Patent Application
20090025849
This invention relates to a tire having excellent bead portion durability and steering stability and facilitating the production by simplifying a structure of a bead portion and a method of producing the same.
As a means for facilitating the production of the tire, there are known a technique of sandwiching a carcass ply between reinforcing layers (so-called bead coreless technique) as disclosed in Patent Documents 1-3, a technique of sandwiching a carcass ply between bead cores or embedding in a core as disclosed in Patent Documents 4-9, and so on.
Patent Document 1: WO 99/25572
Patent Document 2: WO 00/71366
Patent Document 3: WO 02/30690
Patent Document 4: JP-A-H11-28915
Patent Document 5: WO 00/34059
Patent Document 6: WO 00/73093
Patent Document 7: JP-A-2002-67629
Patent Document 8: JP-A-2002-67630
Patent Document 9: WO 02/452
All of the above conventional techniques are easy in the production because the end portion of the carcass ply is not necessary to be wound around the bead core. However, the tensile stress of the carcass ply generated in the filling of air is kept only by the bead core or shear stress between the reinforcing layer and the carcass ply, so that there is a problem that even if the tensile stress can be kept at the time of a new product, the rubber is deteriorated with the lapse of time to lower the keeping force.
In order to solve this problem, it is required to enhance the press fitting force between the bead core or reinforcing layer and the carcass ply. Concretely, it is effective to utilize a fitting pressure generated in a bead base portion when the bead portion is fitted onto a rim. However, the technique disclosed, for example, in Patent Documents 3, 4, 5, 6, 7 and 9 is not a form utilizing such a fitting pressure, but utilizes only a force corresponding to an air pressure from an inner face of the tire as a press fitting force, so that the durability in the use over a long period of time is insufficient.
In the technique disclosed in Patent Documents 1, 2 and 8, it is possible to effectively utilize the fitting pressure to a certain extent by properly setting the rigidity of the reinforcing layer or bead core located at upper face and lower face of the end portion of the carcass ply. In the technique omitting the bead core as disclosed in Patent Documents 1 and 2, however, the carcass ply locates substantially in a thickness center of the bead portion in an axial direction of the tire, and hence the effective tension is not generated in the carcass ply even under loading, so that there is a problem that a lateral spring inevitable for the steering property of the tire lowers.
In Patent Document 8, the carcass ply locates outward from the thickness center in the axial direction of the tire, so that the lateral spring lowers but also the compression stress is repeatedly applied to the carcass ply under loading, and hence the durability to fatigue of the carcass ply is considerably impaired.
It is, therefore, an object of the invention to propose a tire realizing the simplification of the bead portion structure without sacrificing the bead portion durability and the steering stability.
The summary of the invention is as follows:
(1) A tire comprising a carcass toroidally extending between a pair of bead cores embedded in respective bead portions, in which the carcass is combined with the bead core through such a pathway that the carcass passes inside a thickness center of the bead portion in an axial direction of the tire and reaches to a face of the bead core inside the tire and then passes through the bead core from an inside of the tire toward an outside thereof and terminates in contact with a face of the bead core at a side of a bead base.
(2) A tire comprising a carcass toroidally extending between a pair of bead cores embedded in respective bead portions, in which the carcass is combined with the bead core through such a pathway that the carcass passes through a thickness center of the bead portion in an axial direction of the tire inside the tire and reaches to a face of the bead core the inside the tire and then passes through the bead core from an inside of the tire toward an outside thereof and further extends in contact with a face of the bead core at a side of a bead base and terminates so as to project from a radially innermost end of the bead core within a range of not less than 3 mm but not more than 20 mm.
(3) A tire according to item (1) or (2), which further comprises a protection layer covering a portion of the carcass in contact with the face of the bead core at the side of the bead base.
(4) A tire according to item (3), wherein the protection layer is a rubberized layer of cords or wires extending at a small angle with respect to a circumferential direction of the tire and arranged side by side on a plane parallel to the bead base, and a total rigidity thereof in the circumferential direction is equal to or smaller than a total rigidity of a portion of the bead core divided by the passing of the carcass and located inside the tire.
(5) A tire according to item (1), (2), (3) or (4), wherein a circumferential reinforcing layer is further arranged along a side face of a portion of the bead core divided by the passing of the carcass and located outside the tire.
(6) A tire according to any one of items (1)-(5), wherein a reinforcing layer made from cord or wire reinforcing elements arranged at an angle of not less than 10° but not more than 60° with respect to the circumferential direction is further disposed along a side face of a portion of the bead core divided by the passing of the carcass and located outside the tire.
(7) A method of producing a tire as described in any one of items (1)-(6), characterized in that when a bead core is shaped by continuously winding a bead wire, a portion of the bead core to be divided by the passing of a carcass and located inside the tire is first formed, and a carcass ply is press-fitted on this portion, and then a portion of the bead core to be divided by the passing of a carcass and located outside the tire is formed by continuously winding the bead wire again.
(8) A method of producing a tire according to item (7), wherein after the formation of the bead core, a protection layer of waved cords or wires is formed along an inner peripheral face of the bead core.
(9) A method of producing a tire according to item (7) or (8), wherein after the formation of the bead core, a circumferential reinforcing layer of previously-tensioned cords or wires is formed along a side face of the portion of the bead core located outside the tire.
(10) A method of producing a tire according to item (7) or (8), wherein after the formation of the bead core, a reinforcing layer made of cord or wire reinforcing elements is formed along a side face of the portion of the bead core located outside the tire.
