JP2012255438A - Pendulum-slider pump - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an improved or at least alternative pendulum-slider pump which is characterized by a drive concept different from that of a general-type pendulum-slider pump.SOLUTION: A pendulum-slider pump (1), for example, for supplying oil to an internal combustion engine, includes a rotatably provided inside rotor (2) which is connected to an outside rotor (4) via pendulums (3). The pendulum (3) is attached in an articulated manner to the inside rotor (2) and guided in a radial direction in the outside rotor (4); the pendulum-slider pump (1) is electrically driven by the outside rotor (4); magnets (11) are disposed in a proper recess (10) in the outside rotor (4); and a stator (12) having electromagnets (13) is disposed outside the outside rotor (4). The magnets (11) and the electromagnets (13) are components of an electric driving machine for driving the pendulum-slider pump (1). Thus, an entirely-novel and promising pump concept can be created.

Description

  The present invention relates to a pendulum-slider pump according to the preamble of claim 1, comprising a rotatable inner rotor connected to the outer rotor by a pendulum.

  It is a previously known technique to use a capacity-adjusting pendulum slider pump for an internal combustion engine so that, for example, the delivery rate and pressure can be easily adapted to the requirements of the internal combustion engine. Such adaptation is most often caused by pressurizing the slider inside the pendulum slider pump using hydraulic pressure from the main oil gallery of the internal combustion engine.

  A common pendulum slider pump for supplying lubricating oil (especially oil) to an internal combustion engine is known from US Pat. An outer rotor. In this pump, only one pendulum always slides with the outer rotor driver head, driver base and only one sliding flank in order to drive the outer rotor, which can be displaced eccentrically with respect to the inner rotor. Touch and move the outer rotor to control the delivery rate.

  Further pendulum slider pumps are known, for example, from US Pat.

German Patent Publication DE195532703C1 German Patent Publication DE 3630515 A1 German Patent Publication DE 3624532 A1

  The present invention is concerned with the problem of providing an improved or at least alternative pendulum slider pump characterized by a different drive concept than a general type of pendulum slider pump.

  According to the invention, the above problem is solved by the subject matter of independent claim 1. Advantageous embodiments are the subject matter of the dependent claims.

  The present invention is based on the general concept of maintaining the operating principle known per se of a pendulum slider pump, but in the case of a pendulum slider pump according to the present invention, the pendulum is no longer articulated on the outer rotor. Rather, the arrangement of the individual pendulums is reversed at the same time in that they are articulated to the inner rotor and guided in the radial direction of the outer rotor in the corresponding pendulum guide. It is also based on the concept. In addition, the pendulum slider pump is no longer mechanically driven, for example by a chain drive or a belt drive, but rather by an outer rotor. For this purpose, in the outer rotor, magnets (particularly permanent magnets) are arranged in appropriate recesses, while on the outer side of the outer rotor, stators having electromagnets are arranged. The magnet and electromagnet form a component of an electric drive for driving the pendulum slider pump. At the same time, the outer rotor can be configured as a part where a recess for housing the magnet is molded. This enables a pendulum slider pump drive that is compact in design, cost effective and independent of external force sources.

  The pendulum slider pump according to the present invention is useful for supplying lubricating oil, for example, to an internal combustion engine, and is particularly useful for supplying oil, and is connected to an outer rotor by the pendulum, and is provided rotatably inside. It has a rotor. The pendulum slider type according to the invention is in contrast to the pendulum slider type pumps already known in the prior art, wherein the pendulum is articulated on the outer rotor and guided radially in the inner rotor. The inner rotor of the pump can be made much smaller and therefore can be designed to be much more compact, thereby providing packaging advantages that should not be underestimated. The operating principle of the pendulum slider pump according to the present invention is not different from the known pendulum slider pump. The great advantages of the pendulum slider pump according to the invention are in particular the high demands on the material and the elimination of installation space in the inner rotor, and the reduction of the complexity of the outer rotor. This is because the pendulum wrapping material exceeding 180 ° C. is currently disposed on the inner rotor. In addition, due to the completely different structure of the outer rotor, it is possible to manufacture the same outer rotor from completely different materials and by different manufacturing methods. For example, a simply formed sheet metal part or stamped or sintered part or cast with suitable recesses for the magnet can be used. Similarly, the inner rotor can be manufactured by the method described above. This is also true for the pendulum slider.

  In a further advantageous embodiment of the solution according to the invention, the pendulum slider, the inner rotor and the outer rotor form a chamber of the first pressure stage, while the pendulum and the outer rotor are the second pressure stage of the pendulum slider pump. Forming a chamber. The first pressure stage can be configured as a low pressure stage, while the second pressure stage can serve as a high pressure stage. By applying or generating at least two different pressure levels, for example, the compressed pump medium can be used for gear switching in the high pressure stage, while the low pressure stage is used only for cooling and / or lubrication. In addition, various uses can be performed using the same pendulum slider pump.

