KR101742983B1 - Steel cord for reinforcing rubber and radial tire - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steel cord embedded in various rubber products including a tire for a vehicle and an industrial belt and used as a reinforcing material.
The steel cord of the present invention is a steel cord for reinforcing a rubber article having an m + n structure in which a bottom yarn (m) without twist and a standing yarn (n) twisted in the S or Z direction are twisted together, The orientation is associated with the lower edge in the opposite direction to the twist direction of the final steel cord product.
The steel cord of the present invention is bound to a part of the outer circumferential surface of the lower circumferential surface parallel to the longitudinal direction without being twisted so that the outer circumferential surface equivalent area of the lower steel is kept open regardless of the circumferential strand, The sealed space portion is excluded and the permeability of the rubber into the steel cord is improved, so that corrosion propagation is effectively blocked, so that the fatigue resistance can be improved and the life of the tire itself can be prolonged.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a steel cord and a radial tire for reinforcing a rubber article,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steel cord embedded in various rubber products such as a tire of a vehicle and an industrial belt and used as a reinforcing material. More particularly, the present invention relates to a steel cord, A steel cord for reinforcing a rubber article and a radial tire using such a steel cord are disclosed. The steel cord for reinforcing a rubber article is designed to exhibit an increase in elongation at break and a high fatigue resistance against a dynamic load through sufficient clearance provided between the strands .

Among various types of reinforcing materials used for reinforcing elastomeric products such as tire tires and conveyor belts of a vehicle, steel cords have strength, modulus, heat resistance, heat transfer coefficient, fatigue resistance, , It has been widely used for reinforcement of tires especially because it satisfies the quality characteristics required of the tire reinforcements, and the amount thereof is rapidly increasing.

The conventional steel cord is manufactured by twisting a plurality of strands in the same direction so as to form a twisted pair. The cross section of the cord is generally circular, and the inside of the steel cord is connected to the outer strands And is closed.

In the case of a closed steel cord in which the inside is surrounded by steel wires, air is left without being filled with rubber in the center space surrounded by the steel wire in the process of vulcanizing and bonding the steel cord in rubber.

In the case of a tire manufactured in such a state that the center region of the steel cord is not filled with rubber properly, the heat generated by the tire during driving of the vehicle and the air remaining in the central space promote the deterioration of the rubber, Separation phenomenon of the interface layer is caused. When the tread portion of the tire is damaged due to repetitive impact applied during the running of the vehicle or the stones or nails of the road surface, the water penetrates the damaged portion by the capillary phenomenon and reaches the central space portion of the steel cord, The moisture penetrated into the space portion is diffused in the longitudinal direction of the steel cord along the central space portion serving as the passage, thereby inducing the rapid coking of the steel cord.

In addition, the moisture penetrated into the center space of the steel cord not only causes the cord itself to bleed, but also destroys the adhesive interface layer between the rubber and the cord, thereby causing separation between the two members, thereby decreasing the durability of the tire.

Further, since the conventional steel cord has twisted wire connection between the wire rods in the same twist direction in the manufacturing process, it is pointed out that it is inevitable that the tip riming problem is caused by the occurrence of the torsion due to the rotation phenomenon.

In order to solve all the problems due to the poor rubber permeability in the sealed steel cord by the twist in the same direction as described above, in the case of the multilayer open steel cord, the twist direction and the twist length between adjacent layers are different, Or at least a part of the strands constituting the steel cord is provided with a mold in the step before the strand joining is performed so as to open the center of the steel cord or to make the inner strand constituting the lower strand parallel And an outer side of the upper and lower strands is made to coincide with the outer side of the upper and lower strands so that an opening is formed in the space between the upper and lower strands so that rubber penetration is formed.

Japanese Patent Application Laid-Open No. 11-81168, Japanese Patent No. 3737610, and No. 4402198 are known as concrete examples of the steel cord for improving the permeability of rubber in the prior art, in which the lower end is made parallel.

Japanese Patent Application Laid-Open No. 11-81168 discloses a technique of adjusting the diameter ratio of the inner layer strand and the inner layer strand to within a specific range in winding six strands of outer strand strand around the two strands of the straight strand proceeding in a 2 + Section of the steel cords exceeds 1, and the above-mentioned No. 3737610 has a structure such that the ratio of the short diameter to the long diameter of the cord section is 63 to 100%, and the above- It is a steel cord in which the ratio of the short diameter to the inner diameter is adjusted within a certain range.

