DE102009010178A1 - Hydraulic pump arrangement for use in transfer gearbox in motor vehicle, has bearing element has sub area provided in each bearing receiver for positioning drive unit opposite to pump unit - Google Patents

Abstract

The arrangement has a bearing receiver (9) that is formed in a bearing section (6) of a drive unit (13), and another bearing receiver (17) that is formed in a bearing section (25) of a pump unit (14) e.g. rotary piston pump. The drive unit encloses a drive shaft (4) that is rotatably mounted over a bearing element (8) e.g. radial ball bearing (7). The pump unit has a rotor (19) effectively connected with the drive shaft. The bearing element has a sub area (10) provided in each bearing receiver for positioning the drive unit opposite to the pump unit. An independent claim is also included for a transfer gearbox comprising an input shaft.

Description

The The present invention relates to a hydraulic pump assembly with a drive unit and one of them separately formed Pump unit, wherein the drive unit comprises a drive shaft, the above a bearing element arranged in a first bearing receptacle rotatably is mounted, and wherein the pump unit one with the drive shaft operatively connected rotor comprises. Furthermore, the invention is a Transfer case addressed with such a pump assembly.

at Such hydraulic pump assemblies need the drive unit and The pump unit during assembly aligned exactly to each other for example, concentric with the drive shaft around the drive shaft align. This exact positioning or centering is usually by additional Centering pins or guides guaranteed the on housing sections the drive unit and the pump unit must be formed. These additional Centering bolt or other additional Fits are complex produce and increase thus the production costs, especially of small hydraulic pumps.

used For example, such pump assemblies are used in transfer cases, by the torque of a drive train of a motor vehicle distributed between two axles or within an axle between two wheels becomes.

It It is an object of the present invention to provide a hydraulic pump assembly form the type mentioned, the simpler and cheaper can be produced.

According to the invention is starting from a hydraulic pump arrangement of the type mentioned solved this task by that the first bearing receptacle in a bearing portion of the drive unit is formed, that a second bearing receptacle in a bearing section the pump unit is formed and that the bearing element with a first portion in the first bearing receptacle and with a second subregion is arranged in the second bearing receptacle, so over the bearing element positioning of the drive unit relative to the Pump unit is done.

According to the invention Thus, the exact alignment of the drive unit relative to the Pump unit no additional Centering pins, guides or other elements, but the required exact Positioning is done via the existing bearing element of the drive shaft. While usually this bearing element Completely in a bearing receptacle of the drive unit or the pump unit is arranged, it is by the provision of a second bearing support the other unit possible, that the bearing element partially in both the first bearing receptacle as well as partially arranged in the second bearing receptacle can. The bearing element thus forms a common component for the drive unit and the pump unit, so about this common component the exact and predetermined positioning of Drive unit opposite the Pump unit can be achieved without requiring additional Elements are required.

To an advantageous embodiment of the Invention include the drive unit, a drive housing and the pump unit is a pump housing, the drive housing and the pump housing by the bearing element in a defined position to each other arranged, in particular special centered to each other. Is preferred while the bearing portion of the drive unit with respect to the drive housing fixed to the housing arranged and / or the bearing portion of the pump unit with respect to the pump housing fixed to the housing arranged. Due to the unique positioning of the respective housing Drive unit and the pump unit automatically becomes the desired exact Positioning or centering between the interacting parts the drive unit and the pump unit, for example, between the drive shaft and an outer rotor reached the pump assembly.

To a further advantageous embodiment of the invention the rotor around a rotor axis of rotation and the drive shaft around one Drive rotary axis rotatable, wherein the rotor axis of rotation and the drive axis of rotation on the Bearing element are centered to each other or coincide. Especially while the drive shaft can simultaneously form the rotor shaft, this means for example, in one piece be formed with the rotor shaft, or at least operatively connected to this be connected for example rotatably. In principle, the active compound also over intermediate elements, such as transmission elements z. B. in the form of gears respectively.

Prefers the rotor can be arranged rotatably on the drive shaft. The rotor can either be fixed against rotation on the output shaft or also in one piece be connected with this.

According to a further preferred embodiment of the invention, the bearing portion of the drive unit comprises a first contact surface and the bearing portion of the pump unit has a second contact surface, wherein the first contact surface bears against the second contact surface and the bearing element arranged in the first bearing support protrudes beyond the first contact surface. In this case, protrudes the protruding part of the bearing element in the second bearing seat into it, whereby the connecting and simultaneously positioning action of the bearing element is achieved.

Prefers is the drive shaft substantially perpendicular to the first and the second contact surface arranged. in principle would be one too slope Arrangement of the contact surfaces conceivable. However, a vertical arrangement is more advantageous with respect to Production and adjustment.

