DE10008975A1 - Electromagnetic actuator for gas replacement valve for internal combustion engine has device for applying increased acceleration force on armature when in holding position - Google Patents

Abstract

The actuator has an armature (3) with a drive connection to the valve (2) arranged to oscillate against the force of a spring system between switching magnets (4,5) at a distance apart. The armature is alternately accelerated from a holding position on one of magnet towards the other by the magnetic field of the other supplied with a capture current. There is a device (6) for applying increased acceleration to the armature in the holding position.

Description

The invention relates to a preamble of claim 1 electromagnetic actuator for a gas exchange valve of an internal combustion engine, in which an armature connected to the gas exchange valve in drive connection between stroke-spaced solenoids against forces of a spring system os is arranged zillierend, the anchor alternately from a stop position one of the switching magnets from the magnetic field of the other, with trapping current wired switching magnet is accelerated towards this.

Such an actuator is known for example from DE 196 08 061 A1, wherein which is provided in particular for an exhaust valve of an internal combustion engine Actuator of the opening switching magnet to achieve a full opening of the Exhaust valve designed as a characteristic magnet even at the highest combustion chamber pressures is, the magnetic force continues to move towards the far field with the same current flow extends. To support this far field, flux guide pieces can be made from one magnetically conductive material in the area of the magnetic core of the switching magnet be provided.  

Another difficulty with previously known electromagnetic actuators results from the fact that in the middle travel of the armature the magnet Power of the actuator is relatively low and therefore a particularly high engine speed required acceleration can hardly be achieved.

The invention has for its object a generic actuator such to improve that the magnetic force in the middle travel or stroke of the armature is increased.

This object is achieved with the patent claim 1 in that one on the anchor in the respective stopping position causing an increased acceleration force tion is provided.

The advantage of the device according to the invention is according to a preferred example of the improved actuator with a shortened magnetic circuit just an air gap. According to a further exemplary embodiment, the invented device according to the invention in the middle between the shaft magnets orderly solenoid.

With the invention is in an advantageous manner over the previous course of Magnetic force of an actuator in the middle stroke range of the armature is essential achieved increased magnetic force with which advantageously an increased acceleration of the Anchor can be reached.

Advantageous embodiments of the invention are described in the subclaims ben.

The invention is based on an embodiment shown schematically in the drawing Example described. It shows

Fig. 1 shows an actuator according to the invention in cross-section,

Fig. 2 shows the actuator in plan view;

Fig. 3 is a force-stroke diagram.

An electromagnetic actuator 1 for a gas exchange valve 2 of an internal combustion engine, not shown, comprises an armature 3 , which is connected to the gas exchange valve 2 in the drive connection and which is arranged oscillating between stroke-spaced switching magnets 4 and 5 against forces of a spring system, not shown. The oscillating armature 3 is alternately accelerated from a holding position on one of the switching magnets 4 or 5 from the magnetic field of the other, with switching current wired th switching magnet 5 or 4 towards this.

In order to increase the magnetic force of the armature 3 in the middle or traversing stroke a schleunigungskraft effecting in the respective holding position an increased loading on the anchor means 3 6 is provided according to the invention.

As can be seen from Fig. 1, each switching magnet 4 , 5 has a coil 4 ', 5 ' in a ge relative to a guide shaft 7 of the armature 3 or the gas exchange valve 2 according to Fig. 2 core 8 , 9 laminated symmetrically to reduce the Wir belstrom losses. Further, each core 8, 9 adjacent to one side in one of the armature-side end 10 provided circumferential groove disposed coil 4 ', 5' outside circumferentially formed flush to the planar support of the actuating magnets 4, 5, including the anchor displacement space 12 surrounding the yoke. 13

The formation of closed magnetic circuits, formed from a magnetisable, low-hysteresis, in particular ferromagnetic material yoke 13 has substantially in the middle between the switching magnets 4 'and 5 ' a with free passage to the armature 3 inward projection 14 , which between non-magnetizable covers 15 to both switching magnets 4 and 5 when catching current in the respective switching magnet 5 or 4 serves as a device 6 with a strong magnetic flux near the anchors.

