DE102006058979A1 - Vane pump, for a motor vehicle, has guide slits at the rotor extending inwards from the circumference to take sliding impellers - Google Patents

Abstract

The vane pump, for a motor vehicle, has a rotor (5) in the pump chamber fitted with a number of guide slits (61a-61d) extending inwards from the rotor circumference. Each slit takes a sliding impeller. At least some of the slits are in an uneven distribution around the rotor circumference. The longitudinal axes of the guide slits are offset from the rotor center (51).

Description

The The present invention relates to a vane pump according to the preamble of claim 1.

Vane pumps, which are often referred to as rotary vane pumps, are already known from the prior art in different embodiments. Vane pumps of the type mentioned are, for example, in the DE 100 24 669 A1 as well as in the DE 199 36 644 B4 disclosed.

at the known from the prior art vane pumps consists of Problem that these in operation a relatively high noise level to have.

Here uses the present invention.

Of the The present invention is based on the object, a vane pump to disposal to provide, in comparison to those known from the prior art Vane pumps a quieter operation allows.

These Task is by a vane pump of the type mentioned above with the characteristics of the characterizing Part of claim 1 solved. The dependent claims relate to advantageous developments of the present invention.

According to claim 1, a vane pump according to the invention is characterized by that at least some of the guide slots along the outer circumference the rotor arranged unevenly distributed are. Because of the guide slots of the rotor for the inclusion of the slide are suitable, along the outer periphery of the rotor an uneven angular distribution The rotor can be operated much quieter than with the previously known from the prior art solutions in which the guide slots in Circumferential direction of the rotor have a uniform angular distribution. The uneven angular distribution the guide slots and thus the slide of the rotor leads during operation of the vane pump to disharmonious excitations of vibrations, being the oscillatory parts the vane pump in the vibration excitation influence each other disturbing and thereby cause lower noise emissions. In the from the state of Technology known vane pumps have the opposite guide slots of the rotor along the outer periphery the rotor has a uniform angular distribution, so that it leads to harmonious vibration excitations of the oscillatory parts the vane pump and thus to a stronger one Sound emission comes. There is also the option of that all guide slots along the outer circumference the rotor arranged unevenly distributed are.

In a particularly preferred embodiment it is suggested that the longitudinal axes the guide slots spaced from the center of the rotor. In this embodiment Thus, none of the longitudinal axes extends through the center of the rotor.

In an advantageous embodiment, it is possible for each of the guide slots to have a first boundary edge, which in each case encloses an angle b _i (i = 1... N) with a first boundary edge of an adjacent guide slot, the angles b _i (i = 1 ... n) are at least partially different. By this measure, a disharmonic excitation of the oscillatory parts of the vane pump during rotation of the rotor can be achieved in a simple manner, thereby reducing the noise emission. The first boundary edge of the guide slots, for example, with respect to the center of the rotor, for example, be a radially outer boundary edge.

In order to further improve the acoustic emission behavior of the vane pump during operation, it is proposed in a particularly advantageous embodiment that all angles b _i (i = 1... N) between the first boundary edges of the adjacent guide slots are different. In other words, with a number n of rotors or guide slots: b ₁ ≠ b ₂ ≠ b ₃ ≠ b ₄ ≠ ... ≠ b _n .

It In an advantageous embodiment, it is possible to that each of the guide slots with respect to the center of the rotor, a second boundary edge which is spaced from the center of the rotor. The second Bounding edge of the guide slots may continue radially with respect to the center of the rotor be inside boundary edge.

The distances a _i (i = 1... N) of the second boundary edges of the guide slots from the center of the rotor can be at least partially identical in a preferred embodiment.

In a particularly preferred embodiment it can be provided that all distances a _i (i = 1... N) of the second boundary edges of the guide slots from the center of the rotor are identical. In this embodiment, therefore, with a number n of rotors or guide slots: a ₁ = a ₂ = a ₃ = a ₄ = ... = a _n = a.

Around oscillating mass forces while the operation of the vane pump to compensate is provided in a particularly advantageous embodiment, that the guide slots form at least two groups that are point symmetric about the center of the rotor are arranged distributed. For two groups of guide slots the rotor points to a certain extent two rotor halves on, which is a 180 ° point symmetry around the center of the rotor.

