The present invention relates to an electromagnetic actuating device. A device of this kind is well known from the prior art and is often used to actuate a (switching) valve and, in devices of the type in question, the electromagnetically driven armature unit interacts as an actuating partner with a valve slide or similar constructional unit of a switching valve of this kind in order to exert an actuating force by means of the linear actuating movement.
One specific application which may be assumed to be known for devices of the type in question is adjustment of the camshaft of an internal combustion engine. Here, the actuating device of the type in question, as a pressure valve, is situated in an axial position relative to the engine camshaft. The vertically mounted actuating device makes contact by means of a front end surface of the plunger unit with the valve that effects camshaft adjustment.
Manufacturing tolerances, thermally induced effects or the like dimension-influencing factors can lead to an axial offset between the switching valve (more precisely a valve slide or similar unit thereof), on the one hand, and the plunger of the actuating device, on the other hand, i.e. respective longitudinal axes through these elements are no longer in alignment but are at a distance from one another.
In devices existing in practice, this leads, for instance, to the end face of a valve slide unit which is interacting in an axially offset manner with the plunger unit exerting a radial force on the plunger unit during the movement of said valve slide unit, with the result that there is friction at the transitional surface or surface where the force is introduced, this friction causing unwanted abrasion of the material or even inability of the plunger unit to operate. For this reason, one known practice from the prior art is either to design the plunger unit with a tapering geometry and additionally or, as an alternative, to use hardening measures to make the engagement end of the plunger unit less sensitive to unwanted abrasion of material than a valve slide or similar actuating partner. Nevertheless, it has been found in practice that it is precisely the difficult-to-avoid axial offset described above between the actuating partner and the plunger unit which leads to a considerable reduction in service life.
It is therefore the object of the present invention to improve an electromagnetic actuating device of the type in question especially in respect of damaging frictional or transverse forces acting on a front end surface or engagement surface at the end of the plunger unit owing to interaction between the plunger unit and the actuating partner in a manner which is not aligned or coaxial but is axially offset.
The object is achieved by an electromagnetic actuating device having a plunger unit provided with a cage-like holding portion, into which a running or bearing ball is inserted rotatably in such a way that it can perform a rotary movement in the holding portion in reaction to the frictional or transverse force described above on the ball and in this way significantly reduces any possible friction-related abrasion of the material.
Here, the holding portion is preferably formed in such a way at the end of the plunger unit that, being formed integrally, that is to say from the material of the plunger unit and without an additional component, it acts in such a way that, on the one hand, an interior space (as a receiving chamber for the ball) is delimited or closed off in an effective manner, thus preventing the ball from falling out, while at the same time, however, allowing it to emerge by a predetermined amount from the cage-like holding portion in order to perform its running and bearing action and, on the other hand, that the prerequisites for reliable and free rolling (rolling movement) in a way which absorbs frictional forces in the manner described are provided within the receiving chamber.
For this purpose, it is advantageous to configure an edge portion at the end of the receiving chamber to form a locking portion by appropriate inward flanging or folding (i.e. flanging or folding radially toward the center line), the corresponding wall portion in this embodiment of the invention being produced, with the running or bearing ball inserted, through the appropriate use of a tool for deformation. It is advantageous to set the (radial) extent of flanging, i.e. the reduction in the clear width in the transverse direction (and hence perpendicularly to the linear actuating movement of the plunger unit) to about 0.5% to 5%, relative to the diameter of the ball.
As an alternative and as a further preferred embodiment of the invention, provision is made (once again in an integral embodiment at the engagement end of the plunger unit) to form the end wall of the receiving chamber with an undercut which, once again, delimits a clear width of the receiving chamber (by running radially all the way round or around a section or sections) and in this way prevents the ball from falling out accidentally, thus producing the snap-fitting and/or locking effect according to the invention.
In this way, not only is it possible, reliably and advantageously in the manner described, to construct a receptacle for a running or bearing ball for force transmission to the actuating partner in a manner which reduces friction and stress on the material, but a procedure of this kind is simple in terms of assembly, not least because the running or bearing ball can be inserted into the holding cage simply by snapping or clipping it in.
It is within the scope of preferred developments of the invention to configure the inside width of the holding portion, i.e. a radial width of the receiving chamber for the running or bearing ball, with an oversize or clearance relative to the ball diameter in such a way that, on the one hand, reliable rotation, without jamming, is made possible in the desired manner and that, on the other hand, unwanted transverse movements of the ball are prevented. According to a development, appropriate configuration of the depth of the receiving chamber also ensures that the ball projects axially from the holding portion by 10% to 30%, once again relative to a ball outside diameter, for reliable actuating force transmission to the actuating partner.
While, as described at the outset with reference to the prior art assumed as defining the type in question, the present invention is suitable especially for avoiding an axial offset between the plunger unit and an actuating partner due to manufacturing tolerances or to temperature and a frictional effect caused thereby, the present invention is not limited to this application and is suitable in principle for any application involving the transmission of force exerted by a plunger unit on the engagement side of an actuating partner. The “valve positioning” application is also preferred, as is the adjustment of a camshaft or similar unit on an internal combustion engine, but the area of application and the use of the present invention is not limited thereto.
Further advantages, features and details of the invention will emerge from the following description of preferred illustrative embodiments and with reference to the drawings, in which:
The linear thrust (to the left in the axial direction in the plane of the drawing in
The yoke core unit 22, in turn, is surrounded radially by a coil unit, which is formed by a coil holder 26 carrying a winding 28 in a manner which is in other respects known. Energization of said winding then leads to the electromagnetic field of the winding driving the armature unit 12, 14 and hence the plunger out of the yoke core section 22 to the left in the axial direction in the plane of the figure, exerting a movement-inducing force on the valve slide unit 10 in the process.
As shown in the sectioned view in
In the detail view,
The outcome achieved by means of this measure is that the operating situation shown for instance in
As a variant of the illustrative embodiment shown, it is possible according to the invention to achieve the free running of the ball in the cage-like holding portion at the end that takes place in the context of the invention by means of flanging or folding at the end of the plunger (thus effecting the locking of the ball 36 in the chamber 38), and, here too, the integral approach with its advantages in terms of manufacture is adopted, i.e. no further component is required, which is advantageous (even if this would in principle be possible within the scope of the invention in order to hold the running or bearing ball reliably in the cage-like holding portion in the required manner).
The outcome is that, by means of the present invention, adaptation of electromagnetic actuating devices to interacting actuating partners, especially switching valves or the like, where, owing to manufacturing or temperature-related tolerances, coaxial interaction cannot always be achieved but an axial offset in a direction perpendicular to the actuating direction has to be accommodated, is achieved in a surprisingly simple and elegant manner.
Number | Date | Country | Kind |
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202008013654.7 | Oct 2008 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP09/07158 | 10/6/2009 | WO | 00 | 3/24/2011 |