FR2933230A1 - ARC EXTINGUISHING CAGE - Google Patents

Abstract

Cage for extinguishing the electric arc created at the opening between a moving contact (15) and a fixed contact (6) of an electrical interrupter of at least one line of the circuit-breaker type, comprising a stack of arc-dividing laminations (2) inserted in the form of a fan in a casing (1) made of insulating material, each U-shaped lamination (2) then being oriented so as to be approximately perpendicular to the travel of the moving contact (15) pivoting between the branches (10, 10') of the U-shaped laminations. Housings located in the bottom of the casing and trapezoidal grooves/orifices located in the lateral faces of the casing make it possible, in cooperation with excrescences protruding laterally from the laminations, to clip-fasten said laminations in the casing.

Description

Arc extinguishing cage

The present invention relates to arcing extinguishing systems capable of equipping electrical switching devices, for example of the circuit-breaker type. In these devices, electric arcs appear at the separation of a movable contact and a fixed contact which establish the electrical connection in a line when they are in the closed position in contact with each other, and which cut it when in the open position, i.e. 10 separated. This separation can be done voluntarily, using a joystick, or automatically by tilting a mechanical lock when there is a sudden overcurrent or overload on the line. The phenomenon of the electric arc occurs in all cases, from the moment the fixed and movable contacts move apart from each other. As long as the electric arc is not extinguished, the line is not considered cut off. In existing devices, the arc is extinguished by means combining magnetic blowing and movement of the arc to at least one extinguishing cage equipping the apparatus and whose exclusive function is to extinguish the arc. bow. This cage comprises in fact a stack of so-called deionization plates which divides the previously elongated arc until the voltage necessary for its maintenance is greater than that of the network in which the apparatus is used, resulting in the permanent extinction of the arc. Under the assumption of the invention, each arc extinguishing cage is perceived as an individualizable component assembled in the housing of the electrical switching device. In this case, each component consists of a stack of arc cutting plates inserted in an envelope of insulating material. In the configuration of the invention, these sheets 30 have a U-shape so that the movable contact can rotate between the branches of the U.

Moreover, still in the hypothesis of the invention, these sheets are inserted into their fan-shaped insulating envelopes, so that they are oriented substantially perpendicular to the stroke of the pivoting movable contact, when it reaches their level.

The manufacture of the component constituting the arc extinguishing cage, in particular the plugging of the sheets in the envelope, is complicated and not very compatible with the conventional requirements of industrialization, in the first place of which is the automating. The arc extinguishing cage according to the invention has been optimized so as to automate its manufacture under good conditions, with respect to conventional industrial requirements. For this purpose, the electric arc extinguishing cage according to the invention, conventionally based on an insulating envelope in which arc cutting plates are stacked, is mainly characterized in that: the cutting plates have on each side a lateral guide slot, one being provided with a clipping protrusion; housings for the free ends of the plates are provided in the casing, on either side of the space in which the movable contact moves, said housings having in section of course parallel to the stroke of said contact a shape of trapezium whose small base constitutes the bottom of the housing forming axial abutment to the insertion of the sheets; trapezoidal grooves are made at the same level in the two inner faces of the side walls of the casing, said grooves opening into the opening of the casing through which the sheets are inserted and positioning the abutting plates by cooperation of the guide slots; lateral with the converging walls of the grooves; - trapezoidal orifices passing through the side walls of the casing are made in every other groove, with a shift from one wall to the other of the casing, said orifices being delimited on three sides by the grooves, the fourth side proximal of the opening of the casing being parallel to the bottom of the housing corresponding to the groove, and intended to cooperate with the protrusion clipping to block each sheet. One of the main advantages of the cage of the invention compared to its predecessors lies in the fact that the cutting plates can be clipped inside the insulating envelope, the guidance of these sheets being further optimized by grooves and trapezoidal housings. The clipping of the various sheets inside the envelope is therefore made quickly and easily, the direction of insertion being substantially constant, the positioning being performed almost automatically inside the envelope by the configuration of the housings, grooves and orifices.

