DE19922422A1 - Electromagnet for engine control valve includes core with slots for windings, and retaining bars which are screwed to base of outer container - Google Patents

Abstract

The electromagnet is retained by bars passing through winding slots and fastened to the base of the casing. The position control comprises a mobile armature which may be displaced axially between two extreme positions within a rectangular box (3) by means of an electromagnet. The electromagnet includes a ferromagnetic coil core (6). The box is in several parts. The ferromagnetic core of the coil (6) comprises notches (38) within which the winding is seated, and at least one bar (42) which is also placed within the notches. The bar(s) have holes at the ends, and are retained in position by screws (44) which pass through the base of the box to be threaded into the bars. By anchoring the bars within the box, the core of the coil is also held securely in position.

Description

The invention relates to an electromagnetic Stellan driven, especially for a gas exchange valve of a burner Engine, according to the preamble of claim 1, 5 or 7.

Actuators for gas exchange valves of internal combustion engines are known. In contrast to camshaft operated valves are electromagnetically operated valves for opening and Closing depending on the rotational position of the crankshaft controlled. The actuator must be able to ho to apply forces, especially when opening an off let valve, and the respective end position of the gas exchange valve tils when opening and closing must be reached with certainty become.

An electromagnetic actuator according to the generic term of the main claim is known from DE 197 35 375 C2.

Such an actuator has an armature by two oppositely acting springs in a middle position between two electromagnets is held. By energizing one the electromagnet can be the anchor in the respective, the End position assigned to electromagnets attracted and there being held. To move the actuator from an end position convicting the other will energize the holding Coil ended and the other coil energized, causing the on ker under the force of the springs and the on Electromagnet is moved to the other end position. The Anchor as well as the anchor shaft and the gas driven by it shuttle valve and the springs together form an Fe the / mass vibrator.  

Because to tighten or hold the anchor in an end position the force of one of the springs is overcome or compensated must, the electromagnets must be dimensioned accordingly his. For this purpose, it is known to use ferromagnetic coil cores use, in each of which a winding is inserted. Here attention is therefore to be paid to the fastening of the coil former donate, because on this attachment the whole of the respective Electromagnet applied force must be supported.

It is only known from the prior art that according to DE 197 35 375 C2 the two electromagnets in one part gene arranged housing, the individual housing parts un are tense together.

It is therefore an object of the present invention an electro magnetic actuator to create its coil cores are simply and securely attached.

This object is achieved by the ge in claims 1, 5 and 7 characterized invention solved.

According to the invention, each coil core is provided with slots, in which the respective winding is received. In these Slitting is also a bar that is over fastening medium connected to the part of a multi-part housing is where the coil core sits. In this way it is Anchor core anchored in the corresponding housing part. Preferential The bars are wise from below, d. H. from the the anchor opposite side screwed to the housing and are un ter of the winding, which is known for an electromagnet wise does not need to be backed up separately. Lying in the case preferably only the coil cores with windings and the An ker.  

In an alternative embodiment, the coil core has Hin cuts that form-fit into corresponding projections grip the housing.

In one embodiment, the anchor sits on an anchor shaft through a hole in the coil core and through the housing it runs. Bushings are used to guide the anchor shaft of the coil cores fixed in the housing in openings of the Housing held.

Due to the inventive attachment of the coil core a secure and at the same time easy to manage event core of the coil core created.

The invention thus becomes an electromagnetic actuator oil drive created, the coil core avoiding around constant fastening procedure securely with the housing is bound. The proposed attachment makes it possible further, the housing to save material and space, so that the electromagnetic actuator additionally one receives small size.

Advantageous embodiments of the invention are in the Un marked claims.

The invention is described below with reference to the Drawing explained in more detail in exemplary embodiments. The Drawing shows:

Fig. 1 is a section through an electromagnetic actuator,

Fig. 2 is an exploded view of the housing, Spu rods and beams,

Fig. 3 is an illustration of a case is translated TEM coil core and winding inserted,

Fig. 4 is an exploded view of the housing with inserted core and winding,

Fig. 5 is a plan view of a development housing with releasing system and attached plunger prior to insertion of the coil,

Fig. 6 is a sectional view through the housing and the coil bobbin of FIG. 5,

Fig. 7 shows another sectional view through the Ge housing and the coil core of Fig. 5 and

FIGS. 8 and 9 are sectional views of the housing vergosse NEN coil cores.

