WO2010057484A2 - Hydraulic unit having a hydraulic pump comprising a stator and a rotor - Google Patents

Abstract

The invention relates to a hydraulic unit (1) for actuating at least one displaceable component, particularly a vehicle device that moves during a roof motion of a cabriolet vehicle, having a housing (3) for receiving an electric motor (7) and a hydraulic pump (11) driven by the electric motor (7) and hydrualically connected to a tank (15) containing a hydraulic medium, wherein the hydraulic pump (11) comprises a rotor (17) disposed on a stator (23) feeding and discharging a hydraulic medium, and the housing (3) is formed at least by an electric motor housing (5) receiving the electric motor (7) and a pump housing (11) connected thereto in the operating state and receiving the hydraulic pump (9). The stator (23) is thereby disposed in the pump housing (9) with a clearance fit.

Description

 HYDRAULIC AGGREGATOR WITH A STATOR AND A ROTARY HYDRAULIC PUMP

The invention relates to a hydraulic unit for actuating at least one movable component, in particular a moving in a top movement of a convertible vehicle vehicle device, comprising a stator and a rotor having a hydraulic pump according to the closer defined in the preamble of claim 1. Art.

Hydraulic units, which have in a pump housing a rigidly arranged, a control pin forming stator and a rotor rotating thereon in the manner of a cylinder star, are well known in the art.

Usually, the stator is pressed or shrunk in the pump housing. However, such an arrangement of the stator in the pump housing is problematic in that in the pump housing leading to the stator hydraulic bores are formed and these often have burrs, which upon insertion of the stator in the pump housing with a press fit to abrasion and shearing of the stator being able to lead.

As a result of such abrasion on the stator, which can extend to chip formation, the oil circuit is also disadvantageously polluted.

It is an object of the present invention, a hydraulic unit of a hydraulic system for actuating at least one movable component of the type mentioned in such a way that damage to the stator and contamination of the oil circuit is avoided with abrasive particles of the stator in its arrangement in the pump housing. This object is achieved in a hydraulic unit according to the term of the patent claim 1 with the features of the characterizing part of claim 1.

The invention thus provides a hydraulic unit for actuating at least one movable component, in particular a vehicle device moved during a top movement of a convertible vehicle, having a housing for receiving an electric motor and a hydraulic pump hydraulically connected to the tank and driven by the electric motor wherein the hydraulic pump has a rotor arranged on a hydraulic medium and discharging stator, and the housing is formed at least by an electric motor housing accommodating the electric motor and a pump housing which is connected thereto in the use state and receives the hydraulic pump. According to the invention, the stator is arranged with a clearance fit in the pump housing.

Compared to conventional solutions, in which the stator is pressed or shrunk into an opening in the pump housing, with the invention in which the stator can be simply inserted into a bearing opening and caulked axially and radially in two places, in a surprisingly simple way Achieved advantage that reaching to chip formation abrasion and thereby causing contamination of the oil circuit with the risk of a resulting system failure can be prevented.

In an expedient embodiment of a hydraulic unit according to the invention, a bottom of the pump housing arranged at an end of the pump housing facing away from the electric motor housing has a particularly central opening forming a bearing of the stator of the hydraulic pump. The stator can in the usual way, as well known in radial piston pumps, leading to hydraulic lines recesses and these having the rotor of the hydraulic pump connecting axial channels, wherein the radial recesses are arranged at different axial height of the stator and from each other via one between the stator and the surrounding material of the opening of the pump housing arranged sealing means, in particular an O-ring seal, are sealed.

In terms of manufacturing technology, it is particularly simple if the axial channels in the stator are designed as blind bores and are then sealed at their free axial end by a plug.

According to an advantageous development of the invention, at least one circumferential recess may be formed on the stator for axially locking and / or preventing rotation of the stator in the pump housing, in which a material of the surrounding pump housing, which may be aluminum, for example, is pressed by means of a stamping process.

It is particularly advantageous if the electric motor housing and the pump housing are connected to one another without direct contact with each other via a plastic connection element.

