CZ151694A3 - Circuit breaker with quenching chamber - Google Patents

Abstract

The automatic cutout switch has inside its housing (1) an arc chamber (2) containing a stack of quenching plates (3) which communicates behind a slotted (2b) separating wall (2a) with an outwardly open blow-off chamber (4). In order to reduce considerably the ejection of hot conductive arc gases and also largely to prevent the exit of flames from the housing at breaking capacity, the blow-off chamber (4), consisting of two half shells (1a, 1b) of the housing (1), has several staggered walls (4a) transversely to the main direction of flow, like a labyrinthe which considerably lengthen the gas flow path. In addition, the walls (4a) have, on their facing upper sides substantially parallel to the separating plane of the half-shell (1a, 1b), comb-like projecting pegs (4a') which cool the arc gases and cause them to eddy. The walls (4a) are preferably arranged at least partially to inter-engage at a short distance from each other alternately at each half-section (1a, 1b).

Description

ducting with extinguishing chamber,

Line circuit breaker with extinguishing chamber

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a circuit breaker arranged within its body and comprising a quenching plate bundle which, after a partition wall provided with slots, passes into an exhaust chamber open to the outside which is provided with walls formed on two body halves perpendicular to the main flow direction.

BACKGROUND OF THE INVENTION

Line circuit breakers with such an arc chute are known, for example from DE-PS 1 238 538, DE-OS 29 49 012. In these line circuit breaker solutions, the dividing wall arranged immediately behind the arc quenching plate close to its front edge is provided with slots which are always in the gap between the two quench plates. The gases produced by the arc in a short circuit as in an explosion are of high pressure and pass through this partition into the exhaust chamber arranged downstream therefrom, in which they are usually deflected by the transverse wall before finally escaping through the exhaust opening in the wall. However, in modern line circuit breakers that have high switching and / or breaking capacities, the arcing gases produced by the electric arc often have such a high energy that there is a risk of the flame burning out in the base area of the circuit breaker housing.

In order to avoid the consequences of a flame burst which could affect adjacent operating means, a specially shaped duct for discharging the resulting gases is proposed in DE-OS 37 05 216. This channel is divided into an expansion space adjacent to the arc quenching stack and downstream channels arranged therein, and another expansion space with one outlet channel. In this arrangement, however, there is a considerable risk of backfire behind the quench plates if additional measures are not already provided on the quench plate stack. In addition, there is a separate cover part of the gas-resistant material forming the outlet ducts, which complements the line circuit breaker and must be mounted externally on the line circuit breaker body in a separate operation. The design of this special add-on therefore results in a considerable increase in production costs in the mass production of switchgear.

Furthermore, FR-A-1 417 232 discloses a quenching and expansion chamber which is arranged in an arcuate manner around the point of contact. In this chamber, a plurality of metal plates are inserted radially between two insulating side walls. Behind them, several walls are arranged labyrinthically spaced apart from the front edges of the metal plates at the insulating side walls, which greatly prolong the flow path of the gases generated by the arc from the metal plates to the outlet opening. With this arrangement, the resulting gases can expand well and their energy is reduced, but there is an increased risk of electric arc jumps at the leading edges of the metal plates.

and the expansion chamber is therefore pro

The high-breaking interrupter circuit breakers thus designed are also only conditionally suitable.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a quenching chamber for a circuit breaker in the gas outlet region with the least possible cost so that the discharge of conductive hot gases generated by the electric arc is greatly reduced. excluded.

SUMMARY OF THE INVENTION

This is accomplished by a line circuit breaker with a quenching chamber arranged within its body and comprising a quenching sheet bundle which, after a partition wall provided with slots) passes into an exhaust chamber open outwardly provided with walls formed on two body halves perpendicular to the main flow direction. in accordance with the invention, wherein the exhaust chamber is provided with walls extending from the bottom of the halves at least beyond the center of the body, arranged alternately offset and substantially extending the gas flow path, at least some of which are on their facing sides extending approximately parallel with the separating plane of the two body halves, provided with ridges protruding protrusions causing swirling and additional cooling of the gases produced by the electric arc.

The line circuit breaker according to the invention is advantageous because the gases produced by the arc on its way from the arc quenching plate to the free space must flow around several walls arranged in the exhaust chamber always alternately offset from the bottom of the housing half to its center. they are significantly better cooled due to the increased wall surface. In addition, due to the ridge-protruding protrusions arranged on the upper sides of the walls, they are so vortexed that their degree of ionization is thereby substantially reduced.

According to a preferred embodiment of the invention, the outgoing gases are then deflected in different directions by the exhaust nozzles, thus producing not a concentrated jet in one direction but an effective dispersion thereof. Since the exhaust chamber practically does not affect the manufacturing cost of the body by pressing it, the solution according to the invention does not entail any increase in production costs while substantially reducing the amount of gas generated by the electric discharge.

arc, without substantially limiting the flow rate of these gases in the arc quench chamber itself. The remaining small amount of gases exiting means the practical elimination of the risk of arcing of the arc to the conductive components in the vicinity of the line circuit breaker.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a circuit breaker in a simplified elevational view with a partially open body and a sectional view, respectively, of the arc chute and exhaust chamber according to line II of FIG. 2, FIG. 1, FIG. 3 is a sectional view along the line III-III in FIG. 1, FIG. 4 schematically a special embodiment of the exhaust chamber in a sectional view, comparable to FIG. 1, taken along line IV-IV of FIG. Fig. 5, Fig. 5 is a cross-sectional view of the side wall in the direction of arrow V of Fig. 4 and Fig. 6, taken along the line VI-VI in Fig. 5.