Based the attached Drawings, the invention is explained in more detail below. Showing:

1 an exploded view of a vane pump according to a preferred embodiment of the present invention;

2 a perspective view of the vane pump according to 1 after assembly;

3 a partially sectioned plan view of a pump head of the vane pump according to 1 ;

4 a plan view of a rotor of the vane pump according to 1 ,

5 a partially sectioned plan view of a pump head of a vane pump according to a second embodiment of the present invention;

6 a plan view of a rotor of the vane pump according to 5 ,

First, it will open 1 and 2 Reference is made to an exploded view and a perspective view of a vane pump 1 according to a preferred embodiment of the present invention. The vane pump 1 can be designed in particular as a vacuum pump for generating a vacuum, which operates on the so-called displacement principle.

The vane pump 1 has an electric drive unit which has an electric motor with a drive shaft 13 includes. The electric drive unit is inside a housing 12 the vane pump 1 accommodated. Furthermore, the vane pump includes 1 a mounting plate 15 on the case 12 fastened by means of suitable fastening means, which are not explicitly shown here. The mounting plate 15 has a central opening through which the drive shaft 13 of the electric motor after assembly extends therethrough.

It can also be seen on the outer circumference of the mounting plate 15 an intake manifold 20 through which during the operation of the vane pump 1 For example, air or other fluid can be sucked. The mounting plate 15 also has a fluid outlet opening 23 on that with the intake manifold 20 is in fluid communication. Through the fluid outlet opening 23 that flows over the intake manifold 20 sucked fluid into a pump chamber of the vane pump 1 one. The pump chamber comprises a base plate 4 , a pump ring 7 and a cover plate 8th , The pump ring 7 has in this embodiment, a substantially circular inner contour. In an alternative embodiment, for example, there is also the possibility that the pump ring 7 has a substantially elliptical inner contour.

Within the pump chamber is a substantially cylindrical rotor 5 arranged eccentrically. The rotor 5 points as in 4 to recognize a number of guide slots 61a . 61b . 61c . 61d on, each for receiving a slider 6 are suitable. In this embodiment, the rotor 5 in the circumferential direction a total of four guide slots 61a . 61b . 61c . 61d on, which extend from the outer circumference rotoreinwärts. In each of the guide slots 61a . 61b . 61c . 61d is one of the slides after assembly 6 slidably arranged. It can be seen with further reference to 3 that the rotor 5 eccentric in the pump chamber 7 is arranged so that the slider 6 during operation of the vane pump 1 together with an inner wall 70 of the pump ring 7 training different sized chambers.

The rotor 5 becomes during operation of the vane pump 1 from the drive shaft 13 driven by the electric motor and thereby set in rotation. For this purpose, the rotor 5 via a correspondingly shaped driver 19 into a receiving opening 50 of the rotor 5 engages, with the drive shaft 13 connected. The driver 19 is in turn rotationally fixed to the drive shaft 13 attached to the electric motor.

Between the base plate 4 and the mounting plate 15 is also in the region of the fluid outlet opening 23 a seal 3 arranged. It can be seen that the shape of the seal 3 essentially the outer contour of the fluid outlet opening 23 the mounting plate 15 corresponds so that it can be effectively sealed after assembly. The pump chamber, which is the base plate 4 , the pump ring 7 and the cover plate 8th includes, is by means of several mounting screws 9 , which during assembly in corresponding threaded holes 18 the mounting plate 15 can engage, on the mounting plate 15 attached. During assembly, the seal 3 thus between the base plate 4 and the mounting plate 15 clamped to thereby the fluid outlet opening 23 effectively seal.

In addition, the vane pump includes 1 a sealing ring 2 , when mounting on the mounting plate 15 is put on. The sealing ring 2 is for sealing a substantially cap-like muffler 10 suitable, which the vane pump 1 terminates at the end. The silencer 10 is with the help of suitable fixing screws 11 on the mounting plate 15 attached. For this purpose, the mounting plate 15 a number of tapped holes 17 on, for receiving the mounting screws 11 of the muffler 10 are suitable. In addition, the mounting plate points 15 a recess 14 on, with a fluid outlet not shown here of the vane pump 1 is in fluid communication.

