CS244152B1 - Centering device for heel cables - Google Patents

Abstract

The solution concerns a centering device for square-section bead cords, especially for passenger tires. The purpose of the solution is to compensate for circular unevenness, axially center it and eliminate lateral deviations of runout before the beads are placed on the building drum. The purpose is achieved by a device that is part of the building machine and consists of a pair of clamping units 2, which are axially movable in the spindle 1 with the possibility of fixed pitch adjustment using nuts £ and an adjusting screw 6, which has a part with a right and left thread. The movement of the radially extendable circular segments 15 is driven by the piston 13 of the power cylinder Tž or by means of a circumferentially closed pneumatic tube located under the segments 15 (not shown).

Description

BACKGROUND OF THE INVENTION The invention relates to a centering device of heel cables, in particular of square cross-section. The bead ropes before being placed on the tire building drum when assembling the green casing of the tire are inserted into the centering and clamping devices, generally located symmetrically on both faces of the tire building drum. The device usually consists of a short cylindrical drum with a tapered start facilitating the insertion of the cable, which serves to center the cable to the axis of the building drum. In this position, the cable is generally held in a plurality of jaw holders positioned evenly around the periphery of the cable. The holders have a fixed jaw that serves for axial alignment of the cable and the jaw is pivotally swiveling to accommodate the cells of a single cable or a complete core-profile cable. The holders usually simultaneously serve to transfer the cable to the building drum. The described method of centering and relocating the cables is suitable for separate braided or bundled cargo tire cables which are sufficiently rigid and dimensionally and dimensionally stable during transport and handling.

Ropes of square tires produced by winding a rubberized wire strip have a constant circumference but show deviations of roundness and axial runout. Axial irregularities are eliminated by striking the cables on the front of the ready-made drum in the case of hemispherical ready-to-wear. In drums for single-stage assembly of radial tires, where the ropes are clamped on the cylindrical surface of the drum or in shallow radial grooves, the basic requirement is a high shape accuracy, especially minimal runout of the bead ropes. The lateral deviations of these ropes cannot completely eliminate the above-described jaw holders, which act on the circumference of the cable at only a few points.

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SUMMARY OF THE INVENTION It is an object of the present invention to overcome the above-mentioned disadvantages, to retrofit in the direction of the radial and axial pairs of cables for a single tire at their desired axial distance from one another. The essence of the proposed solution is that it is formed by a pair of clamping units, which are axially displaceable in the spindle, with the possibility of fixed pitch adjustment. They have radially extendable circular segments with circumferential groove with modified sides to axially and radially center the pair of heel cables.

The ropes thus treated have a balanced circular unevenness, lateral deviations of runout and are axially centered before they are transferred to the building drum.

In order to further elucidate the invention, a further description and accompanying drawing are provided, in which Fig. 1 is a partial cross-sectional view of the centering device.

The centering device consists of a spindle 4 and a pair of clamping units 2. The spindle is formed by a hollow shaft 4 provided on one side with a clamping flange 4. Inside the shaft 4, a set screw 6 having a right and left threaded part is rotatably mounted in rolling bearings. A pair of nuts 8 are moved along the screw symmetrically. Each nut is connected by means of tongues 8 with a pair of carriers 8 passing through the hollow shaft grooves 8. The carriers 8 are firmly bolted to the housing 10 of the clamping unit 2. Of the spindles 8 through the sleeves 11.

In the body of the clamping unit, they are radially evenly around the circumference of the cylindrical cavity of the force cylinders 12. The movement of the pistons 13 of the cylinders is either ¹ / in both senses caused by the pressure medium or only in one direction. Not shown. The piston rod 14 controls the radial movement of the ring segments 15. The ring segments have a continuous groove 86 on their surface for clamping and centering the cable 17. The segments 15 are guided radially in the body of the clamping unit 10 and their stroke is limited by the ring face 18 with the unit body. The bodies of the two clamping units carry the cover

3 244 152 cylindrical shells 19 which fit together and cover the space needed to accommodate the pressure medium distributions for the power cylinders of the units (not shown).

The relative position of the cable clamping grooves is axially adjusted by rotating the set screw 6 which has a square 20 at one end for sliding the hand crank. By rotating the screw 6, the nuts 2 are moved symmetrically relative to each other by means of the carriers 18 to carry the bodies of the clamping units 10 together with the grooves 16 of the circular segments 15. The part indicated by 1 shows the position of the clamping segments before the cable is seated;

The portion of the figure marked 11 shows the heel cable 17 clamped in the segments 15. The continuous grooves 15 of the segments have wedge flanks for axially centering the cables before clamping.

Claims (3)

A centering device of heel cables, in particular of a square cross-section, characterized in that it is formed by a pair of clamping units (2) which are axially displaceable in a fixed pitch spindle (1) and have radially extensible circular segments (15) with circumferential groove (16) with modified sides for axial and radial centering of the pair of heel cords (17) · Apparatus according to claim 1, characterized in that the radial movement of the clamping segments (15) is due to the piston (13) of the force cylinder (12) or by means of a circumferential closed pneumatic tube located below the segments (15). Device according to claim 1, characterized in that the axial displacement of the clamping units (2) is provided by nuts (7) which engage the right and left threaded parts of the adjusting screw (6) which can be secured against rotation.