DE1540613C3 - Low-liquid circuit breaker - Google Patents

Description

which consists of 40 metal flanges 3 and 4 at the ends when the chamber tube is stressed. With

with the high internal pressure occurring during the extinguishing process would increase if one did not applies a correspondingly large counterforce during assembly. Through this gap, the Turning off from the room high pressure a part of the extinguishing agent to escape, both for the Erasure is lost as well as the dielectric strength along the inner wall of the chamber due to deposition affected by decomposition products.

The parts of the extinguishing device 5 contained in the switching chamber 1 are assisted by the metal flanges attached. In addition, the flanges are used to support the switching chamber because they have support insulators 6 and 7 attack.

A stationary contact piece 10 is fastened to the flange 3 with the aid of spokes 11. The associated The movable contact element is a contact pin 12 which is attached to rods 14 via rollers 13 and a guide element 47

The invention is based on the object of being guided at 50, which are screwed onto the flange 4. The one switch of the type mentioned on the switching pin 12 is actuated via a link 15 from a local point with simple means for an effective drive crank, not shown,
ensure the same seal. The task is invented The switching chamber> is filled with switch oil, therefore

duly solved in that the spacer tube at the point of contact with the part facing it the extinguishing device has an inwardly conically tapered area, which on a corresponding to the outside conical area of the part to be held rests.

In this way, a tight seal is obtained even with a low pressure on the locking ring. This is because it arises in the chamber delimited by the assembled parts when one is switched off If there is a correspondingly high pressure in the large flow, the part located at the outlet is against the spacer tube pressed. With the help of its outwardly conical area, it pushes itself to the point of contact is indicated at 17 in the inwardly tapered area of the liquid level sen. The Switch oil is used to extinguish the breaking arc that occurs between the contact pieces 10 and 12 with the help of the quenching device 5 directed against the switch-off arc, such. B. in the "Siemens-Zeitschrift", No. 4, April 1965, pp. 329 to 331 is described.

The extinguishing device 5 includes the insulating parts 18 and 19, which are inserted into the tube 2, so that they are centered in the radial direction on the inside of the tube 2. Part 18 rests in the axial direction with lateral projections 22 on a metal plate 23, which with screws 24 on the power transmission rods 14 is attached. Part 19 is in turn supported on part 18 at joint 25. On which the bump

place 25 opposite side of the part 19 sits a spacer tube 27 made of insulating material, which is through the Tube 2 is centered. The point of contact between parts 19 and 27 is denoted by 28. The pipe 27 is fixed in the axial direction by a locking ring 30 which is inserted into an internal thread of the flange 3 is screwed in. Thus, the stack of superimposed parts 18, 19 and 27 in radial and axial direction clearly recorded.

As in Fig. 2 is shown in detail, is the contact point 28 between the parts 19 and 27 conical. For this purpose, the spacer tube 27 is at the point of contact 28 after inside tapered conically bevelled. Part 19 is provided with an outer cone to match.

If in the lying below the part 19, limited by this part together with the pipe 2 Pressure chamber creates considerable pressures because the arc decomposes the extinguishing liquid it contains, so result in the forces caused by the increased pressure in the direction of arrows 43 on the Contact point 28 components in the direction of arrows 44, which the lower edge of the tube 27 against push the tube 2. So there is a sealing pressure, which ensures in the desired manner that the Pressure extinguishing agent in the direction of arrow 46 through the channel between the parts 18 and 19 against the Arc promotes and not to a flow of extinguishing agent in the gap 41 between the inside of the Tube 2 and the outside of part 19 leads.

1 sheet of drawings

Claims (1)

Claim: Low-liquid circuit breaker with a tubular switching chamber in which stacked, Parts centered on the inside of the switching chamber that delimit a chamber in which the breaking arc creates pressure, are held by a spacer tube resting against the inner wall of the tube, which is held by a locking ring is pressurized at the end of the switching chamber, characterized in that that the spacer tube (27) at the point of contact (28) with the part facing it (19) of the extinguishing device (5) has an inwardly conically tapered area which is connected to a correspondingly outwardly conical area of the part to be held (19) rests. The invention relates to a low-liquid circuit breaker with a tubular switching chamber, in which parts are stacked one on top of the other and centered on the inside of the switching chamber, forming a chamber limit, in which the breaking arc creates a pressure, by an on the inner wall of the pipe adjacent spacer tube is held by a locking ring at the end of the switching chamber is pressurized. Such a switch is in the Siemens magazine from April 1965, p. 329 to 331. The spacer tube sits there, as you can see in Fig. 3, with one that is perpendicular to the switching chamber axis running flat end face on the uppermost part of the chamber. Between the spacer tube and the chamber tube can with economical machining accuracy and the unfortunate coincidence extremely different parts result in a small gap within the scope of the manufacturing tolerances, Spacer tube. The spacer tube is widened at the end. Although the here come about Deformations can only be minor, surprisingly they are sufficient to create a tight seal the chamber in the area of the chamber walls. Therefore, all extinguishing agent must be used by the Take the prescribed route for parts of the chamber. It is therefore used to extinguish the arc. In addition, the electrical strength in the highly stressed gap between the chamber parts and the chamber tube are not reduced by hot extinguishing agent. In the German patent 490 587 an oil switch is shown, the arcing chamber on the soil endangered by burning has an exchangeable insert. The mission is through set the pressure in the arcing chamber. A seal between the insert and the tubular The wall of the quenching chamber cannot be used because of the funnel-shaped seat of the insert would not have to improve at a high pressure, but rather a deterioration of the system between Bring out the insert and the extinguishing chamber wall. In addition, a seal is not required at all, since it would have no influence on the extinguishing effect. To explain the invention in more detail, an exemplary embodiment is described below with reference to the drawing. It shows Fig. 1 in a simplified representation of a low-liquid Circuit breaker in one cut, F i g. 2 in a partial section, similar to the illustration of Fig. 1, the particular configuration of the contact point of parts of the extinguishing device. The same reference symbols are used in both figures for corresponding parts. The low-liquid circuit breaker according to the invention has a switching chamber 1, which consists of a mechanically high quality insulating tube 2 with 35