Such an inventive design of a hydraulic unit has the advantage that a connecting the pump housing and the electric motor housing plastic component inexpensively and with any connection means such. B. a separate connection means unnecessary clip device may be formed. Since plastic can be designed easily with a bending behavior, which on the one hand has a temporary deformation in a connection of the connecting element with the pump housing and the electric motor housing and at the same time a sufficient strength for holding the housing components, in the design of the connection with a plastic fastener according to the invention a much greater freedom than is given, for example, in the direct connection of metal components.

The use of a plastic connecting element also has the advantage that a highly effective sealing of the electric motor housing and thus the electric motor of the pump housing and the working space contained therein of the hydraulic pump is possible by the connecting element made of plastic, which is a high requirements fulfilling corrosion protection for the electric motor.

Furthermore, it has been found that due to the greater elasticity and the better damping properties of plastic compared to metal materials and as a result of the complete decoupling of the electric motor housing from the pump housing by the plastic connecting element, a significant reduction in the noise generated in the hydraulic unit is achieved.

A particularly simple assembly of the hydraulic unit is made possible when the connecting element is connected in each case via at least one plug-and-lock connection with the electric motor housing and the pump housing. In this case, the electric motor housing and the pump housing can be easily pushed onto the connecting element until a latching connection engages. Such a screwless connection is easy to produce during assembly and does not require stocking additional, also the weight of the hydraulic unit increasing connecting elements such. B. screws.

In a particularly advantageous embodiment of the invention, the Verbindungsseiement each have a cylindrical pot for connection to the electric motor housing and the pump housing, which each have a cylindrical surface and in particular are arranged coaxially to each other. Thus, the plastic connection element itself constitutes a type of housing which at least partially accommodates the electric motor housing and the pump housing.

The electric motor housing and the pump housing can each be designed as self-contained or open housing, wherein it is advantageous for the electric motor housing, if this at the ends of its cylindrical lateral surface in each case has a bottom, wherein a first pump housing facing the ground a passage for a motor shaft having.

The pump housing, however, according to a preferred embodiment of the hydraulic unit according to the invention pot-shaped with only one bottom at the end remote from the electric motor housing end of its cylindrical surface, wherein the pump housing with the electric motor housing facing the end of its cylindrical surface over the receiving pot of the connecting element, in particular over its outer periphery , is guided.

The hydraulic working space of the hydraulic pump is thus limited on the one hand by the pot-like open pump housing and on the other hand by the plastic connecting element. To form the at least one plug-and-detent connection on the connecting element on the one hand and the electric motor housing and the pump housing on the other hand are advantageously in each mating of the connecting element with the electric motor housing and the pump housing in operative contact passing, a rotation and / or axial locking effecting projections and this formed corresponding recesses.

For example, a simple rotation of the electric motor housing relative to the Verbindungselerαent be achieved that at least one recess is formed on the first, the pump housing facing bottom of the electric motor housing, which with a correspondingly shaped projection on a bottom of a first, the receptacle of the electric motor housing associated receiving pot Connecting element is engaged.

The molding of the at least one projection on the bottom of the receiving pot of the plastic connecting element can be carried out in one step with the formation of the further functional elements of the plastic connecting element during its production, so that no additional effort is required for the production of the projections.

The formation of at least one recess on the bottom of the electric motor housing requires no additional effort, since in the bottom of the electric motor housing usually vent holes are arranged, which thus at the same time for engagement with a projection on the bottom of the pot of the plastic connector and thus to prevent rotation Electric motor housing can be used.

For the axial locking of the electric motor housing on the plastic connecting element, it makes sense, at the Man- telfläche of the electric motor housing form at least one recess which engages with a correspondingly shaped projecting ^¬ jump on the lateral surface of the first, the receiving of the elec ^¬ tromotor housing associated receiving pot of the connecting element.

Again, anyway usually existing vents in the lateral surface of the electric motor housing as recesses, which reach with a projection on an inner side of the electric motor housing receiving pot of the plastic connector at a Einschie ^¬ Ben of the electric motor housing in a latching Hinter- cutting position used become.

