JP6660254B2 - Tire repair methods and repaired tires - Google Patents

Description

  The present invention relates to a tire repair method and a repaired tire (hereinafter, also simply referred to as “repair method” and “tire”), and more particularly, to a pneumatic tire having a damaged portion in which a ply cord of a carcass ply is broken, in particular, The present invention relates to a method for repairing a tire for a construction vehicle and a tire that has been repaired.

  Among tires, particularly in the case of super-large tires such as tires for construction vehicles, the tires are damaged by rocks or large protrusions, and the ply cord of the carcass ply is broken together with the ply rubber, and in some cases, the inside of the tire is further damaged. There was a case where it penetrated to one inner liner.

  As a method of repairing a damaged tire in such a case, there is a method of attaching a filling rubber to fill the damaged portion from the tire outer surface side, and reinforcing the ply cord of the damaged portion from the tire inner surface side. For this purpose, there is a method of attaching a repair patch formed of a reinforcing sheet in which a plurality of reinforcing elements arranged in parallel with each other are covered with a covering rubber.

  In addition, for example, in Patent Document 1, a trapezoidal shape to be applied to a side wall of a radial ply tire to be repaired or corrected is provided, and a rubber layer with a metal cord having a radial metal cord is provided under a rubber layer with a metal cord parallel to a longitudinal axis or Either no rubberized cloth layer having a non-parallel synthetic cord is provided, or one or several rubberized cloth layers are provided, and one or more rubber layers are provided below the rubberized cloth layer. Each of the layers has a different elasticity, a notch is formed on the mounting surface and the surface facing it, the patch rubber is curved in the longitudinal direction, the convex portion of the patch rubber faces the mounting surface, and a rubber plug is formed. This plug is inserted into the window of the tire side wall from which the damaged or damaged cord has been removed, and the rubber layer with the metal cord has a flat mounting surface, that is, a patch rubber. Raised from the rubberized fabric layer, the metal-coated rubber layer has the same width below it as the base of the plug, and on the tread and bead sides in the longitudinal direction of the plug, the width of the metal-coated rubber layer is the base of the plug. A patch rubber that is a side trapezoidal extension is disclosed.

JP-A-2-162029

  As described in Patent Document 1, various methods for repairing damaged tires have been conventionally proposed. However, in the case of repaired tires, after the repair, the end of the attached rubber member for repair may peel off or the rubber member for repair itself may fall off, and this point has not yet been sufficiently studied. Had not been done.

  Accordingly, an object of the present invention is to provide a method for repairing a tire capable of suppressing occurrence of peeling of an end portion of an attached repair rubber member or falling off of the repair rubber member itself after repair, and a repaired tire. Is to provide.

  As a result of intensive studies, the present inventors have found that the above problem can be solved by appropriately setting the rigidity of the rubber member used for repair, and have completed the present invention.

That is, the tire repair method of the present invention comprises a carcass ply composed of at least one carcass ply in which a plurality of ply cords are covered with ply rubber and extending in a toroidal manner between a pair of bead portions, and a rubber inner surface is provided on the tire inner surface. An inner liner comprising: a method for repairing a tire having a damaged portion in which the ply cord is broken,
The rubber member for filling is adhered to the damaged portion from the outer surface side of the tire, and a patch for repair is adhered from the inner surface side of the tire, and then the vulcanized portion is subjected to partial vulcanization. And vulcanizing each of the repair patches to repair the damaged portion,
As the repair patch, a reinforcing sheet formed by covering a plurality of reinforcing elements arranged in parallel with each other with a covering rubber, and a rubber sheet covering the reinforcing sheet from the tire inner surface side, using a patch including: The repair patch is arranged such that an edge of the rubber sheet is in contact with the inner liner,
As the filling rubber member, an adjacent rubber that is pasted adjacent to the surface of the damaged portion, and a filled rubber that is pasted adjacent to the adjacent rubber, comprising a rubber constituting the tire at the damaged portion. When the 300% modulus after repair is Md, the 300% modulus after repair of the adjacent rubber is Mn, and the 300% modulus after repair of the filled rubber is Mf,
1.4Md ≧ Mf and 0.8Md ≧ Mn
Characterized by using a relationship satisfying the relationship indicated by.