  Further important features and advantages of the invention can be found in the subclaims, the drawings and the associated description of the forms based on the drawings.

  It will be understood that the features described above and the following features that have not yet been described can be used not only in the individually mentioned combinations, but also in other combinations or in isolation, without departing from the context of the invention. It will be.

  Preferred representative embodiments of the present invention are illustrated in the drawings using the same reference numerals representing the same, similar or functionally identical components, and are described in further detail in the following description. Explained.

  In accordance with the present invention, an improved or at least alternative pendulum slider pump can be provided that is characterized by a different drive concept than a common type of pendulum slider pump.

It is a schematic sectional drawing of the pendulum slider type | mold pump which concerns on this invention in 1st Embodiment. Apart from being the second embodiment, it is similar to FIG.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  As shown in FIGS. 1 and 2, a pendulum slider pump 1 according to the present invention includes an inner rotor 2 that is connected to an outer rotor 4 by a pendulum 3 and is rotatably provided. According to the invention, the pendulum 3 is articulated on the inner rotor 2 and is guided radially in the outer rotor 4. The pendulum 3 includes a pendulum head 6 and a pendulum base 14. The pendulum head 6 is rotatably attached to the inner rotor 2, and the pendulum base 14 is movable (particularly, radially displaceable). It is attached to the pendulum guide 5 of the outer rotor 4. Here, the pendulum 3 is formed in a typical symmetry.

  The pendulum slider pump 1 can be used, for example, to supply a lubricant (preferably lubricating oil) to an internal combustion engine (not shown). Alternatively, the pendulum slider pump 1 can also be used to supply other liquids such as coolant, refrigerant and water. The use of the pendulum slider pump 1 is not limited to any kind of automotive or stationary engine and their fluid circulation system.

  The outer slider 15 can be used to adjust the eccentricity of the outer rotor 4 with respect to the inner rotor 2. The outer rotor 4 is rotatably attached to the outer slider 15. When driving by the outer rotor 4 is executed, the inner rotor 2 is attached to the shaft 16 (rotatably). Alternatively, adjustment of the eccentricity can also be achieved by moving the inner rotor 2 by the shaft 16. In the case of the pendulum slider type pump 1 shown here, it is easy to adjust the inner rotor 2 to that position. Therefore, it is preferable that adjustment of the eccentricity can also be achieved by moving the inner rotor 2.

  In the case of the pendulum slider pump 1 according to the present invention, the inner rotor 2 can be designed significantly more compactly and more easily by eliminating the radial guide. Since the pendulum guide 5 provided for guiding the pendulum 3 in the radial direction is provided in the outer rotor 4, the outer rotor 4 according to the present invention extends in the radial direction longer than the known outer rotor 4. However, the advantages with respect to the installation space, which is achieved by the significantly compact design of the inner rotor 2, in particular allowing even higher delivery rates, still dominate the disadvantage that the outer rotor 4 extends in the radial direction. In the version shown here, the pendulum slider pump 1 is not driven by a drive shaft but is driven internally by an electric motor. The pump apparently forms part of the electric motor, or conversely, the electric motor forms part of the pendulum slider pump 1. Therefore, since the pendulum slider pump 1 is electrically driven by the outer rotor 4, the magnet 11 is disposed in an appropriate recess 10 of the outer rotor 4, and an electromagnet 13 (for example, a stator 12 having a coil). Is disposed outside the outer rotor 4. The magnet 11 and the electromagnet 13 constitute components of an electric drive for driving the pendulum slider pump 1. By this electric drive machine, the pendulum slider pump 1 according to the present invention is independent of the conventional mechanical drive, for example, by chain drive or belt drive. In this case, the inner rotor 2 is rotatably attached to the shaft 16 and no external drive is required. Of course, external driving of the pendulum slider pump 1 can also be performed by the shaft 16, and in this case, the inner rotor 2 is connected to the shaft 16 so as to be rotatably fixed.

  The letters S and N shown in the figure represent permanent magnets as symbols which are arranged in this position and of course always have N and S poles respectively. This only illustrates their preferred alternating arrangement.

  In the case of the pendulum slider type pump 1 according to the present invention, the pendulum head receiver that has been provided in the outer rotor 4 so far for attaching the pendulum head 6 of each pendulum 3 is no longer necessary. Usually, it can be configured as a cost-effective sheet metal part. Furthermore, between the individual pendulum guides 5 in the circumferential direction, a magnet 11 can be provided in a suitable recess 10, whereby the outer rotor 4 can be electrically driven. 1 and 2, it can be seen that the pendulum slider pump 1 shown in each case has an arbitrary number (preferably even number) of plural pendulum sliders 3. FIG. 2 shows a pendulum slider pump 1 in which each pendulum 3 is further articulated to a corresponding piston 7 guided in a radial pendulum guide 5 in the outer rotor 4. In the pendulum slider pump 1 according to FIG. 1, the piston 7 is formed integrally with the pendulum 3 in a metaphorical manner.

