FR2596577A1 - Polarised trip - Google Patents

Abstract

Polarised trip for automatic low-voltage make/break switch, in particular for differential make/break switch, including a U-shaped magnetic circuit 10, one of the pole arms of which consists of two parallel parts 11a, b. The flat armature 20 is essentially cruciform with lateral arms 21a, b pivoting on the pole faces of the arms 11a, b of the magnetic circuit 10, a magnet 30 rests via one of its pole faces 31 on the base 15 of the magnetic circuit 10, its second pole face 32, 33 being positioned in immediate proximity to the armature 20. As a result of this, the holding magnetic flux, and also the flux in the branched circuit, which remains substantially held after opening the armature, pass through the air gap between the permanent magnet 30 and the armature 20 thus considerably facilitating adjustment of the trip by a method of demagnetisation.

Description

 The present invention relates to a polarized release for a low-voltage automatic switch, in particular for a differential switch, comprising: a one-piece core of general U-shape having two pole branches joined by a base; a pallet centered on the front surface of one of the pole branches and able to fold flat, against the action of a spring, on the front surface of the second pole branch a permanent magnet cooperating with the iron core and intended creating a magnetic holding flux closed by the pallet lowered on the iron core an electrical winding disposed on the second pole branch and having the aim of weakening the holding flux when it is traversed by a current; and a trigger push button actuated by the pallet under the effect of the spring tension.

 A polarized trigger produced in this way is known per se, for example from document DE-OS 19 42 273. In addition, there are also other versions of polarized triggers with, for example, iron cores in several sections, ( DE-PS 12 77 420 and DE-OS 26 49 522), with several electric windings traversed in opposite directions and located on parallel poles from which the pallet becomes free when triggered (DE-OS 22 36 682), with pallets which are pivotally mounted on special support bearings (DE-OS 27 10 869), as well as with pallets which are not pivotally mounted but linearly movable (DE-OS 26 54 111). But one characteristic common to all these polarized triggers is that the iron core requires that arrangements be made to create a magnetic bypass circuit for the permanent magnet, which even in the raised position of the paddle creates a practically closed iron circuit in which the magnetic flux can also flow generated by the electrical winding by shunting the permanent magnet. The air gaps located in the derivative circuit are then used to influence the reluctance of the derivative circuit and by this means, also adjust the holding flux of the pallet for the purpose of adjusting the tripping power. For this, the air gaps between the iron core and the pallet play an essential role, since they have a decisive influence on the reluctance of the main circuit driving the holding flux. In order to limit the differences occurring to as low a value as possible during mass production, it is important that the bearing surfaces on the pole arms of the iron core and on the pallet are machined with great precision, and that the pivots of the pallet are executed with great accuracy, which significantly increases the manufacturing cost.

 The object of the present invention is to create, on the other hand, a polarized trigger of an extreme sensitivity, which under small dimensions is feasible simply and economically, and which allows an adjustment of the trigger power within narrow limits and inexpensive .

 According to the invention, the problem has been solved by the fact that the pallet consists of an essentially cruciform plate with two transverse arms directed in opposite directions, that the first pole branch consists of two distinct elements spaced apart, on the front surfaces which pivot the transverse arms of the pallet by the most distant longitudinal edges of the second pole branch, and that the permanent magnet applied by one of its poles on the base of the iron core stands 9 distance from each of the two branches poles of the iron core, and ends with its second blade below the pallet, leaving a gap of considerable length free.

 The trigger according to the invention differs essentially from all the other polarized triggers known to date 9 by the fact that the magnetic flux generated by the permanent magnet at one of its poles reaches the pallet through an air gap provided voluntarily enough important, by which not only the flow of maintenance, but also the flow of the derived circuit find their way. Compared with this reluctance of air gap, not only the reluctances of the iron core and the pallet, but also the reluctances of the other air gaps in particular that of the air gap of the holding flow between the pallet and the second pole branch, and also that of the existing air gaps at the two pivot points of the pallet on the front surfaces of the two pole branches, are of secondary importance. This of course requires the adoption of a strong permanent magnet and consequently relatively bulky, but for which there is sufficient space between the two polar branches separated from the iron core. As a result, this results in a simplification of the setting of the trigger, which can be done by simple weakening of the magnetization of the permanent magnet.

