DE102010041550A1 - Pendulum slide cell pump - Google Patents

Abstract

The invention relates to a pendulum slide cell pump (1), in particular for supplying an internal combustion engine with lubricant, for example oil, with a rotating inner rotor (2) which is connected to an outer rotor (4) via pendulum slide (3). It is essential to the invention that a stator (5) is arranged outside the outer rotor (4), and that the outer rotor (4) and the stator (5) are components of an electrical drive device for driving the pendulum slide cell pump (1). In this way, the delivery rate of the pendulum slide cell pump (1) can be influenced by energizing the drive device and / or by eccentricity of the inner rotor (2).

Description

The present invention relates to a pendulum slide cell pump, in particular for supplying an internal combustion engine with lubricant, for example with oil.

The use of volume-controlled pendulum slide cell pumps in internal combustion engines has long been state of the art, for example, to be able to easily adapt a delivery rate and pressure to the needs of the internal combustion engine. Such adaptation usually takes place via the application of a slide within the pendulum slide cell pump.

From the DE 195 32 703 C1 is a generic Pendelschieberzellenpumpe for supplying an internal combustion engine with lubricant, in particular with oil, known, with an inner rotor and a co-rotating via Pendelmitnehmer, sliding outer rotor. For the rotational drive from the inner rotor on the eccentric sliding outer rotor is always only a pendulum driver with its driving head, Mitnehmerfuß and only one sliding edge in sliding contact. To control a capacity of the outer rotor is moved. The pendulum slide cell pumps known from the prior art are usually driven by means of a drive belt departing from an internal combustion engine so that regulation of the delivery rate of the pendulum slide cell pump does not take place via the drive power but exclusively via a relative displacement of the inner rotor to the outer rotor or vice versa and thus via influencing a size of the Suction or pressure chambers takes place. The disadvantage here is that at a given drive speed, an adjustment of the capacity can only be done in a narrow range.

The present invention addresses the problem of providing for a generic pendulum slide cell pump an improved or at least one alternative embodiment, which is characterized in particular by an improved control of the flow rate.

This problem is solved according to the invention by the subject matter of independent claim 1. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea, in a per se known pendulum slide cell pump, in particular for supplying an internal combustion engine with lubricant, which has a rotating inner rotor and an associated via pendulum slider outer rotor, outside the outer rotor to arrange a stator, which together with the outer rotor forms a part of an electric drive device for driving the pendulum slide cell pump. The outer rotor and the stator are thus equivalent to a rotor and a stator of an electric motor, so that the pendulum slide cell pump according to the invention no longer requires a separate external drive, but is driven by the self-integrated into the pendulum slide cell pump drive device. The integrated drive device offers the great advantage that the pendulum slide cell pump according to the invention can be influenced not only via a relative displacement of the inner rotor to the outer rotor in terms of their capacity, but also directly via the electric drive device in which this example. Is energized more or less strongly. Since the flow rate can be adjusted by the adjustment of the pendulum slide cell pump and different energization of the electric motor, it is possible to operate the pendulum slide cell pump in the range of high efficiency and adjust the flow rate by means of motor energization or to operate the electric motor in the range of high efficiency and the flow rate set by pump. Of course, a combination is possible. The pendulum slide cell pump according to the invention thus has a significantly higher flexibility with regard to the adjustability of the delivery rate than comparable prior art pendulum slide cell pumps, which can be regulated exclusively by means of a relative adjustment of the inner rotor to the outer rotor in terms of their delivery rate. Due to the integrated design of pendulum slide cell pump and electric motor, a very compact design of the entire unit can be realized.