In the repair method of the present invention, as the repair patch, when the 300% modulus after repair of the inner liner is Mi, and the 300% modulus after repair of the rubber sheet is Ms, the following formula:
1.2Mi ≧ Ms
It is preferable to use one that satisfies the relationship represented by

In the repair method of the present invention, as the filling rubber member, a 300% modulus Mn after the repair of the adjacent rubber and a 300% modulus Mf after the repair of the filled rubber are represented by the following formula:
Mn> Mf
It is preferable to use one that satisfies the relationship represented by Furthermore, it is also preferable that the filling rubber is composed of a plurality of filling rubber layers.

In addition, the repaired tire of the present invention has at least one carcass ply in which a plurality of ply cords are covered with ply rubber, and has a carcass that extends in a toroidal shape between a pair of bead portions as a skeleton. Is a repaired tire in which the damaged portion where the ply cord is broken is repaired,
A rubber member for filling on the tire outer surface side of the damaged portion, a repair patch on the tire inner surface side is arranged and vulcanized, respectively.
The repair patch comprises a reinforcing sheet in which a plurality of reinforcing elements arranged in parallel with each other are covered with a covering rubber, and a rubber sheet that covers the reinforcing sheet from the tire inner surface side. An edge is disposed so as to contact the inner liner,
The filling rubber member is composed of an adjacent rubber disposed adjacent to the surface of the damaged portion, and a filled rubber disposed adjacent to the adjacent rubber, and a rubber constituting the tire at the damaged portion. When the 300% modulus after repair is Md, the 300% modulus after repair of the adjacent rubber is Mn, and the 300% modulus after repair of the filled rubber is Mf,
1.4Md ≧ Mf and 0.8Md ≧ Mn
Is satisfied.

  Advantageous Effects of Invention According to the present invention, a tire repair method and a repaired tire that can suppress occurrence of peeling of an end portion of an attached repair rubber member and detachment of the repair rubber member itself after repair are provided. It became possible.

It is width direction one side sectional drawing which shows an example of the repaired tire of this invention. FIG. 2 is an enlarged cross-sectional view showing a repaired part in FIG. 1. FIG. 4 is an enlarged partial cross-sectional view showing another example of the filling rubber member according to the present invention. (A)-(e) is explanatory drawing which shows an example of the tire repair method of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a one-side cross-sectional view in the width direction showing an example of the repaired tire of the present invention, and FIG. FIG. 3 is an enlarged partial sectional view showing another example of the filling rubber member according to the present invention.

  The repaired tire 1 shown in FIG. 1 includes a pair of bead portions 2, a pair of sidewall portions 3 extending outward in the tire radial direction, and a tread portion 4 extending between both sidewall portions 3. The illustrated repaired tire 1 has at least one carcass ply in which a plurality of ply cords are covered with ply rubber, for example, a carcass ply formed of one carcass ply and extending in a toroidal shape between a pair of bead portions 2. The inner liner 6 made of rubber is disposed on the inner surface of the tire. In the drawings, reference numeral 8 indicates a belt, and reference numeral 9 indicates a bead core. The present invention relates to an improvement in a method of repairing a tire having a damaged portion where the ply cord of the carcass 5 is broken, such as a penetration failure.

  As shown in FIGS. 1 and 2, when repairing a penetration failure of a tire, a filling rubber member 10 as a rubber member for repair is attached to a damaged portion from an outer surface side of the tire and an inner surface of the tire is repaired. Then, the repair patch 20 as a repair rubber member is attached to repair the damaged portion. In the present invention, as the filling rubber member 10, a laminated rubber including an adjacent rubber 11 adhered adjacent to the surface of the damaged portion and a filled rubber 12 adhered adjacent to the adjacent rubber 11 is used. Repair patch 20, including a reinforcing sheet 21 formed by covering a plurality of reinforcing elements arranged in parallel with each other with a covering rubber, and a rubber sheet 22 covering the reinforcing sheet 21 from the tire inner surface side. Is used. The repair patch 20 is arranged such that the edge of the rubber sheet 22 contacts the inner liner 6 as shown in the drawing.

In the present invention, the rigidity of the rubber constituting the filling rubber member 10 is such that the 300% modulus after vulcanization of the rubber 7 constituting the tire at the damaged portion is Md, and 300% after vulcanization of the adjacent rubber 11. When the% modulus is Mn and the 300% modulus after vulcanization of the filled rubber 12 is Mf, the following formula is obtained.
1.4Md ≧ Mf and 0.8Md ≧ Mn
It is important to satisfy the relationship shown by.