 The transverse arms of the pallet offer, by their longitudinal edges furthest from the second polar branch and without special machining, the pivots of the pallet, this articulation being able to be further completed according to a first characteristic of execution by the fact that the spring tension attacks the tilting end of the pallet at an acute angle relative to its longitudinal plane, the longitudinal edges of the transverse arms of the pallet serving as pivots being held in place on the front surfaces of the two pole legs by stops. For this purpose, it will be advantageous to use a U-shaped retaining plate made of non-magnetic material fixed by its arms to the pole branches separated from the iron core, and hence by inclined tongues forming stops.

 It is true that the principle of action of springs at an acute angle at the tilting end of the pallet, is known per se; however in the execution of such a polarized trigger (DE-OS 27 10 869), the pallet is not retained on the iron core but by a distinct bearing edge, which in one embodiment of the trigger polarized previously known simultaneously carries a latching lug for the tension spring creating the restoring force. Unlike this system, another embodiment of the invention provides that the tilting end of the pallet carries lateral appendages urged by two parallel tension springs hooked on the other hand to the retaining plate.

 In order to avoid a lateral offset of the pallet, and according to another embodiment of the invention, the ends of the transverse arms of the pallet are cut at an angle in order to present sharp corners making it possible to center the pallet transversely between two fixed stops.

 Another characteristic of the invention provides that the free pole of the permanent magnet has a biased part, the breaking line of which is oriented parallel to the axis of tilting of the pallet, the part corresponding to the attracted pallet and the other part corresponding to the raised pallet being practically parallel to the adjoining surfaces. As a result, it follows that the transverse arms of the pallet are also attracted by the permanent magnet even in the tripping position, and that the tilting edges are kept supported on the front surfaces of the two pole branches of the iron core.

 In order to achieve this with the iron core and pallet sections as small as possible, which is desirable in terms of the overall size of the trigger, another characteristic of the invention provides that the iron core consists made of ferro-nickel alloy having a nickel content of at least 50%. Such alloys are available in the most diverse forms such as, for example, amorphous metal or a sintered agglomerate. It is however particularly advantageous to execute the iron core from a piece of laminated sheet, which by cuts starting from the ends will be divided into a median part forming the base and into three parallel branches of the two catés, the median branch on one side and the two outer branches on the other side being curved at right angles to the plane of the middle section, in order to form the polar branches. It should be noted that the three angled arms are usefully longer than the other three arms, the latter serving as seat legs and fixing the iron core.

A preferred example of implementation of the invention will be explained in more detail in the following description and the accompanying drawings, in which
FIG. 1 - represents the side elevation view of a polarized trip device executed in accordance with the invention, the interior of the housing seen in section,
FIG. 2 - is the plan view of the trip device according to FIG. 1, the cover being removed,
FIG. 3 - is the perspective representation of the essential components deployed of the polarized trip device,
Figure 4 - is the equivalent magnetic diagram of the trigger.

 The polarized release described is designed symmetrically with respect to a vertical longitudinal median plane, the same symmetrical components on either side of this plane being identified by the same numbers assigned the indices "a" and "b".

 The polarized trip device described essentially comprises - an iron core 10, - a tilting pallet 20, - a permanent magnet 30, - a coil carrying an electric excitation winding 40, - a retaining plate 50, - a set of springs 60 , - a trigger pusher 70, as well as a shoemaker 80, whose lower part 81 in the form of a bowl immobilizes the iron core 10 and whose upper part 82 in the form of a cover carries the sliding trigger pusher 70.

 As can be seen most clearly in FIG. 3, the iron core 10 consists of an oblong piece of sheet metal of magnetic alloy possibly being ferro-nickel having a content of at least 50 Z-nickel, in which have been stamped on both sides with three parallel branches lia, lib, 12, and respect.