In other words, the relative positioning of the two trapezoidal shapes, that is to say on the one hand the inner housing and on the other side grooves I orifices, combined with the particular longitudinal dimensions of the cutting plates of arc allow, at the time of insertion of said sheets in the insulating casing, precise guidance which ends in a clipping of one in the other even if the direction of insertion is not exactly in the axis definitive positioning, hence the possibility of automation. According to one possibility, a wall of the housing and a wall of the grooves are in the same plane, which further improves the guiding at the time of insertion of the sheets into the envelope. According to a first cage variant according to the invention, all the arc cutting plates are identical. Since the trapezoidal orifices are made in every other groove, with a wall-to-wall offset of the casing, it simply means that one arc-cutting sheet must be turned over before insert it, so that the protrusion clipping providing one of the lateral guide slots is found alternately on one side or the other. According to a somewhat different configuration, these arc cutting plates are all identical except for the distal sheet of the fixed contact, which is provided with a hooking nose of the arc disposed between the branches of the U. This feature aims to keep the wear of the end of the moving contact to a minimum. It should be noted that, as will be shown in more detail below, the fixed contact is in fact arranged directly under the cage.

The unitary piece forming the terminal, is extended by a portion placed at one of the ends of the envelope comprising the fixed contact, which comprises a bow foot sheet in the form of a tab close to the fixed contact cut at the end of the envelope. interior and salient of said portion. In other words, the stationary contact is disposed adjacent to an arc sheet, in this case an arc foot plate in one piece with the rest and which, because of its configuration, improves the effect of loop applied to the electric arc. According to the invention, the envelope may then additionally comprise a U-shaped wall that surrounds said cut tab, so as to isolate the arc.

Finally, the arc extinguishing cage according to the invention is such that its envelope comprises a removable closure cover placed on the side of the connection terminal. This cover closes in a way the housing constituted by the insulating envelope, after insertion of the arc cutting plates. The invention also relates to a line breaking device, for example of the circuit breaker type, and comprising an arc extinguishing cage as described above. It will now be described in more detail, with reference to the appended figures, for which: - Figure 1 is a perspective view of an electric arc extinguishing cage according to the invention; - Figure 2 shows another perspective view of the same cage, with three lower arc cutting plates in the insertion position in the insulating envelope; FIG. 3 shows in perspective the component forming a terminal and integrating the fixed contact; - Figure 4 is a side view of said terminal installed in the lower part of an arc extinguishing cage according to the invention; FIG. 5 is a front view of the insulating envelope; FIG. 6 is a perspective view of said envelope; Figure 7 shows, in perspective, an arc cutting sheet according to the invention; Figure 8 is a perspective view of an arc cutting sheet provided with an attachment nose of the arc; Figures 9 and 10 show two side views of the arc extinguishing cage according to the invention; FIGS. 11a and 11b show two median longitudinal sections of the arc extinction cages provided with their cover on the one hand and to which is fixed the terminal integrating the fixed contact, respectively under the assumption of the use of an upper plate with hooking nose and without this sheet; Figure 12 shows, in exploded perspective, the insulating envelope, its cover and the terminal integrating the fixed contact; Figure 13 is a sectional view AA as shown in Figure 5; and Figs. 14 and 15 show two sectional views with the arc cutting laminations on either side of the cutting line AA. With reference to FIG. 1, the insulating envelope (1) comprises a stack of arc cutting laminations (2), in this case 9 in number. These laminations (2) are configured in such a way that they can be clipped by insertion in the direction of arrow F (FIG. 2), in particular by cooperation of lateral guide slots (see FIGS. 7 and 8) in orifices made in the side walls (3, 3 ') of the insulating envelope (1). FIG. 3 represents a single piece (4) forming both a connection terminal and a fixed contact (6) and, via an arc conduction plate (5), cut inside a portion containing the fixed contact (6), means for fitting to the lower end of the envelope (1). The relative assembly of this terminal (4) to the insulating envelope (1) appears in Figure (4). FIG. 5 shows the housings (7, 7 ') of plates (2) located on either side of a free space (E) inside which the moving contact (not shown) moves when it is detached from the fixed contact (6). Said movable contact actually pivots inside the space (E), remaining substantially parallel to the sheets (2). These are stacked fan in the insulating envelope, as appears in particular in Figures 1 and 2.