An effective seal between the hydraulic pump containing the interior of the pump housing and the electric motor housing can be achieved in a simple manner that the first, the recording of the electric motor housing associated pot of the connecting element with at least one seal mounted thereon, in particular one of the motor shaft in the region of a passage of Motor shaft is sealed by the bottom of the first pot surrounding radial shaft seal, against the interior of the pump housing.

Furthermore, at least one seal, in particular an O-ring seal, which seals an interior of the pump housing containing the hydraulic pump from an environment, can be arranged between the jacket surface of the second receiving pot of the connecting element assigned to the receptacle of the pump housing and the cylindrical jacket surface of the pump housing.

According to a further, particularly advantageous embodiment of a hydraulic unit according to the invention, the pump housing is provided with the tank containing the hydraulic medium. tied, wherein the tank is preferably cylindrical and coaxial with the pump housing and the Elektromotorge ^¬ housing is arranged. In this way, a particularly compact unit, which is suitable as a small aggregate for unter ^{¬ most} diverse applications.

For easy connection of the formed as an oil tank tanks to the pump housing, the latter may have at its end facing away from the E lektromotorgehäuse a pot-like flange to which the tank is mounted sealed.

Expediently, the tank for filling and emptying has an outlet opening towards the surroundings, which can be closed sealed by means of a closure lid.

It is particularly advantageous if the closure lid can be fixed to a housing part of the tank by means of a placement latching device.

While in conventional closures an outlet opening of an oil container usually a screw plug is used, which must be screwed by means of a thread in the outlet opening and sealed therein, when using a Aufsetz-latching device according to the invention, only a latching after placing the closure cap on the made the housing opening surrounding the outlet opening.

This unusually simple and cost-effective way of closing the outlet opening also has the advantage that the outlet opening can be formed even without significant additional costs with a comparatively large diameter, which would entail high costs with respect to the screw plug when using a conventional screw plug. In addition, with a large screwdriver diameter there is a risk that the thread can no longer transfer the required force.

The possible with the cap according to the invention large diameter dimensioning of the outlet opening of the tank has the advantage that, for example, simultaneously with a lance vacuum can be pulled and with another lance filling is performed.

A further advantage of a placement latching device according to the invention is that the hereby possible clipping of the closure lid with the outlet part surrounding the housing part of the tank without metal abrasion is possible, whereby a screwing a metal screw plug on a plastic thread of a tank possible chip formation and consequent contamination of the oil in the tank is avoided.

The hydraulic unit according to the invention is particularly suitable for use in a hydraulic system which controls actuators which serve for a top movement of a convertible vehicle, including moving vehicle parts such as a top compartment lid and a boot lid.

Depending on the design, however, such a hydraulic unit is also conceivable for other applications, such. B. for work functions in construction or agricultural machinery, in aircraft and machine tool.

Further advantages and advantageous embodiments of a hydraulic unit according to the invention will become apparent from the claims, the drawings and the description.

Below is an advantageous embodiment of an inventively designed hydraulic unit for a hood of a convertible vehicle based on the drawing described in principle.

It shows:

1 shows a simplified longitudinal section through a hydraulic unit of a hydraulic system for actuating at least one vehicle device moved during a top movement of a convertible vehicle;

FIG. 2 shows a further longitudinal section through the hydraulic unit of FIG. 1 offset by 90 °; FIG.

3 is a simplified three-dimensional representation of the hydraulic unit of FIGS. 1 and 2;

Fig. 4 is a three-dimensional view of a stator of a

Hydraulic pump of the hydraulic unit of FIG. 1 to FIG. 3 as well as pistons of a rotor of the hydraulic pump designed as a cylinder star and cooperating with the stator; and

5 shows a three-dimensional representation of a closure lid of a tank of the hydraulic unit of FIGS. 1 to 3 in isolation.

