DE10102531A1 - Actuator for a quantity-adjustable cell pump - Google Patents

Abstract

The regulating device includes a control ring (2) movable in the housing (1) and provided with a bearing eye (6) which is mounted positively for swivel movement in a bearing (7) in the housing. A regulating lever (9) loaded by a resetting spring supported in the housing is mounted on the ring opposite the eye or on the eye opposite the ring and projects into a regulating chamber (10) where it adjoins a regulating piston (8). The piston is loaded on one side by a control pressure spring and on the other side by the control pressure which produces the regulating force on the pressure biased surface of the piston.

Description

The invention relates to the control device for a quantity-controllable Cell pump.

In the prior art, DE 195 32 703 C1 Pendulum slide machine described above. The technical advantages of this Design are obvious. Nevertheless, this system is still not in use today Series used because in the different operating areas of the Pendulum slide machine an undefined control behavior occurs.

For example, premature shutdown is necessary, especially at high speeds observe. Even an optimization of the springs used, like that Use of spring assemblies and the use of step pistons resulted in only unsatisfactory success.  

One of the main causes of this undefined control behavior are "Internal" interference forces predominantly occurring in the pressure range. These work in Direction of the already pressurized pistons and thus against the Spring force of the return spring. For the aforementioned interference forces characteristic that their direction of action depends both on the Speed as well as depending on the respective pressure level changed.

In the worst case, the disturbing forces inherent in the system reach Values that before the regulation described in DE 195 32 703 C1 can lead to a complete shutdown of the pump.

With a pendulum slide valve machine with axial inflow and outflow, by changing the channel arrangement not a satisfactory one Control behavior can be achieved.

DE 199 15 738 A1 now describes an adjusting device for a Variable-volume vane pump presented.

A major disadvantage of this described in DE 199 15 738 A1 The design is between the control elements and the curved one Setting range of the control piston mandatory point or Line contact.

Another disadvantage of the design shown in DE 199 15 738 A1 is that the control elements (such as cam, roller or ball) are arranged so that the internal disturbing forces of the system are always immediately on act on the control piston. This means that very high positioning forces are required Overcoming the friction forces caused by the interference forces required. As a result of the point or line contact of the control elements with the Curved adjustment range of the control piston inevitably occurs due to the disturbing forces inherent in the system are then very high in continuous operation Wear on.

This high wear that occurs in continuous operation Surface irregularities on the contact surfaces (depressions and  Flattening) resulting in an uneven, strong impaired control behavior, which after a long period of operation lead to control failure especially in the higher speed range can.

In addition, the one in DE 199 15 738 A1 increases shown eccentric, due to the function-related change in Angle of attack relative to the cam ring, the friction in the side guide. In this embodiment, too, the friction-related high occurs Actuating forces, which in connection with the mandatory Line contact between the actuators all of those previously described disadvantages result.

In addition, when using the pump shown in DE 199 15 738 A1, for example as a lubricating oil pump in motor vehicles, with the bearing ring shown in FIGS . 2 and 3, as a result of the strong vibrations occurring in this application in conjunction with the speed and interference forces dependent on the respective pump pressure, an exact fixing of this cam ring in its bearing point cannot be guaranteed.

In addition, all of the solutions presented in DE 199 15 738 A1 are only conditionally used as lubricating oil pumps in motor vehicles, since in the in most applications, the mandatory space required in the engine compartment Arrangement of an actuating piston to be arranged below the center of the cam ring, is not present.

The invention is therefore based on the object of the aforementioned disadvantages to eliminate the prior art and an adjusting device for a to develop quantity-adjustable cell pumps, which take the influence of the inner Forces (disturbing forces) largely excludes and in the case of a compact one, each for Available installation space adapted, variable design one optimal lubricating oil supply, even for motor vehicle engines, at high  Functional and operational safety with minimal wear and tear in everyone Operating condition guaranteed.

