DE512646C - Oil switch - Google Patents

Description

GERMAN EMPIRE

ISSUED ON NOVEMBER 15, 1930

REICH PATENT OFFICE

PATENT LETTERING

Yes 512646 CLASS 21c GROUP

Oil switch Patented in the German Empire on June 20, 1928

It is a well-known measure to increase the efficiency of an oil switch, to surround its interruption points with pressure-tight chambers. The so-called extinguishing chambers fulfill this purpose in that the arc is put under high pressure in them, whereby it is extinguished earlier comes. They only allow the gases to exit downwards.

However, the arcing chambers have various disadvantages. Since they are only through proportionately small openings are in contact with the oil content of the boiler, so collect in their interior, especially with switching operations in quick succession, there are often combustion products in such an amount that the Insulation properties of the oil in the extinguishing chamber are greatly impaired and therefore the extinguishing effect is reduced. Furthermore, especially when switching on for a short circuit and when the contacts are lifted off, such gas masses arise that the pressure in the arcing chamber values values assumes, in which the switching on is very difficult, even made directly impossible. These disadvantages are intended to be avoided by the subject matter of the invention.

According to the invention, the interruption points in the oil switch with structures surrounded, the duct-like character.

They also have the task of increasing the performance of the switch, which means that it is achieved that by appropriate shaping of these structures except for a moderate one Pressure increase an outflow of the gases in the direction approximately perpendicular to the arc Direction is brought about, the blowing effect of the gas jet still having a favorable effect Has an influence on the extinguishing of the arc.

With these ducts, the disadvantages of the arcing chambers are avoided, because the outflowing Gases have a sufficiently large cross-section available, so that inexpediently high pressures and also contamination of the oil body within the guide channel can be avoided.

According to the invention, the guide channel is given such a shape that its guideline when The outlet is in the direction of the lower edge of the oil boiler, so that the outflow Do not allow gases to reach conductive parts until as far away as possible from the point of interruption hit. The guide channels of adjacent interruption points are designed so that the gas jets do not meet. This shape means that standing light arcs are created between a pole and a boiler wall or between adjacent phases.

The patent seeker stated as the inventor:

Dipl.-Ing. Georg Kirch in Berlin-Hermsdorf.

The Fig. Ι shows an oil switch in section, * its interruption points with guide channels are equipped according to the invention, io is the oil boiler, ii is its lid, 12 are the two bushing insulators of one phase with the fixed contact pieces at their lower end 13 wear. The movable counter-contact pieces are denoted by 14. The switching bridge 15 is moved with the actuating rod 16. The interruption points are from Surrounding guide channels 17 which are attached to the insulator caps 18. For the The guide channels are provided with holes 19 through the passage of the movable contact pieces. the Guide line 20 of the guide channel is perpendicular to the arc at the beginning and curves then down and runs at the exit point in the direction of the lower edge of the boiler. The direction of exit of the switching gases is therefore approximately at an angle of 45 ° inclined to the horizontal.

In Fig. 2, a guide channel is shown, which surrounds only the Abreißschaltstück while the main contact is arranged on the side of the guide channel applied to the gas jet is. This embodiment is particularly useful for large currents because one as a result, the dimensioning of the main contact is not restricted. 21 is a through Guide insulator, on the cap 22 of which the guide channel 23 is attached. 24 is the breakaway contact, 25 is the main contact, 26 is the switching bridge, on which the two movable contact pieces 27 and 28 are attached.

In Figs. 3 and 4 a simple form of a guide channel is shown in elevation and plan, which contains main and pre-contact together and through a partition is divided into two parts approximately perpendicular to the switching direction. Which caused it Separation of the switching gases into two parts has when switching off on the extinguishing of the arc a favorable influence. 30 is the bushing insulator, 31 its cap on which the Guide channel 32 is attached. 33 is the fixed contact piece, 34 the knife-shaped movable one Counter-switching piece, which through slot-shaped openings of the lower boundary surfaces of the Guide channel passes through. The lower end surface 35 of the guide channel is provided with a slot 36 provided, which extends to the front edge of the guide channel, and the partition wall 37 with an opening 38.

In the case of switches with multiple interruptions, it is particularly useful to remove each interruption part to be surrounded by a guide channel, whereby the multiple interruptions The increase in performance achieved is still increased. A space-saving, simple arrangement is shown in Figures 5 and 6 in elevation and plan, according to which the ducts are combined into a honeycomb-like building. 40 is the bushing insulator, whose cap 41 has an umbrella-shaped extension 42, under which the Guide channels 43, 44 and 45 are arranged. 46, 47 and 48 are the block-shaped fixed contact pieces, which are connected by the conductors 49 and 50 to the lead-through bolt or to one another are connected in series.

The guide channels consist of insulating material, which is hard paper, pressed material, ceramic Material, glass or the like. Can be. To increase the strength, they are expediently made of metal manufactured and covered with insulating material.

Claims (5)

Patent claims: 1. Oil switch, characterized by duct-like Building which each interruption point in the counter against the Boiler room except for a certain direction in which the guideline of the sewer points, delimit. 2. Oil switch according to claim i, characterized in that the guideline of the guide channel at the exit point is in the direction of the lower edge of the oil boiler, so that the outflowing gases only hit conductive parts yo at as great a distance as possible hit. ; 3. oil switch according to claim 1 for large Current intensities, characterized in that the contact is divided into a main contact and a breakaway contact is divided and only the tear-off contact is surrounded by a guide channel, while the main contact is outside is arranged on the side facing away from the outflowing gases. 4. Oil switch according to claim 1 with multiple interruptions, characterized in that each interruption point is surrounded by a guide channel. 5. Oil switch according to claim 4, characterized characterized in that the guide channels are combined into a honeycomb-like building. 1 sheet of drawings