The conventional steel cords have a structure in which the wire strands of the inner layer and the outer layer are different from each other or the cross-sectional shape of the cord is out of the circular cross-section so that the flatness ratio within a specific range is maintained. In these structures, It is expected that sufficient rubber filling is performed around the steel wire so as to satisfy the quality characteristics required by the tire reinforcing material to some extent. However, There is still a problem that the rubber opening passage communicating with the lower end can not be securely secured.

In the conventional steel cord, there is a problem that it is impossible to avoid the complication of the manufacturing process and the increase in the manufacturing cost in the manufacturing process in which the wire rods having different diameters are formed and the flat wires are used in a certain range using the wire rods It is also being raised.

The present invention was conceived in view of all the drawbacks pointed out in the steel cord for improving the rubber permeability of the prior art. The present invention is characterized in that the uppermost strand is located only in a part of the outer circumferential surface of the lower rim around the lower rim extending in parallel without twisting, The outer circumferential edge regions of most of the outer circumferential edge regions are opened and the outer circumferential strands are combined with the product twist direction so that the elongation at break and the high fatigue resistance against the dynamic load can be exerted through the sufficient clearance between the wire strands A steel cord for reinforcing a rubber article is provided.

It is still another object of the present invention to provide a radial tire in which a steel cord having the above-described structure is used.

The above object of the present invention is also achieved by a steel cord for reinforcing a rubber article having an m + n structure in which a bottom yarn (m) without twist and a standing yarn (n) twisted in the S or Z direction are twisted together, The twist direction is achieved by providing a steel cord for reinforcement of rubber articles associated with the bottom edge in a direction opposite to the twist direction of the final steel cord article.

At this time, the pitch of the standing strands is preferably 1.7 times to 2.3 times the steel cord product pitch. The strand pitch of the contest was determined to be 1.7 times to 2.3 times because the strand pitch is twice the final product pitch and is the most stable in the strand shape but may vary slightly in the manufacturing process of the steel cord product.

The strand constituting the lower strand and the strand constituting the upper strand are preferably the same diameter of 0.08 mm to 0.5 mm and the tensile strength is preferably 280 kgf / mm 2 to 450 kgf / mm 2. Particularly, when the tensile strength exceeds 450 kgf / mm < 2 >, the hardness of the material is too high to be easily broken during processing, resulting in a problem of deteriorating productivity.

The steel cord for reinforcing a rubber article of the present invention can be used as a product in itself, and can also be used as a strand in a multi-layered or multi-soft steel cord.

In the steel cord of the double-stranded (m + n) structure of the present invention, the number of stranded strands in the lower strand (m) is preferably 2 strands, and the strand strand number in the stranded strand (n) is 4 to 5 strands.

The present invention is characterized in that the lower and upper strands are composed of strands of the same diameter and the strands connected to the lower strands parallel to each other in the longitudinal direction are associated with the lower strands in a direction opposite to the twist direction.

Another technical feature of the present invention is that the uppermost strand is located only in a part of the outer circumferential surface of the lower hearth while the other most outer circumferential edge regions are opened around the lower end of the lower strand extending in parallel without being twisted, To ensure that the open pathway is as wide as possible.

A steel cord according to an embodiment of the present invention will be described below with reference to FIGS. 1 to 2 showing a steel cord of the same structure as a 2 + 4 structure.

FIG. 1 (a) through FIG. 1 (b) are cross-sectional views of steel cords having a 2 + 4 structure according to the present invention, respectively. 2 is a photograph of the steel cord product shown in Fig.

As shown in the drawing, the steel cord of the present invention is stranded with a standing strand 200 having four strands on the outer circumferential surface of the lower strand 100 composed of two strands of strands. In this case, the lower edge 100 is parallel to the longitudinal direction without being twisted, and the upper side edge strand 200 on the outer side has a twist in the Z direction or S direction before twisting the lower edge 100, The twisting is performed in a direction opposite to the twisting direction of the contour strand 200. In this case, That is, the twisting directions of the standing strand 200 and the steel cord product are opposite to each other. Since the twist directions between the standing strand 200 and the steel cord product are opposite to each other, line contact between the strands constituting the standing strand 200 and the strand of the lower strand 100 is prevented, and an open path is formed between the lower strand and the strand strand And more securely secured.

The strands constituting the lower strand 100 and the upper strand 200 have the same diameter and the upper strand 200 associated with the outer circumferential surface of the lower strand 100 surrounds the entire outer circumferential surface of the lower strand 100 The outer peripheral surface equivalent area of the lower edge 100 is kept open so that the center margin is surrounded by the lower edges of the lower edge 100 and the upper edge of the upper edge of the upper edge strand 200, So that the rubber can be smoothly penetrated when vulcanized with the rubber.