According to the invention, this object is achieved by an actuating device for a quantity-adjustable cell pump with a control ring ( 2 ) movably arranged in a housing ( 1 ) and an inner rotor ( 4 ) rotatably mounted in the control ring ( 2 ) and connected to a shaft ( 3 ) in which A plurality of conveying elements ( 5 ) are arranged, in that a bearing eye ( 6 ) is arranged on the control ring ( 2 ), which is arranged in a form-fitting and axially pivotable manner in a bearing seat ( 7 ) of the housing ( 1 ), with the bearing eye ( 6) opposite semicircle of the control ring (2) is arranged by a in the housing which is supported return spring (18) loaded actuating lever (9) which protrudes into an arranged in the region of the actuating lever (9) in the housing (1) actuating chamber (10) , and there directly or indirectly flat on the control surface ( 12 ) of a piston seat ( 13 ) of the housing ( 1 ), by a control pressure spring ( 15 ) of the loaded piston ( 8 ).

The combination of this positive, axially pivotable mounting of the bearing eye ( 6 ) of the control ring ( 2 ) in the bearing seat ( 7 ) of the housing ( 1 ), in conjunction with the rotatable mounting of the actuating piston ( 8 ) and the flat design of all actuators and With a compact, variable construction, adapted to the available installation space, the contact surfaces even ensure the optimal supply of lubricating oil to a motor vehicle engine with high functional and operational reliability with minimized friction and minimized wear in every operating condition.

Advantageous embodiments of the arrangement according to the invention are in the Subclaims specified.  

Further features, details and advantages of the invention emerge in addition to the wording of the claims also in connection with the associated drawings, from the following explanations to the Embodiments.

In the following, the invention will now be described using three exemplary embodiments in Connection with six figures are explained in more detail.

Show:

Figure 1 is a side view of a design (pendulum slide machine) of the device according to the invention with an adjusting piston arranged opposite the bearing eye, with maximum oil production.

FIG. 2 shows the view of the device according to the invention from FIG. 1 in section at AA;

Fig. 3 is a side view of another design (vane pump) the inventive device, however, similar to FIG 1 with a minimum oil production.

Fig. 4 is the view of the inventive apparatus of Figure 3 in cross-section at BB.

Figure 5 shows the side view of a machine constructed as a pendulum slide device of the invention with an opposite to the bearing eye arranged offset downwards adjusting piston, at maximum oil production.

Fig. 6 is a side view of a machine constructed as a pendulum slide device of the invention with an oppositely offset from the bearing eye arranged downward actuating piston, with a minimum of oil production;

Fig. 1 shows the side view of a machine constructed as a pendulum slide construction of the device according to the invention with the bearing eye oppositely disposed actuating piston at maximum oil production.

According to the invention, the bearing eye 6 of a control ring 2 is arranged in the housing 1 . In the control ring 2 there is a rotatably mounted inner rotor 4 connected to a shaft 3 , in which a plurality of conveying elements 5 mounted in an outer rotor are slidably arranged.

The bearing eye 6 arranged on the control ring 2 according to the invention is positively and axially pivotally mounted in a bearing seat 7 of the housing 1 . As a result of this special mounting according to the invention, a secure position fixing of the control ring 2 with simultaneous radial pivotability in the adjustment range (of the control ring 2 ) is ensured.

In the area opposite the bearing eye 6, an actuating lever 9 , which is loaded by a return spring 18 supported in the housing, is arranged on the control ring 2 and protrudes into a positioning space 10 arranged in the region of the actuating lever 9 in the housing 1 .

In this space 10 , as shown in FIG. 2, the actuating lever 9 bears with its contact surface 11 against the control surface 12 of the actuating piston 8 which is rotatably and displaceably arranged in the piston seat 13 of the housing 1 .

As a result of the rotatable mounting of the actuating piston 8 in the housing 1 , the control process ensures that the contact surface 11 of the actuating lever 9 always lies optimally over the entire surface of the control surface 12 of the actuating piston 8 .

