PL179328B1 - Expulsion chamber of an overcurrent circuit-breaker - Google Patents

Abstract

1. Switch blow-out chamber overcurrent installation formed by both parts of the housing switch on the extension of the extinguishing chamber and having internal walls, obstructing the ionized electric arc gases, characterized in that it has in the first part (I) of the housing a lot internal longitudinal walls (1) formed in the direction of air discharge, armed with ribs (2) and at least half covered transverse wall (3), molded in the second part (II) of the housing.

Description

The subject of the invention is an exhaust chamber of an overcurrent circuit breaker, designed to protect low voltage electrical installations against short-circuits and overloads.

A line circuit breaker with a light arc chamber housed within a plastic housing is known from the patent description published after No. WO 93/13538 by Licentia Patent-Verwaltungs-GmbH, DE. For the most part, this chamber is filled with a package of extinguishing plates, which adjoin the front sides to the wall separating the electric arc chamber from the exhaust chamber. The ionized electric arc gases pass through the slots in the separating wall and on their way to the blast chamber pass through a number of alternately offset and overlapping walls provided directly on the two housing parts. On the upper sides of these facing walls, a large number of comb-like plugs are made, which together with the cut-outs between them cause a strong turbulence of electric arc gases, which are cooled before being thrown out of the circuit breaker.

Another, known from the patent description published in WO 95/20237 from the SOUARE D COMPANY, US application, the circuit breaker comprises a set of arcing chambers, the first of which has an additional choke baffle and is connected to the second chamber through a single opening in the partition wall, constituting an outlet gases. The second arc chute is located at the rear wall of the housing and its length is at least 40% of the length of the rear wall and is defined between this wall and the partition wall by a transverse wall.

There is also a known circuit breaker from ABB, DE, in which the blow chamber, formed by both housing parts, has internal diagonal walls made in both housing parts and positioned so that, when the housing is assembled, they adjoin each other to form two exhaust channels.

Another switch, manufactured by Felten und Guilleaume Austria AG, has in the blow-out chamber in one part of the casing two transverse walls leading to arched, and in the other part one wall so positioned that when both parts of the casing are folded it is located between the two walls of the first part of the casing without overlapping them. The above-described switch for high current ranges requires, for adequate cooling of the exhaust gases, an additional metal insert, perforated and coiled in such a way that its openings are not coaxial to each other and constitute a labyrinth for the gases exhausted from the exhaust channels.

The blow-out chamber of the circuit breaker according to the invention is formed by both parts of the circuit-breaker housing in such a way that the arrangement of internal walls made within the first housing part and correspondingly associated internal walls in the second housing part divides this blow-out chamber into at least two separate channels. at the outlet of the chamber, it creates a labyrinth system for the exhaust gases. This is achieved by the fact that the first housing part has at least one internal wall sloping downwards from the extinguishing chamber to one of a plurality of longitudinal internal walls formed in the direction of the blow. Each of these longitudinal walls is provided with ribs, alternating on both sides of these walls. These longitudinal inner walls are at least half obscured by a transverse wall formed in the second casing part and for this purpose the walls have a right-angled recess so that it forms a seat for the transverse wall of the second casing part. The second housing part, on the other hand, also has at least one diagonal internal wall, which runs correspondingly diagonally downward from the extinguishing chamber up to a transverse wall, beyond which, along the extension of this diagonal internal wall, the longitudinal wall of the second housing part is formed along the blow-out direction.

After the two casing parts are assembled, the arrangement of internal longitudinal plates with ribs of the first casing part, covered by the transverse wall of the second casing part, creates a kind of labyrinth for the exhaust gases, which, when already cooled, are blown out through the outlet openings made in the side wall of the second casing part. In the case of more internal walls oblique in both housing parts, more blow channels are formed within the blow chamber, and for each channel an outlet opening must be provided in the side wall of the other housing part.

The mutual positioning of the inner walls of both housing parts indicated in the essence of the invention solves the problem of the return of ionized gases towards the extinguishing chamber, and at the same time, by extending the flow path of these gases, it causes their better cooling and does not require the use of additional cooling and de-ionizing elements of the electric arc gases.

The subject of the invention is explained in more detail in the embodiment in the drawing, in which fig. 1 shows the blow chamber in the first casing part in top view, fig. 2 - the blow chamber in the second casing part in top view, and fig. 3 - the blow chamber in the second casing part. after assembly of the two housing parts along the section line AA of Fig. 1 and line BB of Fig. 2.

The blow-off chamber is formed within both parts I and II of the switch casing on the extension of the extinguishing chamber. In the first housing part I, a plurality of internal longitudinal walls 1 are formed in the direction of the blow-out. Each of these walls 1 is provided with ribs 2 alternating on both sides of these walls 1. The row of ribs 2 closer to the outer casing wall is enlarged by a rib also provided on the side wall of the first casing portion I delimiting the blow chamber and is directed downwards, and the second row of ribs 2 formed at the ends of the inner longitudinal walls 1 is directed upwards. Such an arrangement of the internal longitudinal walls 1 with ribs 2 is half obscured after the two housing parts I, II are folded by a transverse wall 3 formed in the second housing part Π. To this end, a recess is made in the longitudinal inner walls 1 at right angles to half their height. In both parts I, II of the casing, inclined walls 4, 5 are formed in the initial part of the chamber and run diagonally downwards from the extinguishing chamber to one of the internal longitudinal walls 1 in the first part I of the housing and to the transverse wall 3 in the second part II of the housing. After the two housing parts I, II are assembled, the diagonal walls 4, 5 lie in one plane and adhere closely to each other. Similarly, extending the oblique wall 5 in the second housing part II in the blow-out direction, the longitudinal wall 6 closely adjoins one of the internal longitudinal walls 1 in contact with the oblique wall 4 in the first housing part I. Two outlet channels 7, 8 are thus formed for the blown gases, which end with outlet openings formed between the walls delimiting the blast chamber and the longitudinal wall 6 in the second housing part II.

179 328

Publishing Department of the UP RP. Circulation of 60 copies

Price PLN 2.00.

Claims (3)

Patent claims 1. Exhaust chamber of the overcurrent circuit breaker formed by both parts of the circuit breaker housing in the extension of the extinguishing chamber and having internal walls which obstruct ionized electric arc gases, characterized in that at the outlet it has a number of longitudinal internal walls in the first part (I) of the housing (1) formed downstream, provided with ribs (2) and covered at least halfway by a transverse wall (3) formed in the second part (II) of the housing. 2. The chamber according to claim 3. The apparatus of claim 1, characterized in that the inner longitudinal walls (1) of the first housing part (I) have a recess at right angles so that it forms a seat for a transverse wall (3) of the second housing part (II). 3. The chamber according to claim 2. The apparatus of claim 2, characterized in that the ribs (2) are positioned alternately on both sides of the inner longitudinal walls (1) of the first housing part (i). * * *