  Here, in the present invention, the 300% modulus of each rubber means a value (MPa) measured at 25 ° C. based on a tensile test method specified in JIS K6301. In the present invention, the rubber (hereinafter, also referred to as “tire rubber”) 7 constituting the tire at the damaged portion means a portion of the rubber in contact with the adjacent rubber 11 around the damaged portion. If so, it is the side rubber around the damaged part. When the damaged part is straddling a plurality of rubber types, the 300% modulus of the rubber type having lower rigidity is used as Md.

  Conventionally, little attention has been paid to the rigidity of rubber used for repair after vulcanization, and from the viewpoint of ease of repair, the rubber used for the original tires has been compared with the rubber used for the original tires. In general, a material having high rigidity was used. Therefore, when the repaired tire is deformed due to a load, etc., the rubber of the repaired part can not follow, a large distortion occurs between the original tire rubber and the rubber of the repaired part, and cracks occur from that It is thought that this led to a repair failure such as a loss of rubber in the repaired part. From this point of view, the present inventors have conducted intensive studies and as a result, as the rubber used for the filling rubber member 10 to be attached to the damaged part, a rubber having lower post-vulcanization rigidity than the rubber constituting the tire at the damaged part is used. Thereby, the distortion generated between the original tire rubber and the filling rubber member 10 can be reduced, and the peeling or falling off at the end of the filling rubber member 10 can be suppressed. It has been found that it is possible to suppress the occurrence of blemishes.

  Further, when the filling rubber member 10 is formed of a laminated rubber composed of the adjacent rubber 11 and the filling rubber 12, the unvulcanized rubber is bonded between the adjacent rubber 11 and the filling rubber 12, whereas Since the vulcanized rubber and the unvulcanized rubber are bonded between the tire rubber 7 and the adjacent rubber 11, the adhesive force is weak and cracks are easily generated. In particular, cracks tend to occur at the end of the adjacent rubber 11. From such a viewpoint, the present inventors have further studied and as a result, by prescribing the rigidity relationship between the original tire rubber 7 and the adjacent rubber 11 and the filled rubber 12 in a predetermined manner, the deformation of the repaired tire is adjacent. It has been found that since the rubber 11 can easily follow and the deformation of the tire can be absorbed by the filled rubber 12, the occurrence of the repair failure can be suppressed more effectively.

  Specifically, the lower the 300% modulus Mf of the filled rubber 12 after vulcanization, the higher the degree of deformation of the filled rubber 12 when the filling rubber member 10 follows the deformation of the tire rubber 7, so that the degree of deformation of the filled rubber 12 increases. It is considered that the deformation of the rubber 11 is reduced. Therefore, in the present invention, the 300% modulus Mf of the filled rubber 12 adjacent to the adjacent rubber 11 after vulcanization is set to 1.4 times or less of the 300% modulus Md of the tire rubber 7 after vulcanization. Thereby, the deformation of the tire can be absorbed by the filling rubber 12, so that the deformation of the adjacent rubber 11 is suppressed, and the distortion between the tire rubber 7 and the adjacent rubber 11 is more reliably suppressed. If the modulus Mf of the filled rubber 12 exceeds 1.4 Md, the deformation of the adjacent rubber 11 increases, and the distortion between the tire rubber 7 and the adjacent rubber 11 increases, so that cracks are easily generated in the portion. .

  In addition, the adjacent rubber 11 which plays a role of bonding between the tire rubber 7 which is the vulcanized rubber and the filling rubber member 10 which is the unvulcanized rubber obtains the ease (anchor effect) of the tire rubber 7 being adapted to the buff surface. Therefore, a certain degree of softness (low viscosity) is required in the unvulcanized rubber state, and accordingly, the 300% modulus of the rubber after vulcanization is also low. Therefore, in the present invention, the 300% modulus Mn of the adjacent rubber 11 after vulcanization is set to 0.8 times or less the 300% modulus Md of the tire rubber 7 after vulcanization. If the modulus Mn of the adjacent rubber 11 is larger than 0.8 Md, the viscosity of the raw rubber of the adjacent rubber 11 is too high, so that sufficient adhesion to the tire rubber 7 cannot be obtained.