In an advantageous development of the solution according to the invention, the stator is arranged in a control slide and displaceably mounted relative to the inner rotor together with this and the outer rotor, wherein the inner rotor is rotatably mounted or mounted on a stationary axis. In addition to influencing the delivery rate by a variation of the current supply of the electric drive device, in this variant, thus, the delivery rate can be adjusted in addition by a displacement of the spool. As an alternative to displacing the spool, this can of course also be pivotally mounted, so that adjustment of the delivery rate also takes place by pivoting of the spool and thus changing the eccentricity of the inner rotor relative to the outer rotor. In an alternative embodiment, the spool can be arranged stationary together with the stator and the outer rotor, wherein the inner rotor is mounted displaceably relative to the outer rotor. The inner rotor is arranged in this case on a transversely to the axial direction of the same adjustable axis, so that to a Influencing the flow rate of the pendulum slide cell pump only the inner rotor must be adjusted. This can be done, for example, electrically, pneumatically or hydraulically, in particular by means of a hydraulically operating piston-cylinder unit, wherein the axis carrying the inner rotor is oriented orthogonally to the displacement direction of the piston and connected thereto. In all cases, in addition, a spring device may be provided which biases the spool or the inner rotor and that in a position in which the pendulum slide cell pump has its maximum capacity. In this way, a so-called "fail-save principle" can be realized, which ensures that the inner rotor or the control slide and thus the outer rotor are adjusted so that the pendulum slide cell pump their maximum capacity in case of failure of an adjusting the inner rotor or the spool and thereby, for example, ensures a lubricant supply of an internal combustion engine.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, in each case schematically,

1 a sectional view through an inventive Pendelschieberzellenpumpe according to a first embodiment,

2 an exploded view of the pendulum slide cell pump,

3 a representation like in 2 but in a second embodiment,

4 a sectional view through the assembled pendulum slide cell pump according to the 3 .

5 a sectional view as in 1 However, by the pendulum slide cell pump according to the 3 ,

According to the 1 to 5 , Has a pendulum slide cell pump according to the invention 1 , which is formed, for example, to supply an internal combustion engine with lubricant, in particular with oil, a rotating inner rotor 2 on, the over pendulum slider 3 with an outer rotor 4 connected is. Outside the outer rotor 4 is also a stator 5 arranged, together with the outer rotor 4 a component of an electric drive device, ie an electric motor, for driving the pendulum slide cell pump 1 forms. At the outer rotor 4 are beyond that in corresponding recesses permanent magnets 6 arranged at a corresponding energization of the stator, in particular of stator coils 7 the same, the rotational movement of the outer rotor 4 and thus cause the promotion of fluid. The outer rotor 4 preferably has a non-magnetic, a paramagnetic or a diamagnetic material or is formed from such a material. The inner rotor 2 is rotatable on an axis 8th arranged, this axis 8th according to the representations in the 1 and 2 stationary and according to the representations in the 3 to 5 is slidably mounted. The pendulum slide cell pump according to the invention 1 has in comparison to known from the prior art pendulum slide cell pumps on the great advantage that a delivery rate of the same not only by a relative displacement between the inner rotor 2 and the outer rotor 4 can be influenced, but also by energizing the drive device and thus on the drive power. Previously known from the prior art pendulum slide cell pumps were influenced only by a relative displacement of the inner rotor to the outer rotor in terms of their capacity, since they were usually connected via a belt or chain drive with an internal combustion engine and thus have a related to the engine speed, which did not separately, ie independently of the internal combustion engine, was influenced.

Between the outer rotor 4 and the stator coils 7 is a pipe 9 arranged, for example, in one piece with a slidably mounted spool 10 is formed and used to separate a wet pump part of a dry coil part.

Looking at the embodiment of the Pendulum slide cell pump 1 according to the 1 and 2 , so you can tell that the stator 5 additionally in the spool 10 is arranged. The spool 10 can affect the flow rate of the pendulum slide cell pump 1 with the stator 5 and the outer rotor 4 relative to the inner rotor 2 be moved, causing an eccentricity of the inner rotor 2 relative to the outer rotor 4 is changed. In the embodiment of the pendulum slide cell pump 1 according to the 1 and 2 is the inner rotor 2 rotatable on the axis fixed in this case 8th arranged.

