DE102022211945A1 - Oil module and cooling arrangement and electric vehicle - Google Patents

Abstract

The invention relates to an oil module (1). The oil module (1) comprises a housing (2) made of a plastic, which surrounds a housing interior (3) and extends along an axial direction (A). The oil module (1) has a recess (5) on an axial end face (4) of the housing (2), in which a sealing element (6) can be received or is received. The recess (5) is delimited radially on the outside by a radially outer housing wall (7a) of the housing (2) and radially on the inside by a radially inner housing wall (7b) of the housing (2). According to the invention, the radially outer housing wall (7a) projects axially beyond the radially inner housing wall (7b), preferably in a longitudinal section along the axial direction (A).

Description

The invention relates to an oil module and a cooling arrangement with such an oil module. The invention further relates to an electric vehicle with such a cooling arrangement or with such an oil module.

Oil modules through which oil can flow are used in modern motor vehicles, especially in electric vehicles, for example to cool and clean transmission oil. Accordingly, such an oil module typically contains a heat exchanger as a functional component, by means of which heat can be transferred from the oil to another fluid. In addition, a filter device can be provided to free the oil or transmission oil of dirt particles and the like.

Typically, such a conventional oil module comprises a housing with a housing opening, i.e. an open housing, so that said functional components can be easily mounted in the housing. The entire oil module can be installed as part of a cooling arrangement in a motor vehicle. In this case, a housing cover of the oil module acts as a flange plate to close the housing opening, by means of which the entire oil module can be permanently and stably attached to the motor vehicle. For this reason, the flange plate or the housing cover is usually made of metal. In order to ensure sufficient fluidic sealing of the housing interior surrounded by the housing from the external environment, so that the functional components mentioned are protected against external influences, a sealing element is typically provided at the transition from the housing to the housing cover, by means of which the housing interior is sealed from the external environment of the housing of the oil module. Such a sealing element can be arranged in a recess provided on the front side of the housing.

However, it often proves problematic that the sealing element can be damaged by corrosive infiltration of the metal housing cover by a liquid medium with a corrosive effect, such as salty water, so that the desired sealing effect can no longer be guaranteed. This problem occurs in particular when the oil module is installed in an electric vehicle, since the operating temperature of the drive system is usually considerably lower in this case than in a vehicle with an internal combustion engine, which promotes the corrosive infiltration of the sealing element.

It is therefore an object of the present invention to provide an improved embodiment for an oil module in which said corrosive infiltration of the sealing element no longer occurs or such infiltration is at least counteracted.

This object is achieved by the subject matter of the independent patent claims. Preferred embodiments are the subject matter of the dependent patent claims.

The basic idea of the invention is therefore to provide a recess on the front side of the housing for receiving a sealing element with an outer groove flank - i.e. facing away from the housing interior - which has a reduced flank height compared to the radially inner groove flank - i.e. facing the housing interior - in that it is lowered, so that when the housing cover is mounted on the housing, the housing is arranged with the outer groove flank at a distance from the housing cover. The mechanical contact between the housing cover and the housing is therefore only realized by the radially inner groove flank. The said receiving groove is therefore open to the outside even when the housing cover is mounted on the housing. In this way, liquid corrosive medium collected in the recess can flow out of the recess more easily. This allows the receiving groove to dry out better. As a result, the sealing element is better protected against corrosion.

In detail, an oil module according to the invention comprises a housing made of a plastic which partially surrounds a housing interior and extends along an axial direction and which has a housing opening on an axial end face. A preferably annular recess is formed in the housing on its axial end face, which preferably completely encloses the housing opening. At least one functional component of the oil module can be arranged in the housing interior. The at least one functional component can in particular be a heat exchanger for dissipating heat from the oil. The at least one functional component can also be a filter device for separating dirt particles from the oil. The oil module has a preferably annular recess on an axial end face of the housing, in which a preferably annular sealing element is accommodated. The recess is delimited radially on the outside by a radially outer housing wall of the housing and radially on the inside by a radially inner housing wall of the housing. According to the invention, the radially outer housing wall projects beyond, preferably in a longitudinal section along the axial direction, the radially inner housing wall axially.

In a preferred embodiment of the oil module according to the invention, this comprises a housing cover made of a metal, preferably aluminum, which rests against the radially inner housing wall to close the housing opening and is arranged axially at a distance from the radially outer housing wall. Said housing cover can thus also function as a flange element or flange plate, by means of which the entire oil module can be stably mounted on a suitable mounting component of an electric vehicle.

In a preferred embodiment, the recess is formed in the longitudinal section along the axial direction by a receiving groove for receiving the sealing element. In this embodiment, the receiving groove is axially delimited by a groove base and radially by a radially outer and a radially inner groove flank. In this embodiment, an extension of the inner groove flank measured along the axial direction has a greater value than an extension of the outer groove flank also measured along the axial direction. The resulting gap creates an opening radially on the outside through which liquid medium with a corrosive effect that has accumulated in the receiving groove or on the sealing element, such as water with a corresponding salt content, can flow out of the receiving groove. The recess or receiving groove that is open to the outside also supports the drying of the recess or receiving groove.