During operation of the vane pump 1 the fluid flows through the intake manifold 20 and from there through the fluid outlet opening 23 the mounting plate 15 and then through a fluid inlet opening 24 the base plate 4 in the pump chamber. The fluid then flows through at least one fluid outlet opening 25 the cover plate 8th in the essentially cap-shaped silencer 10 and then through the recess 14 to the fluid outlet opening of the vane pump 1 ,

In 4 is a plan view of the rotor 5 the vane pump 1 shown. As already explained above, has the substantially cylindrical rotor 5 in this embodiment, a total of four guide slots 61a . 61b . 61c . 61d on, in each of which a slider 6 recorded and slidably guided. The four guide slots 61a . 61b . 61c . 61d are in the circumferential direction of the rotor 5 distributed and extend from the outer circumference rotoreinwärts without the longitudinal axes of the guide slots 61a . 61b . 61c . 61d while the center 51 of the rotor 5 to cut. Each of the guide slots 61a . 61b . 61c . 61d points from the center 51 of the rotor viewed from a first radially outer (outer) boundary edge 610a . 610b . 610c . 610d and a second, radially inner (inner) boundary edge 611a . 611b . 611c . 611d on.

In this embodiment, the distances a of the second, radially further inside boundary edges 611a . 611b . 611c . 611d the guide slots 61a . 61b . 61c . 61d to the center 51 of the rotor 5 identical. Alternatively, there is also the possibility that the distances a of the second, radially inner boundary edges 611a . 611b . 611c . 611d the guide slots 61a . 61b . 61c . 61d to the center 51 of the rotor 5 at least partially different.

To the sound emission during operation of the vane pump 1 to reduce, are the four guide slots 61a . 61b . 61c . 61d , as described in more detail below, along the outer circumference of the rotor 5 arranged unevenly distributed. It can be seen that the angles b ₁ , b ₂ , b ₃ , b ₄ between the first, radially outer boundary edges 610a . 610b . 610c . 610d adjacent guide slots 61a . 61b . 61c . 61d are different, so the rotor 5 along the outer circumference uneven angular distribution of all guide slots 61a . 61b . 61c . 61d having. In this embodiment, in which the rotor 5 a total of four guide slots 61a . 61b . 61c . 61d and accordingly four slides 6 Thus, the following applies: b ₁ ≠ b ₂ ≠ b ₃ ≠ b ₄ . In the general case where the rotor 5 a total of n guide slots 61a . 61b . 61c . 61d and thus also n rotors 6 Thus, in general, b ₁ ≠ b ₂ ≠ b ₃ ≠ b ₄ ≠ ... ≠ b _n .

Due to the non-uniform angular distribution of the guide slots described here 61a . 61b . 61c . 61d and thus the slider 6 can be achieved in a particularly advantageous manner that the noise emission and thus the noise during operation of the vane pump 1 is reduced compared to the solutions known from the prior art. The reason for the reduction of the noise emission is that during the operation of the vane pump 1 the rotation of the rotor 5 does not produce harmonic vibrations that occur in the known vane pumps and lead to a higher noise level. Rather, the vibrations are excited disharmonically, so that the oscillatory parts of the vane pump 1 In the vibration excitation influence each other disturbing and thereby the overall noise emission is reduced.

In 5 is a plan view of a pump head of a vane pump 1 according to a second embodiment of the present invention. In contrast to the first embodiment, the pump ring 7 a substantially elliptical inner contour. The essentially cylindrical rotor 5 points as in 6 to recognize, in this embodiment in the circumferential direction a total of eight guide slots 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' on which extend from the outer circumference rotoreinwärts and each for receiving a slider 6 are suitable. In each of the guide slots 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' is therefore one of the slides after assembly 6 slidably arranged. As in 5 indicated, form the sliders 6 during operation of the vane pump 1 along with the inner wall 70 of the pump ring 7 different sized chambers.

In this embodiment, the Ro gate 5 a first group of guide slots 61a . 61b . 61c . 61d and a second group of guide slots 61a ' . 61b ' . 61c ' . 61d ' on. Each of the guide slots 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' has a first boundary edge 610 and a second boundary edge 611 on. It can be seen that the angles b ₁ , b ₂ , b ₃ , b ₄ between the first boundary edges 610 adjacent guide slots 61a . 61b . 61c . 61d the first group are different. Thus, b ₁ ≠ b ₂ ≠ b ₃ ≠ b ₄ applies. In addition, the angles b ₁ , b ₂ , b ₃ , b ₄ between the first boundary edges 610 adjacent guide slots 61a ' . 61b ' . 61c ' . 61d ' the second group also different. The following applies: b ₁ ≠ b ₂ ≠ b ₃ ≠ b ₄ .

