EP3735356A1

EP3735356A1 - Tyre component for a green tyre

Info

Publication number: EP3735356A1
Application number: EP18799674.9A
Authority: EP
Inventors: Martin Kurz; Danny GIEHRISCH; Tobias Ehmke
Original assignee: Continental Reifen Deutschland GmbH
Current assignee: Continental Reifen Deutschland GmbH
Priority date: 2018-01-05
Filing date: 2018-10-16
Publication date: 2020-11-11
Also published as: CN111542444A; DE102018200103A1; CN111542444B; US20210053401A1; US11458780B2; WO2019134766A1

Abstract

The invention is based on a tyre component (1) for a green tyre (6), wherein a rubber region (2) of the tyre component (1) is made of rubber, wherein at least one transmission and receiving device (3) is arranged in the rubber region (2), wherein the at least one transmission and receiving device (3) is an electromagnetically acting transmission and receiving device (3) and wherein the at least one transmission and receiving device (3) has at least one antenna (4), the at least one antenna (4) being arranged on a carrier device (5).

Description

description

Tire component for a green tire

The present invention relates to a tire. The invention is based on a tire component for a green tire. A rubber portion of the tire component is formed of rubber. At least one transceiver device is arranged in the rubber region, wherein the at least one transceiver device is an electromagnetically acting transceiver device. The at least one transmitting and receiving device has at least one antenna.

A rubber region of the tire component is one such region of the tire component that is formed largely of rubber. The rubber region has in particular a homogeneous rubber formation.

The tire component is, for example, an extruded component.

The at least one transceiver device is, for example, an RFID device. RFID means Radio Frequency Identification, ie

Identification by means of electromagnetic waves. The at least one transceiver device is suitable for storing information.

The information is in particular information about the

Tire component in which the at least one transceiver device is arranged and used.

Furthermore, the at least one transceiver device is suitable for passive or active reading via an external reading device. The at least one transceiver device is preferably provided for receiving information and / or for sending information. The information is about Information about the tire in which the tire component in which the at least one transceiver is located is used.

Tires are known in the prior art, the tires having electromagnetic transmitting and receiving devices. For example, DE 10 2004 045 262 A1 discloses a vehicle tire, wherein the vehicle tire has a carcass and an integrated transponder. The integrated transponder is an electromagnetic transmitting and receiving device. From the prior art it is also known to use electromagnetic transmitting and receiving devices in Gummiumgebungen.

Thus, for example, WO 2010/015782 A2 discloses the arrangement of an RFID device between two rubber layers of a rubber band.

In the applications of transceiver devices known in the art, mechanical loading of the electromagnetic transceiver could occur during a build-up process of the tire or a heating process of the tire, for example during vulcanization or during operation of the tire. In particular, a load on the antenna of the transceiver could occur. This mechanical loading of the antenna could damage this antenna. This damage to the antenna could eventually lead to the transceiver only

unreliable or not working at all. Since the use of a tire component can be improved by means of the transmitting and receiving device, the use of the tire component could not be optimally designed in the case of a defective transceiver device.

The invention is therefore based on the object, a tire component with a

provide electromagnetic transmitting and receiving device, wherein the operation of the electromagnetic transmitting and receiving device is ensured even during a high mechanical load and thus improved use of the

Tire component is enabled. The object of the invention is achieved in that the at least one antenna is arranged on a carrier device.

Due to the circumstance according to the invention, according to which the at least one antenna is arranged on a carrier device, the antenna of the transmitting and receiving device is largely protected against mechanical loads. Background of the protection are the characteristics of the carrier device which reduces the likelihood of physical loading of the antenna as well as a possible extent of this loading. The carrier device supports the antenna.

Overall, thus a reliable use of the antenna of the transmitting and receiving device and thus the operation of the electromagnetic transmitting and receiving device are ensured even in the tire component. An improved use of the tire component is thus made possible.

The invention further relates to a green tire, which is rotatable about an axis of rotation in a circumferential direction, having a tire inner surface and a

Tire outer surface. The tire outer surface is located radially outwardly of the axis of rotation than the inner surface of the tire. The tire outer surface is oriented away from the green tire and the tire inner surface is oriented toward the rotational axis. The green tire has a tire component according to the invention.

The rotation axis is an axis of symmetry of the green tire. The green tire follows the shape of a circle. The axis of rotation lies in the center of this circle. The axis of rotation is perpendicular to the plane in which this circle lies.

The invention further relates to a tire by vulcanization of a

Inventive green tire has been produced. The tire according to the invention may be a car tire or a truck tire or a bicycle tire. The invention further relates to a method for using an electromagnetically acting transceiver in a tire component, comprising at least the steps:

Providing a tire component;

Providing an electromagnetically acting transceiver device, wherein the transceiver device has at least one antenna and the at least one antenna is arranged on a carrier device;

Inserting the electromagnetic transmitting and receiving device in a rubber region of the tire component.

The electromagnetically acting transmitting and receiving device provided in the context of the method according to the invention is one such

Electromagnetically acting transmitting and receiving device, as it is in particular also part of the tire component according to the invention.