With the device 6 designed according to the invention as the projection 14 , the respective magnetic circuit of each coil 4 ', 5 ' is shortened, with initially only one air gap at the beginning of the acceleration of the armature 3 in the magnetic circuit, the resistance of which was advantageously reduced and thus an increased acceleration force animals.

In an embodiment of the invention, the wall thickness "s" of the housing-like yoke 13 is selected according to the magnetic line density in the centrally symmetrically laminated cores 8 , 9 to achieve a low magnetic resistance, the projection 14 serving as device 6 being one of the yoke wall thickness "s" Corresponding thickness "d" has.

The protrusion 14 associated covers 15 are preferably made of aluminum, but can also be made of titanium or an aluminum-titanium compound. These non-magnetizable covers 15 prevent the magnetic flux emerging from the projection 14 from fanning out, for example, toward the end plates 17 made of magnetic material, each of which contains a damping chamber 16 , so that the magnetic flux entering or leaving the projection 14 is effective on the armature 3 without weakening.

Within the scope of the invention, a separate magnet coil, not shown, can be provided as a device 6 arranged essentially centrally between the switching magnets 4 and 5 .

Advantageously, a housing-like yoke 13 enclosing the switching magnets 4 and 5 including the armature displacement 12 can be formed from a light metal, as a result of which the actuator 1 is of lighter weight.

With the invention, the characteristic curve of the magnetic force in the middle stroke range of the armature 3 can advantageously be shifted to higher values, as shown for example in FIG. 3 according to the solid line.

Claims (7)

1. Electromagnetic actuator for a gas exchange valve of an internal combustion engine,

• - In which one with the gas exchange valve ( 2 ) in drive connection armature ( 3 ) between stroke-spaced switching magnets ( 4 , 5 ) is arranged oscillating against the forces of a spring system, where at
• the armature ( 3 ) is alternately accelerated towards the latter from a holding position on one of the switching magnets ( 4 or 5 ) by the magnetic field of the other switching magnet ( 5 or 4 ) connected to the catching current,

characterized by

• - That a device ( 6 ) providing an increased acceleration force is provided on the armature ( 3 ) in the respective holding position.

2. Actuator according to claim 1, characterized in

• - That each switching magnet ( 4 , 5 ) has a coil ( 4 ', 5 ') in a relative to a guide shaft ( 7 ) of the armature ( 3 ) or the gas exchange valve ( 2 ) core ( 8 , 9 ) which is laminated in a symmetrical manner, and
• - Each core ( 8 , 9 ) with a coil groove ( 4 ', 5 ') arranged in a circumferential groove ( 11 ) arranged adjacent to the armature end face ( 10 ) is designed to be flush with the outside for flat support of the switching magnets ( 4 , 5 ) including the Armature displacement ( 12 ) enclosing yoke ( 13 ), wherein
• - The yoke ( 13 ) formed from a magnetizable, low-hysteresis material substantially centrally between the switching magnets ( 4 , 5 ) has an inward projection ( 14 ) with free access to the armature ( 3 )
• - Between non-magnetizable covers ( 15 ) to both switching magnets ( 4 , 5 ) in the case of trapping current in the respective switching magnet ( 5 or 4 ) as a device ( 6 ) with a strong, near-anchoring magnetic line flow.

3. Actuator according to claim 2, characterized in

• - That the wall thickness (s) of the housing-like yoke ( 13 ) accordingly the magnetic line density in the centrally symmetrically laminated cores ( 8 , 9 ) is selected, wherein
• - The device ( 6 ) serving projection ( 14 ) has a yoke wall thickness (s) corresponding thickness (d).

4. Actuator according to claim 2 and 3, characterized in that the projection ( 14 ) assigned covers ( 15 ) made of aluminum or titanium or an aluminum-titanium compound. 5. Actuator according to one of claims 2 to 4, characterized in that the housing-like yoke ( 13 ) is formed from a ferromagnetic material. 6. Actuator according to claim 1, characterized in that a separate magnet coil is provided as a device ( 6 ) arranged in the center essentially between the switching magnets ( 4 , 5 ). 7. Actuator according to claim 6, characterized in that the switching magnets ( 4 , 5 ) including the armature displacement ( 12 ) enclosing, housing-like yoke ( 13 ) is formed from a light metal.