SU1008812A1 - Arc-extinguishing chamber - Google Patents

Abstract

DIGITAL CAMERA for magnetic extinguishing of an electric arc in air with several parallel internal partitions with intermediate arc extinguishing horns installed on them and plugs with bevels serving to divide the arc into successively included sections according to the number of slots formed by partitions and side walls of the chamber, characterized by that, in order to increase the breaking and current-limiting capabilities, transverse insulation is additionally placed on the walls and partitions of the chamber Plates installed in the direction of the electric arc, so that they form a sequential labyrinth slit, and the beginning of the bevels of the insulating plates installed on the side walls and partitions from the side walls, coincide with the beginning of the bevels of the plugs adjacent to the partitions and the walls on which the plates are installed, and the beginnings of the bevels of insulating plasmas installed on the middle partition and on other partitions on the side of the middle partition, coincide with the end of the .5 and cKoqoB head nes, adjacent to ne partitions on which the plates are installed, and the ends of the bevels spans the town, on which the plates are installed, the plugs are made with grooves, in cross section of large cross sections of the bevels, installed under the cap, and the intermediate arc sections horns bend-. You are in the shape of a labyrinth created by switching insulating plates e at the place of their installation. X) x)

Description

The invention relates to electrical engineering and can be used in electrical apparatus with magnetic arc extinction in air.

Arc arc devices are known in arc extinguishing chambers of predetermined dimensions, containing internal insulating partitions located perpendicular to the arc movement, for example, in devices installed in electric train trains and passenger cars, which ensure arc non-linear movement, and by increasing the number of slots inside the arc-suppressing chamber and giving the arc the shape of a SLO5 with such an amount of arc bending that a given breaking capacity of chamber 1 is achieved.

However, the movement of the arc in these chambers before entering the extinguishing slots and after entering the slots occurs in mutually perpendicular planes, which makes it difficult to use the external magnetic field of the arcing poles to move the arc both in the zone before the entrance s of the slot and in the zone after entering the arc in the gap. The reliability of these cameras is small.

Closest to the proposed technical entity is an arc-suppressing chamber with a more convenient arrangement of parallel slits for forming a solenoid from an arc inside the chamber containing several parallel internal partitions with intermediate arc-arresting horns mounted on them and caps with bevels that serve to divide the arc into successively connected sections along the number of slots formed by partitions and side walls of the chamber t

In this chamber, an external magnetic field of the arcing poles is used to move the arc,. directed perpendicular to the arc chamber, both in the zone before the entrance to the slots and in the zone after the entrance to the slots 2.

However, with increasing power of traction networks and consumers, the number of slots in a multiple known chamber increases and the zone of entry into the slots moves away from the contact area of the device in proportion to the increase in the number of slots: a consistent transition of the arc to the next slot is provided by a smooth arc at an angle of 10-15%. transition of the arc into narrow slits, which is 20–25% of the length of the arc-quenching chamber in length and reduces the use of the chamber. In addition, in fast protection switches, the short circuit current limiting should start immediately after the arc has disappeared from the contacts. In this case, the restriction will begin after the arc enters the damping slits of the multiple chamber only after overcoming the free zone, 20-25% of the chamber size, in which the arc is ila.-;

5 1 is directed towards the slits, but is not cooled by the walls of the narrow slit and is not limited. This leads to an unacceptable increase in short-circuit current and thermal overload of the protected electrical equipment.

The purpose of the invention is to increase the breaking and current-limiting capabilities of the arcing chamber.

The goal is achieved by the l5 arc extinguishing chamber for magnetic extinguishing of an electric arc in air with a few parallel parallel internal partitions with intermediate arc extinguishing horns mounted on them and plugs with bevels serving to divide the arc into successive sections by the number of slots formed by the partitions and side walls of the slots , on. walls and

The 25 partitions of the chamber are additionally placed transverse insulating plates installed along the arc movement in such a way that they form a series of labyrinth slits, with the beginning of the bevels of the insulating plates mounted on the side walls and partitions on the side of the side walls, coincide with the beginning of the bevels of the plugs adjacent to, the partitions and walls on which the plates are mounted, and the beginning of the bevels is insulated with cirrne plates mounted on the middle partition and on other partitions with on the side of the middle partition, coincide with the ends of the bevels of the plugs adjacent to the partitions on which the plates are installed, and the ends of the bevels of the partitions / on which are installed

45 plates, plugs are made with grooves, in cross section with large cross sections of bevels installed under the plates' plug, and the indicated intermediate arcing horns are bent according to the shape of a labyrinth created by transverse insulating plates at the place of installation.

FIG. 1 shows an arc-suppressing chamber, the general view of FIG. 2 is the same, end view, Ota FIG. 3 - the same, cross section in its upper part; in fig. 4 - the same, cross section in its lower part.

Consider the double version of the arc chamber ..