Referring to Fig. 1 to Fig. 3 is a hydraulic unit 1 of a hydraulic system for operating a non-illustrated convertible top of a convertible vehicle and other involved in a top movement vehicle components such as a top compartment lid and a boot lid, the hydraulic unit 1 a multi-part housing 3, which has an electric motor housing 5 for receiving an only symbolically indicated electric motor 7, a pump housing 9 for receiving one of the Electric motor 7 driven hydraulic pump 11, a the E lektromotorgehäuse 5 with the pump housing 9 connecting connecting element 13 made of plastic and a connected to the pump housing 9 tank 15 for receiving a hydraulic ^¬ medium, which represents the working fluid of the hydraulic pump 11 ^¬ represents ,

With regard to its functioning, the hydraulic unit 1 is constructed in a manner known per se. The hydraulic pump 11 is z. For example, in this case a conventional radial piston pump with a trained as a cylinder star rotor 17 which is displaceable by the electric motor 7 via a central motor shaft 19 and a clutch 21 in rotation and thereby rotates about a mounted in the pump housing 9, a control pin performing stator 23. For supporting the rotor 17 in the pump housing 9, a bearing device 25 is provided, which is arranged on a shoulder in the pump housing 9.

Upon rotation of the rotor 17 radially arranged in the rotor piston 27, which are shown in more detail in FIG. 4, perform a lifting movement, wherein in the stator 23 via a first radial bore 29 sucked oil, via a first axial channel 31 to the Rotor 17 promotes and compressed via a second axial channel 33 and a second radial bore 35 connected thereto is discharged to a pressure side.

In the present case, the hydraulic pump 11 and the electric motor 7 can be operated in both directions of rotation, the assignment of the radial bores 29, 35 from or to the stator 23 to a suction side or pressure side corresponding to the direction of rotation of the hydraulic pump 11 and the electric motor. 7 The Hydraulikpuπipe 11 is further connected in a conventional manner hyd ^¬ raulisch with valves in a ^¬ connected to the pump housing 9 ^¬ valve block 37 and a hydraulic channel 39 with an interior 41 of the tank 15.

All the housing components of the housing 3, namely the electric motor housing 5, the pump housing 9, the connecting element 13 itself representing a plastic housing and the tank 15 are detachably connected to each other, wherein the electric motor housing 5 and the pump housing 9 without direct contact with each other via the plastic connecting element 13 and formed thereon plug-and-detent connections 43, 45, 47 are connected.

As can be seen in particular from FIGS. 1 and 2, both the electric motor housing 5 formed cylindrically with a lateral surface 49 and with bottoms 51, 53 formed at the ends of the lateral surface 49 and arranged coaxially therewith are likewise cylindrical with respect to an inner one Jacket surface 55 formed pump housing 9 pushed into or on the plastic connector 13. For this purpose, the connecting element 13 has in each case a cylindrical receiving pot 57 or 59 for connection to the electric motor housing 5 and the pump housing 9.

Between the Aufnähmetopfen 57, 59 of the plastic connecting element 13 is a passage opening 61 for the motor shaft 19 coaxial with a corresponding passage 63 through a first pump housing 9 facing bottom 51 of the bottoms of the electric motor housing 5 is provided.

In contrast to the electric motor housing 5, the pump housing 9 is formed only with a bottom 65 at the end remote from the electric motor housing 5 of its cylindrical inner circumferential surface 55 and pot-like open in the direction of the electric motor. designed gate housing 5, wherein the pump housing 9 is guided with the electric motor housing 5 facing the end of its cylindrical lateral surface 55 via the associated receiving pot 59 of the connecting element 13. The pump housing 9 is pushed for attachment to the plastic connecting element 13 in this case over the outer periphery of the second pot of the connecting element 13, wherein for ease of pushing the free outer peripheral edge 67 of the second on ^¬ nahmetopfes 59 of the connecting element 13 is formed as a run-on slope.

Alternatively, it is also conceivable that the pump housing is inserted with a corresponding outer contour analogous to the recording of Elekt ^¬ romotorgehäuses 5 on an inner circumference of the lateral surface of the second receiving pot of the plastic connecting element 13.

To form the plug-and-detent connections 43, 45, 47, protrusions 69, 71, 73 and corresponding recesses 70, 72, 74 are formed on both the connecting element 13 and the electric motor housing 5 and the pump housing 9 of the connecting element 13 with the electric motor housing 5 and the pump housing 9 come into operative contact and cause an anti-rotation or axial locking of the pump housing 9 and electric motor housing 5 relative to the plastic connecting element 13.

