FR2575861A1 - Miniature electric circuit breaker with arc forming chamber - Google Patents

Abstract

The invention relates to an electrical arc cutting device. The device includes a first chamber 12 for arc formation communicating with a second chamber 14 for extinction having deionising metal plates 28. Means of guiding the arc, formed by two series of ribs 50a, 50b arranged symmetrically with respect to the middle plane of the casing and moulded in one piece with the two casing-forming castings 10, are arranged in the first chamber 12. Half-open notches 58a, 58b delimit the ribs 50a, 50b of each series to form ducts for recycling the deionised gases. Application: low-voltage electric circuit breaker.

Description

MINIATURE ELECTRIC CIRCUIT BREAKER WITH ARC FORMING CHAMBER.

The invention relates to an electrical circuit breaker with a boot made of molded insulating material containing: - a first arc-forming chamber delimited transversely by the side walls of the housing and containing a separable contact system, - a second arc extinguishing chamber communicating with the first chamber and comprising a stack of arc deionization sheets, - an exhaust orifice made in the housing to communicate the outlet of the second chamber with the external environment, - Said first chamber being provided insulating means for guiding the arc towards the entrance to the second chamber.

According to French patent N 1,331,783, the means for guiding the arc consist of a pair of insulating cheeks extending parallel ~ one to the other in the direction of movement of the arc. The main function of these cheeks is to guide the arc during its elongation from the contact area to the second extinguishing chamber. These cheeks can be made of ceramic material allowing an absorption of the energy of the arc, or gasogenic material causing a gasogenic effect which propels the arc towards the sheets of the second chamber. An interval Separates each cheek from the corresponding side wall of the housing to form a recycling path for deionized gases This interval communicates with the contact area by means of a cutout or notch formed at the base of each cheek. This arrangement with attached cheeks requires precise positioning of the two twisted cheeks of the circuit-breaker assembly, an incorrect mounting which may disturb the recycling of the deionized gases to your contact area.

The replacement of the attached guide cheeks with cheeks integrated into the walls of the housing is also possible as described in French patent N 2,096,279. The section of the arc-forming chamber is arranged in the form of a nozzle transversely to the direction of movement of the arc. This device has two major drawbacks: - the first is that of the absence of cold gas recycling conduits with the impossibility of regenerating the contact separation zone; - The second drawback concerns the molding of the walls of the housing. The molding of flat parts with variable thickness, in particular at the level of the throat of the nozzle, poses problems of Local deformation (shrinkage) and non-flatness.

The object of the invention is to remedy these drawbacks and to make it possible to produce a miniature circuit breaker with an improved arc-forming chamber with rapid assembly.

The circuit breaker is characterized in that the means for guiding the arc comprise two series of ribs solidified on the opposite internal faces of the lateral walls delimiting the first chamber in order to confine a central corridor in which the arc develops. separation of said contacts, the width L of said corridor being less than the spacing between the side walls, and that semi-open notches delimit the ribs of each series-to form conduits on either side of said corridor for recycling deionized gases to the contact area.

The presence of the notches thus constitutes a reserve of deionized cold gas, and avoids the problems of molding thanks to the small thickness of the ribs delimited by the notches.

The geometry of the ribs also allows a significant elongation of the vanishing lines between the contacts, which is impossible in the case of flat cheeks. Part of the ribs can have a shape extending parallel to the equipotential lines of the electric field generated in the arc-forming chamber after separation of the contacts.

The shape, the arrangement and the number of ribs can be modified according to the performances requested from the circuit breaker.

According to a first embodiment, the ribs have on each side of the corridor a tree structure in the form of a labyrinth or a baffle.

According to another mode, the ribs are rectilinear and extend in divergent directions towards the second chamber.

Other advantages and characteristics will emerge more clearly from the description which follows of two embodiments of the invention, given by way of nonlimiting examples and represented in the appended drawings, in which: - Figure 1 is a partial view of a circuit breaker equipped with an arc-forming chamber according to the invention, one of the walls of the case being assumed to be removed; - Figures 2 to 4 are sectional views respectively along lines II-II, III-III, IV-IV of FIG. 1; - Figure 5 shows the gas circulation for different positions of the arc in the formation chamber according to fig. 1, the contacts being in the separated position; - Your Figure 6 shows an alternative embodiment.

