring 11) Spacer, for example an insulating tube (10), is pushed (Figure 3). 5. Circuit arrangement for transfer terminations with a protective arrangement according to one of claims 1 to 4, characterized in that a preferably by the cover of the transfer termination actuated bridging contact (12) and one with the transfer termination closed through these-n bridging contacts (12) short-circuited glow lamp (13) are provided, which when the shutter is opened cause an optical signal (Fig. 4).