In contrast, in the pendulum slide cell pump 1 according to the 3 to 5 the spool 10 through a stationary housing 11 replaced, so the case 11 , the stator 7 and the outer rotor 4 are arranged stationary, whereas the inner rotor 2 relative to the outer rotor 4 is slidably mounted. The displaceable storage takes place via an adjusting device, which is designed in this case as a piston-cylinder unit and a piston 12 (see the 3 and 4 ) having. The piston 12 is in this case by the axis 8th crossed, on which rotates the inner rotor 2 is arranged.

In all variants is also a spring device 13 provided that either the spool 10 or the inner rotor 2 biased to a position in which the pendulum slide cell pump 1 has their maximum capacity. In case of failure of the piston-cylinder unit or other hydraulically, pneumatically or electrically driven actuator causes the spring device 13 thus, that the pendulum slide cell pump 1 promotes maximum and thus reliably ensures in particular a lubrication of an internal combustion engine. The spool 10 according to the embodiment of the pendulum slide cell pump 1 in the 1 and 2 Of course, not only translationally adjustable, but alternatively also pivotable.

With the pendulum slide cell pump according to the invention 1 In any case, it is possible to realize a pump which can be influenced particularly precisely and additionally in a wide range with regard to its delivery rate, which pump has its own drive device and which also has a compact design. The number of stator coils 7 can thereby, depending on the requirements, in particular to a smoothness of the pendulum slide cell pump 1 , be varied. To pressurize the piston 12 and thus to an adjustment of the delivery rate of the pendulum slide cell pump 1 can of course also the same pressure oil, for example. Through a branch channel used. Alternatively, of course, other, in particular pneumatically or electrically operated actuating devices are conceivable. It is also conceivable that the piston 12 not a circular shape, but rather may have any other shape, with more than one piston 12 can be used. Will the piston 12 up or the spool 10 Pressing downwards reduces the eccentricity between the inner rotor 2 and the outer rotor 4 and thereby the flow rate of the pendulum slide cell pump 1 , The spring device 13 always counteracts this reduction. In the embodiment of the pendulum slide cell pump 1 according to the 1 and 2 is the spool 10 in a housing 11 ' mounted translationally adjustable.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19532703 C1 [0003]

Claims (9)

Pendulum slide cell pump ( 1 ) in particular for supplying an internal combustion engine with lubricant, for example with oil, with a rotating inner rotor ( 2 ), which has pendulum slides ( 3 ) with an outer rotor ( 4 ), characterized in that - outside the outer rotor ( 4 ) a stator ( 5 ), - that the outer rotor ( 4 ) and the stator ( 5 ) Components of an electric drive device for driving the pendulum slide cell pump ( 1 ) are. Pendulum slide cell pump according to claim 1, characterized in that on the outer rotor ( 4 ) Permanent magnets ( 6 ) are arranged. Pendulum slide cell pump according to claim 1 or 2, characterized in that the stator ( 5 ) a plurality, preferably seven stator coils ( 7 ), having. Pendulum slide cell pump according to claim 3, characterized in that between the outer rotor ( 4 ) and the stator coils ( 7 ) a pipe ( 9 ) is arranged. Pendulum slide cell pump according to one of claims 1 to 4, characterized in that the stator ( 5 ) in a spool ( 10 ) or in a housing ( 11 ) is arranged. Pendulum slide cell pump according to claim 5, characterized in that the spool ( 10 ) together with the stator ( 5 ) and the outer rotor ( 4 ) relative to the inner rotor ( 2 ) is displaceably mounted, wherein the inner rotor ( 2 ) rotatable on a fixed axis ( 8th ) is stored. Pendulum slide cell pump according to claim 5, characterized in that the stator ( 5 ) and the outer rotor ( 4 ) stationary in the housing ( 11 ) are arranged, wherein the inner rotor ( 2 ) relative to the outer rotor ( 4 ) is slidably mounted. Pendulum slide cell pump according to one of claims 5 to 7, characterized in that the spool ( 10 ) or the inner rotor ( 2 ) by means of a spring device ( 13 ) is biased and adjustable by means of an adjusting device. Pendulum slide cell pump according to claim 8, characterized in that the adjusting device is operated hydraulically, pneumatically or electrically.

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