DE384974C - Above-ground line for power transmission with high voltage direct current - Google Patents

Description

Above-ground line for power transmission with high-voltage direct current. If a single current-carrying point in a power transmission system with high-voltage direct current is grounded via an electrical resistor, the electrical potential at this point is equal to that of the earth. If an insulator of the above-ground line is damaged, a second point, the potential of which is different from that of the ground, is then immediately, i.e. H. without the interposition of an electrical resistor, earthed, the earth potential in the system will shift up to that point, and there will be no immediate short circuit, since the electrical resistance opposes such a direct short circuit. If, on the other hand, with otherwise the same conditions, the first point were also earthed without the interposition of an electrical resistor, then an immediate short circuit and thus also a partial or complete malfunction would occur.

The invention now relates to an above-ground line for power transmissions with high-voltage direct current, in which a current-carrying point is directly, i. H. is grounded without the interposition of an electrical resistor. In this line, however, the above-mentioned disadvantage is avoided in that auxiliary conductors are isolated by means of insulating bodies on the one hand from the masts and on the other hand also by means of insulating bodies from the main conductors of the line, thus through this double insulation, one between the main conductors and the auxiliary conductors and the others between the auxiliary conductors and the masts, operational disruptions in the event of damage to one or more insulators can be avoided.

The drawing shows an example of an embodiment of such Line and a test post illustrated schematically, with the outward and return conductors are arranged on the same masts.

The two main conductors 1 are carried by means of chain insulators i through the auxiliary conductors mn, which in turn are attached to the cantilever arms of the masts by further chain insulators P.

The auxiliary conductors are divided into sections in, n by insulators k , which run parallel to the continuous main conductors. The sections end on both sides in inspection posts that are equipped with the necessary instruments and apparatus. The test items illustrated in lin are, it single-pole circuit breakers, r and -zE, electrical resistors through which the sections j; i, ii. the auxiliary conductors i-n can be connected to earth, c resistance regulators, t earthing.

The power transmission system has a current-carrying system (not shown) Provide immediate grounding.

The mode of operation of the illustrated embodiment is as follows: The case is assumed in which a part of the section in the auxiliary conductor j; i-ii is connected to earth via the resistor and then one of the insulators located between this section and the corresponding main conductor is damaged in this way is that there is a direct transition between main conductor 1 and part of the line. Although the power transmission system now has a directly earthed current-carrying point, in this case no direct short circuit and no malfunction can occur (la the current that flows from the main conductor 1 to the section m and from there through the resistor r to the earth t, through this Resistance r is limited to a permissible value.

If the earthing is interrupted through the resistance r between in and t by opening a circuit breaker and the voltage between 1 and -in is measured, then, if the direct current flowing through the main conductor and the resistance of this conductor per unit length is known, the Distance of the damaged insulator from the test post.

In a second case, in which, under normal conditions, an auxiliary ladder section, e.g. B. iii, is to be tested against earth, this auxiliary conductor section is brought to voltage by connecting it to your main conductor 1 through the resistor r. If, after the static charge of the auxiliary conductor section m has been completed, current still flows through the resistor r, the insulation of the auxiliary conductor section in is damaged.

The distance between the damage and the test post can then be roughly determined by measuring the voltage between the auxiliary conductor and earth using the measuring apparatus v with series resistors a in the two test posts between which the fault is located, without changing the existing circuit.

It should also be mentioned here that the resistances u are significant should have greater Ohin's value than the resistances r, since then the approximate Determination of the fault location is easier.

In the drawing, the chain insulators i and p are arranged directly one above the other, but it is clear that the chain insulators p can be provided at other points on the line than at the points where the chain insulators i are located.

The main and auxiliary lines can also be insulated using insulators that are not chain insulators.

Claims (3)

PATEINT CLAIMS: i. Above-ground line for power transmissions with high voltage direct current, in which a current-carrying point is directly earthed, characterized in that auxiliary conductors are insulated from the masts by means of insulating bodies (p) on the one hand and also from the main conductors (1) by means of insulating bodies (i) on the other, so ( let the double insulation prevent malfunctions in the event of damage to one or more insulating bodies (i). 2. Above-ground line according to claim i, characterized in that the auxiliary conductor (it-n) in sections overall splits are the ends of which are guided in check items in order there examining the insulation condition of the main circuit (1) during operation at any time to be able to. 3. Above-ground line according to claim i and 2, characterized in that the fault location can be determined by means of the test post. -t. Above-ground line according to claims 1 and 2, characterized in that the state of insulation of the auxiliary conductors (iii-ie) during operation at all times can be examined in the test post.