DE102007035479A1 - Rotary pump i.e. vane pump, for use in steering system of motor vehicle, has radial shaft seal ring pushed over shaft and comprising axial stop element extending in axial direction as outer casing - Google Patents

Abstract

The pump (1) has a rotor (3) fixed to a shaft (4) rotatably supported in a radial bearing (5) of a pump housing (2). The rotor carries multiple displacement elements (6) in tangential distance to each other. The elements form a pump chamber with a pressure opening and a pump chamber with a suction opening between the rotor and the housing. A radial shaft seal ring (7) pushed over the shaft has an axial stop element (8) extending in an axial direction as an outer casing (9) or a reinforcement ring (10) of the seal ring and lies on a stop ring (11) for the shaft or on the housing. An independent claim is also included for a method for assembling a rotary pump.

Description

The The invention relates to a rotary pump for generating a pressure medium flow for a consumer of a steering system or active chassis according to the preamble of claim 1 and a Method for mounting the rotary pump according to Claim 22.

Rotary pumps for generating a pressure medium flow for a consumer are known. The DE 199 42 466 A1 describes a rotary pump with a pump housing in which a cam or cam ring is inserted and is slidably mounted therein or pivotable. In the cam ring, a rotor is used, which is driven by a shaft and carries the displacement elements with tangential distance to each other, the sliding or rolling on the inner surface of the cam ring move along. The rotor with the displacement elements is arranged eccentrically to the cam ring, so that form pump chambers with increasing and decreasing volume between the displacement elements and the inner surface of the cam ring. A suction port for supplying pressure medium to a pump chamber is arranged opposite to a pressure port for discharging a pressurized fluid volume from another pump chamber.

Such Rotary pumps have bearings as radial bearings for their waves on, bearing the bearings with a bearing ring an end stop arranged on the pump housing axial stop forms for the wave. In addition, a radial shaft seal is to Sealing of the rotary pump to the rolling bearing required. The rolling bearings build up especially in the radial direction, so that corresponding space for the respective rolling bearing is to provide in the pump housing. A rotary pump with a rolling bearing as a radial bearing is not cost-optimized, because the parts costs are not minimized.

Of the Invention has for its object to provide a rotary pump, which is inexpensive and whose space is minimized.

The Task is with a rotary pump with the features of the claim 1 and with a method for mounting the rotary pump with the features of claim 22 solved.

Thereby that a radial shaft seal on a journal of the shaft is pushed, which protrudes from the pump housing, wherein the radial shaft sealing ring has an axial stop element, which is in the axial direction at least approximately as far as an outer jacket or a stiffening ring of the radial shaft seal extends, and the axial stop element on a stop ring for the shaft rests against the pump housing, is a structurally cost-effective Possibility created an axial stop for to realize the wave, dispensing with a rolling bearing can be and for example a plain bearing can be applied. The radial shaft seal is safe and easy to assemble, with In addition, a safe, the position of the stop ring in the pump housing Precisely defining mounting method due to the combination of radial shaft seal and stop ring is enabled.

preferred Designs emerge from the dependent claims.

Around To dampen operating noise through the radial shaft seal, It may be appropriate, the axial stop element on the radial shaft sealing ring on an elastomer lining of the radial shaft sealing ring to be applied or connected to the elastomer lining. The axial stop element can cohesively, or positively or positively or loosely arranged or fixed to the radial shaft seal be. It may also be appropriate, in particular, if high axial forces over the radial shaft sealing ring be supported, the axial stop element on a metal Surface of the radial shaft seal, such as metal beads, which are arranged around the circumference of the stiffening ring and the Protrude through the elastomer lining, apply.

The Axial stop element may be formed as a piece of pipe and have a rectangular cross-section. The axial stop element is preferred in the elastomeric lining of the radial shaft seal captively inserted radially and axially. The radial shaft seal is preferably both with its stiffening ring and with its elastomeric outer jacket on the pump housing radially at. The elastomer lining of the radial shaft seal is preferably sufficient almost completely from an inner, resting on the shaft Sealing lip over an inside of the stiffening ring up to an outer, an axial edge of the Versteigungsrings enclosing, outer sealing lip. The outer one Sealing lip forms part of the outer shell or provides only the outer jacket of the radial shaft seal. In the elastomeric lining of the radial shaft seal are preferred radially and / or axially extending channels for guidance arranged by leak oil. In particular, such Channels between the outer sealing lip and the axial stop element and in particular to the Guide the stop ring.