0 Intermediate arcing horns 2 and 3 are installed on the middle partition 1 (Fig. 1), each on its side of the partition, electrically interconnected. From the back

65 sides are attached to them insulating plugs: plug 4 to the horn 2

.and a plug 5 to the horn 3, which isolate the intermediate horns from their contact with the rear arc, On the front side; bevel caps

6 and 7 (FIG. 3 and) direct the arc:

into the gap created by them between the partitions and the walls of the chamber. The side walls 8 and 9 close the chamber laterally. The main arcing horns 10 and 11 direct the arc from the contacts into the chamber. The arcing poles 12. And 13 serve to move the electric arc by the magnetic field both in the zone to the parallel slits and in the gaps. On walls 8 and 9, transverse plates 14 are installed, and on partition 1, plates 15 of heat-resistant material are installed, which, by bevels alternately on one and the other side, gradually give the arc a wave-like shape of the created maze. For

; tgo, so that the arc comes at once

| figurative form at its entry into the extinct slits of the multiple chamber, the beginning of the bevels of the plates 14 fixed on the side walls, pushed to on; The beginning of the bevels b and 7 of the plugs 4 and 5 ((beginning: 16 in Fig. 3 and 4), and the beginning of the 17 bevels of the plates 15 fixed on the partition wall - to the ends of the bevel b and 7. of the plugs. For this, the plugs are paely 18 and 19, through which the transverse plates 14 and 15 pass, and the intermediate arc-suppressing horns 2 and 3 bend around the transverse plates and are curved in a wave-like shape of the maze (Fig. 2).

Arc camera works as follows.

 An electric arc, arising at the contacts of the apparatus under the action of the magnetic field of the arcing poles 12 and 13, moves in the direction of arrow A (Fig. 1). After the contact of the arc with the beginning of the bevels b and 7 of the plugs 4 and 5, the arc begins to move sideways and transform it into a solenoid, each branch of which is additionally i bent in a wave-like manner. Plug 4

; bevel 7. 3) shifts the arc at an angle, a reliable entry of the arc into the slot (for ordinary heat-resistant materials, this angle is about 10-15) towards the observer, and the plug 5 bends the arc at the same angle from the observer of FIG. four). The electric arc therefore, in the upper part, enters the slot formed by the partition 1 and wall 9, and in the lower part - in the slot,

formed by a partition 1 and a wall 8. The arc begins to burn on the intermediate arcing horns 2 and 3 and takes the form shown in FIG. 1: the arc part 20 burns in the gap between wall 9 and partition 1 between arcing horns 3 and 10, and the second part 21 connected along with section 20 (intermediate arc horns 2 and 3 are electrically connected between itself and burns in the gap between partition 1 and wall 8 on the other hand, the recesses between the horns 2 and 11. Beginning of the bevels of the transverse plates 14 and 15 are extended to the bevel of the plugs, so immediately after the arc enters the slot, she is forced to form a maze; additionally lengthens, cools and limits the arc current. mu two fold in a single arc chamber length is doubled by incorporating successively two sections on either side of the barrier prinimaet- corrugated shape of the labyrinth, and again approximately doubled in length.

In a multiple chamber with a different number of slots, the arc is successively guided by the following plugs and intermediate horns: the LI formed by the next partition divides again and forms sequentially connected wavy-curved sections according to the number of slots of the multiple chamber.

Thus, by installing multiple stacks of transverse insulating plates on the stacks and partitions along the arc, so that they form several successively connected labyrinth slots by advancing the beginning of the bevels of the plates fixed on the walls and partitions from the external walls, to the beginning of the bevels of the plugs, and beginning the bevels of the plates fixed on the partitions on the side of the middle partition of the chamber, to the ends of the bevels of the plugs and partitions on which they are installed by installing the plugs from the fasteners and curved plates The interrupted arcing horns can be approximately doubled in the shape of a labyrinth plate created (theoretical calculation of the camera’s capacity as compared with the prototype does not remove the entrance zone D5 {gi from the contact area, cool the arc and limit its current immediately after overcoming bevel b and 7

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Claims (1)

ARC CHAMBER for magnetic extinction of an electric arc in the air with several parallel internal partitions with intermediate arcing horns and plugs with bevels installed on them, used to divide the arc into successively connected sections according to the number of formed by the partitions and side walls of the gap chamber, characterized in that, with In order to increase the breaking and current-limiting abilities, transverse insulating plates are additionally placed on the walls and partitions of the chamber joints installed in the direction of movement of the electric arc so that they form successively connected labyrinth slots, and the beginnings of the bevels of the insulating plates installed on the side walls and partitions from the side of the side walls coincide with the beginnings of the bevels of the plugs adjacent to the partitions and walls, on of which the plates are installed, and the beginning of the bevels of the insulating plates installed on the middle partition and on other partitions from the side of the middle partition coincide with the ends of the bevels of the plugs, I adjoin the partitions on which the plates are installed and the ends of the neper town bevels on which the plates are installed, the plugs are grooved, in cross section of large cross sections of the bevels installed under the plate plug, and these intermediate arcing horns are curved in shape a labyrinth created by transverse insulating plates at the place of their installation. zrwtfT'Tis