In FIGS. 1 to 5, a miniature circuit breaker pole is housed in a housing 10 of molded insulating material, the lower part of which encloses a first arc-forming chamber 12 communicating with the input of a second extinguishing chamber 14 arc. An exhaust port 16 is provided in the housing 10 to communicate the outlet of
the second bedroom 14 with the outside environment. Between the first arc-forming chamber 12 and the upper compartment 18 for housing the mechanism extends a partition 20 for subdivision of the housing 10, which limits the gas leaks caused by the arc in the chamber 12 towards the compartment 18. The partition 2O made of insulating material is provided with a port 22 for the passage of a contact arm 24 pivotally mounted on an axis 26 and actuated by the mechanism between the closed and open positions. The port 22 has an elongated shape in the direction of movement of the contact arm 24.

The second arc extinguishing chamber 1-4 is constituted by a stack of sheets 28 in deionization extending parallel to the bottom 30 of the housing 10. Above the chamber 14 is arranged an electromagnetic trip device 32 intended for cooperate with a lever 34 for triggering the mechanism in the presence of a fault current.

The free end of the contact arm 24 which penetrates into the first chamber 12 of arc formation by the light 22 of the partition 20, is shaped as a movable contact 36 cooperating with a fixed main contact 38 associated with a contact. arc 40 fixed or semi-fixed. One of the ends of the release control coil 42 is connected to a pad 44 of a connection terminal 46, while the other end is connected to the fixed contact 38. Such a circuit breaker is well known to specialists, and there is no need to describe in more detail its arrangement or operation.

According to the invention, the first arc-forming chamber 12 is equipped with means for guiding the arc towards the entrance to the second chamber 14. These guide means comprise two series of ribs 50a, 50b integrated into the opposite internal faces of the side walls 52, 54 delimiting the first chamber 12. The ribs 50a, 50b are arranged symmetrically with respect to the median plane of trace XX ', so as to confine a central corridor 56 in which the arc develops after separation contacts. 36, 40. The side walls 52, 54 are part of the two shells constituting the housing 10, and the ribs 50a, 50b - come directly from molding with the corresponding shells. The width L of the corridor 56 is less than the spacing between the walls 52, 54, and the thickness of the ribs 50a, 50b is thin enough to avoid the problems of molding, in particular of shrinkage on the external face of the walls 52, 54, and of the flatness of the housing 10.

The ribs 50a, 50b of each series are delimited by semi-open notches 58a, 58b forming conduits on either side of the corridor 56 for recycling the deionized gases to the contact area 38, 40, 36-.

In FIGS. 1 to 5, the ribs 50a, 50b have a tree-like structure in the shape of a labyrinth, the ramifications of which are directed towards the center of the second chamber 14. The elementary ramifications are connected to a common branch 60 extending along a direction substantially parallel to the equipotential lines of the electric field generated in the first chamber 12 in the open position of the contacts 36, 40. The branch 6G can also join or be in the vicinity of the partition 20 of subdivision separating the first chamber 12 of upper compartment 18.

FIG. 5 shows the gas circulation in the chamber 12 for different positions of the arc after separation of the contacts 36, 40. The presence of the branch 60 in the vicinity of the zone of the contacts 36, 40 generates a gas-generating effect which promotes the quick switching of the arc 61 on the lower arc horn 62 (see position 2). The gas-generating effect causes an increase in pressure inside the chamber 12 which tends to drive the arc 1 towards the entrance to the second chamber 14 (see successive positions 3 and 4). The role of the ribs 50a, 50b consists exclusively in guiding the arc 61 in the corridor 56 from the zone of the contacts 36, 40 towards the deionization plates 28. The extinction of the arc occurs inside the second chamber 14, after being cooled by the sheets 28 (see position 5).

The recycling of the deionized gases (see dotted arrows) is then carried out inside the notches 58a, 58b in the direction of the area of the contacts 40, 36, the latter being in the open position. The hollow of the notches 58a, 58b thus constitutes a reserve of fresh gas.