13a, 13b, 14. The two outer branches 11a, 11b, at one end of the sheet and the central branch 14 at the other end of the sheet are bent at right angles to the middle section 15, in order to form a U-shaped body su in elevation in FIG. 1. The other branches 12, 13a, 13b, on the other hand, serve as lugs for inserting the iron core in the lower part 81 of the bowl-shaped casing, the fixing being effected for example by gluing.

 Thanks to an appropriate grinding pass, the front surfaces 16a, 16b 17, at the end of the pole branches 11a, 11b, 14, are aligned in the same plane.

 The tilting pallet 20 has the appearance of a thin plate of essentially cruciform iron sheet, the transverse arms 21a, 21b of which have longitudinal edges 22a, 22b, or respect. 23a, 23b, in rectilinear alignment, and are limited by end edges 24 forming with the longitudinal edges 22a, 22b acute angles 25a, 25b, by which no transverse offset of the pallet is to be feared in the cover 82 of the housing.

 The two longitudinal arms 26, 27 of the pallet 20 are provided in different lengths, the longest arm representing the tilting end of the pallet carrying lateral appendages 28a, 28b, provided with notches 29a, 29b.

 The permanent magnet 30 as shown in FIG. 1 is in the form of a standing parallelepiped, the magnetic poles of which are situated at the upper and lower ends. The lower end is terminated by a horizontal surface 31 and is applied directly to the middle section 15 extended by the flat branch 12 of the iron core. The upper end of the permanent magnet 30, on the other hand, is terminated by a truncated surface having a horizontal part 32 which is extended by an inclined part 33, separated by a breaking line 34. The length of the permanent magnet is somewhat less than that of the polar branches lita, 11b, 14, and the stop 34 lies approximately in a vertical transverse plane passing through the midpoints of the frontal surfaces 16a, 16b, of the two separate polar branches 11a, 11b, of the iron core 10.

 The tripping coil 40 usually consists of a carcass 41 placed on the pole branch 14, with a winding 42 whose ends are connected to connection terminals 43, 44, leaving the housing 80 through the orifices 83.

 On the other hand, there is provided, as already indicated above, a retaining plate 50 of general U shape, the arms 51a, 51b of which have the same width as the pole branches 11a, 11b, and which are joined by a bridge 52. The latter is curved, forming with respect to the arms 51a, 51b, an angle slightly greater than the angle of tilting of the pallet, and has on its lower edge between the arms 51a, 51b, two spaced rectangular tabs 53a, 53b at least the width of the permanent magnet 30. In addition, the bridge 52 has on its upper edge two hooks 54a, 54b, the function of which will be explained below.

 As can be seen in FIG. 1, the retaining plate 50 is held on the rear surfaces of the pole branches 11a, 11h of the iron core, for example by retractable sheaths 56, at a height such that, seen in profile, the tabs 53a, 53b, start from the bridge 52 at an angle downwards, and cut the front surfaces 16a, 16b, of the two pole branches 11a, lib approximately in their longitudinal center.

 In this way, stops are formed for the longitudinal edges 22a, 22b which prevent an offset of the transverse arms 21a, 21b of the pallet 20 on the front surfaces 16a, 16b of the pole branches 11a, 11b of the iron core 10, even as can be seen in FIGS. 1 and 2, when for the return spring system 60 there is hooking with pretension of the traction springs 61a, * 61b, on the one hand in the notches 29a, 29b of the appendages the grouse 28a, 28b of the pallet and on the other hand in the hooks 54a, 54b of the retaining plate 50. The inclination of the tongues 53a, 53b, allows however in the movement of the longest arm 27 of the pallet 20 towards the top, hence the trigger push button 70 until its shoulder 71 abuts against the bulge 84 provided in the upper wall 82 of the housing, with a guide orifice N of the trigger push button.

