DE102014216855B4 - Wheel carrier and method for mounting a brake plate on a wheel carrier - Google Patents

Abstract

Wheel carrier (1) for arranging a wheel bearing (2) on a body of a motor vehicle, having a base body (3) with a wheel side (4) on which the wheel bearing (2) and a wheel can be arranged, and a vehicle side (5), which faces the motor vehicle when installed, a mount (6) for the wheel bearing (2) with a mount axis (7), a plurality of holding devices (8) for pivotably fastening the wheel carrier (1) to a body of the motor vehicle, at least one Sensor mount (9) with a through-bore (10) for accommodating a sensor, the through-bore (10) having an opening (11) on the wheel side (4) which is surrounded by a receiving surface (12) of the sensor mount (9), wherein the opening (11) has a first solder (13) which is arranged parallel to the mounting axis (7), characterized in that the mounting surface (12) has a contact surface (14) on which a wheel carrier side (15) of a brake plate (16 ) splash water di cht can be arranged.

Description

The invention relates to a wheel carrier for arranging a wheel bearing on a body of a motor vehicle. The wheel carrier has a base body with a wheel side on which a wheel bearing and a wheel can be arranged and a vehicle side that faces the motor vehicle when installed, a mount for a wheel bearing with a mounting axis, a plurality of links for pivotably fastening the wheel carrier to a Body of the motor vehicle and at least one sensor mount with a through hole for receiving a sensor. The through hole has an opening on the wheel side, which is essentially surrounded by a receiving surface of the sensor mount. The opening has a plumb line that is substantially parallel to the receiving axis.

Wheel carriers are also referred to as steering knuckles and are components of a chassis of a motor vehicle on which wheels are rotatably mounted about a wheel axle via wheel bearings. In the case of multi-link axles, the wheel carrier is held pivotably on a body of the vehicle by means of a plurality of—usually three to five—linkages.

Furthermore, a large number of sensors are used in modern motor vehicles. B. for recording environmental variables such. As temperature or humidity are formed. Other sensors can e.g. B. Operating variables of the vehicle, such as. B. a speed of the wheels or accelerations detect. In particular, safety-related systems such. B. trigger controls of airbags, anti-lock braking systems (ABS) or traction control systems (ASR), are dependent on such sensors, in particular sensors for detecting the speed of a wheel.

Sensors for detecting the rotational speed of a rear or front wheel of a motor vehicle are often arranged at a central point on the wheel carrier in a sensor mount. In conventional constructions, a gap is formed between the sensor mount and a brake plate arranged on the wheel carrier. The speed of a neighboring wheel can be recorded by the sensor through a punched-out section in the brake plate. From the documents EP 2 020 310 B1 , which represents the generic prior art, and DE 195 38 212 A1 various wheel carrier assemblies with speed sensors are known.

Such sensor assemblies have the disadvantage that the sensor because of the gap between the sensor mount and the brake plate bad against environmental influences such. B. splashing water is protected. In addition, turbulent air currents occur on the sensor mount during operation, which promote a distribution of the spray water on the sensor. Thus, a sensor arranged in the sensor holder is exposed to increased wear, which is particularly high when the spray water contains substances that promote corrosion, such as e.g. B. road salt has.

It is therefore the object of the present invention to provide a wheel carrier which, at least in part, does not have the above disadvantages. Furthermore, it is the object of the invention to develop a method for producing a wheel carrier which at least partially does not have the above disadvantages.

According to the invention, this object is achieved by a wheel carrier for arranging a wheel bearing on a chassis of a motor vehicle according to claim 1 and by a method for assembling a wheel carrier according to claim 10 . Further configurations and details of the invention result from the dependent claims, the description and the drawings.

Accordingly, the object is achieved by a wheel carrier for arranging a wheel bearing on a body of a motor vehicle, the wheel carrier having a base body with a wheel side on which a wheel bearing and a wheel can be arranged and a vehicle side that faces the motor vehicle when installed, a receptacle for a wheel bearing with a receiving axle, a plurality of links for pivotably attaching the wheel carrier to a body of the motor vehicle and at least one sensor receptacle with a through hole for receiving a sensor. The through hole has an opening on the wheel side, which is essentially surrounded by a receiving surface of the sensor mount. The opening has a first perpendicular which is arranged essentially parallel to the receiving axis. The receiving surface has a contact surface on which a wheel carrier side of a brake plate can be arranged in a substantially splash-proof manner.