According to a variant embodiment (not shown), each series of ribs 50a, 50b forms part of a separate support, placed against the internal face of the wall 52, 54 corresponding to the housing 10. The material of the support may be different that of the housing 10, in particular as regards the gas-generating properties.

The shape, the arrangement and the number of ribs 50a, 50b and notches 58a, 58b can of course be modified according to the performance of the circuit breaker. According to Figure 6, the ribs 58a of the first chamber 12 are recti
Lines and extend towards the sheets 28 of the second chamber 14 in divergent directions. The fixed contact 38 is carried by the lower arcing horn 62, and the contact arm 24 moviLe pivots clockwise towards the open position. The opening of the notches 58a formed between the ribs 50a varies depending on the position of the arc in the first chamber 12. The opening increases with the elongation of the arc, being maximum at the entry of the second chamber14 and minimum in the vicinity of the contact zone 36, 38. The arrows indicate the path for recycling the fresh gases towards the contact zone 36, 38, the circulation taking place in the hollow of the notches 58a.

The invention is of course in no way limited to the embodiments more particularly described, but it extends quite the contrary to any other variant remaining within the framework of equivalences, in particular that in which your arrangement of the ribs 50a , 50b forms baffles.

Claims (9)

Claims 1. Electric circuit breaker with casing (10) of molded insulating material containing - a first arc-forming chamber (12) delimited transversely by the side walls (52, 54) of the casing (10) and containing a contact system (36, 38, 40) separable, - a second arc extinguishing chamber (14) communicating with the first chamber (12) and comprising a stack of arc deionization sheets (28), - an orifice ( 16) exhaust formed in the housing (10) to communicate the outlet of the second chamber (14) with the external environment, - said first chamber (12) being provided with insulating means for guiding the arc towards L ' entrance to the second chamber (14), characterized in that the arc guide means comprise two series of ribs (50a, 50b) secured to the opposite internal faces of the lateral walls (52, 54) of the first chamber dliBitation (12) to confine a central corridor (56) in which the arc develops after separation of the said contacts, your width L of said passage (56) being less than the spacing between the walls (52, 54) Lateral, and that semi-open notches (58a, 58b) delimit the ribs (50a, 50b) of each series to form conduits on either side of said corridor (56) for recycling deionized gases to the zone of contacts. 2. Circuit breaker according to claim 1, characterized in that the two series of ribs (50a, 50b) of the first chamber (12) are arranged symmetrically with respect to the median plane of the boot (10). 3. Circuit breaker according to claim 1 or 2, characterized in that the ribs (50a, 50b) come from molding with the two shells constituting the housing (10) while being integrated into the side walls (52, 54), 4. Circuit breaker according to claim 1 or 2, characterized in that the ribs (50a, 50b) are carried by- an insulating support attached against the internal face of the wall (52, 54) corresponding side of the housing (10) -, and that the material of said support may be different from that used for the housing (10). 5. Circuit breaker according to claim 3 or 4, characterized in that the thickness of the ribs (50a, 50b) is less than the width L of said corridor (56) for guiding the arc. 6. Circuit breaker according to claim 5, characterized in that the ribs (50a, 50b) extend in the contact area (36, 38, 40) parallel to the direction of the equipotential lines of the electric field generated in the first chamber ( 12) in the open position of the contacts. 7. Circuit breaker according to claim 5 or 6, characterized in that the ribs (50a, 50b) have on each side of the corridor (56), a tree structure in the form of a labyrinth or baffle. 8. Circuit breaker according to claim 7, characterized in that the elementary ramifications of the ribs (soybean, 50b) are connected to a common branch (60), and that the end of said branch (60) is located in the vicinity of the partition (20) separating the first chamber (12) from the compartment (18) of the mechanism. 9. Circuit breaker according to claim 5 or 6, characterized in that the ribs (50a, 50b) extend towards the inlet of  the second chamber (14) in divergent directions, and that the opening of the notches (58a, 58b) varies according to the position of the arc in the first chamber (12), the opening being maximum at the entrance from the second bedroom  (14) and minimum in the vicinity of the contact area (36,38).