  To generate two different pressure levels, the pendulum 3, the inner rotor 2 and the outer rotor 4 form a first pressure stage chamber 8 and the pendulum 3 and the outer rotor 4 form a second pressure stage chamber 9 In addition, the pendulum slider pump 1 according to the present invention can be used. The first pressure stage can be configured, for example, as a low pressure stage, while the second pressure stage is used as a high pressure stage. Therefore, the pressure levels in the chamber 8 and the chamber 9 are different, and in particular, the pressure level in the chamber 9 is higher than that in the chamber 8. Of course, for example, in the sense of the previous stage, it is also possible to continuously connect the low pressure stage to the high pressure stage. In order to control the delivery amount of the pendulum slider pump 1 according to the present invention, through adjustment, the eccentricity of the inner rotor 2 with respect to the outer rotor 4 is changed, and as a result, the delivery amount is adjustable and adjustable The slider 15 can accommodate the inner rotor 2 and the outer rotor 4.

  In the case of the pendulum slider pump 1 according to the present invention, it is feasible to use various materials and / or manufacturing methods, in particular for the outer rotor 4, so that the outer rotor is suitable for the magnet 11. For example, it can be manufactured as a cost-effective sheet metal part, stamped part, sintered part or cast part with a concave part 10. By providing a radial pendulum guide 5 in the outer rotor 4, the pendulum head support previously required for the outer rotor 4 is no longer necessary, thereby greatly reducing the complexity of the outer rotor 4. Can do. In the case of the pendulum slider pump 1 according to the invention, the pendulum head receiver can be provided in a cost-effective manner, for example by means of the inner rotor 2 configured as a sintered part.

  As described above, the present invention is useful for a pendulum slider-type pump or the like that includes a rotatable inner rotor connected to an outer rotor by a pendulum.

DESCRIPTION OF SYMBOLS 1 Pendulum slider type pump 2 Inner rotor 3 Pendulum 4 Outer rotor 5 Pendulum guide 7 Piston 8 First pressure stage chamber 9 Second pressure stage chamber 10 Recess 11 Magnet 12 Stator 13 Electromagnet 15 Slider

Claims (9)

A pendulum slider pump (1) comprising a rotatable inner rotor (2) connected to an outer rotor (4) by a pendulum (3),
The pendulum (3) is articulated to the inner rotor (2) and is guided radially in the outer rotor (4),
The pendulum slider pump (1) is electrically driven by the outer rotor (4),
In the outer rotor (4), the magnet (11) is disposed in a suitable recess (10),
A stator (12) having an electromagnet (13) is disposed outside the outer rotor (4),
The pendulum slider pump, wherein the magnet (11) and the electromagnet (13) are components of an electric drive for driving the pendulum slider pump (1). In the pendulum slider pump according to claim 1,
Each pendulum (3) is connected to a corresponding piston (7) guided in a radial pendulum guide (5) in the outer rotor (4) in an articulated manner. In the pendulum slider pump according to claim 1 or 2,
The pendulum (3), the inner rotor (2) and the outer rotor (4) form a first pressure stage chamber (8) of a pendulum slider pump (1), and the pendulum (3) and The outer rotor (4) forms a second pressure stage chamber (9) of the pendulum slider pump (1). The pendulum slider pump according to claim 3,
The pendulum slider pump, wherein the first pressure stage is configured as a low pressure stage, and the second pressure stage is configured as a high pressure stage. In the pendulum slider pump according to claim 3 or 4,
The pendulum slider pump characterized in that the low-pressure stage is continuously connected to the high-pressure stage. In the pendulum slider pump according to any one of claims 1 to 5,
The inner rotor (2) and the outer rotor (4) are housed in an adjustable slider (15), by which the delivery amount of the pendulum slider pump (1) can be controlled. A pendulum slider pump. In the pendulum slider pump according to any one of claims 3 to 6,
A pendulum slider pump characterized in that different or the same pumping medium is supplied to the first and second chambers (8, 9). In the pendulum slider pump according to any one of claims 1 to 7,
A pendulum slider pump characterized in that the outer rotor (4) is configured as a molded sheet metal part.   Use of a pendulum slider pump (1) according to any one of claims 1 to 8 in a motor vehicle equipped with an internal combustion engine or a hybrid drive or an electric drive.

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