WO2016112931A1

WO2016112931A1 - Wheel bearing arrangement on a vehicle wheel of a vehicle

Info

Publication number: WO2016112931A1
Application number: PCT/EP2015/002235
Authority: WO
Inventors: Werner Scharinger; Tobias Stapf; Johannes Albl; Michael Frisch
Original assignee: Audi Ag
Priority date: 2015-01-17
Filing date: 2015-11-07
Publication date: 2016-07-21
Also published as: DE102015000549A1; DE102015000549B4

Abstract

The invention relates to a wheel bearing arrangement (1) on a vehicle wheel of a vehicle, comprising a wheel bearing (2) with which the vehicle wheel is rotatably mounted on the vehicle, wherein the wheel bearing (2) is designed as a lubricated rolling bearing having a plurality of rolling elements (7) rolling between bearing-side races (3, 4), wherein a bearing inner space (8), which receives the rolling elements (7) and a lubricant, is provided between the races (3, 4), in which space at least one electrical heating element (12, 13) is arranged which is electrically connected to an open-loop and/or closed-loop control device arranged outside of the wheel bearing (2). According to the invention, the at least one electrical heating element (12, 13) is electrically connected to an electrical plug contact (14, 15) through one of the races (3, 4), wherein preferably a plug contact-connection cable (37) running from the open-loop and/or closed-loop control device to the plug contact (14, 15) and electrically connected to the plug contact (14, 15), runs at least in part guided inside a further electrical unit (34) arranged on the vehicle side and/or is at least in part a component of a further electrical unit (34) arranged on the vehicle side.

Description

description

Wheel assembly on a vehicle wheel

of a vehicle

The invention relates to a wheel bearing assembly on a vehicle wheel of a vehicle.

Wheel bearings for supporting a vehicle, in particular a wheel hub of a vehicle wheel, are well known. For such wheel bearings are usually single or multi-row bearings, for example tapered roller bearings or ball bearings used, which can also absorb axial forces in addition to radial forces. The rolling bearings regularly have a plurality of bearing-side raceways, in particular between an inner ring and an outer ring rolling rolling elements, which are regularly kept separated by a cage. In order to further reduce the friction between the rolling elements and the raceways, the roller bearings forming the wheel bearings are lubricated by means of a lubricant, in particular by means of a lubricating grease, that in an outwardly sealed space between the two opposing raceways of the outer and inner ring, in which the rolling elements rotate, is recorded. The wheel bearings used in vehicles are designed to be maintenance-free. This is realized with a grease filling, which ensures sufficient lubrication of the rolling elements over the entire life of the wheel bearing. Seals ensure that neither water nor dirt can enter the wheel bearing. For optimal friction reduction by means of the lubricant used, however, it is necessary that this lubricant has a certain temperature in order to reduce the viscosity of the lubricant so that the best possible friction reduction is achieved.

For this purpose, it is already known from JP 2011/058523 A to integrate a heating element in a wheel bearing, by means of which the lubricant can be heated. Specifically, for this purpose, a temperature sensor in the lubricant receiving space is arranged as the intermediate space or as the bearing interior space between the two raceways, which adjusts the lubricant temperature to a certain temperature. The energy supply for the electric heating element via the vehicle battery or a positioned on the vehicle roof solar panel. The heating element can be arranged both outside of the bearing shells as well as be arranged in a roller bearing the body and lubricant bearing interior, wherein in the latter arrangement, the electrical contacting is difficult to perform and is not further discussed.

In contrast, it is an object of the present invention to provide a wheel bearing assembly on a vehicle wheel of a vehicle available, with a arranged in the bearing interior electric heating element can be electrically contacted in a simple and reliable manner from outside the wheel bearing ago.