 As is moreover visible in FIGS. 1 and 2, the shortest longitudinal arm> 26 of the tilting pallet 20 may be provided with an orifice 62 for the attachment of another tension spring 63, which will be stretched to a hook 84 existing in the base 81 of the case. Thanks to this spring 63, the pallet 20 is reliably applied by its transverse arms 21a, 21b to the front surfaces 16a, 16b, of the pole branches 11a, 11b of the iron core 10, while safely preventing the transverse arms 21a, 21b, do not risk sliding up on the tongues 53a, 53b of the retaining plate 50.

 Such a risk of slipping can also be prevented by giving the tongues 53a and 53b an appropriate inclination the place where, seen from the side, they cut the front surfaces 16a, 16b of the branches 11a, llb of the magnetic circuit, the longitudinal edges 22a , 22b being obtained from a scissor shape of the transverse branches 21a, 21b determining the inclination of the legs 53a, 53b and their position relative to the front surfaces 16a, 16b of the branches 11a, iib.

 Figure 4 shows the magnetic diagram of the trigger. In this diagram, the permanent magnet has been designated by A and by the trigger coil, as generators of the magnetomotor forces which maintain the various magnetic fluxes in the iron core 10, in the pallet 20, in the magnet permanent 30, as well as in the various gaps between them.

 C represents the middle of the cruciform pallet 20 and D the middle of the iron core 10 in the middle zone 15. Z symbolically represents a line of separation formed by the various air gaps between, on the one hand the iron core 10 or the permanent magnet 30, and on the other hand the pallet 20.

 On this line are the air gap reluctances 1; ' for the air gap between permanent magnet 30 and pallet 20, ea and e for the air gaps between the transverse arms 21a, 21b of the pallet 20 and the front surfaces 16a, 16b of the pole branches lIa, 11b of the iron core, and e for the air gap between the longitudinal arm 27 of the tilting pallet 20 and the pole branch 14 of the iron core 10.

 Fe 30 denotes the internal magnetic resistance of the permanent magnet 30.

 Fe Fellb and Fe14 denote the magnetic resistances of the polar branches 11a, 11b and 14 (including an appropriate part of the middle zone 15 of the iron core). Fe21a, Fe21b represent the magnetic resistances of the transverse arms 21a, 21b of the tilting pallet, and Fe27 is the magnetic resistance of the longitudinal arm 27 of the tilting pallet 20, being precise that the magnetic resistances Fe2ia, Fe21b and Fe27 also include in common the connection zone between the arms 21a, 21b and 27 as well as the shortest arm 26.

A first glance visibly indicates that the magnetic flux # 1 generated by the permanent magnet A circulates constantly through the important air gap E towards the pallet at point C, and then divides, when the pallet is attracted with obviously a low magnetic resistance ec in the gap between the longitudinal arm 27 and the pole branch 14, on the one hand in 02 through this gap and the pole branch 14 towards the middle zone 15, D on the iron core 10 , on the other hand in 3a and 3b of the same value as a result of the symmetrical configuration, passing through the arms 21a, 21b of the tilting pallet 20 and the air gaps e and eb towards the polar branches pila, llb, then towards the point common D in the middle zone 15 of the iron core, where the three fluxes 2 '3a and 3b come together again to flow back in the form of 01 to the permanent magnet 30, through the air gap not yet taken into account between the middle zone 15 or branch 12 and permanent magnet 30
If now the winding 42 of the trip coil B is run by a current creating a flow 04 opposite to the flow 025 the force d72ttr-action generated by the base flow is canceled out or at least weakened to such an extent that the force of the traction springs 61a, 61b and if necessary 63, exceeds the force of attraction and the pallet 20 swings upwards by driving the trigger pusher 70. As a result it is created between the longitu- dinal 27 of the pallet 20 and the pole branch 14, an air gap so large that even if the current is interrupted in the winding 42 of the trip coil 40, it will no longer be able to establish a significant magnetic flux through this air gap and the pole branch 14. However, a flux 1 continues to flow through the permanent magnet A and the air gap E towards the pallet 20 with return to the permanent magnet through the transverse arms 21a, b, of the pallet and the polar branches lIa, llb, this magnet creating in the trefers e and eh of the forces which hold the transverse arms 21a, 21b applied to the frontal surfaces 16a, 16h of the pole branches 11a, bed of the iron core 10.