Between a bead of the pump housing and the stop ring of the radial shaft seal is preferably arranged, which is rolled with its steel backing in the pump housing. There by the radial bearing for the shaft of the rotary pump is formed as a sliding bearing, a constructive measure is taken to minimize the radial space of the bearing in particular by the elimination of the rolling elements in the radial bearing. In addition, an inserted into the opening of the pump housing for the shaft from the outside stop ring, which comes to rest on a shoulder of the shaft, a first axial stop for fixing the shaft, so that the rotary pump is constructed overall simpler and can be mounted, which reduces costs.

By the application of a plain bearing and a little in the radial direction Space-demanding shaft seal, it is possible one or more absorber rooms, which compensate for pressure fluctuations serve, larger than in known rotary pumps to design, in addition to the released space in the axial area the sliding bearing is used in the pump housing. This has a positive influence on the efficiency of the rotary pump. The absorber space is preferably arranged so that when rising Pressure medium pressure a supporting force against a driving force a traction means driving the shaft acts on the radial bearing.

In a particularly preferred embodiment of the rotary pump is the axial length of a bearing bush of the plain bearing about half as long as the axial guide length the shaft in the pump housing. The wall thickness the bearing bush is preferably minimized, so that the bearing bush of the plain bearing has a smaller outer diameter than that Radial shaft seal has. The shaft preferably protrudes through the Rotor and is in a lid or a control plate of the rotary pump rotatably held. The control plate forms a second axial stop the wave. Preferably, the sliding bearing is a hydrostatic, of formed lubricated bearing to be pumped fluid. The rotary pump is in a particularly preferred embodiment as a vane pump with a wing formed Displacement elements formed and suitable for the pressure medium supply of an actuator of a Hilfskraft- or Power steering system or an actuator for an active Suspension of a vehicle. It can move quickly from a mounting direction be built by the shaft into the bearing bore of the plain bearing is inserted, then a stop ring or more pushed onto a pin of the shaft and the radial shaft seal on the pin is pushed, wherein the axial stop element of the Radial shaft seal on the pump housing or preferred strikes the stop ring. Finally, it will the beaded edge of the pump housing with a metal shoulder of the Radial shaft sealing ring rolled or otherwise the radial shaft seal determined by forming the beaded edge.

The Invention will now be closer with reference to an embodiment described and reproduced with reference to the accompanying drawings. In the drawing shows:

1 a longitudinal section through a rotary pump, which is formed as a vane pump,

2 a detail II in 1 ,

In 1 is in a longitudinal section along its shaft 4 a two-stroke, as a vane pump 26 formed rotary pump 1 for conveying a pressure medium, such as hydraulic oil shown. One from the wave 4 driven rotor 3 is with from its peripheral surface 28 over its width B radially extending slots 29 Mistake. In every slot 29 is one as a wing 30 formed displacement element 6 arranged. The wings 30 be under the influence of operating pressure of the vane pump 26 in her hind wing area against a curve ring 31 pressed. The curve ring 31 and in the curve ring 31 arranged rotor 3 be in the axial direction of the shaft 4 from a control panel 24 , which controls the fluid flow, and a face plate 32 limited.

The control plate 24 is over several bolts 33 on a pump housing 2 established. The face plate 32 , the curve ring and the control plate 24 be from a bolt 34 at which the curve ring 31 can pivot in a pump housing recess, traversed. The pump housing 2 serves to accommodate suction and pressure channels of the pressure medium, as well as for receiving a flow control valve 35 and a radial bearing 5 for the storage of the shaft 4 ,

The radial bearing 5 is according to the invention as a plain bearing 19 formed, which is a press-in bushing 23 with an axial length L of about half the guide length L _{F of} the shaft 4 in the pump housing 2 having. The outer diameter D of the bearing bush 23 is minimized and allows the placement of a large clearance space compared to prior art rotary pumps 22 in the axial region A of the sliding bearing 19 What a more even characteristic curve of the rotary pump 1 supported. The control plate 24 forms with a blind hole in which the shaft 4 is guided radially and axially with play, a stop 36 for the wave 4 , At the same time is the Tilgerraum 22 arranged so that with increasing pressure medium pressure a supporting effect against a driving force of a shaft 4 driving traction device on the plain bearing 19 acts.