To a further advantageous embodiment of the invention the bearing element in the first and in the second bearing receptacle each arranged in a snug fit. The fit is a special exact positioning / centering of drive unit and pump unit guaranteed.

To a further advantageous embodiment of the invention the drive unit is an electric motor with a rotor and a fixed to the housing Stator, wherein the rotor is operatively connected to the drive shaft. In particular, the rotor rotatably connected to the drive shaft be. in principle However, the drive unit can also be formed in any other way be. For example, the drive shaft and a drive train a motor vehicle, in particular via an intermediate Gear stage, or by another with the pump assembly driven in operative connection, a torque transmitting movement become.

Prefers is the pump unit as a rotary piston pump, for example as Rotary lobe pump, rotary vane pump, rotary piston pump or gear pump, z. B. as a gerotor pump, as axial piston pump or as a radial piston pump educated. in principle the pump unit can be designed as any type of pump, in the exact positioning between the drive unit and pump unit is required.

Prefers is the bearing element as a rolling bearing, designed in particular as a ball bearing, roller bearings or needle roller bearings. More preferably, the bearing element is designed as a radial bearing. In this case the exact positioning / centering of the drive unit takes place to pump unit over a determination of an outer ring of the radial bearing in each case aligned bearing receptacles in the drive unit and the pump unit.

Prefers the drive unit and the pump unit are connected to each other, especially bolted together. Because of mutual exact positioning by the bearing element can thus be a special simple connection between the pump unit and the drive unit used Be that no extra Requirements relate to the relative positioning of these two Fulfill units got to.

Further advantageous embodiments The invention are specified in the subclaims.

The Invention will now be described with reference to an embodiment with reference closer to the only figure described.

In the figure, a longitudinal section through a portion of a pump arrangement designed according to the invention is shown in a greatly simplified representation. The pump assembly includes an electric motor 1 with a stator fixed to the housing 2 and one opposite the stator 2 rotatable rotor 3 , which rotates with a drive shaft 4 connected is. The drive shaft 4 is together with the rotor 3 about a drive axis of rotation 5 rotatable.

The electric motor 1 is arranged in a housing, not shown, which has a housing-fixed bearing section 6 for receiving a radial ball bearing 7 trained bearing element 8th having. This is in the storage section 6 a first camp admission 9 formed in which a first portion 10 an outer ring 11 of radial ball bearing 7 is arranged in the fit. To the first bearing receiver 9 closes a first contact surface 12 on, perpendicular to the drive shaft 4 runs and an end face of the bearing section 6 forms. The storage section 6 forms together with the electric motor 1 , The housing, not shown, and possibly also other elements not shown, a drive unit 13 the pump assembly.

On the drive unit 13 is a pump unit 14 about screws 15 attached, the pump unit 14 a second contact surface 16 includes, at the first contact surface 12 is applied. In the second contact area 16 is a second camp admission 17 formed, in the a part of the first part 10 subsequent second subarea 18 of the outer ring 11 of radial ball bearing 7 is arranged in the fit. By the in the two bearing shots 9 . 17 arranged, common radial ball bearings 7 thus takes place transversely to the drive shaft 4 a clear relative positioning between the drive unit 13 and the pump unit 14 , so that no other other positioning or centering are required.

The pump unit 14 is designed as a toothed ring pump and comprises a rotor designed as an inner rotor 19 that is on the drive shaft 4 is arranged rotationally fixed. The rotor 19 acts in a known manner with an external rotor 20 the gerotor pump together, in a housing-fixed Außenfüh tion 21 is rotatably mounted. The pump unit 14 includes a pump housing 22 , which consists of a frontal end element 23 , an outside guide 21 forming, the inner rotor 19 and the outer rotor 20 receiving rotor housing 24 and a subsequent storage section 25 in which the second bearing seat 17 is trained. Basically, the pump housing 22 also form only an internal housing-fixed section, which is covered by a further outer housing section.

As can be seen from the figure fall in the illustrated embodiment, the drive axis of rotation 5 the drive unit 13 and the rotor axis of rotation 26 the pump unit 14 together. Basically, these two axes can also be arranged offset from one another, wherein, for example, a rotational movement of the drive shaft 4 via an intermediate gear on the rotor 19 can be transferred.

By the determination of the bearing element according to the invention 8th the drive shaft 4 both on the drive unit 13 as well as on the pump unit 14 becomes the desired exact positioning of the drive unit 13 opposite the pump unit 14 achieved without additional complicated to produce elements are required.