The electromagnetic actuator of FIG. 1 is the Zylin The head 60 of an internal combustion engine attached to and drives a gas exchange valve. For this purpose, the actuator in a Ge housing a plate-shaped armature 10 , which sits on a shaft 9 , which in turn rests on a valve stem 64 . The armature shaft 9 protrudes into a recess 63 of the cylinder head in which the gas exchange valve is seated, which has a valve plate 62 with a valve seat 61 .

The valve plate 62 is clamped by a spring 68 , which is clamped between egg ner washer 69 , which rests in the recess 63 on the cylinder head 60 , and a valve spring plate 67 attached to the valve stem 64 , up to an end position in which Valve seat 61 closes the gas exchange valve.

The spring 68 also acts on the armature shaft 9 and the armature 10 . Your counteracting is a spring 12 clamped between an armature spring plate 13 attached to the armature shaft and a washer 11 resting on the housing, which presses the armature shaft 9 downward.

The armature 9 is located in the housing, which is constructed from a lower housing part 3 , an upper housing part 1 and a housing middle part 2 , between two electromagnets. The lower electromagnet consists of a lower coil core 6 and a lower winding 8 , the upper electromagnet consists of an upper coil core 5 and an upper winding 7 . The housing parts are screwed together.

The windings 7 , 8 are energized by suitable driver circuits which are controlled by a control circuit.

The end faces of the coil cores are stops for the armature 10 and define its end positions. The springs 12 , 68 hold the armature 10 in the non-energized windings 7 , 8 in a rest position between these end positions, from which it can be deflected by means of electromagnets.

In FIGS. 3 and 4, the lower case 3 are handlebars with the Spu 6 and the winding 8 in greater detail.

FIG. 4 shows an exploded perspective view of the lower housing part 3 with coil core 6 and the winding 8 , and FIG. 3 shows these three components with the winding 8 inserted. The coil core 6 consists of a ferromagnetic Materi al. for example "Vacoflux 17 ". It has with the housing part 3 suitable slots 38 , in which the winding 8 can be used so that their connections 37 protrude from the hous se. Through a hole 45 in the coil core, the kerk runs 9th The pole face 19 is formed by the surfaces 19 a, 19 b and 19 c. The armature 10 bears against this pole face 19 when it is in the corresponding end position.

The upper housing part 1 with the upper coil core 5 and the winding 7 is constructed similarly to the lower housing part 3 and its coil core 6 with the winding 8 .

The attachment of the coil cores 5 , 6 is shown as an example on the lower housing part 3 in FIGS . 2, 5, 6 and 7.

The housing part 3 has an opening into which the coil core 6 can be inserted. This coil core 6 has the described slots 38 . In these slots 38 two bars 42 are inserted, the hen in the illustration of FIG. 2 seen from below with screws 44 screwed to the housing part 3 who the. Fig. 5 shows this structure in plan view from above, in which the beams 42 are clearly visible. Fig. 6 shows a cross-section with a slot 38 located in a bar 42 which is connected with two screws 44 to the housing part 3, whereby the bar 42 secures the spool core 6 in the housing part 3. Fig. 7 shows a longitudinal section in which it is easy to know how the bars 42 are in the slots 38 .

A bushing 4 is provided for guiding the armature shaft 9 on the housing part 3 . This sleeve 4 is secured by the coil core 6 on the housing part 3 . This is shown in FIG. 2, but can be seen particularly well in FIG. 4. The coil core 6 has the hole 45 through which the armature shaft 9 runs. The sleeve 4 is seated, as shown in Fig. 7 is clearly visible in an opening in the housing part 3, the alignment of the spool core 6 is to hole 45. The sleeve 4 has as an enlarged head portion an annular flange which sits in a corresponding recess in the housing part 3 , so that the socket 4 is firmly secured in the opening of the housing part 3 . Of course, instead of a ring flange, a differently shaped head section, for example a conical head section, can also be provided.

The attachment of the coil core 6 by means of the bar 42, it enables simple assembly, since only a few screws are required, which are also inserted from the easily accessible side, ie from below into the housing part 3 and screwed to the bar 42 . Instead of the screws 44 , other fastening elements are of course also possible, for example the bars 42 can be riveted to the housing part 3 or locked. Snap locks are also conceivable.

