阅读说明：本技术 车辆轮胎 (Vehicle tyre ) 是由 斯特凡·里特韦格 彼得·博根许茨 于 2018-03-19 设计创作，主要内容包括：一种在固化模具中固化的呈径向结构形式的车辆轮胎,该车辆充气轮胎具有胎面、胎圈区域和侧壁(1),其中这些侧壁(1)在其侧壁表面上具有信息(2),这些信息作为纹理(3)被布置在平坦的侧壁表面(4)中,或者这些信息作为平坦的侧壁表面被布置在纹理中,其中-该纹理(3)具有纹理深度(5),该纹理深度沿轴向方向(rR)从该纹理的表面(6)直至该纹理的底部(7)进行测量,-最大的雕刻深度(8)是确定的,该最大的雕刻深度沿轴向方向(rR)从该平坦的侧壁表面(4)直至该纹理的假想的、延长的底部(10)进行测量,-并且该最大的雕刻深度(8)大于该纹理深度(5),从而使得在该侧壁的表面上、在从该平坦的侧壁表面(4)向该纹理的表面(6)的过渡部处设计有阶梯(9)。该阶梯高度(11)小于等于0.09mm,该最大的雕刻深度(8)为0.0至0.40mm,并且该纹理深度(5)为0.05至0.30mm。(A vehicle tyre in the form of a radial structure cured in a curing mould, having a tread, a bead region and sidewalls (1), wherein the sidewalls (1) have information (2) on their sidewall surface, which is arranged as a texture (3) in a flat sidewall surface (4) or which is arranged as a flat sidewall surface in a texture, wherein-the texture (3) has a texture depth (5) measured in an axial direction (rR) from the textured surface (6) up to a bottom (7) of the texture, -a maximum engraving depth (8) is determined, which is measured in the axial direction (rR) from the flat sidewall surface (4) up to an imaginary, elongated bottom (10) of the texture, -and the maximum engraving depth (8) is greater than the texture depth (5), so that a step (9) is designed on the surface of the side wall at the transition from the flat side wall surface (4) to the textured surface (6). The step height (11) is 0.09mm or less, the maximum engraving depth (8) is 0.0 to 0.40mm, and the texture depth (5) is 0.05 to 0.30 mm.)

1. A vehicle tyre in the form of a radial structure cured in a curing mould, having a tread, bead regions and sidewalls (1), wherein the sidewalls (1) have information (2) on their sidewall surfaces, which information is arranged as a texture (3) in a flat sidewall surface (4), or which information is arranged as a flat sidewall surface in a texture, wherein

-the texture (3) has a texture depth (5) measured in axial direction (aR) from the surface (6) of the texture up to the bottom (7) of the texture,

-a maximum engraving depth (8) is determined, measured in the axial direction (rR) from the flat sidewall surface (4) up to an imaginary, elongated bottom (10) of the texture,

and the maximum engraving depth (8) is greater than the texture depth (5), so that a step (9) is designed on the surface of the side wall at the transition from the flat side wall surface (4) to the textured surface (6),

it is characterized in that the preparation method is characterized in that,

the step height (11) is less than or equal to 0.09mm,

the maximum engraving depth (8) is 0.05 to 0.40mm, and

the depth of the texture (5) is 0.05 to 0.30 mm.

2. Vehicle tyre according to claim 1, characterized in that the step height (11) is equal to or less than 0.05 mm.

3. Vehicle tyre according to claim 1 or 2, characterized in that the maximum engraving depth (8) is 0.05 to 0.39mm, preferably 0.05 to 0.35mm, particularly preferably 0.05 to 0.30 mm.

4. Vehicle tyre according to one of claims 1 to 3, characterized in that the depth of texture (5) is 0.01 to 0.20 mm.

5. Vehicle tyre according to one of claims 1 to 4, characterized in that it is a passenger pneumatic tyre.

Technical Field

The invention relates to a vehicle tire in the form of a radial structure cured in a curing mold, having a tread, bead regions and sidewalls, wherein the sidewalls have information on their sidewall surfaces, which information is arranged as a texture in a flat sidewall surface or vice versa.