The receptacle formed on the wheel side is formed, for example, as a circular recess into which an outer ring of a wheel bearing can be fitted. In an alternative embodiment, the receptacle has a cylindrical axis onto which an inner ring of the wheel bearing can be slid. The receptacle preferably has means for axially fixing the wheel bearing.

The wheel can be arranged on the wheel carrier so that it can rotate about the mounting axis via the wheel bearing. About the handlebars of the wheel carrier is pivotable and preferably sprung and dampened on the Body of the motor vehicle can be arranged so that a compression or rebound of the wheel relative to the body is possible. Furthermore, the track and/or camber of the wheel can preferably be adjusted via the handlebars.

The sensor is, for example, a conventional speed sensor that is used as standard for automotive ABS. The sensor is z. B. can be arranged in the through hole, so that a sensor eye is arranged on the wheel side of the through hole, which is directed to the wheel. Since a brake plate is arranged between the sensor and the wheel, the brake plate has a punched-out area that corresponds approximately to a diameter of the sensor and is used to record the speed of the wheel, e.g. B. with optical means, made possible by the sensor. In this case, the brake plate can preferably be arranged on the wheel carrier in such a way that the sensor extends as far as the punched-out area or protrudes somewhat through it. A wheel bearing encoder is optionally arranged on the sensor. The sensor mount is preferably designed in such a way that the sensor can be arranged perpendicular to the wheel.

A brake plate can be mounted on the wheel carrier in such a way that the contact surface of the receiving surface preferably contacts the brake plate directly and thus protects the sensor from spray water that penetrates into an area between the brake plate and wheel carrier. In the context of the invention, splash water is understood to be the water that gets into the area between the wheel carrier and the brake plate when the vehicle is used as intended on a wet road, especially when driving through puddles, especially at high speeds.

A wheel carrier of this type has the advantage over known wheel carriers that a sensor and wheel bearing encoder arranged in the sensor receptacle are effectively protected against spray water, particularly at high speeds, and are therefore subject to less wear. This is particularly advantageous if the spray water contains substances that promote corrosion, such as e.g. B. has road salt. The service life of the sensor is thus extended and the reliability of the system that evaluates the measurement data recorded by the sensor is increased.
In a preferred embodiment of the invention, the receiving surface is essentially planar and has a second perpendicular which is arranged essentially parallel to the receiving axis. This is advantageous in that the wheel carrier can be used according to the invention with a conventional brake plate, since conventional brake plates are designed as deep-drawn parts and also have a flat surface in the area of the punched-out area for the sensor. The flat surface of the brake plate can be brought into contact with the receiving surface on a contact surface in such a way that the contact surface essentially surrounds the opening of the sensor receptacle. In this way, the sensor and the wheel bearing encoder are optimally protected against splash water with simple means and without the use of additional components.

More preferably, the receiving surface has at least one profile section which is designed as an elevation and/or depression, the profile section essentially surrounding the opening. Such a profile section is preferably designed as a depression that is designed to drain liquids, in particular splash water. This has the advantage that the sensor's splash water protection is further improved and larger manufacturing tolerances of the wheel carrier and brake plate are possible. As a result, production costs can be reduced.

The profile section is preferably of essentially ring-shaped design. A ring shape is well suited for draining liquids. Thus, the sensor is optimally protected against moisture.

It is preferred that the profile section and the opening are arranged concentrically to one another. This embodiment can be produced particularly advantageously.

In a preferred embodiment of the invention, the receiving surface is designed for the arrangement of a sealing device for sealing a gap between the receiving surface and the brake plate. The sealing device is designed, for example, as a sealing ring that can be attached to the sensor and brought into contact with the receiving surface and the brake plate in such a way that the sensor is protected from splashing water. An alternative embodiment of a sealing device is essentially designed as a flat sealing disk that can be arranged surrounding the sensor on the receiving surface and can be brought into contact with the receiving surface and the brake plate in such a way that the sensor is protected from splash water. This has the advantage that the sensor's splash water protection is further improved and larger manufacturing tolerances of the wheel carrier and brake plate are possible.

A brake plate is preferably arranged on the wheel carrier, with the wheel carrier side of the brake plate being arranged essentially splash-proof on the contact surface of the mounting surface of the wheel carrier. A wheel carrier of this type with a brake plate has the advantage over known wheel carriers with a brake plate that a sensor arranged in the sensor receptacle is effectively protected against spray water, particularly at high speeds, and thus has a lower loss subject to wear. This is particularly advantageous if the spray water contains substances that promote corrosion, such as e.g. B. has road salt. The service life of the sensor is thus extended and the reliability of the system that evaluates the measurement data recorded by the sensor is increased.

