阅读说明：本技术 具有对中部件的车轮轮毂 (Wheel hub with centering component ) 是由 卢卡·多内蒂 达里奥·里奇 马可·罗马涅托 安东尼奥·鲁尤 于 2019-06-10 设计创作，主要内容包括：一种车轮轮毂(20),具有对称轴线(X)并且包括法兰(22)、管状体(24)和对中装置(50),所述法兰(22)横切所述对称轴线(X)并且设置有多个固定孔(23),用于附接车轮；所述管状体(24)在轴向上从所述法兰(22)延伸,用于支撑滚动轴承(40)；所述对中装置(50)配置在所述法兰(22)的与所述管状体(24)所在侧相反的一侧,并且位于与所述车轮轮毂(20)的对称轴线(X)同轴的位置,用于保持车轮轮辋或制动盘；所述对中装置(50)在沿轴向从所述法兰(22)突出的相应的连续管状体(51)上设置有在周向上且在轴向上延伸的给定数量的平坦区域(58)。(A wheel hub (20) having an axis of symmetry (X) and comprising a flange (22), a tubular body (24) and a centring device (50), said flange (22) being transversal to said axis of symmetry (X) and being provided with a plurality of fixing holes (23) for attaching a wheel; said tubular body (24) extending in an axial direction from said flange (22) for supporting a rolling bearing (40); -said centring device (50) is arranged on the opposite side of said flange (22) to that of said tubular body (24) and in a position coaxial with the axis of symmetry (X) of said wheel hub (20) for holding a wheel rim or brake disc; the centring means (50) are provided with a given number of flat regions (58) extending circumferentially and axially on respective continuous tubular bodies (51) projecting axially from the flange (22).)

1. A wheel hub (20) having an axis of symmetry (X) and comprising:

-a flange (22) transversal to said axis of symmetry (X) and provided with a plurality of fixing holes (23) for attaching a wheel;

-a tubular body (24) extending in an axial direction from said flange (22) for supporting a rolling bearing (40); and

-centring means (50) arranged on the opposite side of the flange (22) to the tubular body (24) and in a position coaxial with the axis of symmetry (X) of the wheel hub (20) for retaining a wheel rim or a brake disc;

the wheel hub (10) is characterized in that the centring means (50) comprise a respective continuous tubular body (51), the respective continuous tubular body (51) projecting in the axial direction from the flange (22), being bounded in the radial direction by an outer mounting surface (52) and being provided with a given number of flat regions (58) extending in the circumferential direction and in the axial direction on the outer mounting surface (52).

2. Wheel hub according to claim 1, wherein the flat areas (58) are arranged perpendicularly with respect to a respective directrix (D) passing through the axis of symmetry (X).

3. Wheel hub according to claim 1 or 2, wherein the given number of flat areas (58) present is equal to the number of fixing holes (23).

4. A wheel hub unit (10) for a motor vehicle comprising a flanged inner ring or wheel hub (20) and an outer ring (30), preferably the outer ring (30) is flanged and fixed with respect to the flanged inner ring, the wheel hub unit (40) being characterized in that the flanged inner ring or wheel hub (20) is provided according to any one of the preceding claims.

Technical Field

The present invention relates to a wheel hub with a centring member forming part of a wheel hub unit.

In particular, but not exclusively, the invention is suitable for a wheel hub unit for a motor vehicle for mounting a vehicle wheel on a strut (pillar) connected to the vehicle.

Background

German patent DE102009015950a1 discloses a wheel hub unit having an axis of symmetry and comprising:

-a flange, transversal to the axis of symmetry and provided with a plurality of fixing holes, for attaching a wheel;

-a tubular body extending in an axial direction from the flange for supporting a rolling bearing; and

-centring means, arranged on the side of the flange opposite to the side on which the tubular body is located and in a position coaxial with the axis of symmetry of the wheel hub, for retaining the wheel rim (rim) or the brake disc.

In the known wheel hub described above, the centering device (centering device) is formed by connecting members that are separated from each other in the circumferential direction by recesses for the purpose of reducing the weight of the wheel hub. However, centering devices so constructed not only pose production-related problems due to the relatively complex machining of the connecting parts, but also structural problems due to the possibility of forming critical zones in the flange in the region of the recesses.

Disclosure of Invention

The object of the present invention is to provide a wheel hub with a centring member which does not have the above-mentioned disadvantages while maintaining a low weight.

According to the present invention, a wheel hub with a centring member is provided, having the characteristics as set forth in the appended claims.

Drawings

The invention will now be described with reference to the accompanying drawings which show non-limiting examples of embodiments of the invention, in which:

FIG. 1 is a perspective view of a preferred embodiment of a wheel hub according to the present invention;

fig. 2 is a perspective view, on a smaller scale, of the wheel hub according to fig. 1, with parts broken away and removed for greater clarity;

fig. 3 is a front view, on a smaller scale, of the wheel hub according to fig. 1;

fig. 4 and 5 are views on a larger scale of two details of the wheel hub according to fig. 2.

Detailed Description

Referring to fig. 1, a wheel hub unit in accordance with a preferred embodiment of the present invention is generally shown at 10.

The unit 10 has an axis of symmetry X or axis of rotation X and comprises a wheel hub 20, the wheel hub 20 being configured to also function as a rolling inner ring of the unit 10 and for this reason also being referred to as a flanged inner ring. The wheel hub unit 10 allows assembling a vehicle wheel (known and not shown) and an associated disc brake (known and not shown) on a strut (known and not shown) connected to said vehicle, allowing the wheel to rotate about the axis X and with respect to the strut.