In an alternative embodiment for fastening the coil cores 5 , 6 in the housing part 1 , 3 , separate fastening means can be dispensed with. This embodiment is shown in Fig. 8 again using the example of the lower housing part 3 is. The coil core 6 has undercuts 40 which are verra with corresponding projections of the housing part 3 . For further fastening, the coil core 6 can also be cast in the housing part 3 by means of a hardening casting compound 46 , so that the housing part 3 and the coil core 6 are firmly connected to one another.

In a modification of this embodiment, both the coil cores 5 , 6 and the housing parts 1 , 3 undercuts on. This is shown in FIG. 9 again using the example of the lower housing part 3 . For fastening, a casting compound 46 is introduced into the cavity formed by the undercuts, which, after hardening, connects the coil core 6 to the housing part 3 .

Claims (10)

1. Electromagnetic actuator, in particular for a gas exchange valve of an internal combustion engine, with an armature ( 10 ) which can be moved axially between two end positions by at least one electromagnet in a housing ( 1 , 3 ), the electromagnet having a ferromagnetic coil core ( 5 , 6 ), characterized in that the housing ( 1 , 3 ) is in several parts and that the ferromagnetic coil core ( 5 , 6 ) has slots ( 38 ) in which a winding ( 7 , 8 ) is received and at least one bar ( 42 ), which lies in the slots ( 38 ) of the coil core ( 5 , 6 ), is connected via fastening means ( 44 ) to the respective housing part ( 1 , 3 ) and thus the coil core ( 5 , 6 ) in the respective Ge housing part ( 1 , 3 ). 2. Electromagnetic actuator according to claim 1, characterized in that the fastening means ( 44 ) anchor the beam ( 42 ) on the armature ( 10 ) facing away from the housing ( 1 , 3 ). 3. Electromagnetic actuator according to one of the preceding claims, characterized in that the winding ( 7 , 8 ) is between the bar ( 42 ) and the armature ( 10 ) be. 4. Electromagnetic actuator according to one of the preceding claims, characterized in that the fastening means ( 44 ) are screws which engage in threads on the bar ( 42 ). 5. Electromagnetic actuator, in particular for a gas exchange valve of an internal combustion engine, with an armature ( 10 ) which can be moved axially between two end positions by at least one electromagnet in a housing ( 1 , 3 ), the electromagnet having a ferromagnetic coil core ( 5 , 6 ), characterized in that the housing is in several parts, each corresponding housing part ( 1 , 3 ) before jumps and each associated coil core ( 5 , 6 ) undercuts ( 40 ), which the coil core ( 5 , 6 ) by form closure in Anchor the assigned housing part ( 1 , 3 ). 6. Electromagnetic actuator according to claim 5, characterized in that one of the coil core ( 5 , 6 ) in the corresponding housing part ( 1 , 3 ) is poured ver. 7. Electromagnetic actuator, in particular for a gas exchange valve of an internal combustion engine with an armature ( 10 ) which can be moved axially between two end positions by at least one electromagnet in a housing ( 1 , 3 ), the electromagnet having a ferromagnetic coil core ( 5 , 6 ) , characterized in that the housing is in several parts, each corresponding housing part ( 1 , 3 ) and each associated coil core ( 5 , 6 ) has undercuts ( 40 ) which together form a cavity in which he hardened casting compound ( 46 ) the coil core ( 5 , 6 ) with the housing part ( 1 , 3 ) connects. 8. Electromagnetic actuator according to one of the preceding claims, characterized in that the armature ( 10 ) is fixed on an armature shaft ( 9 ) which runs through a hole ( 45 ) in the coil core ( 5 , 6 ), and in that a bushing ( 4th ) for the anchor shaft ( 9 ) is aligned with the hole ( 45 ) in an opening of the housing part ( 1 , 3 ). 9. Electromagnetic actuator according to claim 7, characterized in that the bushing ( 4 ) from the coil core ( 5 , 6 ) in the housing part ( 1 , 3 ) is held th. 10. Electromagnetic actuator according to claim 8, characterized in that the bushing ( 4 ) has a head portion which is larger than the opening of the housing part ( 1 , 3 ) and in a suitable recess of the housing part ( 1 , 3 ) and / or of the coil core ( 5 , 6 ) comes to rest.