DETAILED DESCRIPTION OF THE INVENTION

The circuit breaker, shown in simplified form in the figures, consists of a body 1 made of an insulating material composed of two halves 1a, 1b, which surrounds the switching and tripping mechanisms (not shown) and associated connection means. In the base area of the housing 1 there is provided an arc-extinguishing chamber 2, which is largely filled with a bundle 3 of arc-extinguishing plates 3a. The individual quench plates 3a adjoin with their left front edges to the partition wall 2a formed in the body 1 and separating the quench chamber 2 from the exhaust chamber 4. Several slots 2b are arranged in the quench wall 2a, respectively between the quench plates 3a so that gases in

The arc generated by the cut-off flows through these slots 2b into the exhaust chamber 4. In contrast, the cut-off arc, formed by a short connection at only the indicated contact point 5, runs from the line 3b to the quenching plate bundle 3a where it extinguishes.

The ionized arc gases escaping under high pressure through the slots 2 flow on their way through the exhaust chamber 4 through walls 4a alternately offset to each other - as particularly shown in Fig. 2 - before they escape through the exhaust openings 4b into the free space. Walls 4a. they are in each case formed directly on the two halves 1a, 1b of the body 1, which is preferably made of duroplast. On their upper sides facing each other, the walls 4a are provided with a plurality of ridge-like protruding protrusions 4a ¹ which, in conjunction with the slits disposed therebetween, serve to vigorously swirl the gases produced. Moreover, these gases are well cooled by the still enlarged wall surfaces 4a before they escape through the exhaust opening 4b into the free space. The walls 4a always protrude from the bottom of the body half 1a, 1b at least beyond the center thereof and therefore do not have too much spacing from one another, as is apparent in particular from FIG. 2. Depending on the existing space, three or four walls 4a can be provided. The spacing between the walls 4a as well as the size and arrangement of the protrusions 4a ¹ are chosen such that, despite the higher cooling of the gases produced and only in a small amount of the resulting gases, the arc is not affected. The basic embodiment with the essential features of the invention of the exhaust chamber 4 shown in FIGS. 1 to 3 can be further optimized, as shown in the exemplary embodiment according to FIGS. 4 to 6.

The exhaust chamber 4 ', of which only a part is shown in Fig. 4, has several exhaust nozzles 4c arranged behind the walls 4a instead of one exhaust port 4b. These exhaust nozzles 4c are arranged on both sides of the separation gap between the two body halves 1a, 1b and are meanderingly offset such that the holes themselves are alternately formed in the outer side wall 1d, see Fig. 5. The wall 1d is formed perpendicularly, but always at an angle of approximately 45 ° at an angle to the direction of the walls 4a. At the same time, the exhaust nozzles 4c are offset by approximately 90 [deg.] Relative to each other in the halves 1a, 1b of the body 1, as shown in FIG. 4 or FIG. An arc on conductive components located near the circuit breaker is virtually impossible.

The exhaust chamber 4 can be further divided by partially obliquely extending ribs 4d into two equally sized half-spaces. As shown in particular in FIG. 1, the rib 4d is inserted approximately in the center of the partition wall 2a and runs at the same slope as the individual slots 2b. In this way, a good conduction of the resulting gases exiting from the arc chute 2 into the exhaust chamber 4 is achieved, and a tendency for backfire is avoided directly behind the arc chutes 3a. Like the walls 4a and the other elements of the exhaust chamber 4, the rib 4d is always an essential part of the two body halves 1a, 1b and therefore does not entail any cost increase for its production.

Claims (6)

PATENTOVÉ N O'R 0 X ro o • J3 A line circuit breaker with a quenching chamber (2) arranged inside its housing (1) and comprising a quenching plate bundle (3) (3a) which is provided with slots behind a partition wall (2a) * (2b) passes into an exhaust chamber (4) open to the outside, which is provided with walls (4a) formed on two halves (1a, 1b) of the body (1) perpendicular to the main flow direction, characterized in that the exhaust chamber (4, 4 ') is provided with walls (4a) protruding from the bottom of the halves (1a, 1b) at least beyond the center of the body (1), arranged alternately offset and extending substantially the gas flow path, at least some of them on each other the upper faces extending approximately parallel to the separation plane of the two halves (1a, 1b) of the body (1) are provided with ridges projecting protrusions (4a ') causing swirling and additional cooling of the gases produced by the electric arc. Line circuit breaker according to claim 1, characterized in that the walls (4a) are arranged with a small distance from each other and at least partially interfered with each other such that, despite the high cooling of the electric arc and the small amount of conductive gases produced, arc from the point of contact (5) to the beam ( 3) the quenching plates (3a) are hardly restricted. The circuit breaker according to claim 1 and 2, characterized in that only the walls (4a) of one half (1a) ¹ are provided with protrusions (4a ') on their upper side, while the walls (4a) of the opposite half (1b). have a smooth surface. Line circuit breaker according to one of Claims 1 to 3, characterized in that the exhaust chamber (4, 4 ') is divided by a fin (4d) extending approximately from the center of the partition wall (2a) and partially oblique to the walls (4a). into two equally-sized, semi-separate spaces separated from each other. Line circuit breaker according to one of Claims 1 to 4, characterized in that the exhaust chamber (4 ') is provided on its outwardly open side wall (1d) with exhaust nozzles (4c) arranged at an angle to the wall direction (4a). ). Line circuit breaker according to one of Claims 1 to 5, characterized in that the exhaust nozzles (4c) have different inclination directions up to 90 ° in the two halves (1a, 1b) and are arranged in a meander offset manner in cross-section.