FR2894379A1 - Electromagnetic actuator for internal combustion engine valve, has electromagnet with permanent magnets disposed in core`s central arm to form V shape dividing arm into part supporting magnets and wedge forming end part covering magnets - Google Patents

Abstract

The actuator has a pushrod associated with a vane (4) and moved by an electromagnet having a coil (3) and a core (2). The core channels a flux from the coil such that it is contained within the vane and includes a base (10) having arms. Permanent magnets of the electromagnet are disposed in a central arm of the core in order to form a V shape which divides the central arm into support parts (12), supporting the permanent magnets and solidly connected to the base, and a wedge (14) forming an end part covering the permanent magnets.

Description

The invention relates to an electromagnetic actuator comprising

  permanent magnets arranged in V. BACKGROUND OF THE INVENTION Document FR 2,865,238 discloses an electromagnetic actuator comprising an actuating member associated with a movable pallet under the action of an electromagnet comprising a coil and a suitable core. channeling a stream of the coil so that it closes in the pa-lette, the core having a base of which extends branches including a central leg around which extends the coil. The electromagnet has two permanent magnets which are integrated into the core so that the core channels a flow of the permanent magnets so that it closes in the pallet, the magnets being traversed by the flow of the coil. In one of the embodiments illustrated in this document, the permanent magnets are arranged obliquely in the lateral branches of the core, which makes it possible to house in the core magnets having a length substantially equal to the height of the coil, without increasing the height of the electromagnet. Such an arrangement, however, requires cutting the core plates to allow the insertion of magnets, which mechanically weakens the plates and poses mounting problems. In addition, the gap between the core plates and the permanent magnets depends on the cutting precision of the sheets, and is therefore difficult to control. OBJECT OF THE INVENTION The invention relates to an electromagnetic actuator with oblique magnets of easy assembly. BRIEF DESCRIPTION OF THE INVENTION With a view to achieving this object, an electromagnetic actuator is proposed comprising an actuating member associated with a movable pallet under the action of at least one electromagnet which comprises a coil, a core adapted to channel a stream of the coil so that it closes in the pallet, the core having a base from which branches extending a central branch about which the coil extends, and two permanent magnets which are associated with the core so that the latter channels a flow of permanent magnets so that it closes in the pallet, the magnets being traversed by the flow of the coil. According to the invention, the two magnets are arranged in the central branch of the core to form a V which separates the central branch into a support portion of the magnets secured to the base and an end portion covering the magnets. Thus, the core is separated into a main part integrating the support part of the magnets whose access for the establishment of the permanent magnets is completely cleared, and an end portion which is rap-focused on the magnets arranged on the support portion for capping thereof, the end portion self-centering on the V formed by the permanent magnets. The assembly of the actuator is facilitated It is therefore sufficient to exert a pressure force on the end portion to reduce or even cancel the gap between the sheets constituting the core and the permanent magnets. BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood in the light of the description which follows with reference to the figures of the appended des-sins among which: - Figure 1 is a partial schematic sectional view of an actuator according to the invention; - Figure 2 is a partial schematic view of the actuator of Figure 1, shown during assembly; - Figure 3 is a partially broken exploded perspective view of a dual electromagnetic actuator according to the invention. DETAILED DESCRIPTION OF THE INVENTION With reference to FIG. 1, the electromagnetic actuator of the invention comprises an electromagnet 1 with a core 2 and a coil 3. The electromagnet 1 exerts an electromagnetic force on a pallet 4 integral with a pusher 5 movable along the axis X. Such an actuator is for example used to actuate an internal combustion engine valve, the actuator being arranged so that the pusher 5 extends along the axis of sliding of the valve. In a manner known per se, the actuator comprises another unrepresented electromagnet which extends opposite the electromagnet 1 to selectively attract the pallet 4 in the other direction. The end of the pusher 5 and the end of the valve are biased towards each other by unrepresented counter-springs defining an equilibrium position of the pusher / valve assembly in which the pallet extends. substantially halfway between the two electromagnets. The core 2 of the electromagnet 1 comprises a base 10 of which two lateral branches 11 extend and a central branch around which the coil 3 extends. The central branch comprises two portions 12 with inclined faces. facing each other which are integral with the base 10. The portions 12 form a support portion of the core 2 adapted to receive permanent magnets 13 so that they extend obliquely with respect to the axis X and form a V whose the tip is here turned towards the base 10. In the V thus formed extends a wedge 14 forming an end portion of the central branch. The path of the fluxes generated by the permanent magnets 13 which pass through the core 2 to close in the pallet 4 is drawn in thick dashed lines in FIG. 1. The wedge 14 has an end face 15 on which a groove 17 is extends parallel to the permanent magnets 13. The groove 17 ensures a clear separation of the respective flows of the two permanent magnets 13 which pass on either side of the groove 17. As can be seen in FIG. 3 (on which the core is shown upside down from Figure 1), the mounting of the actuator is as follows. After having constituted the core 2 by assembling the sheets which form the base 10, the lateral branches 11 and the support portions 12, the permanent magnets 13 are placed on the support portions 12. In this respect, the support portions 12 comprise rims 50 facilitating the positioning of the magnets 13. Then after forming the corner 14 by assembling the corresponding plates, the corner 14 is reported on the permanent magnets 13 as indicated by the arrow. The wedge 14 then caps the permanent magnets 13 and is self-centered by the V formed by the permanent magnets 13.

