DE102011077096A1 - Reciprocating vacuum pump - Google Patents

Abstract

The invention relates to a pendulum slide 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 a pendulum (3). It is essential to the invention that the pendulums (3) are articulated on the inner rotor (2) and are guided radially in the outer rotor (4) and that the pendulum slide pump (1) is driven by an electric motor via the outer rotor (4). This enables a completely new and promising pump concept to be created.

Description

The present invention relates to a pendulum slide pump with a rotating inner rotor, which is connected by pendulum with an outer rotor, according to the preamble of claim 1.

The use of volume-controlled pendulum slide pumps in internal combustion engines has long been state of the art, for example, to easily adjust a flow rate and pressure to the needs of the internal combustion engine can. Such adaptation usually takes place via the application of a slide within the pendulum slide pump with a oil pressure originating from a main oil gallery of the internal combustion engine.

From the DE 195 32 703 C1 is a generic pendulum slide pump for supplying an internal combustion engine with lubricant, in particular with oil, known, with an inner rotor and a pendulum co-rotating, displaceable outer rotor. For the rotational drive from the inner rotor to the eccentric sliding outer rotor is always only a pendulum with its driver head, Mitnehmerfuß and only one sliding edge in sliding contact. To control a capacity of the outer rotor is moved.

Further pendulum slide pumps are for example from the DE 36 30 515 A1 and from the DE 36 24 532 A1 known.

The present invention is concerned with the problem of providing an improved or at least one alternative embodiment for a pendulum vane pump of the generic type, which is characterized in particular by a different drive concept.

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 to maintain the per se known working principle of a pendulum slide pump, but at the same time reverse the storage of individual pendulum by the pendulum no longer articulated on the outer rotor but rather hinged to the inner rotor and radially in the outer rotor in a pendulum slide pump according to the invention associated pendulum guides are guided. In addition, the pendulum slide pump is no longer mechanically, for example by means of a belt or chain drive to be driven, but by an electric motor via the outer rotor. For this purpose, magnets, in particular permanent magnets, are arranged in the outer rotor in corresponding recesses, whereas outside the outer rotor a stator with electromagnets is arranged. The magnets and the electromagnets form the components of the electromotive drive for driving the pendulum slide pump. The outer rotor can be formed as part, in which at the same time the recesses for receiving the magnets are formed with. As a result, a compact, cost-effective and independent of an external power source drive the pendulum slide pump is possible. The pendulum slide pump according to the invention is used for example for supplying an internal combustion engine with lubricant, in particular for supplying oil, and has a rotating inner rotor, which is connected via said pendulum with the outer rotor. In contrast to previously known from the prior art pendulum slide pumps, in which the pendulum articulated mounted on the outer rotor and guided radially in the inner rotor, the inner rotor can be made significantly smaller in the pendulum slide pump according to the invention and thereby build significantly compact, creating a not inconsiderable package advantage arises. The operating principle of the pendulum slide pump according to the invention does not differ from the previously known pendulum slide pumps. The great advantages of the pendulum slide pump according to the invention are in particular the elimination of the high material and space requirements on the inner rotor and a reduction in the complexity of the outer rotor, since a pendulum head wrap of more than 180 ° is now arranged on the inner rotor. Due to the completely different embodiment of the outer rotor, it is additionally possible to produce these from completely different materials and also by other manufacturing methods, for example, this can be a simple sheet metal part or stamped part or sintered part or casting used with corresponding recesses for magnets. The inner rotor can also be manufactured by the enumerated methods. This also applies to the pendulum slides.

In a further advantageous embodiment of the solution according to the invention, the pendulum slide, the inner rotor and the outer rotor form chambers of a first pressure stage, whereas the pendulum and the outer rotor form chambers of a second pressure stage of the pendulum slide pump. The first pressure stage can be designed as a low-pressure stage, whereas the second pressure stage can serve as a high-pressure stage. With the provision or generation of at least two different pressure levels different applications can be operated with one and the same pendulum slide pump, so for example, the compressed pumping medium can be used in the high-pressure stage for switching a transmission, whereas the low pressure stage is used only for cooling / lubrication.

