DE102006054941B3 - electromagnet - Google Patents

Abstract

The invention relates to an electromagnet with a cylindrical hollow magnet body filled with a medium, in which an axially moving lifting armature (2) with an armature piston (3) and an armature rod (4) pointing in the direction of actuation is arranged, wherein the armature rod (4) in an axial bore (7) of the armature piston (3) is fixed and on its the actuating direction facing end face an anti-sticking disc (6), and in the piston (3) at least one pressure compensation opening (5) is formed which produces a pressure equalization in the drive space , adjacent to the two end faces of the anchor piston (3). The invention is characterized in that the anti-stick disc (6) circumferentially radially to the axis directed recesses (8), in which the pressure equalization openings (5) open, said radially as close as possible in the region of the bore (7) of the armature piston (3) are.

Description

The The invention relates to an electromagnet according to the preamble of the claim 1.

State of the art

A generic electromagnet is for example from the DE 199 34 846 A1 known. In the known arrangement, in the field of fluid technology applications, a magnetic body flows through a medium in the form of hydraulic oil, gas, air or brake fluid or is filled with such a medium. An armature moved by magnetic force moves in the medium. The displacement of the armature is part of a hydraulic or pneumatic circuit. The armature consists of an armature piston moved by the magnetic force and an actuating rod extending in the direction of actuation of the electromagnet, which is anchored in an axial bore in the armature piston.

To the Compensation of the displaced during the stroke movement medium are in the anchor piston and provided in the rod compensation holes. The pole is this hollow executed. However, this is on the one hand disadvantageous in the production and the others can realized on the front side of the rod no pinpoint actuation operations become. Most such hollow rods are the only pressure equalization unsatisfactory. There are additional measures required in the anchor piston. The anchor piston points For this purpose, a continuous bearing bore for the rod, the axis-parallel is arranged. At elevated Pressure compensation are further pressure equalization holes in the anchor piston necessary.

At in the direction of a cone of the magnet extending end face of the Anchor piston is an anti-stick disc before seen, which is a sticking of the Anchor piston to the cone after switching off the exciter current prevented in the coil due to the remanence induction. The Antiklebeeibe exists Made of a sturdy, non-magnetic material, it has a radial circumference to the axis directed recesses and is directed as radially outward Sheet metal material of the anchor rod executed. As a result, its peripheral surface in this area radial openings on.

Of the Pressure equalization between the two end faces of the anchor piston takes place inside the continuous bearing bore of the anchor piston and through the part inside the hollow anchor rod, which is axially, in the direction of actuation seen, up to the radial openings extends in the range of Antiklebeeibe.

DE 42 17 871 A1 shows an electromagnet with axis-parallel pressure equalization holes in the anchor piston and a circular anti-sling disc, which is attached to the direction of the actuating side directed end wall of the armature piston. The compensation holes are, however, arranged because of the circular anti-stick disc at the edge region of the piston. Thus, the area effective for the magnetic force surface of the armature piston is reduced, resulting in a weakening of the magnetic force. Especially in the outer region of the armature piston, the magnetic field or force lines are concentrated. The aim is therefore to carry out this area of the piston as a solid material.

DE 197 16 517 B4 shows a hollow anchor rod of an electromagnet, which is mounted in a continuous axial bore of the armature piston. For the projecting out of the piston area of the rod, a pressure compensation in the form of a profiling is provided for pressure equalization. The anchor piston itself has no pressure compensation measures. The resulting from the rod profiling recesses in the piston area are filled with plastic filling material. The resulting during ejection of the recesses axial ribs are used together with the recesses as rotation and additional anchoring of the rod in the piston.

Object of the invention

The Invention has the task of an electromagnet of the aforementioned Type with an improved pressure balance in the armature space of the magnet to accomplish. The object is achieved by the characterizing Characteristics of claim 1 solved.

With invention provides a magnet concept for an electromagnet, the defined pressure equalization cross-sections without, however To significantly reduce the magnetic force by the material removal. There is an increase the magnetic force at constant bleed or equalization bore cross sections, there the outdoor area of the anchor piston is designed as a solid material.

On a pressure relief inside the pole can be dispensed with. An inner bore of the anchor rod can be omitted, thereby reducing manufacturing costs. In this way, the end face of the rod arranged in the direction of actuation can also be precisely controlled, for example by a valve slide of a valve, which is in operative connection with the rod. Due to the circumferential recesses of Antiklebescheibe these holes can now be laid close to the area of the magnetic axis. The axis-axial distance is limited only by the anchor rod diameter. In an embodiment of the invention described in detail below For example, the pressure compensation openings may be arranged directly in the anchor rod bore of the piston.

In an advantageous embodiment The anti-stick disc can be carried out as part of the anchor rod. This is an orientation with the anchor piston during production the complete lifting armature (anchor piston + anchor rod) ensures they form a component directly into the axial bore of the armature piston added can be.

In a further advantageous embodiment of the invention is provided that the pressure equalization holes are designed as axis-parallel and through holes. By this arrangement, the displacing fluid becomes uniform to both Piston end faces displaced.