According to the invention, there can be provided tires having excellent bead portion durability and steering stability and realizing the simplification of the bead portion structure.
The tire of the invention will be concretely described with reference to the accompanying drawings below.
That is, as a bead portion of the tire is shown in
In order to prevent the lowering of the keeping force of the carcass ply between the bead core 1 and the carcass 2 due to the deterioration of rubber with the lapse of time, it is required to enhance the press fitting force between the bead core 1 and the carcass 2, which is preferable to utilize a fitting pressure to a rim. Because, a pressure constantly acting in the neighborhood of the bead portion is air pressure and a fitting pressure, and such a fitting pressure usually has a value higher by about several times than the air pressure. The fitting pressure utilizes as a source a force resisting to extension in the circumferential direction when a member having a high circumferential rigidity such as bead core is fitted into the rim, so that the most effective utilizing form thereof is a case that the end of the carcass ply is arranged between the bead core having a high circumferential rigidity and the bead base.
In the invention, therefore, the fitting pressure to the rim is effectively utilized by extending the ply end of the carcass 1 up to a position of contacting with the face of the bead core 1 at the side of the bead base B based on the above thinking, whereby the end portion of the carcass 1 is strongly fixed.
Also, the presence of the carcass 2 in the bead portion at either inside or outside of the tire bordering the thickness center O in the axial direction of the tire in the vicinity of the bead core 1 has a very important meaning from a viewpoint of the steering stability and the durability of the carcass itself. That is, when the carcass locates outside the tire from the thickness center O in the axial direction of the tire at a state that the bending is caused in the bead portion by falling down the bead portion under loading, the carcass locates inside the bending and hence the tension largely contributing to the lateral spring as an important feature for the steering stability is not generated but also the compression stress is repeatedly applied to considerably deteriorate the fatigue durability of the carcass itself. Therefore, in order to overcome these problems, it is required that the carcass is arranged outside the bending in the vicinity of the bead portion, i.e. the carcass is arranged inside the tire from the thickness center O in the axial direction of the tire.
In order to satisfy the above two requirements, there is considered the arrangement of the carcass 2 as shown in
In order to attain the simplification in view of the production, it is advantageous that when the bead core 1 is shaped by continuously winding the bead wire, there is considered that the bead core is divided into two inner and outer portions in which the inner portion (bead core portion 1a in
Thus, the carcass 2 is combined with the bead core 1 by the pathway according to the invention, whereby the carcass can be fixed and kept to the bead core 1 over a long time of period while maintaining the production easiness and hence the steering stability and the durability of the carcass itself can be ensured.
Now, when the tire is used under a very severe condition, the ply end of the carcass 2 contacting with the lower face portion 1a of the bead core 1 inside the tire may be damaged by rubbing the rim with the bead base portion. As shown in
Also, it is unfavorable that a layer having a high circumferential rigidity is existent between the ply end portion of the carcass 2 and the bead base B from a viewpoint of the effective utilization of the fitting pressure as mentioned above, so that the total rigidity in the circumferential direction is desirable to be equal to or less than the total rigidity of the portion 1a of the bead core 1 inside the tire.
The lateral spring is sufficiently ensured by the bead portion structure according to the invention. However, if it is intended to more enhance the lateral spring constant, as shown in
As the circumferential reinforcing layer 4, the cord or wire having a wavy form on the plane substantially parallel to the outer side face of the bead core is arranged in the circumferential direction so as to be adjoined with each other.
Moreover, it is not necessary that the protection layer 3 and the circumferential reinforcing layer 4 are separately formed from each other. As shown in
Further, the pathway of the carcass 2 passing through the bead core from an inside of the tire toward an outside thereof is not limited to the form shown in
There is prepared a 15° tapered radial tire (tubeless tire) for truck and bus having a bead portion of a specification shown in Table 1 and a size of 11/70R22.5. With respect to the thus obtained tire as a test tire is evaluated a carcass keeping force after the running over a long time by the following method.
That is, the tire inflated under an internal pressure of 8.0 kgf/cm2 is pushed onto a drum under a load of 5000 kg and run at a speed of 60 km/h for a constant time to measure a change of peripheral length at a tire shoulder portion before and after the running. If the carcass keeping force in the bead portion is lowered by the running, the carcass shifts in a direction of the shoulder portion, and hence the peripheral length of the shoulder portion increases. Therefore, this value is an indication for evaluating the carcass keeping force. Moreover, the change of the peripheral length in each of the tires measured is represented by an index on the basis that the change amount of the conventional example in Table 1 is 100. Also, the lateral spring is measured under the same internal pressure and load, and the result is represented by an index on the basis that the value of the lateral spring in the conventional example is 100.
As shown in Table 1, the changing amount of peripheral length of the shoulder portion in all of Invention Examples 1-4 is approximately equal to that of the conventional example and the carcass keeping force is maintained over a long time of period. Among them. Invention Example 3 is narrow in the contact area with the lower face of the bead core, so that the changing amount of the peripheral length is somewhat larger than those of the other invention examples. Also, the lateral spring in Invention Examples 1-4 is equal to or more than that of the conventional example. Among them, Invention Example 2 adding with the reinforcing layer at the side face portion of the bead core is further higher in the lateral spring.
On the other hand, in Comparative Examples 1 and 2 (
| Number | Date | Country | Kind |
|---|---|---|---|
| 2004-226779 | Aug 2004 | JP | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/JP05/13303 | 7/20/2005 | WO | 00 | 1/31/2007 |