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 a pendulum slide pump according to the invention in a first embodiment,

2 a representation like in 1 but in a second embodiment.

According to the 1 and 2 , Has a pendulum slide pump according to the invention 1 a rotating inner rotor 2 up, over the pendulum 3 with an outer rotor 4 communicates. According to the invention are now the pendulum 3 articulated on the inner rotor 2 stored and in the radial direction in the outer rotor 4 guided. The pendulum 3 consists of a pendulum head 6 and a pendulum foot 14 the pendulum head 6 on the inner rotor 2 is rotatably mounted and the pendulum foot 14 in the shuttle guide 5 on the outer rotor 4 movable, especially radially displaceable, is stored. The pendulum 3 are symmetrical here exemplified.

The pendulum vane pump 1 For example, can be used to supply an internal combustion engine, not shown, with lubricant, preferably lubricating oil. Alternatively, it can also be used for other liquids to be conveyed, for example for refrigerant, coolant, water. The application is not limited to mobile or stationary motors of all kinds and their fluid circuits

An outer slider 15 can be used to adjust the eccentricity of the outer rotor 4 in comparison to the inner rotor 2 be used. The outer rotor 4 is rotatable in the outer slider 15 stored. The inner rotor 2 is (rotatable) on a shaft 16 stored, provided a drive via the outer rotor 4 he follows. Alternatively, the adjustment of the eccentricity by a displacement of the inner rotor 2 by means of the shaft 16 be achieved. In the case of the pendulum vane pump shown here 1 this is preferable. Since here the inner rotor 2 can be adjusted more easily in its position.

In the pendulum slide pump according to the invention 1 can the inner rotor 2 due to the attributed radial guides significantly more compact and easier to build. The radial guidance of the pendulum 3 provided pendulum guides 5 are in the outer rotor 4 provided, whereby this has a greater radial extent than previously known external rotors 4 , Nevertheless outweighs by the clearly compact inner rotor built 2 achieved space advantage, which allows in particular a higher flow rate. In the version shown here is the pendulum slide pump 1 not externally via a drive shaft, but driven internally by an electric motor, it forms part of the electric motor, so to speak, or vice versa, the electric motor drive is part of the pendulum slide pump 1 , Therefore, the pendulum slider pump 1 electromotive via the outer rotor 4 driven, what in the outer rotor 4 in corresponding recesses 10 magnets 11 and outside the outer rotor 4 a stator 12 with electromagnet 13 , For example, coils are arranged. The magnets 11 and the electromagnets 13 form a part of the electromotive drive to drive the pendulum slide pump 1 , The pendulum slide pump according to the invention 1 is independent of a recent mechanical drive, for example via a chain or belt drive by this electric motor drive. In this case, the inner rotor 2 rotatable on the shaft 16 stored and an external drive dispensable. Of course, an external drive of the pendulum slide pump 1 also about the wave 16 take place, in which case the inner rotor 2 rotatably with the shaft 16 connected is.

The letters S and N shown in the figures stand symbolically for to be attached to this position permanent magnets, which of course always have a north and a south pole. It is intended only to illustrate their preferably alternating arrangement.

Generally, in the pendulum slide pump according to the invention 1 the outer rotor 4 be designed as a cost sheet metal part, since the previously arranged there pendulum head shots for storage of a pendulum head 6 the single pendulum 3 now no longer necessary. In the circumferential direction between the individual pendulum guides 5 can also magnets 11 in corresponding recesses 10 be provided, whereby the electric drive of the outer rotor 4 is possible. Looking at the 1 and 2 so you can recognize that the pendulum slider pump shown 1 any, preferably even number of pendulum slides 3 having. According to the 2 is a pendulum vane pump 1 shown at which each pendulum 3 additionally articulated with an associated piston 7 connected in radial pendulum guides 5 in the outer rotor 4 is guided. Such a piston 7 is in the figurative sense of the pendulum slide pump 1 according to the 1 integral with the pendulum 3 educated.

