SU1642142A1 - Device for attaching eye ring to a rope - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to devices for connecting ropes. The purpose of the invention is to increase reliability by combining 7 t figl

Description

factors of friction and bending. Sleeve 1 is connected to nut 2 and crimps the rope through connecting elements 5 and 6. Core 3 is located between the branches of the rope, through which the rope is bent. On the inner surfaces of the connecting elements, grooves 15 and 17 have a circular profile in which the branches of the rope are located. In the middle part of the grooves 15 and 17, there are hollows 16 into which the strands of the rope are bent during its compression, 3 h, n. f-ly, 10 ill.

The invention relates to mechanical engineering, in particular to devices for connecting cable cars.

The purpose of the invention is to increase reliability by combining the factors of friction and bending.

FIG. Figure 1 shows the device for connecting the rope with the pitman, a longitudinal section; in fig. 2 - the same side view; FIG. 3 is a section A-A in FIG. one; in fig. 4 - device sleeve in a section along the X axis; in fig. 5 - the same, along the Y axis; in fig. 6 - sleeve in FIG. 4, face view; in fig. 7 shows a wedge element, axial section, 1 in FIG. 8 shows the wedge connecting element of FIG. 7, face view; in fig. 9 is a section BB in FIG. one; in fig. 10- central core, longitudinal section.

The connecting device of the cushion with a rope contains a sleeve 1 with an external thread, a nut 2 with a threaded and tapered inner bore, a central core 3 in the form of a two-pointed wedge, which bends the branches of the rope 4, two structurally identical wedge connecting elements 5 and 6, and cocks 7.

The hole in the sleeve 1 is made in the form of two consecutively and coaxially connected figures, an oval with slopes 8 along its major axis X and a truncated cone 9, the surfaces of which are made with a slope equal to the friction angle a. At the same time, the slopes of the 8 oval at the zenith of their curvature are smoothly conjugated with the generator of the cone 9. The diameter of the apex of the truncated cone is determined to be (1.04-1.08) d. Nut 2 has a tapered bore 10, the smaller diameter of which is also equal to 2R, and the angle of inclination is also equal to the friction angle a. A hexagon is made on the outer surface of the nut 2, which is intended to rotate it with a key during assembly of the device.

The core 3 is a two-pointed clamping wedge with an angle a equal to the friction angle. The middle part of the core has profile surfaces 11 symmetrical with respect to the longitudinal axis. Each profile surface 11 consists of two concave and one convex arcs of circles connected to each other and connected tangentially to the bevel planes of 12 shanks. The centers of the radii of these arcs are located: two on

vertical and four on inclined angle x. Troughs are made on the profile surfaces 11 and planes 12, the radius of curvature of which is 0.55 of the rope diameter. Central height

core 3 is determined depending on the diameter of the rope in the range of 0.5-0.7 of its diameter.

Each wedge connecting element 5 and 6 in its cross section is made in the form of an eccentric circular sector with three equal largest slopes along the zenith of their profiles. There are two external slopes 13 and 14 and an internal slope of chute 15. The external profile surface slopes have a curvature in cross section equal to R. The internal chutes have a curvature in cross section equal to 0.55 of the diameter of the rope. In the middle of the gutter of each element

5 and 6 there are hollows 16, the depth of which is determined and limited to C, which is equal to 0.34 of the rope diameter, i.e. CU.34 d. Each depression 16 is smoothly matched by three arcs of radius RO,

the value of which is determined equal to 1.5 of the diameter of the rope, m, e. 5 d. The valleys 16 are designed to distribute the specific compressive cable forces into two sections, since in the overlap zone of the two cavities the rope branches are not in the compressed (free) state. This allows ensuring a reliable connection, as the specific compressive cable forces increase in magnitude. hollows

The wedge connecting elements 5 and 6 are placed inside the nut and bushings parallel to the branches of the rope on the sides one to the right and the second to the left and with their grooves 15 and 17 of the circular profile cover the canal branches for their outer surfaces. The profile surfaces of the slopes 13 and 14 interact with the forming cones 9 and 10 of the sleeve and the nut.

The device works as follows.

The branches of the rope 4 are put on the sleeve 1, the pre-circumferential bush 7. A central core 3 is inserted into the gap between the branches of the rope. Then the wedge connecting elements 5 and b are inserted into the tapered bore, which cover the branches of the rope beyond their outer surfaces, and then they put on nut 2.

When rotating, the nut 2 simultaneously performs a translational motion in the axial direction and approaches the sleeve 1. From this movement, the branches of the rope are wedged in the presence of the central core 3 and at the same time the compression of one branch of the rope with the other occurs in the presence of wedge elements 5 and b during interaction external profile slopes 13 and 14 forming cones 9 and 10 sleeve and nuts.

When the nut 2 is rotated in the opposite direction, the nut with the bushing is dispersed, which causes wedging and decompression of the rope branches (their release). The clamping and wedging force is evenly distributed over six sections along the ends of the branches of the rope and is equal to five tensile forces for tightening the threaded connection in each section.

The proposed device is simple to manufacture, reliable in operation, and can be used in various sectors of the national economy to form detachable joints of steel cables with ankush, in various lifting devices with improved safety conditions.

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Claims (1)

1. A device for connecting the coulice with a rope, containing a nut and a threaded sleeve on 5 of the outer surface and the cone on the inner surface, a two-pointed wedge with grooves along the middle generatrix, located in the sleeve between the branches of the rope, characterized in that. with the aim of 0 improving reliability by combining the factors of friction and bending, it is equipped with two wedge elements located in the nut and sleeve on both sides of the branches of the rope with circular grooves on the inner surfaces and with conical shanks on the outer surface of eccentric circular section, oval hole on the smaller diameter side 0 cone, and the slope of the outer surface of the conical shanks and cones gapki and bushings to the axis of the device is equal to the angle of friction. 2 device pop 1, characterized in that the radius of curvature of the conical 5 shanks of wedge elements are made within (1.04 - 1.08) d. where d is the diameter of the rope. 3, the Device in PP. 1 and 2, that is, with the fact that a hollow with a depth of 0.34 d is made in the groove of the wedge elements, it smoothly adjoins the groove along the radius of 1.5 d. 4, The device according to claims 1-3, characterized in that the diameters of the peaks of the conical holes of the sleeve and nut are made equal to 3 d, where d is the diameter of the rope. Fig.Z FaeL V x Fig 7 FIG. eight FI.5 FIG. 6 FIG. 9 Fi.Y.