In a further development of the invention is proposed, the axial Bore, in which the anchor rod is connected to the piston, not only as blind hole, but as a continuous axial bore in To perform piston. If this hole above also has a diameter which is much larger as the rod diameter, the space between the piston bore and the rod diameter for be used to equalize the pressure, thus without additional Magnetic losses carried out can be. For the Storage of the anchor rod in such an enlarged bore diameter of the piston can Installed at an axial distance radially extending holding elements become.

There in the invention, the anti-adhesive disc has recesses and executed as part of the anchor rod is, it is advantageous if the rod has recesses, wherein the recesses of the Antiklebeeibe and the recesses the anchor rod are congruent. The pressure equalization in the magnetic space is thus replaced by a polygonal profile in the bearing area of the anchor rod executed. The Recesses of the anchor rod can over the entire axial length extend the rod. But it is sufficient if the polygon profile includes only the part of the rod that is stored in the piston.

The axial bore in the armature piston with the function of pressure compensation can in a first execution on the whole length of the piston have the same diameter. Alternatively, though also an execution in the form of a stepped axial bore, in the area of rod storage forms a cavity of increased diameter in the piston. The anchor rod is only stored in this cavity. Between the Diameter of the rod and that of the cavity is a gap provided for pressure equalization. The remaining area of the hole up to the rear end of the piston has a smaller diameter on as the cavity.

Of the Pressure equalization between the two end faces of the anchor piston thus takes place from the rear end side over this small diameter range, along the Interspace between the rod diameter (circular or polygon) up to the recesses of the anti-stick disc on the other Front side of the piston.

The Close connection of anchor rod and anti-adhesive can generally be realized in that the Antiklebeeibe in press fit is arranged on the circumference of the anchor rod and the component also is fixed in the bore of the anchor piston in the press fit. The Antiklebescheibe is designed as a flange with a radially extending shoulder part whose diameter is larger than that of the rod in this area, and one in the axial direction extending area. The entire rod with the radially itself extending anti-adhesive can alternatively also from one piece through forming manufacturing processes are produced.

Further advantageous embodiments will be apparent from the dependent claims and the embodiments described in the drawing.

embodiment

1 to 3 show in different representations a first embodiment of the invention.

4 to 7 shows a second embodiment of the invention.

8th to 10 show a third embodiment of the invention.

1 shows a perspective view of an electromagnet 1 in the design of a cylindrical lifting magnet. In the magnetic part of the electromagnet coaxial with a lifting armature 2 arranged, which has a cylindrical anchor piston 3 with an anchor rod projecting in an axial direction of actuation 4 includes. For fastening the anchor rod 4 points the piston 3 , like out 3 apparent, a continuous anchor hole 7 on.

The remaining components of the magnetic part such as the cone, the yoke and flow-guiding housing are coaxial with the lifting armature 2 arranged. Their arrangement is familiar to the expert, so that dispenses with an illustration of these parts. The following explanations therefore relate exclusively to the description of the lifting armature 2 ,

The electromagnet 1 For example, it is used to control a hydraulically controlled valve or is even part of it. An actuating element of the valve, for example a valve longitudinal slide, is located above the anchor rod 4 in operative connection with the stroke of the anchor piston 3 ,

The magnetic part of the electromagnet 1 is completely filled with the hydraulic medium as a result of the hydraulic valve control. Due to a pressure compensation during the movement of the lifting armature 2 are therefore axial pressure equalization holes 5 in the anchor piston 3 provided in the execution of 1 to 3 As a separate, continuous holes are executed, which is as close as possible hen achsparalellen distance to the central anchor hole 7 are arranged.

So that the anchor piston 3 not in a lifting movement in the direction of actuation at an opposite end wall of the cone of the magnet 1 adheres, is at the anchor end wall an anti-adhesive 6 intended. This points in the region of the mouth of the pressure equalization openings 5 circumferentially distributed recesses 8th on how this particular out 2 is apparent. By this arrangement, the axis-parallel compensation openings 5 compared to conventional openings very close to the central anchorage hole 7 to be ordered. The course of the magnetic flux in the piston 3 , And thus the force effect, thereby runs more homogeneous and produces a greater force on the piston 3 because the flow path penetrates almost only full piston material.

The anchor rod 4 points in the execution of 1 to 3 a circular cross-section, as in particular 3 is apparent. The interior of the pole 4 is made of solid material and is not processed. Inner longitudinal and / or transverse bores are no longer required, but can be provided as additional pressure equalization openings readily.

The pole 4 has a bearing point at its projecting longitudinal area 9 which is executed on the rod circumference as a polygonal profile. The exclusive rod storage makes an additional bearing point of the anchor piston 3 no longer necessary in the magnetic part.

For manufacturing reasons, the anti-adhesive is 6 as part of the anchor rod 4 executed. The radially protruding from the rod part, the anti-slug 6 with the recesses 8th includes, is a rotating part with a surface profile produced according to the requirements.

For the others Description of the figures will be functioning components with the same Provided with reference numerals.

