TH19240A - Open steel chord structure - Google Patents

Abstract

The steel chord line (114) consists of at least a strand of strength (100,132) and a longitudinal axis, a longitudinal core (112) and a pitch of a chord piece (100). One piece There will be an image projected on the YZ plane perpendicular to the longitudinal axis (112). This projection will have a It is a curve with the radius of curvature alternating between the maximum and the minimum. A curve also has a center of curvature.The radius of the curvature and the center of the curvature are within the curve to obtain a convex curve. Chord (114) is characterized by the following characteristics. This is one style or both; (i) The distance between the two minimum radii of curvature of that curve measured in accordance with The longitudinal axis (112) is different from half the pitch of the chord; Or (ii) if all (100) such parts form a convex curve, that convex curve At least one line is significantly different from the other convex curve.

Claims (6)

1. A steel chord (114) that is made up of a number of strength parts (100, 116, 118), but the pieces are stranded with a stranded pitch. Each rigid segment has an image projected in a plane (YZ) perpendicular to the longitudinal (X) axis (112) of the steel chord. And in the form of a two-dimensional curve by Whole canals, at least one pitch length, twisting of parts, when viewed in a direction Of the longitudinal axis, the curve of at least one strength component is a convex curve by Throughout at least one length of the twisting pitch, which is unique in that there is Convex curves have the radius of curvature that varies between the maximum and the minimum. Which causes Forms a micro gap between the convex strength parts. And the parts with Other close strength, where the micro gaps are smaller than the Twisted And allow the insertion of the tire. 2. Steel chord according to claim 1, where such distance between the radius of curvature. The minimum of two radii radius of at least one such curve. Measured along the longitudinal axis (112), it is half the pitch of the part, providing at least a curve. 3. The steel chord according to claim 1, where the convex curves form. 4. Steel chord according to claim 1, where all such strength parts (100, 116, 118) have such a convex curve. Clause 1, where such a strong part is a strand (116, 118) consisting of a number of long strands of steel (120, 122, 124, 126, 128 130). Right number 1, where such strength member lines Long fiber steel (100) 7. Steel chord according to claim 6, the steel chord is included. Three to five strands of steel (100, 132) 8. Steel chords according to claim 7, where each of these long strands of the chord. This is elongated by a partial load (PLE) at a tensile force of 50 N, which differs from the PLE of other steel long fibers, not more than 0.20%. 9. Steel chord. According to Clause 7, where the said steel chord is seized With a partial load (PLE) below 0.30% at a tension pull of 50 N 1 0. Steel chord according to claim 6, the steel chord has long fibers. More than five lines (138, 140, 142, 144, 146, 148, 150, 152) 1 1. The steel chords according to claim 10, all the aforementioned strands have the same strand process and the same strand direction. 2. Steel chords according to claim 11, for each combination of three long strands. Of the chord that forms a triangle of adjacent long fibers in a transverse cross section, at least one such long strand provides a convex arc 1. 3. The steel chord line according to claim 1, the pitch of the aforementioned strand is infinite 1. 4. Steel chords according to claim 6, the steel chords are composed of long fibers. One steel bar only 1 5. A steel cord cloth that consists of the weft (160) and the warp (162) where the weft Or that standing line, or the entire line And the warp has been formed, at least as Partly by any of the steel chords according to Claims 1 to 14 1 6. A process for producing steel (114) chords with longitudinal (X) axes (112) and assembling a number of strong components (100, 116, 118), each of which has been Twisted with a chord pitch, each rigid part has an image projected in the plane (YZ) perpendicular to the longitudinal axis (X) (112) and in the form of a double curve. Dimension throughout at least one length The twisted pitch of the parts, when viewed in the direction of the longitudinal axis, the process includes steps; - At least one (100) of such parts is bent so that the part (100) has a convex arc throughout at least one length. Pitch, twist; - At least one (100) of the above parts is combined with the others to form the said steel chord, which is unique in that Bending is characterized in that the convex arc has a radius of curvature that changes between the values. The highest and lowest values until a micro gap is formed between the convex strength part (100) and the nearby strength part, where the level gap Micro smaller than the pitch Twisting is important And allow the passage of rubber A device for deforming the strength parts (100) of the steel chords (114), in which the apparatus consists of a body (102) with a core and a circumferential surface (108, 110), the fuselage can be rotated around the core of the fuselage. When a piece of strength has been pulled onto a rotation of at least 90 ํ over a longitudinal surface. The body circumference, the circumferential surface, has a variable radius of curvature. Change between the maximum and the minimum value. Which is unique in that this texture makes the parts Strength, which passes on the surface along the circumference, has a convex arc with a radius of Curvature alternating between the maximum and the minimum.