The rotor 5 Thus, also in this embodiment, along the outer circumference has an uneven angular distribution of the guide slots 61a . 61b . 61c . 61d . 61a ' . 61b ' . 61c ' . 61d ' on, since the angles between the first boundary edges 610 adjacent guide slots 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' the two groups are different.

The arrangement of the guide slots 61a . 61b . 61c . 61d The first group is in this embodiment with respect to the center 51 of the rotor 5 point-symmetrical to the arrangement of the guide slots 61 ' . 61b ' . 61c ' . 61d ' the second group. Thus, the rotor has 5 a 180 ° point symmetry of the arrangement of the guide slots 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' of the two groups around the midpoint 51 on. This means, for example, that the orientation of the guide slot 61a the first group (ie the angle under which the guide slot 61a from the outer circumference of the rotor 5 rotor inward) of the orientation of the corresponding guide slot 61a ' corresponds to the second group. This also applies to the other guide slots 61b . 61c . 61d the first group and the corresponding guide slots 61b ' . 61c ' . 61d ' the second group.

By this measure, in particular oscillating mass forces during operation of the vane pump 1 occur, be compensated.

1

Vane pump

2

seal

3

poetry

4

baseplate

5

rotor

6

pusher

7

pump ring

8th

cover

9

fixing screw

10

silencer

11

fixing screw

12

casing

13

drive shaft

14

recess

15

mounting plate

17

threaded hole

18

threaded hole

19

takeaway

20

intake

23

Fluid outlet opening

24

Fluid inlet opening

25

Fluid outlet opening

50

receiving opening

51

Focus

61a-d

guide slot

61a'-d '

guide slot

70

inner wall

610

boundary edge

610a-d

boundary edge

611

boundary edge

611a-d

boundary edge

Claims (8)

Vane pump ( 1 ), comprising - a pump chamber, - a substantially cylindrical rotor ( 5 ) which is rotatably disposed within the pump chamber and a number n of guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) extending from the outer periphery of the rotor ( 5 ), a number n of sliders ( 6 ) in the guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) are guided displaceably, characterized in that at least some of the guide slots ( 61a . 61 ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) along the outer circumference of the rotor ( 5 ) are distributed unevenly. Vane pump ( 1 ) according to claim 1, characterized in that the longitudinal axes of the guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) from the center ( 51 ) of the rotor ( 5 ) are spaced. Vane pump ( 1 ) according to claim 1 or 2, characterized in that each of the guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) a erste_Begrenzungskante ( 610 . 610a . 610b . 610c . 610d ), each with a first boundary edge ( 610 . 610a . 610b . 610c . 610d ) of an adjacent guide slot ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) includes an angle b _i (i = 1 ... n), wherein the angles b _i (i = 1 ... n) are at least partially different. Vane pump ( 1 ) according to claim 3, characterized in that all angles b _i (i = 1 ... n) between the first boundary edges ( 610 . 610a . 610b . 610c . 610d ) of the adjacent guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) are different. Vane pump ( 1 ) according to one of claims 1 to 4, characterized in that each of the guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) in relation to the midpoint ( 51 ) of the rotor ( 5 ) a second boundary edge ( 611 . 611a . 611b . 611c . 611d ) from the midpoint ( 51 ) of the rotor ( 5 ) is spaced. Vane pump ( 1 ) according to claim 5, characterized in that the distances a _i (i = 1 ... n) of the second boundary edges ( 611 . 611a . 611b . 611c . 611d ) of the guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) from the center ( 51 ) of the rotor ( 5 ) are at least partially identical. Vane pump ( 1 ) according to one of claims 5 or 6, characterized in that all the distances a _i (i = 1 ... n) of the second boundary edges ( 611 . 611a . 611b . 611c . 611d ) of the guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) from the center ( 51 ) of the rotor ( 5 ) are identical. Vane pump ( 1 ) according to one of claims 1 to 7, characterized in that the guide slots ( 61a . 61a ' . 61b . 61b ' . 61c . 61c ' . 61d . 61d ' ) form at least two groups that are point symmetrical about the midpoint ( 51 ) of the rotor ( 5 ) are arranged distributed.