Another stop in the opposite direction is a stop ring 11 standing in a mounting opening 37 for the wave 4 is fixed and on which the wave 4 with her shoulder 20 With Play, formed (cf. 2 ). A due to its special construction very fast to install radial shaft seal 7 takes over the support of the stop ring 11 , The radial shaft seal 7 is between the stop ring 11 and a beading 18 at the end 21 of the pump housing 2 on which a pin 27 the wave 4 protrudes, in the mounting hole 37 arranged.

The radial shaft seal 7 Adopts both the seal of the pump housing 2 as well as the stop function for the shaft 4 , wherein in the embodiment shown in the 1 and 2 a cross-sectionally rectangular axial stop element 8th having, which is annular on an elastomer liner 12 is applied. The axial stop element 8th extends in the direction of the shaft 4 as far as the outer jacket 9 of the radial shaft seal 7 made of elastomeric material, the part of the elastomer lining 12 is and about a stiffening ring 10 is pulled, with an outer sealing lip 16 shaped.

The axial stop element 8th is preferably located on the pump housing 2 and on the stop ring 11 so that this clearance has and allows an accurate, reproducible mounting of the shaft 4 , Since the axial stop element 8th comes to rest on elastomeric material, operating noise are well insulated. It can, especially when high axial forces from the radial shaft seal 7 are to be supported, be expedient, the axial stop element 8th on a metal surface 13 of the stiffening ring 10 and in particular metal beads 14 put on around the circumference of the stiffening ring 10 are arranged and from the stiffening ring 10 through the elastomer lining 12 protrude. In the in the 1 and 2 shown embodiment of a vane pump 26 extends the elastomer lining of the radial shaft seal 7 from his inner sealing lip 15 over its membrane, over the entire stiffening ring 10 up to its outer lip 16 over a portion of the axial extent of the stiffening ring 10 on the outside of the stiffening ring 10 is pulled and has waveform. The radial shaft seal 7 lies with both its stiffening ring 10 as well as with his, the outer coat 9 forming, outer sealing lip 16 on the pump housing 2 at. The axial stop element 8th may have a rectangular, L-shaped or for example U-shaped cross-section or have another suitable cross-sectional shape. Preferably the elastomer lining 12 has axially and / or radially extending channels 17 to pressure medium guide (leakage oil) on, with the channels 17 also between the axial stop element 8th and the outer sealing lip 16 to the stop ring 11 be guided.

The radial shaft seal 7 is between the stop ring 11 and the crimp rim 18 arranged, after the assembly of the items of the rotary pump 1 with a steel backing of the stiffening ring 10 of the radial shaft seal 7 is rolled.

1

rotary pump

2

pump housing

3

rotor

4

wave

5

radial bearings

6

displacement element

7

Radial shaft seal

8th

Axial stop element

9

outer sheath

10

stiffening ring

11

stop ring

12

elastomer liner

13

Surface, metallic

14

metal bead

15

Sealing lip, inner

16

Sealing lip, outer

17

channel

18

beaded

19

bearings

20

shoulder

21

The End

22

damper chamber

23

bearing bush

24

control plate

25

Attack, axial

26

Vane pump

27

spigot

28

peripheral surface

29

slot

30

wing

31

cam ring

32

faceplate

33

bolts

34

bolt

35

Flow control valve

36

Attack, first

37

mounting hole

A

axial

L

axial length

L _F

guide length

D

outer diameter

B

width

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 19942466 A1 [0002]

Claims (22)