In addition, the axial arrangement of the actuating piston 8 according to the invention allows a simultaneous controllability of several pump stages (rotor sets) to be arranged on a shaft 3 using a single actuating piston 8 with a control surface 12 arranged on the actuating piston 8 in accordance with the number of pump stages.

Another feature of the invention that is essential to the invention is that a connecting channel 20 can be introduced in the bearing eye 6 , which can be used for filling or emptying the pump, the arrangement and design of the actuating piston 8 according to the invention also making it possible to seal on both sides, so that the pump chamber 21 , in conjunction with the functionally sealed arrangement of the bearing eye 6 according to the invention in the bearing seat 7 of the housing 1 , can be used on the pressure and suction side.

It is also essential that a control pressure spring 15 is applied to the actuating piston 8 , the spring force of which is opposite to the actuating force F, and which forces the pump control into the state of maximum oil production if the actuating force F fails.

In FIG. 2, the device according to the invention from Fig. 1 is now shown in section AA.

The return spring 18 arranged in the housing according to the invention, in conjunction with the internal forces occurring under operating conditions, presses the actuating lever 9 with its contact surface 11 onto the control surface 12 of the actuating piston 8 and thus ensures operative connection with the pivotable mounting of the actuating piston 8 in the piston seat 13 of the housing 1 a defined full-surface support in the entire operating range of the pump, which ensures precise controllability with minimal wear, even under extreme vibration loads.

FIG. 3 shows the side view of a design of the device according to the invention designed as a vane pump with an actuating piston arranged opposite the bearing eye, with minimal oil production, with a rotor set 19 arranged in the control slide 2 .

In FIG. 4 is the view of the device according to the invention of Figure is shown. 3 in cross-section at BB. When the operating pressure is reached, the actuating force F, as shown, pushes the actuating piston 8 in the opposite direction to the control pressure spring 15 . The force of the return spring 18 and the internal forces of the system press the actuating lever 9 with its contact surface 11 onto the control surface 12 of the actuating piston 8 , as a result of which the pump delivery rate is minimized.

FIG. 5 shows a design of the device according to the invention designed as a pendulum slide machine with an adjusting piston 9 opposite to the bearing eye, offset downwards and with maximum oil production, in a side view in a sectional view.

In the bearing seat 7 of the housing 1 , the bearing eye 6 of the control ring 2 is arranged according to the invention in a form-fitting and axially pivotable manner. In the control ring 2 there is a rotatably mounted inner rotor 4 connected to a shaft 3 , in which a plurality of conveying elements 5 are slidably arranged. In this special embodiment of the invention, the control lever 9 is arranged on the control ring 2 in the lower quarter circle segment opposite the bearing eye 6 .

In this case, a compensating bolt 16 is additionally pivotably mounted in a sliding shell 17 of the actuating lever 9 , which rests with its control surface 11 on the contact surface 12 of an actuating piston 8 which is displaceably mounted in the housing 1 .

As a result of the rotatable mounting of the compensating bolt 16 in the sliding shell 17 of the actuating lever 9 , it is also ensured in this embodiment according to the invention that during the control process the contact surface 11 of the compensating bolt 16 always lies optimally on the control surface 12 of the actuating piston 8 .

Another essential feature of the invention in this design, in turn, is that a connecting channel 21 can be introduced in the bearing eye 6 , which can be used for filling or emptying the pump, the arrangement of the bearing eye 6 in the bearing seat 7 of the invention Housing 1 ensures a reliable seal between the pressure and the suction side of the pump, and on the other hand, the arrangement and design of the actuating piston 8 arranged radially here causes a complete seal between the pressure and the suction side, so that even with this design of the solution according to the invention in turn the pump chamber 21 can be used on the pressure and suction side.