This object is achieved with the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

According to claim 1, a wheel bearing assembly is proposed on a vehicle wheel of a vehicle, which has a wheel bearing, with which the Vehicle wheel is rotatably mounted on the vehicle. The wheel bearing is designed as a lubricated rolling bearing with several rolling rolling bearing between bearing tracks, wherein between the raceways, a rolling body and a lubricant receiving bearing interior is provided in which at least one electric heating element is arranged, which is used to heat the lubricant in the lubricant receiving space and / or for heating the bearing air contained in the lubricant receiving space is electrically connected to a control and / or regulating device arranged outside the wheel bearing. According to the invention it is provided that the heating element is electrically connected through one of the raceways with an electrical plug contact. According to a particularly preferred embodiment for this purpose, it is provided that a guided by the control and / or regulating device to the plug contact and electrically connected to the plug contact plug contact connection line is guided at least partially within a vehicle arranged further electrical unit and / or at least in part Part of a vehicle side arranged further electrical unit is.

With such a solution according to the invention, the at least one electric heating element can be electrically contacted from outside the wheel bearing in a manner that is simple in terms of assembly technology, functionally reliable and space-friendly. In addition, the plug contact connection line does not need to be designed as an exposed line, but already existing components are already exploited to install the plug contact connection line mounting and space-friendly sealed to the outside.

According to a preferred specific embodiment, the plug contact on a contact housing, in which at least one contact pin is received, wherein the at least one contact pin the contact housing with a free Contact pin end projecting and passed through a runway-side passage through to the, preferably immediately after a bearing interior side opening opening of the implementation arranged in the bearing interior, heating element is guided. In such a contact housing, a contact pin can be reliably absorbed and also functionally reliable shielded against external influences. In addition, such a contact housing allows a particularly advantageous tight contact connection in the field of implementation of the contact pins through the raceway. Particularly preferred here is a specific embodiment, in which the contact housing is formed in the manner of a socket with end faces lying opposite one another in the contact pin longitudinal direction, the contact pin with its free contact pin end being led out of the contact housing at one of the end faces. The end faces can in principle have any desired shape, that is, for example, also arched or flat, as long as according to a particularly preferred embodiment it is ensured that the end face on which the contact pin is led out is in a planar contact connection around the mouth opening area of the leadthrough is applied to create the desired dense system. Accordingly, the contact housing is placed according to a particularly preferred embodiment on a side facing away from the bearing interior of the bearing shell, and in particular sealed and / or immediately attached to an outside mouth opening of the implementation subsequently.

For an even better seal to the outside, it can also be provided that a sealing element is inserted into the outer-side orifice of the bushing, by means of which the contact pin in the region of the orifice can be inserted tightly into the bushing. This sealing element can either be formed by a separate component or but also be an integral part of the contact housing. The sealing element may in principle extend only over a portion of the length of the implementation or extend over the entire length of the implementation to the heating element, so that the sealing element optionally also allows a particularly tight connection of the heating element to the raceway in the bearing interior. The sealing element itself may be made of any suitable material, for example of an elastomeric material. The sealing element can also be designed socket-shaped. Particularly preferred is an embodiment in which the sealing element surrounds the contact pin in a contact connection form and / or contour-matched, whereby a particularly dense implementation of the contact pin is made possible.

In principle, a plurality of heating elements may also be arranged in the bearing interior, for example two heating elements may be arranged, in which case each of the heating elements may each be assigned a separate plug contact. In connection with such, several plug contacts and a plurality of heating elements having embodiment, it is particularly advantageous if the contact housing of the individual plug contacts are connected by a contact housing connection channel in which a contact pin connection line is guided, with the respective contact pins of the individual plug contacts electrically connected is. This results in a particularly advantageous and the electrical line connection and the contact pins to the outside shielding structure, which is also designed compactly compact space. In principle, however, it is also possible to arrange a plurality of contact pins in a single contact housing, which is then correspondingly larger, that is, in this case, instead of a plurality of separate contact housings, a single larger contact housing is provided, in which the contact pins are spaced correspondingly received from each other , According to a first particularly preferred specific embodiment, the plug contact connection line is part of a, the further electrical assembly forming cable harness of the vehicle. The electrical connection between the contact pin accommodated in the contact housing by means of the harness-side plug contact connection line can then be made in this case, for example by means of an electrical plug connection, to name just one example.