  On the other hand, the patch usually has high rigidity due to the reinforcing cord, and therefore cannot easily follow the deformation of the original tire, and is particularly easy to be peeled off from the end of the patch. The repair patch 20 can easily follow the deformation of the repaired tire by arranging the portion so as to be in contact with the inner liner 6 and covering the reinforcing sheet 21 with the rubber sheet 22 so as to hold it down and adhere to the inner liner 6. As a result, it is possible to suppress separation from the end of the patch and dropout of the patch itself, and it is possible to suppress the occurrence of repair failure due to this.

The modulus of the adjacent rubber 11 and the filling rubber 12 in the filling rubber member 10 is preferably represented by the following formula:
Mn> Mf
It satisfies the relationship indicated by. By making the modulus Mf of the filled rubber 12 lower than the modulus Mn of the adjacent rubber 11, the deformation of the adjacent rubber 11 can be further suppressed, and the distortion between the tire rubber 7 and the adjacent rubber 11 can be further suppressed, which is preferable. .

Further, as shown in FIG. 3, in the present invention, the filled rubber 12 may be composed of a plurality of, in the example shown, three filled rubber layers 12a to 12c. By doing so, the distortion between the tire rubber 7 and the adjacent rubber 11 can be reduced as in the above-described structure. In this case, when the 300% modulus after vulcanization of the filled rubber layers 12a to 12c is Mfa to Mfc, if at least any one of Mfa to Mfc is 1.4 Md or less, the modulus is 1.4 Md or less. When the filled rubber layer having the modulus is greatly deformed, the effect of reducing the distortion of the adjacent rubber 11 can be obtained. The modulus Mfa-Mfc of the filled rubber layers 12a-12c is preferably further
Mn> Mfa, Mfb, Mfc
Satisfies the relationship indicated by Here, in the present invention, the magnitude relation of the modulus Mfa, Mfb, Mfc of each of the filled rubber layers 12a to 12c is not particularly limited.

  In the present invention, the specific values of the modulus Mn of the adjacent rubber 11 and the modulus Mf of the filled rubber 12 are not particularly limited as long as they satisfy the above relationship with the tire rubber 7, and may be appropriately set. Is possible. Further, the modulus Mfa, Mfb, Mfc of each of the filled rubber layers 12a to 12c can be appropriately set within a range satisfying the above conditions, similarly to the 300% modulus Mf of the filled rubber 12 after vulcanization.

Further, in the present invention, as the repair patch 20, when the 300% modulus after vulcanization of the inner liner 6 is Mi, and the 300% modulus after vulcanization of the rubber sheet 22 is Ms, the following formula:
1.2Mi ≧ Ms
It is preferable to use one that satisfies the relationship represented by Although the reinforcing sheet 21 itself has a high rigidity to include the reinforcing element, the rubber patch 22 covering the reinforcing sheet 21 has a post-vulcanized rigidity lower than that of the inner liner 6, and the repair patch 20 is made of this rubber. By bonding the inner patch 6 to the inner liner 6 with the sheet 22, the repair patch 20 can easily follow the deformation of the repaired tire, and can be prevented from peeling off from the patch end portion and falling off of the patch itself. It is possible to suppress the occurrence of the repair failure due to.

  Specifically, in the present invention, the 300% modulus Ms of the rubber sheet 22 after vulcanization is preferably 1.2 times or less the 300% modulus Mi of the inner liner 6 after vulcanization. As the modulus Ms of the rubber sheet 22 becomes lower, the rigidity step between the rubber sheet 22 and the inner liner 6 becomes smaller, and the repair patch 20 easily follows the deformation of the inner liner rubber of the tire. This is preferable because stress between the inner liner 6 and the inner liner 6 is suppressed, and the patch ends are less likely to peel off. When the modulus Ms of the rubber sheet 22 exceeds 1.2 Md, the stress between the rubber sheet 22 and the inner liner rubber increases, and the rubber sheet 22 is easily peeled.

  The reinforcing sheet 21 included in the repair patch 20 has a flat sheet shape in appearance, and is attached to the tire inner surface such that the extending direction of the reinforcing element substantially matches the extending direction of the ply cord. be able to. It is preferable that the reinforcing sheet 21 is used by laminating a plurality of layers from the viewpoint of a reinforcing effect. For example, the reinforcing sheet 21 can be laminated by 3 to 6 layers. The reinforcing element used for the reinforcing sheet is not limited as long as the element can reinforce the damaged portion. In addition to the twisted cord, a single filament or a combination of a plurality of filaments may be used. Can be.