FIG. 6 shows the side view of a device according to the invention in the form of a pendulum slide machine with an actuating lever 9 arranged opposite to the bearing eye and displaced downwards with minimal oil production.

In the design shown in FIGS. 5 and 6, a control pressure spring 15 acts on the control member 14 , the spring force of which is directed against the actuating force F, so that if the actuating force F fails, the control pressure spring 15 always forces the pump control into the state of maximum oil production.

The return spring 18 5 and 6 shown in the Fig., Arranged in the housing presses, in conjunction with the occurring under operating conditions, internal forces, then the rotation in the slip bowl 17 of the actuating lever 9 mounted cross pin 16 with its contact surface 11 on the control surface 12 of the actuating piston 8 and thus in operative connection with the rotatable mounting of the compensating bolt 16 in the actuating lever 9 ensures a defined, full-surface contact of the contact surface 11 of the compensating bolt 16 on the control surface 12 of the actuating piston 8 in the entire operating range of the pump, so that there is always an exact controllability with minimal wear can be guaranteed even under extreme vibration loads.

The design of the solution according to the invention shown in FIGS. 5 and 6 also ensures, due to the special arrangement of the actuating lever 9 in relation to the direction of action of the resultant from the internal forces of the system, that the influence of the internal forces on the control piston is significantly reduced, so that the control characteristic of the system is again significantly improved in the entire operating range.

With the present solution according to the invention, one has thus succeeded Develop control device for a quantity-controlled cell pump, which largely excludes the influence of internal forces (disturbing forces) and at compact, adapted to the available installation space, variable design an optimal supply of lubricating oil, even from Motor vehicle engines with high functional and operational reliability minimized wear guaranteed in every operating condition.  

REFERENCE SYMBOL

1

casing

2

spool

3

wave

4

inner rotor

5

impeller

6

bearing eye

7

bearing seat

8th

actuating piston

9

lever

10

parking space

11

contact area

12

control surface

13

piston seat

14

control member

15

Control pressure spring

16

cross pin

17

sliding

18

Return spring

19

rotor set

20

connecting channel

21

pump room
F force

Claims (3)

1. Setting device for a quantity-adjustable cell pump with a control ring ( 2 ) movably arranged in a housing ( 1 ) and an inner rotor ( 4 ) rotatably mounted in the control ring ( 2 ) and connected to a shaft ( 3 ) in which several conveying elements ( 5 ) can be displaced. are arranged, characterized in that a bearing eye ( 6 ) is arranged on the control ring ( 2 ), which is arranged in a form-fitting and axially pivotable manner in a bearing seat ( 7 ) of the housing ( 1 ), the semi-circle of the bearing eye ( 6 ) opposite the bearing eye control ring (2) a loaded by a in the housing which is supported return spring (18) levers (9) is arranged which protrudes into an arranged in the region of the actuating lever (9) in the housing (1) actuating chamber (10), and there directly or indirectly Flat on the control surface ( 12 ) of an actuating piston arranged in a piston seat ( 13 ) of the housing ( 1 ) and loaded by a control pressure spring ( 15 ) 8 ) is present. 2. Apparatus according to claim 1, characterized in that the bearing eye ( 6 ) opposite the control ring ( 2 ) is arranged an actuating lever ( 9 ) with a contact surface ( 11 ) flat on the control surface ( 12 ) of a rotatable and displaceable in a piston seat ( 13 ) of the housing ( 1 ) arranged control piston ( 8 ). 3. Apparatus according to claim 1, characterized in that in its bearing eye ( 6 ) opposite lower quarter circle segment on the control ring ( 2 ), an adjusting lever ( 9 ) is arranged, wherein a compensating bolt ( 9 ) is pivotally mounted in a sliding shell ( 17 ) of the adjusting lever ( 9 ). 16 ) is mounted, which rests with its control surface ( 11 ) on the contact surface ( 12 ) of an actuator ( 8 ) which is displaceably mounted in the housing ( 1 ).