Specifically, in the embodiment shown, recesses 70 are provided on the first bottom 51 of the electric motor housing 5 facing the hydraulic pump 11, which are arranged in a bolt circle thereon and also serve to vent the interior of the electric motor housing 5, to cooperate with correspondingly shaped, pin-like projections 69 at the first bottom 51 of the electric motor housing 5. When inserting the electric motor housing 5 in the associated first receiving pot 57 of the plastic connecting element 13 reach the projections 69 and Ausneh ^¬ ments 70 in engagement with each other and cause a rotation ^¬ fuse of the electric motor housing. 5

At the same time, the outer surface of the electric motor housing 5 slides when inserted into the first pot 57 of the plastic ^¬ connecting element 13 to axially in one of the hydraulic ^¬ pump 11 facing away, radially inwardly projecting and having a run-on slope, a projection 71 forming noses, which engage in the end position of the electric motor housing 5 on the connecting element 13 in corresponding recesses 72 which are hole-like around the circumference of the lateral surface 49 of the electric motor housing 5 and serve in addition to the axial locking of the electric motor housing 5 on the connecting element 13 also a ventilation of the interior of the electric motor housing 5 ,

As can be seen from FIG. 1, in the area of the radially inwardly projecting lugs 71, similarly shaped lugs 76 extend outwards, whereupon, for example, a protective cap (not shown in detail) can be fastened.

Analogous to the fixing of the electric motor housing 5 to the plastic connecting element 13 is between the lateral surface of the second, the recording of the pump housing 3 associated receiving pot 59 of the connecting element 13 and the inner circumferential surface 55 of the pump housing 9, a projection 73 on the part of the Verbindungsseiements 13 and a groove-like recess 74 formed on the inner wall of the pump housing 9.

The hydraulic unit 1 is completely sealed relative to the environment and between an inner space 10 of the pump housing 9 and the electric motor housing 5, wherein the sealing tion between the hydraulic pump 11 containing the inner space 10 of the pump housing 9 and the pot 57 of the Ver ^{¬ bonding} element 13 for the electric motor housing 5 by means of a radial shaft seal 75, which arranged on a the interior ^¬ space 10 of the pump housing facing paragraph of the plastic connecting element 13 is and in this case the motor ^¬ shaft 19 in the region of the passage 63 by the bottom 51 of the first pot 57 surrounds takes place.

For sealing the hydraulic pump 11 containing and acting as a working space thereof interior 10 of the pump housing 9 with respect to the environment between the outer surface of the second, the recording of the pump housing 9 associated Aufnähmetopfes 59 of the Verbindungsseiements 13 and the inner circumferential surface 55 of the pump housing 9 as an O Ring seal formed seal 77 arranged.

As can be seen from FIGS. 1 and 2, seals 79, 81, 83 formed in the region of the bearing of the stator 23 of the hydraulic pump 11 in the bottom 65 of the pump housing 9 are furthermore provided as O-ring seals.

The bottom 65 of the pump housing 9 has for storage of the stator 23 has a central up to the interior 41 of the tank 15 reaching opening 66, in which the stator 23 is arranged with a clearance fit.

The formed in the stator 23, radial, leading to hydraulic lines recesses 29, 35 are arranged at different axial height of the stator 23 and from each other via one between the stator 23 and the surrounding material of the opening 66 of the pump housing 9 arranged, each as O. Ring seal trained sealant 79, 81, 83 sealed. For closing the blind holes formed as, the radial recesses or holes 29, 35 with the rotor 17 of the hydraulic pump 11 connecting axial channels 31, 33 at its free axial end herein is a respective plug 85, 87 inserted from plastic sealing material.

For axial securing of the stator 23 in the pump housing 9, a recess 91 formed as a recess is formed on the stator 23, into which aluminum material of the surrounding pump housing 9 is pressed by means of a stamping process.

To prevent rotation of the stator 23 in the pump housing 9, two formed on opposite sides of the stator 23 Teilkreisscheibenartige milled cuts or key surfaces 83 are provided, in turn, the aluminum material of the surrounding pump housing 9 is embossed in a further embossing step.

