PUMP ARRANGEMENT

Abstract

A pump module for a drive unit of a motor vehicle, includes a housing module having an electronics housing and a pump housing, a circuit board which is received in the electronics housing and is equipped with electronic components. At least one connector plug is provided on the electronics housing and has electrical contacts which are electrically connected to conductors of the circuit board. Two hydraulic pumps are mounted in the pump housing and each have an electric motor, wherein the pump housing is axially mounted on the electronics housing.

Claims

1. Pump module for a drive unit of a motor vehicle, with a housing module having an electronics housing and a pump housing, a circuit board which is received in the electronics housing and is equipped with electronic components, at least one connector plug which is provided on the electronics housing and has electrical contacts which are electrically connected to conductors of the circuit board, and two hydraulic pumps which are mounted in the pump housing and each have an electric motor, wherein the pump housing is axially mounted on the electronics housing.

2. Pump module according to claim 1, wherein the electric motors each have a rotor coupled to one of the hydraulic pumps and a stator received in the pump housing, wherein the stators are at least partially exposed on an outside of the housing module.

3. Pump module according to claim 2, wherein the stators are placed in trough-like portions of the electronics housing.

4. Pump module according to claim 2. wherein the stators are at least partially inserted into the pump housing.

5. Pump module according to claim 1. wherein the stators are fixed in the axial direction between the electronics housing and the hydraulic pumps, wherein the hydraulic pumps are bolted to the pump housing.

6. Pump module according to claim 1. wherein the connector plug has a collar which is provided and configured to extend through an opening of an oil sump and seal there.

7. Pump module according to claim 1, wherein the plug-in direction of the connector plug runs parallel to the extent plane of the circuit board.

8. Pump module according to claim 1, wherein the first hydraulic pump is a vane pump and the second hydraulic pump is a gear pump, wherein both hydraulic pumps have an intake opening which is directed toward the same side as the connector plug.

9. Pump module according to claim 8, wherein one of the hydraulic pumps has an extension housing which has an intake opening on its underside and a delivery opening on a side facing away from the hydraulic pump.

10. Pump module according to claim 1, wherein two connector plugs are provided.

11. Pump module according to claim 1, wherein a circuit board is provided which is electrically divided into two portions which are separate from one another, or that two circuit boards are provided.

12. Pump module according to claim 8, wherein the electric motors of the two hydraulic pumps are identical.

13. Pump module according to claim 1, wherein a potting compound is provided so that the electronic components are encapsulated fluid-tightly in the electronics housing.

14. Pump module according to claim 3, wherein the stators are at least partially inserted into the pump housing.

15. Pump module according to claim 2, wherein the stators are fixed in the axial direction between the electronics housing and the hydraulic pumps, wherein the hydraulic pumps are bolted to the pump housing.

16. Pump module according to claim 2, wherein the connector plug has a collar which is provided and configured to extend through an opening of an oil sump and seal there.

17. Pump module according to claim 2, wherein the plug-in direction of the connector plug runs parallel to the extent plane of the circuit board.

18. Pump module according to claim 2, wherein the first hydraulic pump is a vane pump and the second hydraulic pump is a gear pump, wherein both hydraulic pumps have an intake opening which is directed toward the same side as the connector plug.

19. Pump module according to claim 2, wherein two connector plugs are provided.

20. Pump module according to claim 2, wherein a circuit board is provided which is electrically divided into two portions which are separate from one another, or that two circuit boards are provided.

Description

[0020] Further features and advantages of the invention will emerge from the following descriptions and from the figures, to which reference is made. In the figures:

[0021] FIG. 1 shows a perspective view of a pump module according to the invention;

[0022] FIG. 2 shows an exploded view of the pump module shown in FIG. 1;

[0023] FIG. 3 shows a plan view of the pump module shown in FIG. 1;

[0024] FIG. 4 shows an underside view of the pump module shown in FIG. 1;

[0025] FIG. 5 shows a front view of the pump module shown in FIG. 1;

[0026] FIG. 6 shows a cross-section along the plane C-C in FIG. 5;

[0027] FIG. 7 shows a side view of the pump module shown in FIG. 1; and

[0028] FIG. 8 shows a rear view of the pump module shown in FIG. 1.

[0029] FIG. 1 shows a pump module 10 with two hydraulic pumps 12.

[0030] Such a pump module 10 is usually installed in motor vehicles, in particular electric vehicles, and serves for lubricating and/or cooling a drive unit.

[0031] The pump module 10 is here directly arranged in an oil sump 14. Thus the hydraulic pumps 12 of the pump module 10 can draw in the oil directly from the oil sump 14 and transport it to the drive unit of the motor vehicle.

[0032] The pump module 10 has a housing module 16 which has an electronics housing 18 and a pump housing 20.