Particularly preferably, a difference between the value of the axial extension of the radially inner housing wall and the value of the axial extension of the radially outer housing wall can be at least 0.5 mm.

According to an advantageous development, the sealing element arranged in the recess projects axially beyond the radially outer housing wall or the radially outer groove flank. This ensures that no corrosive medium can penetrate between the sealing element and the housing cover into the housing interior.

Particularly preferably, the sealing element rests on and/or against the groove base. This prevents the corrosive medium between the sealing element and the housing from penetrating into the housing interior from the outside.

The sealing element can be a particularly useful ring-shaped sealing ring. The material used for the sealing element or the sealing ring is preferably a material with spring-elastic properties, in particular a spring-elastic plastic, particularly preferably an elastomer.

Particularly preferably, the housing can have the geometry of a hollow cylinder, the central longitudinal axis of which extends along the axial direction. In this embodiment, the recess present on the axial end face runs completely around the central longitudinal axis along a circumferential direction perpendicular to the axial direction. A radial direction extends perpendicular to both the axial direction and the circumferential direction away from the central longitudinal axis.

It is particularly useful if the housing cover covers the recess axially. In this way, a liquid corrosive medium that has accumulated in the recess can easily flow out into the external environment. This achieves an improved drying effect.

Particularly preferably, the radially outer housing wall is arranged axially at a distance from the housing cover, forming an opening. This measure also makes it easier for passive medium accumulated in the recess to flow out into the external environment.

It is particularly expedient if the distance between the radially outer housing wall and the housing cover, measured along the axial direction, is at least 0.5 mm.

In a further preferred embodiment, the recess or receiving groove and/or the sealing element has an annular geometry and extends along the circumferential direction of the housing.

The invention further relates to a cooling arrangement with a flange plate made of a metal, preferably aluminum, and with an oil module according to the invention presented above. The advantages of the oil module according to the invention explained above are therefore transferred to the cooling arrangement according to the invention. The flange plate of the cooling arrangement according to the invention is formed by the housing cover of the oil module.

The invention further relates to an electric vehicle with a purely electric drive system for driving the electric vehicle. Furthermore, the electric vehicle according to the invention comprises a cooling arrangement according to the invention presented above or an oil module according to the invention presented above. In both cases, the advantages of the oil module according to the invention explained above are transferred to the electric vehicle according to the invention.

Further important features and advantages of the invention emerge from the subclaims, from the drawings and from the associated description of the figures based on the drawing.

It is understood that the features mentioned above and those to be explained below can be used not only in the combination specified in each case, but also in other combinations or on their own, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawing and are explained in more detail in the following description, wherein identical reference numerals refer to identical or similar or functionally identical components.

The only 1 shows schematically and in a highly simplified partial view an example of a cooling arrangement 20 according to the invention. The cooling arrangement 20 comprises an oil module 1 according to the invention. The oil module 1 comprises a housing 2 made of a plastic, which partially surrounds a housing interior 3 and extends along an axial direction A. In the housing interior 3, a heat exchanger (not shown) can be provided as a functional component of the oil module 1, by means of which heat can be transferred from the oil to another fluid. A filter device (not shown) can be provided as a further functional component in order to free the oil from dirt particles and the like.

The 1 shows a longitudinal section of the cooling arrangement 20 or the oil module 1 along the axial direction A. The housing 2 can therefore have the geometry of a hollow cylinder 14, the central longitudinal axis M of which is as in 1 shown extends along the axial direction A. A radial direction R extends perpendicular to the axial direction A away from the central longitudinal axis M. A circumferential direction U runs perpendicular to both the axial direction A and the radial direction R around the central longitudinal axis M.

The oil module 1 has a housing opening 15 on an axial end face 4 of the housing 2, which encloses the housing 2. The housing 2 is therefore open. A recess 5 is provided on the axial end face 4 of the housing 2, which encloses the housing opening 15. The recess 5 has an annular geometry and runs completely around the central longitudinal axis M along the circumferential direction U. A sealing element 6, which can be an annular sealing ring 9, is accommodated in the recess 5. The recess 5 is delimited radially on the outside by a radially outer housing wall 7a of the housing 2 and radially on the inside by a radially inner housing wall 7b of the housing 2.

The radially outer housing wall 7a and the radially inner housing wall 7b also both run completely around the central longitudinal axis M along the circumferential direction U and thus each have an annular geometry. The two housing walls 7a, 7b and the recess 5 are arranged in a cross section (not shown) perpendicular to the axial direction A concentric to the central longitudinal axis M.

How 1 As can be seen from the longitudinal section of the oil module 1, the oil module 1 has a housing cover 16 made of a metal, for example aluminum, to close the housing opening 15, which axially covers the recess 5 formed on the housing 2 of the oil module 1. As can be seen from the longitudinal section of the 1 still removable, the radially outer housing wall 7a projects beyond the radially inner housing wall 7b along the axial direction A. Therefore, the housing cover 16 only rests on the radially inner housing wall 7b, but not on the radially outer housing wall 7a.