Rotary pump for generating a pressure medium flow for a consumer of a steering system or an active chassis of a vehicle, with a pump housing ( 2 ) and with a rotor ( 3 ) on a wave ( 4 ), which are in a radial bearing ( 5 ) of the pump housing ( 2 ) is rotatably mounted, wherein the rotor ( 3 ) Displacement elements ( 6 ) at a tangential distance between the rotor ( 3 ) and the pump housing ( 2 ) form a pump chamber with a pressure opening and a pump chamber with a suction opening, characterized in that a radial shaft sealing ring ( 7 ) over the wave ( 4 ) and with an axial stop element ( 8th ), which in the axial direction at least as far as an outer shell ( 9 ) or a stiffening ring ( 10 ) of the radial shaft seal ( 7 ) extends on a stop ring ( 11 ) for the wave ( 4 ) or on the pump housing ( 2 ) is present. Rotary pump according to claim 1, characterized in that the axial stop element ( 8th ) on the radial shaft sealing ring ( 7 ) on an elastomer lining ( 12 ) is present. Rotary pump according to claim 1, characterized in that the axial stop element ( 8th ) on the radial shaft sealing ring ( 7 ) on a metal surface ( 13 ) of the stiffening ring ( 10 ) is present. Rotary pump according to claim 3, characterized in that the metallic surface ( 13 ) by metal beads ( 14 ) around the circumference of the stiffening ring ( 10 ) are formed, and the elastomer lining ( 12 ). Rotary pump according to one of claims 1 to 4, characterized in that the axial stop element ( 8th ) cohesively or positively or positively or loosely on the radial shaft seal ( 7 ) is arranged. Rotary pump according to one of claims 1 to 5, characterized in that the axial stop element ( 8th ) has a rectangular cross-section. Rotary pump according to one of claims 1 to 5, characterized in that the axial stop element ( 8th ) has a U-shaped cross-section. Rotary pump according to one of claims 1 to 5, characterized in that the axial stop element ( 8th ) has an L-shaped cross section. Rotary pump according to one of claims 1 to 8, characterized in that the radial shaft sealing ring ( 7 ) radially with its stiffening ring ( 10 ) and / or with its outer jacket ( 9 ) on the pump housing ( 2 ) is present. Rotary pump according to one of claims 2 to 9, characterized in that the elastomer lining ( 12 ) of the radial shaft seal ( 7 ) of an inner sealing lip ( 15 ) to an outer sealing lip ( 16 ) enough. Rotary pump according to one of claims 2 to 10, characterized in that in the elastomer lining ( 12 ) of the radial shaft seal ( 7 ) axially and / or radially extending channels ( 17 ) extend to the pressure medium guide. Rotary pump according to one of claims 1 to 11, characterized in that on the axial stop element ( 8th ) Channels ( 17 ) to the stop ring ( 11 ) are guided. Rotary pump according to one of claims 1 to 12, characterized in that the radial shaft sealing ring ( 7 ) in the axial direction of the rotary pump ( 1 ), between the stop ring ( 11 ) for the wave ( 4 ) and a bead ( 18 ) of the pump housing ( 2 ) is arranged. Rotary pump according to one of claims 1 to 13, characterized in that the radial bearing ( 5 ) a plain bearing ( 19 ) and the while ( 4 ) with one shoulder ( 20 ) at least one axially non-displaceable in the pump housing ( 2 ) stop ring ( 11 ) at an axial, the pump housing exterior end facing ( 21 ) of the radial bearing ( 5 ) slidingly abuts. Rotary pump according to one of claims 1 to 14, characterized in that in the axial region (A) of the radial bearing ( 5 ) a spoil room ( 22 ) in the pump housing ( 2 ) is arranged. Rotary pump according to one of claims 1 to 15, characterized in that with increasing pressure medium pressure, a supporting force against a driving force of a while ( 4 ) driving traction means on the radial bearing ( 5 ) acts. Rotary pump according to one of claims 14 to 16, characterized in that the axial length (L) of a bearing bush ( 23 ) of the sliding bearing ( 19 ) about half of the axial guide length (L _F ) of the shaft ( 4 ) in the pump housing ( 2 ) corresponds. Rotary pump according to one of claims 1 to 17, characterized in that the bearing bush ( 23 ) of the sliding bearing ( 19 ) has a smaller outer diameter (D) than the radial shaft sealing ring ( 7 ) having. Rotary pump according to one of claims 1 to 16, characterized in that a control plate ( 24 ) of the rotary pump ( 1 ) a second, axial stop ( 25 ) for the wave ( 4 ). Rotary pump according to one of claims 12 to 19, characterized in that the sliding bearing ( 19 ) is a hydrostatically lubricated sliding bearing. Rotary pump according to one of claims 1 to 20, characterized in that the rotary pump ( 1 ) a vane pump ( 26 ) is to provide a pressure medium flow for a consumer of a steering system or an active chassis of a motor vehicle. Method for mounting a rotary pump according to claims 1 to 21, characterized by at least the following method steps: - inserting the shaft ( 4 ) in the radial bearing ( 5 ) in the pump housing ( 2 ), - Sliding the stop ring ( 11 ) on a pin ( 27 ) the wave ( 4 ), - Sliding the radial shaft sealing ring ( 7 ) on the pins ( 27 ) the wave ( 4 ) until the stop of the axial stop element ( 8th ) on the pump housing ( 2 ) or stop ring ( 11 ), - reshaping the flanged rim ( 18 ) of the pump housing ( 2 ) with the radial shaft seal ( 7 ).