[0033] As shown in particular in FIG. 2, a circuit board 22 is received in the electronics housing 18. The circuit board 22 is equipped with electronic components 24, by means of which the hydraulic pumps 12 can be actuated.

[0034] Preferably, the circuit board 22 is divided into two portions 26 which are separate from one another, so that a portion 26 is assigned to each hydraulic pump 12.

[0035] Alternatively, two separate circuit boards 22 may also be provided, which are arranged in the electronics housing 18.

[0036] The circuit board 22 is surrounded by a potting compound 28 so that the electronic components 24 are encapsulated fluid-tightly. Thus damage to the electronic components 24 or the entire circuit board 22 can be prevented, even if the pump module 10 is installed directly in the oil sump 14.

[0037] If two separate circuit boards 22 are provided, both these circuit boards 22 are embedded in or surrounded by a potting compound 28.

[0038] Also, at least one connector plug 30 is provided on the electronics housing 18, making a connection to the other vehicle electronics possible. Such a connection is created via electrical contacts 32 which are situated in the connector plug 30. The electrical contacts 32 may for example be fork contacts. Evidently, any further designs of electrical contacts 32 are also possible. Also, the electrical contacts 32 are connected to the circuit board 22.

[0039] The connector plug 30 has a collar 31 on which an O-ring seal can rest. The O-ring seals against the oil sump when the pump module 10 is in fitted state. An opening for each connector plug 30 is provided in the oil sump 14 in which the pump module 10 is fitted, so that the collar 31 seals the opening when the connector plug 30 extends through the opening.

[0040] In the embodiment shown in the figures, two connector plugs 30 are provided so that a dedicated connector plug 30 can be assigned to each portion of the circuit board 22. The connector plugs 30 here run parallel to an extent plane of the circuit board 22.

[0041] Two trough-like portions 34 are provided on the electronics housing 18, perpendicularly to the extent plane of the circuit board 22. A fastening protrusion 36, via which the electronics housing 18 can be connected to the pump housing 20, is mounted at the respective upper edges of the trough-like portions 34.

[0042] A stator 38 of an electric motor 40 is received in each of the trough-like portions 34. The corresponding rotors 42 are each coupled to one of the hydraulic pumps 12.

[0043] On the side opposite the electronics housing 18, the stators 38 are inserted into the pump housing 20 over a part of their axial length. Thus the stators 38 are at least partially exposed on an outside of the housing module 16.

[0044] The two hydraulic pumps 12 are also arranged in the pump housing 20. In the exemplary embodiment shown, the first hydraulic pump 12 is a vane pump 46 and the second hydraulic pump 12 is a gear pump 48.

[0045] Evidently, other hydraulic pumps 12 may also be used. Here, only the pump heads of the hydraulic pumps 12 need be exchanged, since the electric motors 40 and the circuit board 22 are here identical for all hydraulic pumps 12.

[0046] As shown in particular in FIG. 4, each of the hydraulic pumps 12 has at least one intake opening 50. FIG. 4 shows that the gear pump 48 has four intake openings 50, wherein the vane pump 46 has one large intake opening 50. Here, all intake openings 50 and also the connector plug 30 are directed towards the same side. In the embodiment shown, all intake openings 50 and the two connector plugs 30 are situated on the same side of the pump module 10, specifically the side which constitutes the underside in fitted state.

[0047] Since the vane pump 46 requires a comparatively large intake region, an extension housing 52 is mounted on the pump housing 20 for the vane pump 46. Thus the intake opening 50, which in this case is defined by an injection-moulded filter, is situated on the underside of this extension housing 52.

[0048] The filter is pushed into the extension housing and clamped by the screw-mounting of the pump module during fitting.

[0049] On a side facing away from the vane pump 46, the extension housing 52 also has a delivery opening 54.

[0050] The remaining volume of the extension housing 52 may be used as an oil store so that, despite the additional component, there is no need for a larger oil sump 14.

[0051] The electronics housing 18 and the pump housing 20 are connected together in particular via bolts 56. Alternatively, other fastening methods, which guarantee a secure connection of the pump housing 20 and electronics module 18, are evidently also possible.

[0052] For fitting the pump module 10 in the oil sump 14, both the electronics housing 18 and also the pump housing 20 have screw openings 58, so that the pump module 10 can be securely fastened and the collar 31 of the connector plug 30 can guarantee a secure seal.

[0053] After the electronics housing 18 and the pump housing 20 have been connected together, the rotor 42 extends from the electronics housing 18 through the stators 38 into the pump housing 20, the rotors 42 being connected to the respective hydraulic pump 12.

[0054] The pump module 10 thus extends in an axial direction parallel to the rotational axis of the rotor 42 of the electric motor 40. Accordingly, the electronics housing 18 is followed in an axial direction by the electric motors 40, in particular the stators 38 which are received in the pump housing 20, wherein an extension housing 52 extends starting from the pump housing 20.