  In Figure 3 is shown a dual actuator for actuating two pushers (not shown). In this regard, the dual actuator comprises two coils 3 and a common core 2 obtained by joining two cores identical to that illustrated in Figure 1 and forming a single branch of the two side branches contiguous. As before, the core 2 comprises central branches around which the coils 3 extend, the central branches having support portions 12 which carry the permanent magnets 13, as well as corners 14.

  To maintain the whole, non-magnetic flanges 18 are used which each comprise on the one hand a slender portion 19 which is housed in the groove 17 of the active face 15 of the wedge 14 and on the other hand tie rods 20 which extend in the through holes of the wedge 14, then between the permanent magnets 13, and finally in the orifices of the core 2 (not visible) to be fixed thereto, for example by screwing or by riveting (alternatively, the tie rods could cross the core 2 to be attached directly to the body 100).

  The non-magnetic flanges make it possible to exert a pressure force to compensate for, or even cancel, the residual gap that may remain due to manufacturing tolerances between on the one hand the support portions 12 and the permanent magnets 13, and on the other hand The permanent magnets 13 and the wedge 14 are taken into account. This retraction of gaps makes it possible to increase the magnetic efficiency of the actuator. According to a particular aspect of the invention more particularly visible in FIG. 1, the end face 15 of the wedge 14 extends with a recess h with respect to the end faces 16 of the lateral branches 11. Thus, when the pallet 4 abuts against the core 2, it only abuts on the end faces 16 of the lateral branches 11, and not on the central branch. In general, and more particularly when the permanent magnets are made by agglomeration of powder materials, the permanent magnets are very sensitive to shocks. Withdrawal h makes it possible to subtract the permanent magnets 13 from the shocks of the pad 2 against the core 4, which increases the service life of the actuator. In addition, in the absence of such a withdrawal, the manufacturing tolerances of the core would give rise to residual air gaps between the pallet and the branches of the actuator causing a magnetic hysteresis which would disturb the repeatability of the takeoff of the pallet 4 of the core 2. The shrinkage makes it possible to reduce or eliminate this hysteresis. For this purpose, it is preferred to choose a shrinkage of the hedge of a few tenths of a millimeter, so much larger than the gaps which are of the order of a few tens of micrometers so that withdrawal h form between the pallet and the central branch a large gap whose influence is preponderant on that of residual air gaps when the pallet is close to the core, which allows to reduce or eliminate the effects of magnetic hysteresis caused by residual air gaps. In practice, a shrinkage h greater than 0.1 millimeters will preferably be chosen, while remaining less than 0.35 millimeters, so as not to penalize the performance of the actuator. According to a particular aspect of the invention more particularly visible in FIGS. 1 and 2, the core 2 comprises a clearance 30 which extends between the permanent magnets 13 at the tip of the V, and in which the tip 31 of the corner 14. The tightening of the wedge 14 by means of the flange 18 can lead, due to the relatively acute angle of the wedge 14, a significant dispersion of the position of the tip 31 along the axis X.

  The clearance 30 absorbs this dispersion while avoiding contact between the tip 31 and the remainder of the core 2. In addition, the clearance 30 will be chosen deep enough to form a sufficiently large air gap between the corner 14 and the base 10 avoiding in use a passage of magnetic flux between the corner 14 and the base 10 which would bypass the permanent magnets 13. Finally, the clearance 30 forms a non-magnetic zone at the base of the permanent magnets 13 at the place where they form the tip of the V, which allows a clear separation of fluxes of permanent magnets 13 in this area of the core. The invention is not limited to what has just been described, but on the contrary covers any variant falling within the scope defined by the claims. In particular, although there are illustrated here actuators whose permanent magnets form a V whose tip is turned towards the base of the core, we can also arrange the magnets so that they form a V with the tip directed towards the palette. The support portions of the magnets secured to the base comprise inclined faces that are no longer facing, but which are turned towards the lateral branches, while the end portion of the central branch will no longer have a wedge shape, but a form of hat. 7

Claims (5)

  1. Electromagnetic actuator comprising an actuating member associated with a pallet (4) and movable under the action of at least one electromagnet which comprises: - a coil (3); - A core (2) adapted to channel a stream of the coil so that it closes in the pallet, the core having a base (10) which extends branches including a central branch around which extends the coil; - Two permanent magnets (13) which are associated with the core so that the latter channels a flow of permanent magnets so that it closes in the pallet, the magnets being traversed by the flow of the coil; characterized in that the two permanent magnets are arranged in the central branch of the core to form a V which separates the central branch into a support portion (12) of the permanent magnets secured to the base and an end portion (14). ) styling the permanent magnets.   An electromagnetic actuator according to claim 1, wherein the V formed by the magnets has a base-facing tip (10), the end portion (14) being wedge-shaped.   3. Electromagnetic actuator according to claim 1, wherein the end portion (14) has an active face (15) facing the pallet (4) on which a groove (17) extends parallel to the permanent magnets. (13).   4. An electromagnetic actuator according to claim 1, comprising means (18) for pressing the end portion (14) against the permanent magnets (13).   5. An electromagnetic actuator according to claim 4, wherein the pressure means comprise a non-magnetic flange having a slender portion (19) which extends in a groove (17) of the active face of the end portion (14). ) parallel to the permanent magnets (13) and at least one tie rod (20) extending from the slender portion to cross the end portion and pass between the permanent magnets.