Further advantageous embodiments of the present invention are the subject of the dependent claims.

According to a preferred embodiment of the invention, the support device is a fabric, in particular a glass fiber fabric, a nylon fabric, a polyamide fabric, a polyester fabric, a poly (/ -phcnylcntcrcphthalamid) -Gcwcbc and / or a cotton fabric, or a Film, wherein the film is formed in particular of polyamide, polypropylene and / or polyethylene terephthalate. The circumstance according to the invention, according to which the support device is a woven fabric, in particular a glass fiber fabric, a nylon fabric, a polyamide fabric, a polyester fabric, a poly (/ -phthalocyanine) -gcwcbc and / or a cotton fabric, becomes a compound , in particular a cohesive connection, the carrier device with a carrier device immediately surrounding

Rubber material made. This production is also low. Further, the fabric, particularly the glass fiber fabric, the nylon fabric, the polyamide fabric, the polyester fabric, the poly (/ -phthalocyanine) -gcwcbc, and the cotton fabric are superior to those due to its chemical and physical properties Resistant forces, as they can occur in the regular operation of a pneumatic tire.

The circumstance according to the invention that the carrier device is a film, wherein the film is formed in particular from polyamide, polypropylene and / or polyethylene terephthalate, produces a compound, in particular an integral connection, of the carrier device with a rubber material directly surrounding the carrier device , This production is also low. Furthermore, the film, in particular the film made of polyamide,

Polypropylene and / or polyethylene terephthalate is due to their chemical and physical properties to such forces resistant, as they can occur in the regular operation of a pneumatic tire.

According to a preferred embodiment of the invention, the at least one antenna is a linear antenna or a non-linear antenna.

In particular, a non-linear antenna extends in a non-straight form away from the electromagnetic transmitting and receiving device and in particular has a waveform or a meandering shape. An antenna following a waveform or meandering shape can balance strains of the rubber material surrounding the antenna in the direction of the wave direction or the meandering direction and this

Follow expansions. A use of this antenna is then at these strains of

Rubber material largely ensured. By virtue of the fact that the at least one antenna is a linear antenna or a nonlinear antenna, antenna types are used which enable electromagnetic waves to be transmitted to and from the antenna

reliably ensure electromagnetic transmission and reception device or from and to another transceiver unit.

According to a preferred embodiment of the invention, the rubber region is formed of a rubber rubber and / or an elastomer. The circumstance according to the invention, according to which the rubber region consists of a

Rubber rubber and / or an elastomer is formed, a reliable connection, in particular cohesive connection, the transmitting and receiving device can be ensured with the rubber region.

According to a preferred embodiment of the invention, the rubber region is a sidewall region, a rim strip region or a core profile region of the tire component.

A sidewall area is one such gum area which, after incorporation of the tire component into a tire, forms the sidewall of the tire.

A rimstrip area is one such area of rubber that, after incorporation of the tire component into a tire, co-shapes the rimstrip of the tire.

A core profile area is one such rubber area which, after installation of the tire component in a tire, forms the core profile of the tire.

By virtue of the fact that the rubber region is a sidewall region, a rimstrip region or a core profile region of the tire component, the electromagnetic transceiver device is integrated into such a region of a pneumatic tire, in which the electromagnetic transmitting and receiving device is largely protected against mechanical stress. The electromagnetic transmitting and receiving device is then largely protected, in particular in the case of regular and long-term use of the pneumatic tire. Furthermore, the pneumatic tire is largely unaffected by this arrangement in its driving characteristics.

According to a preferred embodiment of the method according to the invention, after the provision of the electromagnetically acting transceiver device, the rubber region is cut such that a receiving opening is created within the rubber region and subsequently the electromagnetic transmitting and receiving device in the receptacle Opening is arranged. The circumstance according to the invention, according to which, after the provision of the electromagnetically acting transceiver device, the rubber region is cut such that a receiving opening is created within the rubber region and subsequently the electromagnetic transceiver device in the receiving and receiving device Opening is arranged on an already manufactured tire component, the electromagnetic transmitting and receiving device can be accurately positioned and it comes during a regularly scheduled manufacturing process of the production of a tire component to no change in the manufacturing process. Alternatively, according to a preferred embodiment of the method according to the invention, the electromagnetic transmitting and receiving device is injected into the rubber region.

In addition, the electromagnetic transmitting and receiving device by means of an injection device, such as a syringe, are introduced into the rubber region.

The circumstance according to the invention, according to which after providing the

electromagnetically acting transmitting and receiving device, the electromagnetic transmitting and receiving device is injected into the rubber region, the rubber of a non-vulcanized pneumatic tire is hardly damaged. Furthermore, the process of shooting can be automated with little effort.

According to a preferred embodiment of the method according to the invention, the tire component is vulcanized.

Due to the fact that the tire component is vulcanized according to the invention, the created receiving opening can be closed again. The fact that the receiving opening is closed again leads to a reliable attachment of the transmitting and receiving device in the tire component.