1

electric motor

2

stator

3

rotor

4

drive shaft

5

Drive rotary axis

6

bearing section

7

Radial ball bearings

8th

bearing element

9

first bearing seat

10

first subregion

11

outer ring

12

first contact area

13

drive unit

14

pump unit

15

screw

16

second contact area

17

second bearing seat

18

second subregion

19

rotor (Inner rotor)

20

outer rotor

21

external guide

22

pump housing

23

termination element

24

rotor housing

25

bearing section

26

Rotor axis of rotation

Claims (15)

Hydraulic pump arrangement with a drive unit ( 13 ) and a separately formed pump unit ( 14 ), wherein the drive unit ( 13 ) a drive shaft ( 4 ), which has a first bearing ( 9 ) arranged bearing element ( 8th ) is rotatably mounted, and wherein the pump unit ( 14 ) one with the drive shaft ( 4 ) operatively connected rotor ( 19 ), characterized in that the first bearing receptacle ( 9 ) in a storage section ( 6 ) of the drive unit ( 13 ) is formed, that a second bearing receptacle ( 17 ) in a storage section ( 25 ) of the pump unit ( 14 ) is formed and that the bearing element ( 8th ) with a first subregion ( 10 ) in the first bearing ( 9 ) and with a second subregion ( 18 ) in the second bearing receiver ( 17 ) is arranged so that over the bearing element ( 8th ) a positioning of the drive unit ( 13 ) opposite the pump unit ( 14 ) he follows. Pump arrangement according to claim 1, characterized in that the drive unit ( 13 ) a drive housing and the pump unit ( 14 ) a pump housing ( 22 ) and that the drive housing and the pump housing ( 22 ) by the bearing element ( 8th ) are arranged in a defined position to each other, in particular centered to each other. Pump arrangement according to claim 2, characterized in that the bearing section ( 6 ) of the drive unit ( 13 ) is arranged fixed to the housing with respect to the drive housing. Pump arrangement according to claim 2 or 3, characterized in that the bearing section ( 25 ) of the pump unit ( 14 ) with respect to the pump housing ( 22 ) is arranged fixed to the housing. Pump arrangement according to at least one of the preceding claims, characterized in that the rotor ( 19 ) about a rotor axis of rotation ( 26 ) and the drive shaft ( 4 ) about a drive axis of rotation ( 5 ) are rotatable and that the rotor axis of rotation ( 26 ) and the drive rotation axis ( 5 ) via the bearing element ( 8th ) are centered to each other. Pump arrangement according to at least one of the preceding claims, characterized in that the rotor ( 19 ) rotatably on the drive shaft ( 4 ) is arranged. Pump arrangement according to at least one of the preceding claims, characterized in that the bearing section ( 6 ) of the drive unit ( 13 ) a first contact surface ( 12 ) and the storage section ( 25 ) of the pump unit ( 14 ) a second con tact surface ( 16 ) include that the first contact surface ( 12 ) at the second contact surface ( 16 ) and that in the first bearing ( 9 ) arranged bearing element ( 8th ) over the first contact surface ( 12 protrudes). Pump arrangement according to claim 7, characterized in that the drive shaft ( 4 ) substantially perpendicular to the first and second contact surfaces ( 12 . 16 ) is arranged. Pump arrangement according to at least one of the preceding claims, characterized in that the bearing element ( 8th ) in the first and in the second storage receptacle ( 9 . 17 ) is arranged in each case in the fit. Pump arrangement according to at least one of the preceding claims, characterized in that the drive unit ( 13 ) an electric motor ( 1 ) with a rotor ( 3 ) and a housing-fixed stator ( 2 ) and that the rotor ( 3 ) with the drive shaft ( 4 ) is operatively connected, in particular rotationally fixed with the drive shaft ( 4 ) connected is. Pump arrangement according to at least one of the preceding claims, characterized in that the pump unit ( 14 ) is designed as a rotary piston pump, in particular as a gerotor pump, as an axial piston pump or as a radial piston pump. Pump arrangement according to at least one of the preceding claims, characterized in that the bearing element ( 8th ) as a rolling bearing, in particular as a ball bearing ( 7 ), Roller bearings or needle roller bearings is formed. Pump arrangement according to at least one of the preceding claims, characterized in that the bearing element ( 8th ) as a radial bearing ( 7 ) is trained. Pump arrangement according to at least one of the preceding claims, characterized in that the drive unit ( 13 ) and the pump unit ( 14 ) are connected to each other, in particular screwed together. Transfer case for a motor vehicle with a Input shaft and an output shaft and a coupling unit, in particular in the form of a multi-plate clutch, for controllable transmission a torque from the input shaft to the output shaft, wherein the coupling unit can be actuated by a hydraulic pump arrangement, characterized in that the pump arrangement according to at least one of previous claims is trained.