The 4 to 8th show an embodiment of the invention, in which the pressure equalization openings 5 in the central anchorage hole 7 the piston are integrated and no additional pressure equalization holes are required. 4 shows a perspective view of the electromagnet 1 . 5 shows a cross-sectional view at the level of the front end wall of the piston 3 and 7 shows the corresponding longitudinal cross-sectional view of the lifting armature 2 ,

6 shows the for the execution of 4 . 5 and 7 used rod. The 9 and the associated longitudinal cross section in 10 shows a variant of the rod 4 in the anchor piston 3 according to 8th is set.

In both embodiments, it is necessary to anchor the bore 7 so enlarge that between the diameter of the anchor rod 4 and the hole 7 an axially extending gap 10 is present, extending over the entire length of the piston 3 extends and is used as pressure equalization for the two end faces of the piston. The anchor rod 4 contrary to the remarks of the 1 to 3 a polygonal cross section, which in the representation of 6 extends over the entire axial length. The polygonal recesses 11 make up in anchor hole 7 the gap 10 for pressure equalization. The radial tips of the polygon cross-section of the rod 4 form retaining elements on the inner wall of the anchor hole 7 ,

The Hubankerdarstellung the 8th shows a stepped bore with an enlarged diameter range in the rod storage area in the piston 3 , The associated anchor rod 4 is in perspective in 9 shown. The associated longitudinal cross section shows 10 , The latter illustration shows an embodiment without patch or wound anti-slit disc 6 , which by the way does not differ from the version with the additional pressure compensating 1 to 3 ) is different.

The rod shape has a circular cross-section in its protruding region, as in particular 9 is apparent. In this area is the depository 9 for the entire anchor 2 intended. The storage area of the pole 4 in the piston 3 (please refer 8th ), however, has a polygonal cross section with corresponding recesses 11 and brackets for the offset area of the anchor piston bore 7 ,

1

electromagnet

2

lifting armature

3

anchor pistons

4

anchor rod

5

Pressure relief openings

6

anti-adhesion disc

7

anchor hole

8th

recess

9

depository

10

gap

11

recess

Claims (13)

Electromagnet with a cylindrical hollow and filled with a medium magnetic body in which an axially moving lifting armature ( 2 ) with an anchor piston ( 3 ) and a pointing in the direction of actuation anchor rod ( 4 ) is arranged, - wherein the anchor rod ( 4 ) in an axial bore ( 7 ) of the anchor piston ( 3 ) is attached and at its the actuating direction facing end face an anti-adhesive ( 6 ), the circumferentially directed radially to the axis recesses ( 8th ), in which pressure compensation openings ( 5 ), which produces a pressure equalization in the drive space, adjacent to the two end faces of the armature piston ( 3 ), characterized in that the pressure compensation openings ( 5 ) within the piston ( 3 ) and there radially as close as possible in the region of the bore ( 7 ) of the anchor piston ( 3 ) are arranged and between the recesses ( 8th ) of the anti-slug ( 6 ), the anchor rod ( 4 ) itself comprises a non-hollow material filled cylinder. Electromagnet according to claim 1, characterized in that the anti-adhesive disc ( 6 ) as part of the anchor rod ( 4 ) is executed. Electromagnet according to claim 1 or 2, characterized in that the pressure equalization opening ( 5 ) are executed parallel to the axis as through holes. Electromagnet according to claim 1 to 3, characterized in that the axial bore ( 7 ) in the anchor piston ( 3 ) is designed as a through hole. Electromagnet according to one or more of claims 1 to 4, characterized in that the pressure compensation openings ( 5 ) in an enlarged axial bore ( 7 ) of the anchor piston ( 3 ) are arranged. Electromagnet according to one or more of claims 1 to 5, characterized in that the anchor rod ( 4 ) radially extending and arranged on the axial length holding elements, which in the bore wall of the anchor hole ( 7 ) are anchored. Electromagnet according to one or more of claims 1 to 6, characterized in that the axial bore ( 7 ) one over the entire length of the anchor piston ( 3 ) has extending same diameter. Electromagnet according to one or more of claims 1 to 7, characterized in that the axial bore ( 7 ) is executed as a stepped bore and the anchor rod ( 4 ) is stored only in the enlarged, stepped part. Electromagnet according to one or more of claims 1 to 8, characterized in that the anchor rod ( 4 ) on their entire axial length recesses ( 11 ) having. Electromagnet according to claim 9, characterized in that the recesses ( 8th ) of the anti-slug ( 6 ) and the recesses ( 11 ) of the anchor rod ( 4 ) are congruent. Electromagnet according to one or more of claims 1 to 10, characterized in that the recesses ( 8th ) of the anchor rod ( 4 ) and the recesses of the anti-slug ( 6 ) a polygonal profile or axial flattening of the rod 4 include. Electromagnet according to one or more of claims 1 to 11, characterized in that the anti-adhesive disc ( 6 ) in an interference fit on the circumference of the anchor rod ( 4 ) is arranged and the component also in the press fit in the bore of the anchor piston ( 3 ) is attached. Electromagnet according to one or more of claims 1 to 12, characterized in that the anti-adhesive disc ( 6 ) is configured as a flange with a radially extending shoulder portion whose diameter is greater than the rod diameter in this area, and an axially extending portion of the flange.