The housings (7) serving as an axial stop for the arc cutting plates (2), appear more precisely in FIG. 6. The positioning of said plates (2) is also achieved by lateral trapezoidal grooves (8), one out of two has an orifice (9) opening out of the side wall (3). The wall (3 ') comprises in the same manner trapezoidal grooves (8'), one of which is provided with an orifice (9 '). In other words, there is a trapezoidal groove (8, 8 ') for each housing (7'), whereas a through hole (9, 9 ') exists only in a groove (8, 8') On two. It should be noted that these orifices are offset from one side wall (3) to the other side wall (3 '), so that there are never two orifices (9, 9') facing each other. The sheets (2), as represented in FIG. 7, are inserted so as to stop at the bottom of the housings (7, 7 '), the two branches (10, 10') of the U-shaped structure of these sheets ( 2) providing between them a free space (E) for pivoting the movable contact to the opening.

The plates (2) have on each side a lateral guide slot (11, 11 '), one of which is provided with a clipping protrusion (12). This protrusion (12), penetrating into the orifices (9, 9 '), allows the clipping of each sheet in the insulating envelope (1). Given the offset between the orifices (9, 9 '), it is necessary to turn one plate over two so that the protrusion (12) is found alternately on the side of the side wall (3) and the side wall. (3 '). According to a cage configuration of the invention, all the sheets of the stack are identical. Alternatively, the sheet placed at the top may include a hooking nose (13) to reduce the wear of the tip of the movable contact. Such a sheet is shown in FIG.

Figures 9 and 10 show successively views of the side wall (3 ') and the side wall (3) to be aware of the fan stack with the relative positioning of each arc cutting sheet (2 ) with respect to the openings (9, 9 '). This relative positioning will be explained in more detail with reference to FIGS. 13 to 15. In FIG. 9, the crenellations (11) with their clipping protuberance (12) appear in the orifices (9 '). Similarly, in Figure 10, the same lateral guide slots (11) with their clipping projection (12) appear in the orifices (9).

The fan stacking of the arc cutting plates (2) appears even more clearly in FIGS. 11a and 11b, the first having an upper plate having a configuration such as that shown in FIG. a hooking nose (13). It has been mentioned that the insulating envelope (1) has a cover (14), which also appears in these figures. Finally, they show the precise relative positioning of the workpiece at the terminal (4) and the fixed contact (6) with its tab (5) forming an arch foot, arranged substantially parallel to the arc cutting sheet (2). The sections of Figures 11a and 11b being median, they also show the space (E) in which the movable contact (15) moves, represented only in the figure. 11 a.

The assembly consisting of the insulating casing (1), the cover (14) and the unitary piece forming a terminal (4), a fixed contact (6) and an arc foot plate (5) is shown in FIG. ), exploded view. This figure shows the existence, in the lower part of the insulating casing (1), of a wall U (16) surrounding the tab (5) forming the base plate of arc. This wall (16) protects the said sheet metal (5) arch. Figure 13, which is a section at the arrows AA of Figure 5, shows the relative positioning of the housing (7) and grooves (8) trapezoidal, optionally having through holes (9).