The steel cord of the present invention is bound to a part of the outer circumferential surface of the lower circumferential surface parallel to the longitudinal direction without being twisted so that the outer circumferential surface equivalent area of the lower steel is kept open regardless of the circumferential strand, The sealed space portion is excluded and the permeability of the rubber into the steel cord is improved, so that corrosion propagation is effectively blocked, so that the fatigue resistance can be improved and the life of the tire itself can be prolonged.

 Further, in the steel cord of the present invention, since the twist direction of the standing strand and the pitch of the steel cord product are combined so as to be opposite to each other, the rubber penetration into the cord is improved to improve the elongation at break and thereby the high dynamic bending Resistance to a load is imparted to ensure high fatigue resistance.

1 (a) and 1 (c) are cross-sectional views of still codes according to an embodiment of the present invention.
2 is a photograph of a product for a steel cord according to an embodiment of the present invention.

The above objects and technical features of the present invention will be more clearly understood from the following examples.

In this embodiment, steel cords having 2 + 3, 2 + 4 and 2 + 5 structures, each consisting of two strands of bottom wire and three to five strands of stranded strands stranded together, were produced. The diameter of each element wire constituting the upper and lower steel cords was set within the range of 0.08 mm to 0.50 mm, and the tensile strength of the element wire was set within the range of 280 kgf / mm 2 to 450 kgf / mm 2.

In manufacturing steel cords by joining the lower edge and the upper edge, two strands of the lower edge were held parallel without twist, and three to five stranded wires around it were joined with a standing strand having a twist in the S or Z direction. At this time, the upstanding strand is associated with a direction opposite to the strand twisting direction about the bottom edge. The pitch of the standing strands was maintained between 1.7 and 2.3 times the final steel cord product pitch.

The measured values of the physical characteristics of the steel cord according to the embodiment of the present invention are shown in Table 1 below.

division Conventional example  Example 1  Example 2  Example 3 rescue 2 (=) + (1 x 4) x
0.30HT 2 (=) + (1 x 4) x
0.30HT 2 (=) + (1 x 3) x
0.30HT 2 (=) + (1 x 5) x
0.30HT Pitch and twist direction
(lay length & direction) (mm)  The ∞ ∞ ∞ ∞ Stranded strand 16S 16S 15S 17S Product Steel Cord 16S 8Z 7.5Z 8.5Z Linear density (g / m) 3.35 3.35 2.80 3.91 Adhesion (index%) 100 112 92 127 Appearance (index%) 100 108 110 108 Permeability (index%) 100 80 80 80

In the above table, the adhesive force, the adhesive appearance and the breathability are represented by an index with the conventional example being 100. Air permeability is one of the methods for evaluating the rubber permeability in cord. It measures the amount of air that is cured in the longitudinal direction of the cured cord. The lower the index is, the more advantageous it is.

As shown in the above table, the steel cords of Examples 1 to 3 have twisted strands in the S direction, twisted products of the steel cords have mutually opposite twist directions in the Z direction, It can be seen that the twisting direction of the contouring strand and the product steel cord are the same in the S direction and the pitch of the contouring strand pitch and the steel cord product are the same .

From the results of the above table, it can be seen that the steel cord of the embodiment of the present invention is excellent in both linear density, adhesive strength, adhesive appearance and air permeability as compared with the conventional example because the product steel cord is twisted in the direction opposite to the twist direction of the upper- As a result of such improved steel cord quality characteristics, excellent fatigue resistance can be ensured in a tire subjected to a periodic dynamic load.

Claims (5)

A steel cord for reinforcing a rubber article having an m + n structure in which a bottom yarn (m) without twist is twisted with a standing yarn (n) twisted in the S or Z direction, wherein the standing yarn is located only in a part of the outer circumferential surface area of the bottom yarn, Characterized in that the pitch of the strand strand is 1.7 to 2.3 times the pitch of the steel cord product and the twist direction of the strand strand is associated with the lower strand in a direction opposite to the twist direction of the final steel cord article, Steel cord for article reinforcement. delete The steel cord for reinforcing a rubber article according to claim 1, wherein the strand of the lower strand (m) has 2 strands and the strand of the strand (n) has 3 to 5 strands. The steel cord for reinforcing a rubber article according to claim 1, wherein the elementary strands constituting the lower and upper strands are 0.08 mm to 0.5 mm in the same diameter, and the tensile strength is 280 kgf / mm 2 to 450 kgf / mm 2. A radial tire comprising a steel cord for reinforcing a rubber article according to any one of claims 1, 3 or 4.

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