According to a further particularly preferred embodiment, it is provided that the plug-in contact connection performance for a particularly compact construction is guided at least partially within a housing of a further electrical component arranged on the vehicle side. Such an electrical component arranged on the vehicle side is preferably arranged directly adjacent to the wheel bearing and thus lends itself to a compact, space-friendly integration of at least one subarea of the plug contact connection line.

According to a particularly preferred specific embodiment, the plug contact connection line is guided at least partially in a housing of a vehicle side, in particular immediately adjacent and / or adjacent to the wheel bearing, arranged sensor element. Such a sensor element may be, for example, a wheel speed sensor and / or an acceleration sensor and / or a tire pressure monitoring sensor. Here, too, at least partially guide the plug contact connection line allows a particularly easy to assemble compact design in conjunction with an electrical contact of integrated in the rolling element heating elements. This means that the plug-in contact connection line can be installed in a configuration of this type in a particularly sealed and space-friendly manner that is sealed off from the outside. The contact housing or, in the case of a plurality of contact housings, at least one of the contact housings can in principle be an integral part of the sensor element housing, for example, be connected to it in the same material and / or in one piece. This means in concrete terms that, for example, in the design of a sensor element housing, the contact housing is already integrated into the housing structure in order to enable the desired cable routing. Such an embodiment is easy to accomplish manufacturing technology and reduces the variety of components. According to an alternative embodiment, which offers greater constructive degrees of freedom, the contact housing or, in the case of a plurality of contact housings, at least one of the contact housings can be arranged directly on the sensor element housing, in particular fixedly connected thereto. Again, this results in a particularly compact and space-friendly arrangement of a contact housing.

According to a specific embodiment may be provided for short connection lines that the plug contact connection line is guided from the sensor element housing, starting through a contact and / or connection region of the sensor element housing with the contact housing through to the contact pin arranged in the contact housing. In addition, this ensures in a simple manner that the plug contact connection line is arranged permanently within a housing structure and thus sealed against the outside environment running.

The plug-in contact connection line preferably forms, together with at least one electrical sensor line running in the sensor element housing, a sensor element-side cable strand. This leads to a function-integrated, cost-saving solution. As already mentioned above, the connection between the plug contact connection line and the contact pin can be designed as a plug contact connection, although, of course, any other suitable electrical contacting is likewise basically possible.

Further, it is preferably provided that the raceways are formed by bearing shells, wherein it is preferably provided that the at least one heating element is electrically connected by a stationary bearing shell with the plug contact.

The invention will be explained in more detail with reference to a drawing. Show it:

1 shows schematically a perspective sectional view through a wheel bearing on a vehicle wheel, not shown here, of a vehicle with an exemplary plug contact connection according to the invention of the heating elements accommodated in the bearing interior, and

2 is an enlarged schematic diagram of the embodiment according to FIG. 1.

In Figs. 1 and 2, only by way of example and schematically a wheel bearing 2 of a wheel bearing assembly 1 of a wheel hub (not shown) of a vehicle wheel, also not shown, is shown. Trained as a rolling bearing wheel bearing 2 here comprises a two bearing side raceways 3, 4 forming inner ring 5 and outer ring 6, wherein the inner ring 5 is formed here by way of example only in two parts. Between the raceways 3, 4 is the rolling elements 7, (only schematically and by way of example in FIG. 2, a single rolling element 7 is shown) and a not further illustrated lubricant receiving space as a bearing interior. 8 provided, which is sealed to the outside with seals 9, wherein in the schematic representation of Fig. 2 only one example of the seals 9 is shown.

The wheel bearing 2 is merely exemplified as a double-row roller bearing with two spaced-apart and formed by the rolling elements rolling bearing rows 10, 11 formed, for reasons of clarity, as previously stated, in Fig. 2, only a rolling element 7 is exemplified.

1 and 2, here are two spaced-apart electrical heating elements 12, 13 arranged here, for example in the form of at least partially or on the inside of the bearing designed as a stationary bearing shell outer ring 6 in sections over the outer ring inner circumference extending electrical heating elements 12, 13th

These two electrical heating elements 12, 13 are electrically connected by the stationary outer ring 6, each with its own electrical plug contact 14, 15.