According to a further preferred embodiment of the invention, the tire is a vulcanized pneumatic tire or a vulcanized tire

Solid tires. Other features, advantages and details to which the invention is not limited in scope, will now be described with reference to the drawings. It shows:

Fig. 1 is a schematic representation of a tire component according to the invention;

Fig. 2 is a schematic representation of a green tire according to the invention;

3 shows a schematic representation of a green tire according to the invention in accordance with a further embodiment;

Fig. 4 is a schematic representation of a green tire according to the invention according to another embodiment.

FIG. 1 schematically shows a tire component 1 for a green tire.

A rubber region 2 of the tire component 1 is formed of rubber, wherein in the rubber region 2 at least one transmitting and receiving device 3 is arranged, wherein the at least one transceiver 3 is an electromagnetic acting Transmitting and receiving device 3 acts and wherein the at least one transceiver device 3 comprises at least one antenna 4. The at least one antenna 4 is arranged on a carrier device 5.

In the figure 2, an inventive green tire 6 is schematically in

Radial section view shown. The green tire 6 is rotatable about a rotation axis 7 in a circumferential direction 8. The green tire 6 has a tire inner surface 9 and a tire outer surface 10. The tire outer surface 10 is based on the

Rotation axis 7 radially outward than the inner tire surface 9. The tire outer surface 10 is oriented away from the green tire 6. The tire inner surface 9 is to the

Orientation axis 7 towards. A rubber portion 2 of a tire component 1 of the green tire 6 is formed of rubber. The tire component 1 is a component of the

Tire blanks 6.

As shown in FIG. 2, the rubber region 2 is a sidewall region of the tire component 1.

The green tire has in particular a bead core 11

FIG. 3 shows a green tire 6 according to the invention in accordance with another embodiment

Embodiment shown schematically in radial section view. As shown in FIG. 3 and in contrast to the illustration in FIG. 2, the rubber region 2 is a core profile region of the tire component 1.

4 shows an inventive green tire 6 according to another

Embodiment shown schematically in radial section view. As shown in FIG. 4 and in contrast to the illustration in FIG. 2 or the illustration in FIG. 3, the rubber region 2 is a rimstrip region of the tire component 1.

LIST OF REFERENCE NUMBERS

(Part of the description)

1 tire component

2 rubber area

3 transceiver

4 antenna

5 carrier device

6 green tire

7 rotation axis

8 circulation direction

9 tire inner surface

10 tire outer surface

11 bead core

Claims

claims

A tire component (1) for a green tire (6), wherein a rubber portion (2) of the tire component (1) is formed of rubber, wherein in the rubber portion (2) at least one transmitting and receiving device (3) is arranged, wherein it is in the at least one transceiver device (3) to a

Electromagnetically acting transceiver device (3) and wherein the at least one transceiver device (3) has at least one antenna (4), characterized in that the at least one antenna (4) is arranged on a carrier device (5) is.

2. Tire component (1) according to claim 1, characterized in that the carrier device (5) is a woven fabric, in particular a glass fiber fabric, a nylon fabric, a polyamide fabric, a polyester fabric, a poly (/ - phenylene terephthalamide) fabric and / or a cotton fabric, is or is a film, wherein the film is formed in particular of polyamide, polypropylene and / or polyethylene terephthalate.

3. Tire component (1) according to one of the preceding claims, characterized

characterized in that the at least one antenna (4) is a linear antenna or a non-linear antenna.

4. Tire component (1) according to one of the preceding claims, characterized

characterized in that the rubber portion (2) is formed of a rubber rubber and / or an elastomer.

5. Tire component (1) according to one of the preceding claims, characterized

characterized in that the rubber region (2) is a sidewall region, a rim strip region or a core profile region of the tire component (1).

A green tire (6) rotatable about an axis of rotation (7) in a direction of revolution (8) comprising a tire inner surface (9) and a tire outer surface (10), the tire outer surface (10) extending radially from the rotational axis (7) further out than the tire inner surface (9) and the tire outer surface

(10) is oriented away from the green tire (6) and the tire inner surface (9) is oriented towards the rotational axis (7), comprising a tire component (1) according to one of the preceding claims.

7. Tires made by vulcanizing a green tire (6) after

previous claim.

8. Method of using an electromagnetically acting transmission and

Receiving device (3) in a tire component (1), comprising at least the steps:

- Providing a tire component (1);

- Providing an electromagnetically acting transceiver device (3), wherein the transmitting and receiving device comprises at least one antenna (4) and the at least one antenna (4) on a support device (5) is arranged;

- Introducing the electromagnetic transmitting and receiving device (3) in a rubber region (2) of the tire component (1).

9. Method according to the preceding claim, characterized in that after providing the electromagnetically acting transmission and

Receiving device (3)

- the rubber region (2) is cut such that a receiving opening is created within the rubber region (2) and subsequently the electromagnetic transmitting and receiving device (3) is arranged in the receiving opening, or

- The electromagnetic transmitting and receiving device (3) in the rubber area (2) is injected.

10. The method according to any one of claims 8 or 9, characterized in that the tire component (1) is vulcanized.