As can be seen particularly clearly in FIGS. 1 and 2, the pump housing 9 is in the embodiment shown with the hydraulic medium-containing tank 15, which is arranged here coaxially with the pump housing 9 and the electric motor housing 5, via a pot-like flange 95 sealed connected, wherein the pot-like flange is disposed on the electric motor housing 5 remote from the end of the pump housing 9.

The connection in this case again takes place in such a way that the housing of the tank 15 is inserted into the cup-shaped flange 95 with a projection 97 formed on its outer circumference, wherein the bead-like projection 97 engages in a groove-like recess 99 on the inner wall of the cup-shaped flange 95. For sealing against the environment, a seal 101 formed with an O-ring is inserted between the interior 41 of the tank 15 and the catch formed by the projection 97 and the recess 99.

Coaxial with the motor shaft 19 and the longitudinal axis of the Hydrau ^¬ likpumpe 11, the tank 15 at its end remote from the hydraulic pump 11 an outlet opening 103 to the environment, which can be closed by means of a closure lid 105th

The closure lid 105, which is made of an oil-resistant plastic, is fixed by means of a Aufsetz-Verrast- device 107 on a housing part 109 of the tank 15, wherein the particular for receiving the closure lid 105 housing part 109 of the tank 15 is formed like a flange.

To form the Aufsetz-Verrast means 107 first detent means 111 and at a particular in FIG. 5 apparent inner contour 113 of the closure lid 105 second locking means 115 are provided on an outer side of the flange-like housing 109 which cooperate with the first locking means 111.

The first locking means 111 on the outer circumference of the flange-like housing part 109 are presently designed as a groove-like recess, while the here cooperating second locking means 115 are formed as deformable or resilient locking tabs made of plastic, which in the circumferential direction radially inwardly each have a projection 117, which engages in the groove-like recess 111 have.

The plastic closure lid 105 is thus with the one to achieve a spring effect widening diameter of the closure lid 105 forming locking tabs 115 on the flange-like housing part 109 of the tank 15, which surrounds the outlet opening 103, inverted and axially shifted in the direction of the outlet opening 103, wherein the locking tabs 115 are temporarily flexed outwardly until they come into engagement Stel ^¬ lung with the groove-like recess 111 and hereby lock.

To the cap 105 again just with a Get used ^¬ impeccable service tool such. B. a screwdriver, is on the outside of the flange-like housing part 109 adjacent to an edge 119 of the closure lid 105 a Werkzeugingriffsnut 121 formed by the edge 119 of the closure lid 105 and a shoulder of the housing 15 of the tank. By engaging in the Werkzeugingriffsnut with a suitable tool, the locking tabs 115 can be bent out of the groove-like recess 111, whereby the locking connection of the attachment latching device 107 is released and the closure lid 105 can be removed.

The outlet opening 103, which in the present case has a diameter of about 20 mm, is formed like a collar in the embodiment shown, wherein the closure lid 105 engages with a plug-like portion in the collar-like outlet opening 103. Between the wall of the outlet opening 103 and the plug-like portion 106 of the closure lid 105, a seal 123 designed as an O-ring seal is used, which seals the interior 41 of the tank 15 in the region of the closure lid 105 from the environment.

Claims

1. Hydraulic unit for actuating at least one movable component, in particular a moving in a Ver ^¬ deck movement of a convertible vehicle Fahr ^¬ device, with a housing (3) for receiving an electric motor (7) and one of the electric motor (7) driven, with a hydraulic medium containing tank (15) hydraulically connected hydraulic pump (11), wherein the hydraulic pump (11) on a hydraulic medium supply and discharging stator (23) arranged rotor (17), and the housing (3) at least by a Electric motor (7) receiving the electric motor housing (5) and a hereby in use connected, the hydraulic pump (11) receiving the pump housing (9) is formed, characterized in that the stator (23) is arranged with a clearance fit in the pump housing (9).