  The rubber sheet 22 included in the repair patch 20 is preferably made of the same type of butyl rubber as that used for the inner liner 6. In the present invention, the repair patch 20 is attached to the tire inner surface by covering the reinforcing sheet 21 with the rubber sheet 22 from the tire inner surface side and adhering the peripheral portion of the rubber sheet 22 to the inner liner 6. By using the rubber sheet 22 instead of the reinforcing sheet 21 alone to adhere to the inner liner 6, the repair patch 20 is less likely to peel off. Further, by overlapping the rubber sheet 22 with the inner liner 6, it is possible to suppress the permeation of oxygen into the tire structure, thereby suppressing the curing of the rubber and the patch rubber in the tire structure, and preventing the patch ends from peeling. Deterioration can be suppressed. When the oxygen permeates, the rubber constituting the tire and the rubber of the patch are hardened, so that the tire cannot follow the deformation of the tire and the patch ends are easily peeled off.

  Next, the repair method of the present invention will be described with reference to the drawings. FIGS. 4A to 4E are explanatory views showing an example of the repair method of the present invention. FIG. 4A shows a state in which the carcass ply 5 is broken at the damaged portion 40 in which the tire has penetrated from the tire inner surface side to the tire outer surface side.

  In this case, first, as shown in FIG. 4B, the tire rubber 7 and the inner liner 6 around the damaged portion 40 are respectively removed. The removal of the tire rubber 7 and the inner liner 6 can be performed by using, for example, a groover, and a finishing operation is performed by buffing or the like so that a filling rubber member or a repair patch can be easily attached. The uneven state can also be adjusted.

  Next, as shown in FIG. 4 (c), the unvulcanized intermediate rubber 30 is filled into a portion of the damaged portion 40 which is between the carcass ply 5 and the inner liner 6. As the intermediate rubber 30, a rubber type and a rigid type conventionally used for tire repair applications can be appropriately used, and there is no particular limitation.

  Next, as shown in FIG. 4D, a portion from the carcass ply 5 to the tire rubber 7 in the damaged portion 40 is filled with the filling rubber member 10 from the tire outer surface side. Specifically, first, the unvulcanized adjacent rubber 11 is attached to the surface of the intermediate rubber 30 and the surface of the tire rubber 7 facing the damaged portion 40. Next, the filling rubber member 10 can be filled by filling the unvulcanized filling rubber 12 on the surface of the adjacent rubber 11 facing the damaged portion 40. When the filling rubber 12 is composed of a plurality of filling rubber layers 12a to 12c, the filling rubber 12 may be filled sequentially from the filling rubber layer 12a located on the inner layer side.

  Next, as shown in FIG. 4E, the repair patch 20 is attached to the damaged portion 40 from the tire inner surface side. More specifically, a repair patch composed of an appropriate number of layers of the unvulcanized reinforcing sheet 21 and the unvulcanized rubber sheet 22 is applied to the surface of the intermediate rubber 30 in the illustrated example from the tire inner surface side. 20 is pasted. The reinforcing sheet 21 may be attached in a state of being integrated with the rubber sheet 30 or may be attached using an adhesive or the like.

  Note that, in the present invention, the application of the filling rubber member 10 and the repair patch 20 may be performed in a reverse manner to the above procedure, without being limited to the procedure shown in FIGS. Without first filling the intermediate rubber 30, the filling rubber member 10 or the repair patch 20 is attached first, then the intermediate rubber 30 is filled, and finally the repair patch 20 or the filling rubber member 10 is removed. A procedure for pasting may be used.

  Thereafter, the damaged rubber portion 40 is partially vulcanized according to a conventional method, so that the filling rubber member 10, the intermediate rubber 30, and the repair patch 20 are vulcanized, respectively, to obtain a repaired tire.

  The present invention can be applied to any tire, but it is liable to cause a penetration failure due to a large side cut or the like, and is applied to an ultra-large tire such as a construction vehicle tire having a high price per tire. It is particularly useful.

Hereinafter, the present invention will be described in more detail with reference to Examples.
A tire having a tire size of 27.00R49 is mounted on an applicable rim specified in the JATMA standard, filled with an internal pressure of 700 kPa, and is run at a speed of 8 km / h for 3000 hours under a load of 27.25 tons. A side cut was provided in which three plies broke. This tire had a carcass composed of one carcass ply as a skeleton, a steel cord having a cord diameter of 2.7 mm as a ply cord, and a rubber composition mainly composed of natural rubber as a ply rubber.