In an advantageous embodiment of the invention, a sealing device is arranged between the wheel carrier and the brake plate, which essentially surrounds the opening. This has the advantage that the sensor's splash water protection is further improved and larger manufacturing tolerances of the wheel carrier and brake plate are possible.

The sealing device is particularly preferably designed as a rubber or silicone seal. Such seals have a good sealing effect and a long service life. In addition, such seals z. B. as a purchased part, to acquire inexpensively.

• - Montieren eines Sensors in eine Durchgangsbohrung einer Sensoraufnahme eines Radträgers;
• - Anordnen eines Bremsenblechs auf einer Radseite des Radträgers.

Furthermore, the object is achieved according to the invention by a method for mounting a brake plate on a wheel carrier. The procedure has the following steps:

• - Mounting a sensor in a through hole of a sensor mount of a wheel carrier;
• - Arranging a brake plate on a wheel side of the wheel carrier.

The brake plate is arranged on the wheel carrier in such a way that the wheel carrier and the brake plate have a substantially splash-proof contact surface around the through hole. Compared to known methods for mounting a brake plate on a wheel carrier, this method has the advantage that the sensor is particularly protected against spray water.

• 1 eine perspektivische Ansicht eines Radträgers nach dem Stand der Technik;
• 2 eine perspektivische Ansicht eines erfindungsgemäßen Radträgers;
• 3 eine perspektivische Ansicht eines Radträgers mit Bremsenblech gemäß der Erfindung; und
• 4 ein Flussdiagramm eines erfindungsgemäßen Verfahrens.

A preferred exemplary embodiment of the invention is to be explained in more detail below with reference to drawings. In the drawings shows schematically:

• 1 a perspective view of a wheel carrier according to the prior art;
• 2 a perspective view of a wheel carrier according to the invention;
• 3 a perspective view of a wheel carrier with brake plate according to the invention; and
• 4 a flowchart of a method according to the invention.

1 shows a known wheel carrier 1 with a base body 3 with a wheel side 4 and a vehicle side 5 that is opposite the wheel side 4 and cannot be seen in this view Base body 3 is arranged. A wheel bearing 2 (not shown in this illustration) (cf. 3 ) arrangeable. The wheel carrier 1 has a plurality of holding devices 8 which are designed to connect the wheel carrier 1 to a body of a motor vehicle by means of handlebars. Adjacent to the receptacle 6 is a sensor receptacle 9 which has a central through bore 10 with an opening 11 and a receptacle surface 12 surrounding the opening. The opening 11 has a first perpendicular 13 which is formed essentially parallel to the receiving axis 7 . The receiving surface 12 has rounded edges and is set back somewhat towards the base body 3 along the first perpendicular 13 . Therefore, when the wheel carrier 1 and brake plate 16 are installed, the receiving surface 12 is not in contact with the brake plate 16, so that a sensor arranged in the through hole 10, such as a B. a speed sensor for measuring the speed of a wheel, is only insufficiently protected against splashing water.

the inside 2 The wheel carrier 1 according to the invention that is shown also has a base body 3 with a wheel side 4 and a vehicle side 5 that is opposite to the wheel side 4 and cannot be seen in this view. On the wheel side 4 there is an essentially hollow-cylindrical receptacle 6 with a receptacle axis 7 which is arranged essentially perpendicularly to the base body 3 . A wheel bearing 2 (not shown in this illustration) (cf. 3 ) arrangeable. The wheel carrier 1 has a plurality of holding devices 8 which are designed to connect the wheel carrier 1 to a body of a motor vehicle by means of handlebars. Adjacent to the receptacle 6 is a sensor receptacle 9 which has a central through bore 10 with an opening 11 and a receptacle surface 12 surrounding the opening. The opening 11 has a first perpendicular 13 which is formed essentially parallel to the receiving axis 7 .

In contrast to wheel carrier 1 1 does the in 2 Wheel carrier 1 according to the invention shown has a receiving surface 12 with a longer flank, so that the receiving surface 12 is arranged closer to the brake plate 16 when the wheel carrier 1 and brake plate 16 are installed than the receiving surface 12 1 . The receiving surface 12 has a substantially planar contact surface 14 with a second solder 17, the paral lel to the first perpendicular 13 or to the recording axis 7 is arranged. The sensor receptacle 9 is designed in such a way that the contact surface 14 is in contact with the brake plate 16 when the wheel carrier 1 and brake plate 16 are installed in such a way that a sensor arranged in the sensor receptacle 9 is protected from spray water. Accordingly, it is provided according to the invention that the contact surface 14 or the contact of the contact surface 14 and the brake plate 16 essentially, preferably completely, z. B. in a circular path or spirally surrounds.