For each trapezoidal groove (8) there is, in the extension inwards, a housing (7). The walls of this housing are also trapezoidal, to the extent of the shape of the corresponding groove (8). When the cutting plates (2) are inserted into the housings (7), they abut the bottom of these housings (7). Their precise positioning is given by cooperation between the lateral slots (11), also appearing in section in FIG. 14 and the shape of the trapezoidal groove (8). The two long sides of the trapezium of each groove (8) converge in fact towards the edges of the inner end face of each slot (11), allowing the positioning of the sheet (2). The existence of the protrusion (12) allows, in addition to the clipping at the time of entry, to prevent the sheets out. It will also be noted, with reference to FIG. 15, that one of the walls of each housing (7) is in the extension, that is to say in the same plane, as one of the walls of each groove trapezoidal (8). In short, one of the long sides of each of the two trapezes, that constituting the grooves (8) and the one constituting the housings (7), is placed in alignment with that of the other. The positioning of the arc cutting plates (2) is thus firmly ensured. 30 5 10 15 20 30

Claims (1)

REVENDICATIONS1. Cage extinguishing the electric arc that is created at the opening between a movable contact (15) and a fixed contact (6) of an electrical device for breaking at least one line of the circuit breaker type, comprising a stack arc cutting plates (2) inserted in a fan in an envelope (1) of insulating material, each U-shaped sheet (2) being then oriented substantially perpendicular to the travel of the movable contact (15) pivoting between the branches (10, 10 ') of U, characterized in that: the cutting plates (2) have on each side a slot (11, 11') for lateral guidance, one being provided with a protrusion (12) clipping; - housings (7, 7 ') for the free ends of the sheets (2) are provided in the casing (1), on either side of the space (E) in which the movable contact (15) moves. ), said housing (7, 7 ') having in section parallel to the stroke of said contact (15) a trapezoid shape whose small base constitutes the bottom of the housing (7, 7') forming an axial stop at the inserting the sheets (2); - Trapezoidal grooves (8, 8 ') are made at the same level in the two inner faces of the side walls (3, 3') of the casing (1), said grooves (8, 8 ') opening into the opening of the envelope (1) by which the sheets (2) are inserted and positioning the sheets (2) in abutment by cooperation of the lateral guide slots (11, 11 ') with the converging walls of the grooves (8, 8') ; trapezoidal orifices (9, 9 ') passing through the side walls (3, 3') of the envelope (1) are formed in one groove (8, 8 ') out of two, with a wall offset (3) to the other (3 ') of the envelope (1), said orifices (9, 9') being delimited on three2. 3. 4. 5. 25 7. 30 8 .by the grooves (8, 8 '), the fourth proximal side of the opening of the casing (1) being parallel to the bottom of the housing (7, 7 ') corresponding to the groove (8, 8'), and intended to cooperate with the clipping protrusion (12) to block the sheet (2). Arc extinguishing cage according to the preceding claim, characterized in that a wall of the housing (7, 7 ') and a wall of the grooves (8, 8') are in the same plane. Arc extinguishing cage according to one of the preceding claims, characterized in that the arc cutting plates (2) are identical. Arc extinguishing cage according to one of claims 1 and 2, characterized in that the arc cutting plates (2) are identical except for the distal plate of the fixed contact (6) which is provided with an attachment nose (13) of the arc disposed between its branches (10, 10 '). Arc extinguishing cage according to any one of the preceding claims, characterized in that it comprises a unitary piece (4) forming a terminal extended by a portion placed at one end of the envelope (1) comprising the fixed contact (6), said portion comprising a bow foot sheet in the form of a lug (5) close to the fixed contact (6), cut inside and protruding from said portion. Arc extinguishing cage according to the preceding claim, characterized in that the casing (1) comprises a wall (16) U surrounding said tab (5) and insulating the arc. Arc extinguishing cage according to one of the preceding claims, characterized in that the casing (1) has a closure cap (14) on the side of the connection terminals. Electrical circuit breaking device of the circuit breaker type, characterized in that it comprises an arc extinguishing cage according to the precedingclaims.