2. A hydraulic unit according to claim 1, characterized in that one on the electric motor housing (5) facing away from the pump housing (9) arranged bottom (65) of the pump housing (9) has a particular central, a bearing of the stator (23) of the hydraulic pump (11) forming opening (66).

3. A hydraulic unit according to claim 1 or 2, characterized in that in the stator (23) radial, leading to hydraulic lines recesses (29, 35) and this with the rotor (23) of the hydraulic pump (11) connecting axial channels (31 , 33) are formed, wherein the radial recesses (29, 35) at different axial height of the stator (23) are arranged and from each other via a respective between the stator (23) and the surrounding material of the pump housing (9) arranged sealing means (79, 81, 83), in particular an O-ring seal (79, 81, 83 ), are sealed.

4. A hydraulic unit according to claim 3, characterized in that the axial channels (31, 33) are formed as blind holes and sealed at its free axial end by a plug (85, 87) are sealed.

5. Hydraulic unit according to one of claims 1 to 4, characterized in that for the axial locking and / or rotation of the stator (23) in the pump housing (9) at least one peripheral recess (91) on the stator (23) is formed, in which a material of the surrounding pump housing (9) is pressed by means of a stamping process.

6. Hydraulic unit according to one of claims 1 to 5, characterized in that the electric motor housing (5) and the pump housing (9) without direct contact with each other via a connecting element (13) made of plastic are interconnected.

7. A hydraulic unit according to claim 6, characterized in that the connecting element (13) via at least one plug-locking connection (43, 45, 47) with the electric motor housing (5) and the pump housing (9) is connected.

8. A hydraulic unit according to claim 6 or 7, characterized in that the connecting element (13) each have a cylindri ^¬ rule pot (57, 59) for connection to the electric motor housing (5) and the pump housing (9), wel ^¬ che one each cylindrical lateral surface (49, 55) have on ^¬ and in particular are arranged coaxially with each other, having.

9. A hydraulic unit according to claim 8, characterized in that the electric motor housing (5) at the ends of its cylindrical lateral surface (49) each having a bottom (51, 53), wherein a first, the pump housing (9) facing bottom (51) a passage (63) for a motor shaft (19).

10. A hydraulic unit according to claim 8 or 9, characterized in that the pump housing (9) is pot-shaped, wherein the pump housing (9) with the electric motor housing (5) facing the end of its cylindrical lateral surface (55) via the receiving pot (59). of the connecting element (13), in particular over its outer circumference, is guided.

11. Hydraulic unit according to one of claims 6 to 10, characterized in that for forming the at least one plug-latching connection (43, 45, 47) on the Verbindungseieinent (13) on the one hand and the electric motor housing (5) and the pump housing ( 9) on the other hand in each case in a mating of the connecting element (13) with the electric motor housing (5) and the pump housing (9) in operative contact passing, an anti-rotation and / or axial Arretie ^¬ tion causing projections (69, 71, 73) and this kor ^¬ responding recesses (70, 72, 74) are formed.

12. Hydraulic unit according to one of claims 8 to

11, characterized in that the first, the consumption of the electric motor housing (5) associated with the pot (57) of the Verbindungsele ^¬ member (13) having at least a thereto mounted seal (75), in particular a motor shaft (19) (in the region of the passage 63) of the motor shaft (19) through the bottom (51) of the first pot (57) surrounding radial shaft seal (75), relative to a hydraulic pump (11) containing the interior space (10) of the pump housing (9) is sealed.

13. A hydraulic unit according to one of claims 8 to 12, characterized in that between the lateral surface of the second, the receptacle of the pump housing (9) associated receiving pot (59) of the connecting element (13) and the lateral surface (55) of the pump housing (9). at least one seal (77), in particular an O-ring seal (77), which seals an interior space (10) of the pump housing (9) containing the hydraulic pump (11) from an environment.

14. Hydraulic unit according to one of claims 1 to 13, characterized in that the pump housing (9) with the hydraulic medium-containing tank (15) is connected, wherein the tank (15) an outlet opening (103) to the environment, which is sealable by means of a closure lid (105) closable such that the closure lid (105) by means of a Aufsetz-Verrast means (107) on a housing part (109) of the tank (15) can be fixed ,