RU203750U1 - Vant - Google Patents

Abstract

The utility model refers to suspended structures - cables with ropes in a polymer sheath, which are intended for use in highly loaded and critical structures, for example, for hanging suspended structures, and can also be used in various industries. The technical result is to increase the reliability of fastening the ropes in The technical result is achieved by the fact that a cable in a polymer sheath, consisting of a steel rope in a polymer sheath and a filler sleeve, the end of the rope is fixed in the inlet of the coupling with an internal thread, diameter D1 = (1.18-1.45 ) × Dk, where Dk is the diameter of the rope, mm, while a clamping collet is installed in the inlet of the coupling, height H = (0.30-0.36) × Dk, in the outer diameter D2 = (1.30-1.35 ) × Dк, having a slope of the outer surface of 12-16 °, forming a wedge-shaped shape, consisting of 2-3 segments, while the inner cavity of the collet has an applied groove that forms an inner periodic profile of the threaded type; fixing the position of the collet is carried out using a nut with an external thread corresponding to the internal thread of the inlet of the coupling, with splines applied, while as the nut is tightened into the inlet of the coupling, the collet is deepened into the surface of the steel rope through a polymer sheath. one end part of the steel rope in a polymer sheath is fixed in the filler sleeve. The technical result is also achieved by the fact that both ends of the steel rope in the polymer sheath are fixed in the filler sleeve. 2 c.p. f-crystals, 4 fig.

Description

The utility model relates to suspended structures - cables with ropes in a polymer sheath, which are intended for use in highly loaded and critical structures, for example, for hanging suspended structures, and can also be used in various industries.

Known cable, containing a steel rope, a filler sleeve, in the upper part of which there are contact means for lifting, lowering or holding the load, and having an internal through hole for pouring fixing material in the form of a truncated cone, characterized in that the smaller base of the internal through hole for pouring of the fixing material is an inlet for the untwisted end of the steel rope and corresponds to the diameter of the steel rope D, and the tapered part of the inner through hole for pouring the fixing material is made with a length of at least 3.5⋅D and has a taper of 8 ÷ 20 °, while as a fixing material use an unsaturated polyester resin dissolved in styrene (RF Patent 189375, IPC F16G 11/00, E01D 19/16, 08/31/2018).

The disadvantage of this useful model is the lack of reliable fixation of the rope in the polymer sheath.

There is a known method (taken as a prototype) for sealing the ends of the suspension cable of the suspension bridge, which includes the following steps: first, complete peeling of the polyethylene sheath segment to expose the bundle of steel wires at the end of the suspension cable in accordance with the required length of the cast anchor in the anchor device; secondly, cutting the polyethylene shell lengthwise to obtain two slots to form two semicircular shell sections with joined tails; third, passing the steel wire bundle through the wire splitting anchor; fourth, installation of a bundle of steel cables in an anchor device when separating steel cables using a device for clamping sectioned semicircular shell sections with connected shanks and making an anchor mortar; fifth, removing the fixture after grouting the anchoring solution, welding two semicircular shell sections with connected shanks, and installing a steel connecting cylinder on a bare steel wire bundle; and sixth, first pour the epoxy between the polyethylene jacket and the connecting cylinder, using water swellable rubber strips and water swelling rubber putty to fill the ends of the connecting cylinder, securing the back cover and filling the gap between the back cover and the water swelling polyethylene jacket rubber putty (CN 102535342, E01D 19/16; E01D 21/00, 04.07.2012).

The disadvantage of the cable of the known design is the laboriousness of the process, the removal of the polymer material in the places where the rope with the anchor is fixed leads to further damage to the shell and a decrease in corrosion protection.

The technical result consists in increasing the reliability of fastening the ropes in a polymer sheath in the filler sleeve.

The technical result is achieved by the fact that cables in a polymer sheath, consisting of a steel rope in a polymer sheath and a filler sleeve, the end of the rope is fixed in the inlet of the sleeve with an internal thread, diameter D ₁ = (1.18-1.45) × D _k , where D _to is the diameter of the rope, mm, while a clamping collet with a height of H = (0.30-0.36) × D _{k is} installed in the inlet of the coupling, in the outer diameter D ₂ = (1.30-1.35) × D _to , having a slope of the outer surface of 12-16 °, forming a wedge-shaped shape, consisting of 2-3 segments, while the inner cavity of the collet has an applied groove that forms an internal periodic profile of a threaded type; fixing the position of the collet is carried out using a nut with an external thread corresponding to the internal thread of the inlet of the coupling, with applied splines, while as the nut is tightened into the inlet of the coupling, the collet is buried into the surface of the steel rope through the polymer sheath.