The pendulum slide pump according to the invention 1 can also be used to generate two different pressure levels, for which the pendulum 3 , the inner rotor 2 and the outer rotor 4 chambers 8th a first compression and the pendulum 3 and the outer rotor 4 chamber 9 form a second pressure level. The first pressure stage can be designed, for example, as a low-pressure stage, whereas the second pressure stage is used as a high-pressure stage. As a result, the chambers prevail 9 another, especially a higher pressure level, than in the chambers 8th , Of course, the low-pressure stage can also be connected in series with the high-pressure stage, for example in the sense of a preliminary stage. For controlling the delivery rate of the pendulum slide pump according to the invention 1 can the inner rotor 2 and the outer rotor 4 in a not shown, adjustable slide 15 be absorbed by an adjustment of an eccentricity of the inner rotor 2 relative to the outer rotor 4 changes and thereby regulates the delivery rate.

In the pendulum slide pump according to the invention 1 is in particular the use of other materials / manufacturing methods for the outer rotor 4 representable, so that this example, as a cost sheet metal part, stamped part, sintered part or casting with corresponding recesses 10 for magnets 11 , can be made. By providing the radial pendulum guides 5 in the outer rotor 4 eliminates the previously required there pendulum head shots, whereby the complexity of the outer rotor 4 can be significantly reduced. The pendulum head recordings can in the pendulum slide pump according to the invention 1 cost by an example designed as a sintered inner rotor 2 to be provided.

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]
• DE 3630515 A1 [0004]
• DE 3624532 A1 [0004]

Claims (10)

Pendulum slider pump ( 1 ) with a rotating inner rotor ( 2 ), which has pendulum ( 3 ) with an outer rotor ( 4 ), characterized in that - the pendulum ( 3 ) hinged to the inner rotor ( 2 ) and radially in the outer rotor ( 4 ), - that the pendulum slide pump ( 1 ) electromotive via the outer rotor ( 4 ) is driven. Pendulum slide pump according to claim 1, characterized in that - in the outer rotor ( 4 ) in corresponding recesses ( 10 ) Magnets ( 11 ) are arranged, - that outside the outer rotor ( 4 ) a stator ( 12 ) with electromagnets ( 13 ), that the magnets ( 11 ) and the electromagnets ( 13 ) Component of the electromotive drive for driving the pendulum slide pump ( 1 ) are. Pendulum vane pump according to claim 1 or 2, characterized in that each pendulum ( 3 ) hingedly with an associated piston ( 7 ) connected in radial pendulum guides ( 5 ) in the outer rotor ( 4 ) is guided. Pendulum slider pump according to one of claims 1 to 3, characterized in that the pendulum ( 3 ), the inner rotor ( 2 ) and the outer rotor ( 4 ) Chambers ( 8th ) of a first pressure stage and the pendulum ( 3 ) and the outer rotor ( 4 ) Chambers ( 9 ) a second pressure stage of the pendulum slide pump ( 1 ) form. Pendulum vane pump according to claim 4, characterized in that the first pressure stage is designed as a low pressure stage and the second pressure stage as a high pressure stage. Pendulum slide pump according to claim 4 or 5, characterized in that the low pressure stage is connected in series to the high pressure stage. Pendulum slider pump according to one of claims 1 to 6, characterized in that the inner rotor ( 2 ) and the outer rotor ( 4 ) in an adjustable slide ( 15 ), via which a delivery rate of the pendulum slide pump ( 1 ) is controllable. Pendulum vane pump according to one of claims 4 to 7, characterized in that in the first and second chambers ( 8th . 9 ) Different or equal pumping media are provided. Pendulum slider pump according to one of claims 1 to 8, characterized in that the outer rotor ( 4 ) is formed as a sheet metal part. Use of a pendulum vane pump ( 1 ) according to one of claims 1 to 9 in a motor vehicle with an internal combustion engine or a hybrid drive or an electric drive.

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