In the example, the recess 5 is formed by a receiving groove 8 for receiving the sealing element 6. The receiving groove 8 is delimited axially by a groove base 10 and radially by a radially outer and a radially inner groove flank 11a, 11b. An extension Eb of the inner groove flank 11b measured along the axial direction A has a greater value than an extension Ea of the outer groove flank 11a also measured along the axial direction A. A difference between the value of the axial extension of the radially inner housing wall 7a and the value of the axial extension 7b of the radially outer housing wall 7b can be 0.5 mm or more.

The radially outer housing wall 7a is thus arranged at an axial distance from the housing cover 16, forming a circumferential opening 12. A distance a of the radially outer housing wall 7a from the housing cover 16, measured along the axial direction A, which corresponds to an axial opening diameter of the opening 12, is accordingly 0.5 mm or more. The sealing element 6 is supported axially on both the housing 2 and the housing cover 16 in order to fluidically seal the housing interior 3 against an external environment 13 of the housing 2. The sealing element 6 rests against the groove base 10 and projects axially beyond the radially outer housing wall 7a or the radially outer groove flank 7a.

The cooling arrangement 20 according to the invention with the oil module 1 explained above can have a flange plate 21 made of a metal, for example aluminum, by means of which the cooling arrangement can be installed on a motor vehicle. The flange plate 21 can be formed by the housing cover 16 of the oil module 1.

Claims (15)

Oil module (1) for a motor vehicle, - with a housing (2) made of a plastic which partially surrounds a housing interior (3) and extends along an axial direction (A), which has a housing opening (15) on an axial end face (4), - with a recess (5) formed in the housing (2) on the axial end face (4) thereof, which encloses the housing opening (15), wherein a sealing element (6) is accommodated in the recess (5), - wherein the recess (5) is delimited radially on the outside by a radially outer housing wall (7a) of the housing (2) and radially on the inside by a radially inner housing wall (7b) of the housing (2), - wherein the radially outer housing wall (7a), preferably in a longitudinal section along the axial direction (A), projects axially beyond the radially inner housing wall (7b). Oil module according to Claim 1 , characterized in that the oil module (1) comprises a housing cover (16) made of a metal, preferably aluminum, which closes the housing opening (15) and rests on the radially inner housing wall (7b) and is arranged axially at a distance from the radially outer housing wall (7a). Oil module according to Claim 1 or 2 , characterized in that in the longitudinal section along the axial direction (A) the recess (5) is formed by a receiving groove (8) for receiving the sealing element (6), which is axially delimited by a groove base (10) and radially by a radially outer and a radially inner groove flank (11a, 11b), wherein an extension (Eb) of the inner groove flank (11b) measured along the axial direction (A) has a greater value than an extension (Ea) of the outer groove flank (11a) also measured along the axial direction (A). Oil module according to one of the Claims 1 until 3 , characterized in that a difference between the value of the axial extension of the radially inner housing wall (7a) and the value of the axial extension of the radially outer housing wall (7b) is at least 0.5 mm. Oil module according to one of the preceding claims, characterized in that the sealing element (6) projects axially beyond the radially outer housing wall (7a) or the radially outer groove flank (7a). Oil module according to Claim 5 , characterized in that the sealing element (6) rests on or against the groove base (10). Oil module according to Claim 5 or 6 , characterized in that the sealing element (6) is an annular sealing ring (9). Oil module according to one of the preceding claims, characterized in that the housing (2) has the geometry of a hollow cylinder (14) whose central longitudinal axis (M) extends along the axial direction (A), the recess (5) present on the axial end face (4) runs completely around the central longitudinal axis (M) along a circumferential direction (U). Oil module according to one of the Claims 2 until 8th , characterized in that the housing cover (16) axially covers the recess (5). Oil module according to one of the Claims 2 until 9 , characterized in that the radially outer housing wall (7a) is arranged at an axial distance from the housing cover (16) to form an opening (12). Oil module according to one of the Claims 2 until 10 , characterized in that a sealing element (6) is arranged in the recess (5), which is supported axially both on the housing (2) and on the housing cover (16) for the fluidic sealing of the housing interior (3) against the external environment (13) of the housing (2). Oil module according to one of the Claims 2 until 11 , characterized in that a distance (a) measured along the axial direction (A) between the radially outer housing wall (7a) and the housing cover (16) is at least 0.5 mm. Oil module according to Claim 1 or 2 , characterized in that the receiving groove (8) has an annular geometry and extends along a circumferential direction (U) of the housing (2). Cooling arrangement (20) for a motor vehicle, - with a flange plate (21) made of a metal, preferably of aluminium, - with an oil module (1) according to one of the Claims 2 until 13 , wherein the base plate (21) is formed by the housing cover (16) of the oil module (1). Electric vehicle, - with a purely electric drive system for driving the electric vehicle, - with a cooling arrangement (20) according to Claim 14 or with an oil module (1) according to one of the Claims 1 until 13 .

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