SU1081691A1 - High-voltage arc chute - Google Patents

Abstract

HIGH-VOLTAGE ARMS CAMERA, containing walls forming a slit, equipped with an arcing device and transverse insulating partitions oriented radially, with the extreme partitions being bent relative to its axis to the outside, arcing horns installed between the walls of the magnetic poles encircling the chamber from the sides , characterized in that, in order to increase the breaking capacity, switching durability, simplify the design, reduce overvoltage, arc respect device is in the form of angled projections skoschennyh 15-20 ° To the surface of the flat slot, 2–3 times the width of the slot, changing the direction of the slot, placed radially along the edges of the walls, r magnetic poles are installed along the surface of the walls before the beginning of the protrusions.

Description

The invention relates to electrical engineering, in particular to single-gap arcing chambers, pneumatic and electromagnetic contactors operating in DC and AC circuits. A single-gap arc-suppressing chamber is known, consisting of walls with skewed protrusions along the entire inner surface of the chamber, forming a gradually narrowing labyrinth gap, an arc-suppressing horn of a moving contact fixed inside the chamber and magnetic poles covering the chamber from the sides 1. The disadvantages of such cameras are the design complexity, increased flame ejection from the gap and increased likelihood of insulation breakdown due to the large overvoltages that occur when the circuit is disconnected. The closest to the invention to the technical essence is an arc extinguishing chamber containing walls forming a slit, equipped with an arcing device and transverse insulating partitions oriented radially, with the extreme partitions being bent relative to their axis to the outer side, arcing horns mounted inside the chamber and installed between the walls of the magnetic poles encircling the chamber from the sides 2. The disadvantages of the known chamber are the complexity of manufacturing, since packets are assembled from a large number of metal plates, low frequency switching due to possible overheating of the metal reschetki, low wear and low .kommutatsionna disconnecting ability. Burning out of the plates leads to the destruction of the lattice and the failure of the entire chamber. The disconnection of high currents limits the presence of a metal grid. The purpose of the invention is to increase the breaking capacity, switching durability, simplify the design of the camera and reduce overvoltage. The goal is achieved by the fact that in a chamber containing walls forming a slit, equipped with an arcing device and transverse arcing exits, radially oriented, the outer partitions are bent relative to its axis on the outside, arcing horns mounted between the walls of the magnetic poles, clasping the camera is on the sides, the arc-suppressing device is made in the form of beveled projections at an angle of 15-20 ° to the surface of the flat slit, 2-3 times higher than the width of the slit a, changing the direction of the slit, placed radially along the edges of the walls, and magnetic poles installed along the surface of the walls prior to the start of the folded protrusions. FIG. 1 shows the internal cavity of the arc chamber (one wall is removed), general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. 2. The chamber consists of insulating walls 1, an arcing horn 2 installed between two walls, magnetic poles 3, covering the chamber from the sides and 4 chambers located along the entire flat part (slit). The cavity of the chamber is divided into a number of parts by transverse insulated septa 5, the outermost of which are made with a bend about their axis to the outer side at a certain angle θ. The flat parts 4 of the chamber walls, on which the magnetic poles 3 are mounted, are provided on the edges with beveled protrusions 6 forming an arcing device (Fig. 2). The height H of the projections is 2-3 times the width of the slot 5. The projections 6 of both walls form a labyrinth gap di equal to the slot S formed by the flat parts of the 4 walls. The shape of the maze can be very diverse and is determined by the configuration of the insulating partitions and their mutual arrangement. The camera works as follows. The electric arc moving between the opening contacts, under the influence of the magnetic field, moves along the arcing horns 2 (one of which is not shown, since it is located on the contactor). The arc enters the area of the chamber with a flat slit 4 and is pre-stretched by transverse insulating partitions 5. Located in a flat slit 4, with a width S between the magnetic poles 3, creating in this region the transverse magnetic field of the arc develops a fairly high speed and enters labyrinth gap D, formed by skoschennye ledges 6 and equal in width to the flat slot. The arrangement of the magnetic poles 3, before the beginning of the beveled protrusions 6, contributes to some slowing down of the arc in the labyrinth gap. This provides conditions under which there is no sudden arc arcing and therefore large, overvoltage, dangerous for isolation of the chamber and the whole apparatus, do not occur. Due to repeated bends in the maze and the developed surface formed by bevelled protrusions, 2-3 times the height of the slits and j, the arc lengthens and cools, resulting in conditions for its extinction. Creating the same slit throughout the chamber cavity, the transition of the flat slit on the edges of the walls into the labyrinth due to the beveled protrusions and the favorable conditions for the arc to enter the maze due to the location of the magnetic poles along the wall surfaces before the beveled protrusions allow

Claims (1)

A HIGH VOLTAGE ARRAY CAMERA, containing walls forming a slit, equipped with an arcing device and transverse insulating baffles oriented radially, and the outer baffles are made with a bend relative to its axis to the outside, arcing horns installed between the walls of the magnetic poles encircling the camera with sides, characterized in that, in order to increase the breaking capacity, switching wear resistance, simplify the design, reduce overvoltage, arc suppressor The device is made in the form of beveled protrusions at an angle of 15–20 ° to the surface of a flat slit, 2–3 times higher than the width of the slit, changing the direction of the slit radially along the edges of the walls, and magnetic poles are installed on the surface of the walls before the beginning of the beveled protrusions. Figure 1