DE1465986A1 - DC high voltage switch with liquid flow - Google Patents

Description

Braunschweig, April 25, 1963 Gr / B a

U65986

Match RPM Hpche voltage switch with liquid flow

Additional patent application for M 53 582 (direct current high voltage switch)

The invention "relates to switches, preferably for high tension Direct current, with an arc under an extinguishing liquid, in which a high arc voltage is generated target.

The main patent specifies one container * with at least one a wall made of solid insulating material is moved transversely to the starting position of the arc. The switch is through characterized that within the switch housing an oil-filled space formed by solid walls (Liolrfcbogenrauni) is provided in which the Iöoiierstoffwand and the Arc are moved into it. The one given in the chief patet Arrangement is suitable for rapid extension döS Liciitbogeus, associated with an intensive cooling of the same. This causes a rapid rise in the Lientbogett tension reached on high fourth.

The present application is based on the task of the LicntDogenapannüng after rapid increase in to maintain a desired U-rCüe until the Btröm has become zero.

The problem is solved by a high voltage post-switch according to Patüiit .... (patent application M 5 ^ 582 of July 13, 62) j ί dahui'cü,; ekeriiizuichnet is; that components are provided

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with the help of which a liquid flow is generated, and that inflow channels distributed over the arc length, and opposite discharge channels are arranged so that the arc blows across and at several points is held in place by insulating material.

For example, if an opening is to be performed in a direct current circuit, the one stored in the circuit must be Magnetic energy is at least partly consumed by the arc or converted into heat. at high driving voltage in the circuit, a high arc voltage is required over a longer period of time, the more magnetic energy is stored in the circle. When switching off with a switch that has a high arc voltage produced essentially by lengthening the arch, great lengths of the arch may be required. In the present patent, an arrangement is now also specified which allows a high arc voltage to be maintained for a sufficiently long time without the arc being extended beyond a certain extent must become. This enables the switch to be small in size.

The arc voltage is close to a switch Invention maintained in the desired size by a liquid flow across the arc, wherein the Arc itself held in place at several points by insulating material and at a substantial extension is prevented. This means that the arc largely retains its position while an extinguishing agent is used The flow across the axis provides intensive cooling causes.

It is useful to use components for Utrj-mungseraeu ^ unii, as well as Inlet and outlet ducts to be designed and arranged in such a way that there is an approximately even coating of the arc on the mimed one Arc length ^ occurs. Daduroh is achieved; that the

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Arc field strength is approximately the same along the length of the arc and thus its entire length to generate a high voltage is used.

Another useful design of an arrangement according to the invention can be achieved by:

Inflow and outflow channels, which are arranged so that the entire arc space is covered and a lateral one Evasion of the arc is avoided.

Finely distributed channels for the inflow and outflow of the extinguishing agent.

Gas-emitting substances for the connections of the channels.

So executed 5Ju and outflow channels that also with Material verscb.j-eiss the desired flow guidance ' hold remains.

Execution of the inlet and / or outlet ducts in the form of Bars or bars.

Generation of high pressure in front of the inlet flow openings with the help of chemical explosives or propellants.

The figures show examples of the design of a switch according to the invention.

In Figure 1 is a longitudinal section through the essentials '. Part of a rfcualters according to the invention shown in principle,

Fig. 2 shows a cross section along the line A-A through this uC.-age.

Fig. 3 and subscription. 4 show examples flow another useful j-T uei * Abotr "akanäle.

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"" In Figs. 5 and 6 show cross-sections through arrangements with Propellant or explosive charges for generating a flow of liquid.

Fig. 1 shows the power supply lines 1 with the contact pieces ; '■ ■ 2 and 3. The arrangement is during a switch-off process shown. It is located within an extinguishing liquid. The arc, which is lengthened by the insulating plate 5, is denoted by 4. The insulating sheet

moves in the direction of the arrow 6

only one can be seen in Fig. 1. The arc and the P insulating plate are located in one of the walls 8

enclosed .space. According to the invention, outflow channels 9 are in attached to the walls 8, through which a flow can take place transversely to the axis of the arc.

On the left in Fig. 1, a design of outflow channels 9 is shown, which are delimited by webs 10. The outflow channels 9 », which are shown in the right-hand part, are honeycomb-shaped Lattice formed. These outflow channels can, for example, approximate. rectangular (as shown in the drawing) or also y have a round cross-section.

Fig. 2 shows a cross section along the line A-A through the arrangement according to Fig. 1. Here both grooves 7 can be seen,

in which the insulating plate 5 is guided. The cross section

j ″ now also shows the inflow channels 10 and the opposite ones Outflow channels 9 for the flow of liquid. By

/ Arrows 11 indicate the sighting of the liquid flow.

The flow causes an intensive cooling of the arc and thereby increases the electrical power. Field strength in the arc. Through the Flow, the arc can be moved in flow direction and into a position not shown in the figure close to aie Inlet openings of the outflow channels 9 are brought up.

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The outflow channels are to be dimensioned so that an intensive Liquid flow approaches the arc.