The plug contacts 14, 15 each have a separate socket-shaped contact housing 16, 17, in each of which a contact pin 18, 19 is received, wherein the contact pins 18, 19 each with their free contact pin ends 20, 21 on a the outer ring 6 facing contact housing end face 22, 23 led out of the contact housing 16 and 17 respectively. As can further be seen from the synopsis of FIGS. 1 and 2, the free contact pin ends 20, 21 in the illustrated assembled state of the contact housing 16, 17 in each case by an outer ring-side passage 24, 25 through to the here immediately in Connection to a bearing interior side mouth opening 26, 27 of the bushings 24, 25 arranged in the bearing interior 8 arranged heating elements 12, 13 and electrically coupled or connected thereto.

As can also be seen from the synopsis of FIGS. 1 and 2, each of the contact housings 16, 17 is thus placed on an outer side of the outer ring 6 facing away from the bearing interior 8, namely tightly or directly against an outer-side orifice 28, 29 of FIG Feedthroughs 24, 25 are then attached.

For a particularly advantageous sealing, a sealing element 30, 31 formed here by way of example by a separate component, which is made, for example, from an elastomeric material, is used in each case in the outer-side orifice 28, 29. Through these sealing elements 30, 31, the contact pins 18, 19 in an optimized manner through the bushings 24, 25 passed tight, the sealing elements 30, 31, the contact pins 18, 19 preferably in a system connection form and / or contour-tight enclose.

The two contact housings 16, 17 of the plug contacts 14, 15 are here communicatively connected to each other by a contact housing connection channel 32, wherein in the contact housing connection channel 32 a contact pin connection line 33 is guided, which with the two contact pins 18, 19 of the plug contacts 14, 15 is electrically connected.

The wheel bearing assembly 1 further comprises a sensor element 34, for example a wheel speed sensor, an acceleration sensor or a tire pressure monitoring sensor, with a sensor element housing 35 in which an electrical sensor line runs or is received for electrical contacting of the sensor element. This electrical sensor line 36 is The contact housing 16 of the plug contact 14 is here directly arranged on the sensor element housing 35 and preferably fixedly connected thereto, so that the plug contact connection line 37 from the sensor element housing 35, starting from the contact and / or connecting region 39 of the sensor element housing 35 with the contact housing 16, can be guided to the contact pin 16 arranged in the contact housing 16. This ensures that a, guided by a control and / or regulating device, not shown, to the respective plug contacts and electrically connected with this Steckkontakt- connection line 37 is at least partially within an already arranged on the vehicle side further electrical unit or at least partially part such a vehicle-side further arranged further electrical unit forms, in the example shown, a sensor element 34 as a further electrical unit. The contact housing connection channel 32 can extend into the sensor element housing 35, as shown in FIGS. 1 and 2. Furthermore, the contact pin connection line 33 can also form part of the electrical plug contact connection line 37. With such an exemplified solution according to the invention thus an existing sensor is thus advantageously used for wiring for electrical contacting of internal heating elements.

Claims

Expectations

Wheel bearing arrangement (1) on a vehicle wheel of a vehicle, with a wheel bearing (2) with which the vehicle wheel is rotatably mounted on the vehicle, the wheel bearing (2) being a lubricated rolling bearing with a plurality of rolling bodies (3, 4) rolling between bearing-side raceways (3, 4). 7) is formed, with a bearing interior (8) receiving the rolling elements (7) and a lubricant being provided between the raceways (3, 4), in which at least one electrical heating element (12, 13) is arranged, which is connected to an outside of the wheel bearing

(2) arranged control and / or regulating device is electrically connected, characterized in that the at least one electrical heating element (12, 13) is electrically connected through one of the raceways (3, 4) to an electrical plug contact (14, 15). , wherein it is preferably provided that a plug contact connecting line (37) which is guided from the control and/or regulating device to the plug contact (14, 15) and is electrically connected to the plug contact (14, 15) is at least partially within a further one arranged on the vehicle side electrical component (34) is guided and / or is at least partially part of a further electrical component (34) arranged on the vehicle side.