  Focusing on the broken ply cord, the damaged portion due to the side cut is the most distant in the tire circumferential direction among the broken ply cords in a plan view through the carcass ply 5 from the inside of the sidewall portion of the tire 2. A substantially trapezoidal region was formed by connecting a total of four break cord ends of the ply cord. The size of the damaged portion is such that a straight line connecting the midpoints of these two sides is that the length x of one side is 21 mm and the length y of the other side is 19 mm among the two parallel sides of the substantially trapezoidal shape. Had a length z of 100 mm.

  As shown in FIG. 4 (b), the tire rubber and the inner liner around the damaged portion were respectively removed from the tire by using a groove, and finishing work was performed by buffing to adjust the unevenness of the bonded surface. . Next, as shown in FIG. 4 (c), an unvulcanized intermediate rubber was filled in a portion of the damaged portion that hit between the carcass ply and the inner liner.

  Next, as shown in FIG. 4D, unvulcanized adjacent rubber (300% modulus Mn after vulcanization: in the table below) was applied to the damaged portion from the tire outer surface side, from the surface of the intermediate rubber. Affixed to the inner surface of tire rubber. Next, an unvulcanized filled rubber (300% modulus Mf after vulcanization: in the table below) was filled on the surface of the adjacent rubber, and a filling rubber member was disposed at the damaged portion.

  Next, as shown in FIG. 4E, a repair patch composed of an unvulcanized reinforcing sheet and an unvulcanized rubber sheet was attached to the damaged portion from the inner side of the tire.

Here, as the repair patch, a substantially trapezoidal unvulcanized reinforcing sheet obtained by coating a nylon cord having a cord diameter of 0.6 mm arranged in parallel with each other with a rubber composition containing natural rubber as a main component is used. (The number of implants: 10 / cm) was used in which five layers were laminated. The reinforcing element was embedded such that the intersection angle θ with respect to a straight line connecting the midpoints of the two substantially trapezoidal parallel sides of the reinforcing sheet was 0 °. The size of the repair patch is such that the length of the side corresponding to the side of the length x of the damaged portion is three times x / 2 and the length of the side corresponding to the side of the length y is y / 2. And a substantially trapezoidal shape such that the length of a straight line corresponding to a straight line having a length z is three times as large as z / 2. The repair patch is attached to the damaged portion such that the straight line connecting the midpoints of the two substantially trapezoidal parallel sides of the reinforcing sheet is in the extending direction of the central ply cord of the broken ply cord. Was.
Thereafter, the damaged portion was partially vulcanized to obtain a repaired tire.

The repaired tire obtained by changing the 300% modulus of the adjacent rubber and the filled rubber after vulcanization as shown in Table 1 below is run again in the same manner as described above, and the adjacent rubber of the filling rubber member is The running time until the end peeled was confirmed. If the running time is 1500 hours or more, it can be said that the cost performance as a repaired tire is excellent.
The results are shown in Table 1 below.

＊１）充填ゴムおよび隣接ゴムの３００％モジュラスの値は、サイドゴムの３００％モジュラスの値を１００としたときの比率で示した指数である。数値が大きいほど、３００％モジュラスが高いことを意味する。

* 1) The value of the 300% modulus of the filled rubber and the adjacent rubber is an index represented by a ratio when the value of the 300% modulus of the side rubber is set to 100. The higher the value, the higher the 300% modulus.

  As can be seen from the results in the above table, it was confirmed that a running time of 1500 hours or more was secured in the tire repaired using the filling rubber member satisfying the rigidity conditions of the present invention.

In Example 3, the repaired tires obtained by changing the 300% modulus Ms of the rubber sheet of the repair patch after vulcanization as shown in Table 2 below were run again in the same manner as described above. Then, the running time until the adjacent rubber end of the filling rubber member was peeled was confirmed. After 1000 hours from the start of traveling, stop the vehicle every 200 hours, release the rim, check the peeling state of the rubber sheet covering the repair patch on the inner surface of the tire, and determine the time when the peeling was confirmed. Recorded. If the running time is 1500 hours or more, it can be said that the cost performance as a repaired tire is excellent.
The results are shown in Table 2 below.