Fig. 3 and Fig. 4 show a design of outflow channels 9 and with wedge-shaped or groove-shaped recessed transverse webs 10 and the arc 4 · Fig. 3 shows the side view of the AusBströmiükanäle, Fig · »4 a transverse web in plan view. The direction of the extinguishing agent flow is indicated by arrows. With this arrangement, the position of the longitudinal axis of the arc is determined by the recesses 12 in the transverse * stegen predetermined. The extinguishing agent flow becomes very close brought up to the arch because only immediately behind it Outflow channels 9 are present, the laterally by spacers 13 are limited.

In Fig. 5, similar to Fig. 2, a cross section through a switch is shown. The parts have the same meaning as in Fig. 2. The wall 13, which encloses the space 14, which is also filled with liquid, is also provided. The propellant or explosive charges 15 are located in this seam. After their ignition in the space 14, they generate a high pressure within a very short time, which drives the dissolving fluid through the inflow channels 10 and the outflow channel ©. The arc is intensively cooled by the extinguishing agent. In this example, the charges are rod-shaped (the figure shows the rods in cross-section). The iäpreng- or propellant charge is distributed in this way in a direction approximately parallel to the longitudinal axis of the arc. This has the advantage that the increase in pressure caused by the ignition of the charges has an even effect over the entire length of the arc.

Fig. 6 is an example of a switch with only one etabföri.ii;. ·; trained explosive or propellant charge 15 · It is located iiinurualb dur fouten wall 13. The extinguishing medium flow

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the explosive or propellant charge in the direction of the arrows through the part of the switch shown on the left is driven, is deflected by the walls 16 and to cool the arc in your right part of the switch also involved. With such an arrangement, there is a more intense flow of liquid in the right part of the switch effective than in the left. For the flow in the right part, both that developed by the propellant charge are used Gas as well as the amount of gas generated by the arc in the left part.

A switch according to the invention is expediently arranged in series with a circuit breaker. Then normal, Operational circuits can be carried out with the circuit breaker, with the current intensity in the disconnected Circuit is first regulated to UuIl with the help of converter controls.

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Claims (1)

BraunBchweig, April 25, 1965 Gr / Ba Patent Claims High-voltage switch according to Pat. ... (patent application M 55 582 from 15 · 7 · 62), characterized in that components are provided, with the help of which a liquid flow is generated, and that inflow channels distributed over the arc length and opposite discharge channels are arranged so that the arc blows across and at several points is held in place by insulating material. 2. Switch according to claim 1, characterized in that the arc by a liquid flow transversely to his Blowing up the axis is prevented from significantly lengthening we α. 5. Switch according to claim 1, characterized in that the components for generating the flow and the inflow and outflow channels are designed and arranged so that an approximately uniform iespüluiiö of the arc over the entire arc length entry. 4 · Switches according to one or more of the preceding Claims, characterized in that the inflow or outflow channels are arranged in such a way that the entire arc space is xaiit and a sideways evasion of the arc avoided wira. .). Switch according to one or more of the front provisions adopted speech dadurcii in that finely-divided channels for the h \ x and outflow are provided. - 2 - »09822/0432; ,,. ,, 6. Solitary age according to one or more of the previous ones Claims, characterized in that gas-releasing substances are used for the walls of the channels. 7. Switch naoh one or more of the preceding claims, characterized in that inflow and outflow channels are designed so that the flow is maintained even when the material is worn. 8. Switch according to one or more of the preceding claims, characterized by the design of the walls Inflow and / or outflow channels in the form of webs or grids. 9. Switch according to one or more of the preceding claims, characterized in that webs for the outflow channels Have groove-shaped recesses. .10. Switch according to one or more of the preceding claims, characterized by the generation of a high pressure in front of the inflow openings with the help of chemical explosives or propellants. 11. Switch according to one or more of the preceding Claims, characterized in that propellant charges are provided in a special space which are suitable for gas evolution to quickly generate a flow of solvent. 12. Switch naoh one or more of the preceding claims, characterized in that the explosive or propellant charge in one direction at least approximately parallel to 909822/0432 BAD or _IQ . _NA l Langsaoh.se the arc are arranged distributed. 13. Switch naoh one or more of the preceding claims, characterized in that the explosive or Propellant charges are rod-shaped. 14. Switch naoh one or more of the preceding claims, characterized in that for generating the Solvent flow both a propellant or explosive charge, alB The gas generated by the arc can also take effect. 15 «Switch according to one or more of the preceding Claims, characterized duroh arrangement of a disconnector in Heine with the circuit breaker. 16. Switch according to one or more of the preceding Claims, in particular. . 15 »characterized in that normal operational circuits with the disconnector be carried out and that only the overload and short-circuit shutdowns with the circuit breaker after registration be performed. 17. Switch according to one or more of the preceding Claims, dadurcri characterized in that prior to actuation of the disconnector through the control of DC and / or Inverters, the current intensity in the line path in which switching is to take place is regulated to approximately zero. BATH 909822/0432