The technical result is also achieved by the fact that one end part of the steel rope in a polymer sheath is fixed in the filler sleeve.

The technical result is also achieved by the fact that both end parts of the steel rope in a polymer sheath are fixed in the filler sleeve.

The essence of the utility model is illustrated by drawings:

fig. 1 - shows the cables of the proposed design in the section A-A;

fig. 2 - shows the remote element B in Fig. one;

fig. 3 is a three-dimensional view of the collet;

fig. 4 - three-dimensional image of the nut,

where 1 is a steel rope in a polymer sheath;

2 - filler sleeve;

3 - fixing material;

4 - clamping collet;

5 - nut.

The shroud of the proposed design contains a steel rope in a polymer sheath 1, the end parts of which are rigidly fixed in the filler sleeve 2.

For fixing the steel rope in the polymer sheath 1 and pouring the fixing material 3 in the filler couplings, an internal through hole is made for pouring the fixing material 3 in the form of a truncated cone.

Filling couplings 2 can be filled with various fixing materials 3. Sealing the ends of the rope by fixing (pouring) the couplings with a resin-based composition or a low-melting metal (alloy based on a low-melting metal) is the most reliable and durable method of sealing the ends of the rope.

Depending on the purpose of the cable, one end part of the steel rope or both ends of the steel rope can be fixed in the filler sleeve.

The smallest diameter of the inner through hole for pouring the fixing material 3 has a diameter equal to D ₁ = (1.18-1.45) × D _k , while the inlet of the coupling has an internal thread for screwing the nut 5.

A clamping collet 4 with a height of H = (0.30-0.36) × D _k , in the outer diameter D ₂ = (1.30-1.35) × D _k , having a slope of the outer surface α = 12-16 °, forming a wedge-shaped shape, consisting of 2-3 segments, while the inner cavity of the collet 4 has an applied groove that forms an internal periodic profile of the threaded type; fixing the position of the clamping collet 4 is carried out using a nut 5 with an external thread.

The geometric parameters of the clamping collet 4 (H = (0.30-0.36) × D _k , D ₂ = (1.30-1.35) × D _k ) ensure reliable fixation of the steel rope in a polymer sheath 1 in the filler sleeve 2 ...

The slope of the outer surface α = 12-16 ° of the clamping collet 4 provides a certain compression of the steel rope in the polymer sheath 1, which does not exceed the maximum allowable stress for the polymer coating during compression.

The number of segments 2-3 of the clamping collet 4 depends on the diameter of the steel rope in the polymer sheath 1, with an increase in the diameter of the rope 1, the number of segments of the collet 4 increases.

The inner cavity of the clamping collet 4 has a periodic profile of the threaded type, which is necessary for deepening the collet 4 into the surface of the steel rope 1 through the polymer sheath, thus fixing the rope 1 in the filler sleeve 2. In this case, the position of the clamping collet 4 is fixed using the nut 5 by screwing it into the inlet of the filler sleeve 2.

The nut 5 has slots on its surface for the possibility of adjusting the tension force of the collet 4 when tightening with a wrench.

The end elements are made and designed in such a way that when testing the cable-stayed element as a whole for rupture, the destruction of the product occurs in the area of the rope section, since the anchor elements have obviously greater breaking characteristics than the rope.

The polymer sheath of the steel rope provides additional protection against corrosive environments. This protection allows cable-stayed systems to be used in places with a high salinity in the environment and where the structure is exposed to direct sunlight.

Thus, the proposed utility model makes it possible to increase the reliability of fastening a steel rope in a polymer sheath in the filler sleeve by obtaining a better connection.

Claims (3)

1. Cable, consisting of a steel rope in a polymer sheath and a filler sleeve, the end of the rope is fixed in the inlet of the sleeve with an internal thread, diameter D ₁ = (1.18-1.45) × D _k , where D _k is the diameter of the rope, mm, while a clamping collet is installed in the inlet of the coupling, with a height of H = (0.30-0.36) × D _k , in the outer diameter D ₂ = (1.30-1.35) × D _k , having a slope of the outer surface α = 12-16 °, forming a wedge-shaped shape, consisting of 2-3 segments, while the inner cavity of the collet has an applied groove that forms an internal periodic profile of a threaded type; fixing the position of the collet is carried out using a nut with an external thread corresponding to the internal thread of the inlet of the coupling, with applied splines, while as the nut is tightened into the inlet of the coupling, the collet is buried into the surface of the steel rope through the polymer sheath. 2. Vant according to claim 1, characterized in that one end part of the steel rope in a polymer sheath is fixed in the filler sleeve. 3. Cable according to claim 1, characterized in that both end parts of the steel rope in a polymer sheath are fixed in the filler sleeve.

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