Background

A vehicle tire has information such as letters, numbers, symbols, or images on its sidewall. Such information may indicate, for example, the manufacturer, the tire size, or the direction of rotation in the tire in which the direction of rotation is constrained. According to the invention, the term "information" is intended to exclude the so-called "legal statements", which legally stipulate that the legal statements are arranged as prominent letters on the lower region of the side wall.

The term "texture" includes both directional roughness and non-directional roughness, the texture being disposed on the surface of the sidewall and forming a Relief line (Relief). Thereby, a contrast with respect to the surrounding faces is generated, and readability of the information is obtained. The contrast is formed by reflection and/or projection.

"oriented roughness" refers to a "structure" that is a collection of elements that are repeating in nature, ordered. An example of a structure is hatched.

Tire curing is carried out in a hot-pressing manner, wherein the tire blank is inserted into a suitable curing mold and cured under the action of heat and pressure. Furthermore, the curing mold for a tire is composed of mold segments that together form the radially outer surfaces of the tire (such as the tread and sidewalls), while other segments form other areas of the tire. The uncured, green tire blank is cured in the curing mold and converted into its final rubber-elastic state by a rubber crosslinking reaction. The tire has a profile design and a sidewall design of the tire obtained by a corresponding negative design of the molding surfaces of the mold sections.

It is known, for example, to design the information of the side wall (for example by hatching) as a texture and to arrange this texture in a concave manner compared to a smooth side wall surface surrounding this hatching. This means that the hatched surface (which is formed by the plane in which the hatched peaks are present) is further offset axially inwards with respect to the flat, surrounding hatched surface.

It is also known to design this information as a flat surface and to design the surface surrounding this information in a textured (e.g. shaded) manner. In this case, the hatched surface is likewise arranged further axially inwards with respect to the flat surface. In both cases, a step, i.e. a depth offset, is arranged at the transition from the flat sidewall surface to the textured surface.

The texture has a texture depth measured from the highest protrusion of the texture up to the bottom of the texture, wherein the texture depth is measured along an imaginary straight line lying perpendicularly on the surface of the texture.

A maximum engraving depth is determined, which is measured from the surface of the smooth side wall up to an imaginary base of the texture, which extends parallel to the contour, wherein the engraving depth is measured along a straight line lying perpendicularly on the surface of the smooth side wall.

The maximum engraving depth is greater than the texture depth, so that a step is designed on the surface of the side wall at the transition from the flat side wall surface to the textured surface.

This step is production dependent and in prior art tyres the step height is 0.15 to 0.30 mm. In the prior art tires, the maximum engraving depth was 0.50 to 0.60mm, and the texture depth was 0.30 mm.

It has proven to be more efficient in the production of corresponding, milled curing molds: the flat faces are first milled in a concave manner into the side shells and the remaining faces to be textured are made upright, in order to introduce the texture (e.g. hatching) into the remaining faces in a second step. The curing mold shows the negative of the tire surface. The depth of the texture in the cured mold is not as deep as the depth of the flat face. Thus, the milling head need not stop exactly at the boundary with respect to the flat face, but may travel beyond that boundary. The travel of the cutter head over the flat face is through the air because the flat face is lower. The curing mold can thus be produced efficiently and cleanly in time in such a way that the information is precisely demarcated from the surrounding surfaces. The tire cured with the curing mold has a visually high quality appearance.

In tire development, further improvements in the appearance of tires as well as the durability of tires and optimization of tires in terms of aerodynamics are constantly sought after.

Disclosure of Invention

It is therefore an object of the present invention to provide a vehicle tire, the appearance of which and the durability of which are further improved and which is optimized in terms of its aerodynamics.

According to the invention, this object is achieved in that: the step height is 0.09mm or less, the maximum engraving depth is 0.05 to 0.40mm, and the texture depth is 0.05 to 0.30 mm.

By this combination of reduced engraving depth, reduced texture depth and reduced step height a nearly "smooth" to step-free sidewall surface is obtained, which has aerodynamic advantages. The durability is likewise improved, since the notch effect (Kerbwikung) and thus the risk of crack formation is reduced by the reduced or missing steps. The information on the sidewall can be read very clearly, although the texture depth is also reduced, which is also advantageous for the endurance of the tire.

Furthermore, the side wall thickness, in particular the outer rubber layer, can be significantly reduced by the overall reduced bead depth. Thereby, a significantly lower rolling resistance can be obtained.