3 shows a wheel carrier 1 according to the invention in an exploded view with a wheel bearing 2 and a brake plate 16 arranged between the wheel carrier 1 and the wheel bearing 2. The brake plate has a wheel carrier side 15, which cannot be seen in this view, and which, in the installed state of the wheel carrier 1 and the brake plate 16, forms the wheel carrier 1 points. The brake plate 16 is designed in such a way that a sensor arranged in the sensor holder 9 is directed through the brake plate onto the wheel and thus z. B. the speed of the wheel can be detected. For this purpose, the brake plate 16 preferably has a passage that cannot be seen in this illustration. B. can be produced by punching. The leadthrough preferably has a shape and size that essentially corresponds to a sensor head of the sensor that can be arranged on the leadthrough.

4 shows the method according to the invention in a flowchart. In the first method step 20, a sensor is installed in a through hole 10 of a sensor mount 9 of a wheel carrier 1. In the second method step 20 a brake plate 16 is mounted on a wheel side 4 of the wheel carrier 1 so that a wheel carrier side 15 of the brake plate 16 faces the wheel carrier 1 . In addition, the brake plate 16 contacts a contact surface 14 of the sensor mount 9, so that the sensor is protected against splashing water.

Contacting the brake plate 16 and contact surface 14 is also an indirect contact via another body, such as. B. understood a spacer or a sealing ring.

reference list

1

wheel carrier

2

wheel bearing

3

body

4

wheel side

5

vehicle side

6

Recording

7

recording axis

8th

holding device

9

sensor recording

10

through hole

11

opening

12

recording surface

13

first lot

14

contact surface

15

wheel carrier side

16

brake plate

17

second lot

20

first step in the process

30

second process step

Claims (10)

Wheel carrier (1) for arranging a wheel bearing (2) on a body of a motor vehicle, having a base body (3) with a wheel side (4) on which the wheel bearing (2) and a wheel can be arranged, and a vehicle side (5), which faces the motor vehicle when installed, a mount (6) for the wheel bearing (2) with a mount axis (7), a plurality of holding devices (8) for pivotably fastening the wheel carrier (1) to a body of the motor vehicle, at least one Sensor mount (9) with a through-bore (10) for accommodating a sensor, the through-bore (10) having an opening (11) on the wheel side (4) which is surrounded by a receiving surface (12) of the sensor mount (9), wherein the opening (11) has a first solder (13) which is arranged parallel to the mounting axis (7), characterized in that the mounting surface (12) has a contact surface (14) on which a wheel carrier side (15) of a brake plate (16 ) splash water ot arrangeable. wheel carrier after claim 1 , characterized in that the receiving surface (12) is flat and has a second solder (17), the second solder (17) being arranged parallel to the receiving axis (7). wheel carrier after claim 1 or 2 , characterized in that the receiving surface (12) has at least one profile section, which is designed as an elevation and / or depression, wherein the profile section surrounds the opening (11). wheel carrier after claim 3 , characterized in that the profile section is annular. wheel carrier after claim 3 or 4 , characterized in that the profile section and the opening (11) are arranged concentrically to each other. Wheel carrier according to one of the preceding claims, characterized in that the receiving surface (12) is designed for the arrangement of a sealing device for sealing a gap between the receiving surface (12) and the brake plate (16). Wheel carrier (1) according to one of the preceding claims, characterized in that the brake plate (16) is arranged on the wheel carrier (1), the wheel carrier side (15) of the brake plate (16) being splash-proof on the contact surface (14) of the receiving surface (12 ) of the wheel carrier (1) is arranged. Wheel carrier (1) after claim 7 , characterized in that between the wheel carrier (1) and the brake plate (16) a sealing device is arranged, which surrounds the opening (11). Wheel carrier (1) after claim 8 , characterized in that the sealing device is designed as a rubber seal. Method for mounting a brake plate (16) on a wheel carrier (1), comprising the steps: - mounting a sensor in a through hole (10) of a sensor mount (9) of a wheel carrier (1); - Arranging a brake plate (16) on a wheel side (4) of the wheel carrier (1); characterized in that the brake plate (16) is arranged on the wheel carrier (1) in such a way that the wheel carrier (1) and the brake plate (16) have a splash-proof contact surface (14) around the through hole (10).

Images