 The polarized trip unit can be returned to its normally engaged position by action on the trip button 70.

 To adjust the tripping power, it suffices to demagnet the permanent magnet more or less strongly from its initial state, which, given the high magnetic resistance E in the gap between permanent magnet and pallet, results in a practically equal influence on the holding flux 02 and on the two fluxes 03a and 03b which constitute the magnetic bypass circuit of the permanent magnet.

Claims (9)

 1) Polarized trigger for automatic low-voltage switch, in particular for differential switch, comprising an iron core of a single piece of general U-shape having two pole branches joined by a base, a pallet focused on the front surface of the one of the pole branches and capable of tilting on the front surface of the second pole branch, a permanent magnet cooperating with the iron core in order to create a magnetic holding flux closed by the pallet folded over the iron core, an electrical winding disposed on the second pole branch and, when it is traversed by a current intended to weaken the holding flow, and a trigger push button actuated by the pallet under tension of springs, charac terized in that the pallet (20) is constituted by a plate essentially cruciform having two transverse arms of opposite direction (21a, b) that the first polar core consists of two distinct polar branches (lia, b ) spaced laterally between them, on the front surfaces of which the transverse arms (21a, b) of the pallet (20) are centered by the longitudinal edges (22a, 22b) furthest from the second pole branch (14), that l permanent magnet (30) is mounted upright by one of its poles (31) on the base (15) of the iron core (10), at a distance from each of the two pole branches (lia, b) of the iron core (10), and that the second pole (32,33) terminates below the pallet (20) leaving a gap free.  2) Polarized trip device according to claim 1, characterized in that the spring tension at the tilting end (27) of the pallet (20) is exerted at an acute angle relative to the longitudinal axis of the pallet, and that the longitudinal edges (22a, b) of the transverse arms (21a, b) of the pallet (20) serving as a pivot axis are held in place, under the effect of the tension of the springs, on the front surfaces (16a , b) polar branches separated (11a, b) from the iron core (10), using the stops (53a, b).  3) Polarized trip device according to claim 2, characterized by a U-shaped retaining plate (50) made of non-magnetic material whose arms (51a, b) are fixed to the pole branches (lla, b) of the iron core ( 10), and whose bridge (52) carries inclined tongues (53a, b) forming stops.  4) Polarized trip device according to claim 3, characterized in that the tilting end (27) of the pallet (20) carries lateral appendages (28a, b) which are tensioned two tension springs (61a, b) attached to the retaining plate (50).  5) Polarized trip device according to one of the preceding claims, characterized in that the ends of the transverse arms (21a, b) of the pallet (20) are cut obliquely in order to form sharp corners (25a, b) making it possible to center the pallet (20) in transverse direction, between fixed stops.  6) Polarized trip device according to one of the preceding claims, characterized in that the free end of the permanent magnet has a truncated surface (32,33) whose breaking line is oriented parallel to the tilt axis of the pallet (20), and one of the sections (32) when the pallet (20) is lowered, the other section (33) when the pallet (20) is raised, is practically parallel to the surface which is contiguous to it .  7) Polarized trip device according to one of the preceding claims, characterized in that the iron core (10) and the blade (20) consist of ferro-nickel having a nickel content of at least 50 Z.  8) Polarized trip device according to one of the preceding claims, characterized in that the iron core (10) consists of an oblong piece of laminated sheet metal, which by cutouts from the ends is divided into a middle part (15) forming the base, and on each side in three parallel branches (lia, b, 12; 13a, b, 14) starting from the two ends and the two branches (lia, b) on one side and the middle branch (14) of the other side are straightened at right angles to the central part (15) in order to form the pole branches.  9) Polarized trip device according to claim 8, characterized in that the three straightened branches (i la, b, 14) are significantly longer than the other three branches (12, 13a, b) which serve as mounting and fixing lugs iron core (10).