Conveniently, the step height is less than or equal to 0.05 mm. Thereby, the aerodynamics and durability of the tire are further improved. The step of the side wall is only very small or even non-existent. The durability and aerodynamics of the tire are improved.

Advantageously, the maximum engraving depth is 0.05 to 0.39mm, preferably 0.05 to 0.35mm, particularly preferably 0.05 to 0.30 mm. Durability and aerodynamics are improved by reducing this depth. However, a minimum relief/roughness is required to produce the contrast required for readability of this information.

Conveniently, the depth of the texture is 0.01 to 0.20 mm. The ventilation is improved by the reduced depth, thereby improving the quality impression of the tire. Durability and aerodynamics are improved by reducing this depth. However, a minimum relief/roughness is required to produce the contrast required for readability of this information.

In a preferred embodiment of the invention, the maximum engraving depth is in the range of 0.15 to 0.25mm and the texture depth is in the range of 0.1 to 0.2 mm. Thereby creating a step of 0.05 mm.

The negative relief lines of the curing mold can be produced by milling or by means of a laser. In the case of milling, there are boundaries with respect to the depth of the hatching, whereas in the case of laser engraving these do not exist. The finest grain can be introduced into the curing mold in a concave manner by means of the laser. Thus, for example, a maximum engraving depth of about 0.05mm is possible, which provides a contrast at the tire to be cured that is still acceptable at all times, so that the information on the tire sidewall is clearly readable.

The vehicle pneumatic tire is preferably a passenger vehicle (PKW) tire.

Drawings

Further features, advantages and details of the invention are explained in more detail below with the aid of schematic drawings illustrating embodiments. In the drawings:

figure 1 shows a partial section of a sidewall of a pneumatic vehicle tyre according to the prior art,

figure 2 shows a partial section of a sidewall of a pneumatic tyre for vehicles according to the invention,

fig. 3 shows a perspective view of a partial surface of a side wall according to the invention.

Detailed Description

Fig. 1 shows a partial cross section of a sidewall of a pneumatic tire for passenger vehicles in the form of a radial structure according to the prior art. The pneumatic tire is cured in a curing mold and has a tread, bead regions (not shown) and sidewalls 1. On the side wall surface, information 2 is arranged, which is surrounded by a flat side wall surface 4 as a hatched line 3.

The hatching 3 has a texture depth 5 of 0.30 mm. The grain depth 5 is measured in the axial direction aR from the surface 6 of the grain up to the bottom 7 of the grain. The maximum engraving depth 8 is 0.50 to 0.60mm and is measured in the axial direction from the flat side wall surface 4 up to the imaginary, elongated bottom 10 of the texture. The maximum engraving depth 8 is greater than the texture depth 5, so that a step 9 is formed on the surface of the side wall at the transition from the flat side wall surface 4 to the textured surface 6. This step 9 has a height 11 of 0.20 to 0.30 mm.

Fig. 2 shows a partial section of a sidewall 1 of a pneumatic vehicle tyre according to the invention. The detail of the side wall 1 of fig. 2 differs from the detail of fig. 1 in that: the step 9 is a height 11 of 0.09mm or less, the maximum engraving depth 8 is 0.05 to 0.40mm, and the texture depth 5 is 0.05 to 0.30 mm. This results in an almost "smooth" side wall with a minimum step height 11 and a smaller texture depth 5. The tire can thus be manufactured with a high quality in terms of tire ventilation, is more aerodynamic in terms of the sidewall, and is also more durable due to the smaller notch effect.

Fig. 3 shows a perspective view of a partial surface of the side wall 1 according to the invention. The side wall surface has information 2, which is arranged as hatching 3 in a flat side wall surface 4. The step height 11 is equal to or less than 0.09mm and is 0.01mm here. The maximum engraving depth 8 is 0.05 to 0.40mm and the texture depth 5 is 0.05 to 0.30 mm.

Description of the reference numerals

1 side wall

2 information

3 hatching

4 flat sidewall surface

5 depth of grain

6 textured surface

7 bottom of texture

8 maximum engraving depth

9 steps

10 textured base elongated parallel to the contour

11 step height

rR radial direction

aR axial direction

uR circumferential direction