DE491330C - Capacitor, especially for the transmission of high-frequency currents on high-voltage lines - Google Patents

Description

Capacitor, especially for the transmission of high frequency currents on power lines The invention relates to capacitors, in particular - = for the transmission of high-frequency currents on high-voltage lines. As a capacitor a single-core cable is used in a manner known per se, which is simple and reliable built and very cheap and its capacity simply by changing its length can be chosen differently.

Several exemplary embodiments of the subject matter of the invention are shown in the drawing illustrated. Fig. I shows an embodiment; of the condenser in elevation, Fig.2 the lower part of the capacitor in section, Fig.3 a circuit diagram of the in Fig. i illustrated capacitor and Fig.4 the lower part of another Embodiment.

The capacitor (Fig. I) consists of the cable loop 2, the ends of which are surrounded by the bushing insulator 3 and the metal container, 4, the 01 or contain any other insulating liquid. On the head of the implementation 3 sits a hood 5, which slipped over the bellows-like oil expansion vessel.5a (Fig. 2) is. A supporting structure 6 is attached to the container 4 and to the foot of the bushing 3, that carries the cable loop 2 and secures it against lateral displacement. The structure can be composed of angle iron and divisible in halves that form the cable loop grasp from both sides. The halves can be connected in some way, e.g. B. screwed be. In the embodiment shown in Fig. I .wird the screws Provide expedient in the vicinity of the incision 7.

From Fig. 2 it can be seen that the cable 2 selected is a waveguide cable is. The cable core 8 has a bore g that extends through the entire cable, and, as usual, is surrounded by insulation io. One is particularly suitable wire-braided waveguide cable. Its insulation is, as usual, by a metal jacket, the cable jacket i i surrounded. The ends of the cable core 8 are with the screw head 1: 2 and thus also conductively connected to the screw bolts 13. The screw bolt is carried by the head piece 14, which sits on the head of the bushing 3. On neck of the bushing insulator is a metal ring 16 with the help of cement or a metal ring similar binder attached. The head piece 14 is screwed onto the neck ring 16. The nuts 17 secure the bolt 13 and prevent so that: the Cable can fall downwards. The threaded part of the screw bolt penetrates the plate 18, which is attached to the head piece 14 by screw ig. The headpiece 14 has bores 2o to allow the 01 to pass through; aside from that it carries a head plate 21 which is screwed on by screws a2. In the headstock sits a threaded pipe piece 23, the upper end of which with your sebum 5a is screwed. Between the head piece 14 and the head plate 21 on the one hand and the passage 3, on the other hand, a seal is provided to provide an oil-tight Achieve a deal. The foot of the bushing 3 rests on the metal plate 24. Am Foot is a metal foot ring 25 attached to the foot plate 24 by screws a6 is connected. In addition, here too, similar to the head of implementation 3, A seal is placed between it and the footplate 24 to provide an oil-tight seal to achieve. The metal container '4 (Fig. I and 2) has a flange 28 which extends to the inner edge of the plate 2q. rests, and carries a jacket piece 29, the flange of which on because flange 28 is on. Both flanges are between the seal 27 Base plate 24 and bushing 3 clamped in to seal off oil (light.

The container 4 is closed at the bottom by plates 30 and 31, each of which has a conical downward pipe extension 32 and 33, respectively. The end plates 30 and 31 are screwed together (screws 34) and also screwed oil-tight to the lower edge of the container 4 (screws 35). The pipe sockets 32 and 33 are connected to the cable jacket ii by lead seals 36 and 37 in a conductive and oil-tight manner. Stuffing or oil drain plugs 38 and 39 are also provided on the two pipe sockets 32 and 33. The oil expansion vessel 5a is also closed at the top by such a plug screw 4o. The hood 5, which rests on the head piece 14 of the bushing 3, protects the bellows 5a and closes off the inner contact parts of the capacitor. On the hood 5 sits a half 41, which can also hold the electrical supply lines. The hood 5 is screwed to the head piece 14 and at the same time establishes the electrical connection with the cable core 8. The connection to the cable jacket can be carried out in different ways. One of the possible embodiments is illustrated in FIG. 3. The cable sheath is surrounded by clamps or clips 42 in order to achieve a conductive connection. The clamps themselves are connected to the secondary winding of a high frequency transformer.

Fig. 2 also shows that the angle iron compound Structure 6 is screwed to the bottom of the base plate 24 (screws 43).

If the individual parts of the capacitor are assembled, then the plug 40 opened and oil or carbon tetrachloride or another Insulating liquid introduced into the bellows 5a. The oil flows through from the bellows 5a first the tube 23 into the chamber below the bar, into which the screw bolt 13 protrudes, then through the bores 2o into the interior, the implementation 3, then through the narrow space between the plate i8 and the inner wall of the bushing, washes around the two cable strands, enters the space between the jacket piece 29; and Container 4 on the one hand and the cable harnesses on the other hand up to the lead seals 36 and 37, which close off the pipe sockets 32 and 33 in an oil-tight manner against the two cable strands. As a result of temperature fluctuations, the oil will either expand or contract and thus the oil level in the bellows 5a will either rise or fall. The fluctuations the oil level can be observed through a window 43a (Fig. i), which is built into the hood 5. The condenser sealing points are through Shielded metal screens 44 and 45a.

Fig. 3 shows two capacitors that are connected to two phases of a three-wire network. It can be seen from it that only a very simple and relatively cheap implementation is necessary. Since the ends of the cable are under 01 , extremely effective insulation is ensured.

The cable does not necessarily have to be looped, Rather, one end can hang down freely and end in a liquid container, -which is filled with oil or another insulating liquid. The lower part of this Embodiment is illustrated in Fig.4. The cable jacket 45 is here by a Hollow ball 46 closed, both of which are liquid-tight by the lead seal 47 and are conductively connected. In the hollow ball 46 protrudes from an insulation So. surrounded cable core 48, which ends in a ball. The hollow ball46 has below a plug screw 51 to close and drain the insulating liquid.

Claims (7)

PATENT CLAIMS: i. Capacitor, especially for "transmission of high-frequency currents on high-voltage lines, characterized in that it consists of a single-core cable (z) with a metal jacket (ii) whose capacitance changes by changing the cable length, and that both cable ends in one with insulating liquid filled insulator are introduced. Capacitor according to claim i, characterized in that at both ends in the same insulating body (3) Introduced cable - hangs down from this in a loop shape. 3. Capacitor after Claims 1 and 2, characterized in that a with the cable sheath (i i) conductively connected, optionally forked metal container (4) connects. Capacitor according to Claim i and the following, characterized in that that the sealing points are covered by metal screens 44 or 4.5a) electrostatic. shielded are. 5. Capacitor according to claim 2, characterized in that the cable loop (2) is supported by a structure carried by the insulating body (3). 6. Capacitor according to claim i and following, characterized in that the cavity of the insulating body is completed by a bellows-like expansion vessel (5a). 7. Capacitor after Claim i, characterized in that the cable hangs freely and its lower End is inserted into a filled with insulating liquid metal container (46). B. capacitor according to: claim i and following, characterized in that the cable core is hollow, in particular made of wire mesh.