Throughout the present description and claims, terms and expressions indicating positions and directions such as "radial" and "axial" are understood with reference to the central axis of rotation X of the unit 10. While expressions such as "axially outer" and "axially inner" refer to the assembled state, in a particular case preferably to the wheel side, i.e. the side of the unit 10 directed towards the wheel or towards the outside of the vehicle, and correspondingly to the side opposite the wheel side, i.e. the side of the unit 10 towards the inside of the vehicle.

In addition, as shown in fig. 2, the wheel hub unit 10 for a motor vehicle includes:

an outer ring 30, preferably the outer ring 30 is flanged (flanged) for connecting the unit 10 to said struts and the outer ring 30 is provided with a corresponding raceway (known and not shown) similar to the raceway 21 that the wheel hub 20 is also provided with; and

a plurality of rolling bodies (known and not shown) located between the inner ring or wheel hub 20 and the outer ring 30.

The assembly consisting of the two rings, i.e. the inner ring 20 and the outer ring 30, and the rolling bodies (known and not shown) forms a rolling bearing 40, the rolling bearing 40 forming part of the wheel hub unit 10 for allowing a wheel fixed to the inner ring or wheel hub to rotate relative to a strut (known and not shown) of the vehicle.

In an example of embodiment of the present invention, the wheel hub 20 further comprises:

a flange 22, transversal to the axis of symmetry X and provided with a plurality of fixing holes 23 for attaching the wheel;

a tubular body 24, extending in an axial direction from the flange 22, for supporting a rolling bearing 40; and

a centring device 50, arranged on the opposite side of the flange 22 to the tubular body 24 and in a position coaxial with the axis of symmetry X of the wheel hub 20, for holding a wheel rim (known and not shown) and/or a brake disc (known and not shown) forming part of said wheel.

The centring device 50 allows centring the wheel rim and the brake disc with respect to the axis X and mounting them on the wheel hub unit 10, the centring device 50 comprising a continuous tubular body 51 projecting in the axial direction from the flange 22 and delimited radially on the outside by an outer mounting surface 52 (/ delimited by the outer mounting surface 52), as shown in detail in fig. 4 and 5, the outer mounting surface 52 being substantially defined by three distinct portions 53, 54 and 55 arranged in succession starting from a free outer edge 56 of the tubular body 51, wherein:

the portion 53 is a conical receiving portion for mounting the wheel rim and the brake disc on the wheel hub unit 10 and tapers outwardly and towards a free outer edge 56 of said wheel hub unit 10;

the portion 55 is a concave transition between the tubular body 51 and the flange 22 for reducing any local tensions and allowing a better distribution of said tensions, preventing the formation of cracks (cracks) and fissures (failure) that would lead to a reduction of the working life of the wheel hub unit 10;

portion 54 is radially delimited by surface 52 (/ bounded by surface 52), is an intermediate cylindrical portion located between portion 53 and portion 55, and the dimensions of the outer diameter of portion 54 are greater than both the dimensions of the outer diameter of free outer edge 56 and the dimensions of cylindrical end surface 57 of portion 55.

In particular, as also shown in fig. 3, still aimed at reducing the weight of the structure of the wheel hub 20 and of the associated wheel hub unit 10, but also aimed at adding to the further functions required in order to solve the technical problems affecting in particular the current wheel hub units, as described below, the centring device 50 is provided with a given number of flattened (flattened) zones 58, the flattened zones 58 being uniformly distributed about the axis X and extending circumferentially on the tubular body 51 and axially from the outer edge 56 on the outer surface 52.

The flat area 58 is arranged perpendicularly with respect to a directrix D passing through the axis of symmetry X of the wheel hub 20 and interferes in a radial direction with both the conical receiving portion 53 extending from the free outer edge 56 and with the intermediate cylindrical portion 54, thus reducing the radial thickness of both the portion 53 and the portion 54; furthermore, the flat area 58 is arranged substantially continuously with the cylindrical end face 57 of the portion 55.

When the brake disc and the wheel rim are mounted axially close to the flange 22 and are centered with respect to the axis X by the centering device 50 due to the cooperation between the inner edges of the mounting holes (not shown) of the brake disc and the wheel rim and the intermediate cylindrical portion 54, the necessary configuration of the transition portion 55 will cause, as occurs in wheel hub units and wheel hubs of known type, a gradual and undesired accumulation of water within the volume defined by the brake disc, the wheel rim and the continuous tubular body 51. On the contrary, thanks to the invention, i.e. thanks to the above-described novel configuration of the centring device 50 of the wheel hub 20, and in particular thanks to the presence of the flat areas 58, a real drain area formed by said flat areas 58 is established between said inner edge of the mounting hole (not shown) of the brake disc and the continuous tubular body 51, which allows any accumulated water to flow out.

In the example of embodiment shown here, the number of flat areas 58 is five, and likewise the fixing holes 23 have the same number. However, since the flat regions 58 affect both the weight of the wheel hub unit 10 (i.e., the weight of the wheel hub 20 itself) and the strength of the continuous tubular body 51, their number may also vary depending on the size of the continuous tubular body 51 and the result in terms of obtaining a weight reduction, however, their number is affected by the residual structural strength (residual structural strength) of the continuous tubular body 51.

In addition to the embodiments of the invention, as described above, it should be understood that many other variations are possible. It must also be understood that the described embodiments are only examples and do not limit the subject of the invention, nor the application thereof, nor the possible configurations thereof. On the contrary, although the description provided above enables a person skilled in the art to carry out the invention at least in one of its constructional examples, it must be understood that numerous variations of the described components are possible without thereby departing from the scope of the invention as defined in the appended claims, as interpreted literally and/or according to their legal equivalents.