Wheel bearing arrangement according to claim 1, characterized in that the plug contact (14, 15) has a contact housing (16, 17) in which at least one contact pin (18, 19) is accommodated, the contact pin (18, 19) the contact housing (16 , 17) with a free contact pin end (20, 21) and through a raceway side The bushing (24, 25) is guided through to the heating element (12, 13) which is arranged in the bearing interior (8), preferably immediately following a mouth opening (26, 27) on the bearing interior side of the bushing (24, 25) and is electrically connected to it .

3. Wheel bearing arrangement according to claim 2, characterized in that the contact housing (16, 17) is designed in the shape of a socket with opposite end faces in the contact pin longitudinal extension direction, the at least one contact pin (18, 19) having its free contact pin end (20, 21) on one the end faces (22, 23) are led out of the contact housing (16, 17), projecting beyond it.

4. Wheel bearing arrangement according to claim 2 or 3, characterized in that the contact housing (16, 17) is placed on an outside of a bearing shell (6), preferably standing, which forms the raceway (3), in particular tightly and / or is placed directly on an outside mouth opening (28, 29) of the feedthrough (24, 25).

5. Wheel bearing arrangement according to claim 4, characterized in that a sealing element (30, 31) formed by a separate component or forming an integral part of the contact housing (16, 17) is inserted into the outside mouth opening (28, 29) of the feedthrough (24, 25) is inserted, through which the contact pin (18, 19) can be tightly inserted into the feedthrough (24, 25) in the area of the mouth opening (28, 29).

6. Wheel bearing arrangement according to one of the preceding claims, characterized in that a plurality of heating elements (12, 13) are arranged in the bearing interior (8), each or at least A plug contact (14, 15) is assigned to part of the heating elements (12, 13).

7. Wheel bearing arrangement according to one of claims 2 to 5 and according to claim 6, characterized in that the contact housings (16, 17) of the individual plug contacts (14, 15) are connected by a contact housing connecting channel (32), in which a contact pin Connecting line (33) is guided, which is electrically connected to the respective contact pins (18, 19) of the individual plug contacts (14, 15).

8. Wheel bearing arrangement according to one of the preceding claims, characterized in that the plug contact connecting line is part of a cable harness of the vehicle that forms the further electrical unit.

9. Wheel bearing arrangement according to one of the preceding claims, characterized in that the plug contact connecting line (37) is at least partially guided within a housing (35) of a further electrical component (34) arranged on the vehicle axle side.

10. Wheel bearing arrangement according to one of the preceding claims, characterized in that the plug contact connecting line (37) is at least partially within a housing (35) of a sensor element (34) arranged on the vehicle side, in particular immediately after and/or adjacent to the wheel bearing (2). , in particular a wheel speed sensor and / or an acceleration sensor and / or a tire pressure monitoring sensor.

11. Wheel bearing arrangement according to one of claims 2 to 7 and claim 10, characterized in that the contact housing or, in the case of several contact housings, at least one of the contact housings is an integral part of the sensor element housing, in particular is connected to it in the same material and / or in one piece.

12. Wheel bearing arrangement according to one of claims 2 to 7 and claim 10, characterized in that the contact housing or, in the case of several contact housings (16, 17), at least one of the contact housings (16) is arranged directly on the sensor element housing (35), in particular is firmly connected to it.

13. Wheel bearing arrangement according to claim 11 or 12, characterized in that the plug contact connecting line (37) ^' starting from the sensor element housing (35) through a contact and / or connection area (39) of the sensor element housing (35) with the contact housing (16) is guided through to the contact pin arranged in the contact housing (16).

14. Wheel bearing arrangement according to one of claims 10 to 13, characterized in that the plug contact connecting line (37) together with at least one electrical sensor line (36) running in the sensor element housing (35) forms a cable harness (38) on the sensor element side.

15. Wheel bearing arrangement according to one of claims 2 to 14, characterized in that the connection between the plug contact connecting line (37) and the contact pin (18) is designed as a plug contact connection.