＊２）ゴムシートの３００％モジュラスの値は、インナーライナーゴムの３００％モジュラスの値を１００としたときの比率で示した指数である。数値が大きいほど、３００％モジュラスが高いことを意味する。

* 2) The value of the 300% modulus of the rubber sheet is an index indicated by a ratio when the value of the 300% modulus of the inner liner rubber is set to 100. The higher the value, the higher the 300% modulus.

  As can be seen from the results in the above table, in addition to the filling rubber member that satisfies the rigidity conditions of the present invention, the tires repaired using the repair patch further have a good running time of 1500 hours or more. It was confirmed that it was secured.

DESCRIPTION OF SYMBOLS 1 Repaired tire 2 Bead part 3 Side wall part 4 Tread part 5 Carcass (carcass ply)
Reference Signs List 6 inner liner 7 tire rubber 8 belt 9 bead core 10 filling rubber member 11 adjacent rubber 12 filling rubber 12a to 12c filling rubber layer 20 repair patch 21 reinforcing sheet 22 rubber sheet 30 intermediate rubber 40 damaged part

Claims (5)

A carcass made of at least one carcass ply covered with a plurality of ply cords covered with ply rubber and extending in a toroidal shape between a pair of bead portions as a skeleton, and an inner liner made of rubber is disposed on the tire inner surface, A method for repairing a tire having a damaged portion in which the ply cord is broken,
The rubber member for filling is adhered to the damaged portion from the outer surface side of the tire, and a patch for repair is adhered from the inner surface side of the tire , and then the vulcanized portion is subjected to partial vulcanization. And vulcanizing each of the repair patches to repair the damaged portion,
As the repair patch, a reinforcing sheet formed by covering a plurality of reinforcing elements arranged in parallel with each other with a covering rubber, and a rubber sheet covering the reinforcing sheet from the tire inner surface side, using a patch including: The repair patch is arranged such that an edge of the rubber sheet is in contact with the inner liner,
As the filling rubber member, an adjacent rubber that is pasted adjacent to the surface of the damaged portion, and a filled rubber that is pasted adjacent to the adjacent rubber, comprising a rubber constituting the tire at the damaged portion. When the 300% modulus after repair is Md, the 300% modulus after repair of the adjacent rubber is Mn, and the 300% modulus after repair of the filled rubber is Mf,
1.4Md ≧ Mf and 0.8Md ≧ Mn
A method for repairing a tire, characterized by using a material satisfying the relationship represented by As the repair patch, when the 300% modulus after repair of the inner liner is Mi and the 300% modulus after repair of the rubber sheet is Ms,
1.2Mi ≧ Ms
2. The method for repairing a tire according to claim 1, wherein the tire satisfies the relationship represented by: As the filling rubber member, a 300% modulus Mn after repair of the adjacent rubber and a 300% modulus Mf after repair of the filled rubber are represented by the following formulas:
Mn> Mf
3. The method for repairing a tire according to claim 1, wherein the tire satisfies a relationship represented by the following expression.   The method for repairing a tire according to any one of claims 1 to 3, wherein the filling rubber member is formed of a plurality of filling rubber layers. A carcass made of at least one carcass ply covered with a plurality of ply cords covered with ply rubber and extending in a toroidal shape between a pair of bead portions as a skeleton, and an inner liner made of rubber is disposed on the tire inner surface, A repaired tire in which the damaged portion where the ply cord is broken is repaired,
A rubber member for filling on the tire outer surface side of the damaged portion, a repair patch on the tire inner surface side is arranged and vulcanized , respectively.
The repair patch comprises a reinforcing sheet in which a plurality of reinforcing elements arranged in parallel with each other are covered with a covering rubber, and a rubber sheet that covers the reinforcing sheet from the tire inner surface side. An edge is disposed so as to contact the inner liner,
The filling rubber member is composed of an adjacent rubber disposed adjacent to the surface of the damaged portion, and a filled rubber disposed adjacent to the adjacent rubber, and a rubber constituting the tire at the damaged portion. When the 300% modulus after repair is Md, the 300% modulus after repair of the adjacent rubber is Mn, and the 300% modulus after repair of the filled rubber is Mf,
1.4Md ≧ Mf and 0.8Md ≧ Mn
A repaired tire that satisfies the relationship represented by:

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