RU148360U1 - CLAMP MEDIUM ANCHORING - Google Patents

Abstract

1. The middle anchor clamp, containing two dies with opposite grooves, with curly grooves for attaching a contact wire and half-cylindrical grooves for attaching a multi-wire anchor wire, and the semi-cylindrical grooves are made in the form of a wave with an axis of a cylindrical surface located in a section perpendicular to the plane of the die connector, with the displacement of the crests and troughs of the wave on the opposing grooves by a distance of 0.5 distance between them, with the grooves of the output of the multi-wire anchor wire from the clamp with an angle of inclination to the horizontal axis of 10-15 °, and bolt connections for fastening the dies with each other, characterized in that the transition from the wave crest to the depression in the semi-cylindrical grooves is carried out on an inclined surface with an angle of inclination of 12-15 °, and the wavelength is semi-cylindrical the gutter is 2.1-2.7 times the diameter of the multi-wire anchor wire. 2. The average anchor clamp according to claim 1, characterized in that the wave amplitude of the half-cylinder groove for attaching the multi-wire anchor wire is 0.07-0.12 diameter of the multi-wire anchor wire. 3. The average anchor clamp according to claim 1, characterized in that the curly grooves for attaching the contact wire are made with a notch 0.25-0.4 mm high, a notch pitch of 1.0-1.4 mm and an angle at the apex of 80-100 ° .four. The middle anchor clamp according to claim 1, characterized in that when replacing the contact wire in the clamp with a supporting multi-wire cable, instead of a curved profile for fixing the contact wire in the dies, semi-cylindrical grooves are made.

Description

The utility model relates to the arrangement of a contact network of electrified railways, in particular, to the field of manufacture of fittings for an electrified air contact network of railway and urban transport for connecting a contact wire to a medium anchor cable.

A well-known medium anchor clamp, consisting of two bronze dies with zigzag grooves for placement of multi-wire wires or cables fastened together by bolt connections, while in each of the grooves there is a notch of alternating protrusions and depressions directed perpendicular to the axis of the connected wire [one].

A disadvantage of the known invention is that the proposed clip does not regulate the curvature of the gutters for the placement of multi-wire wires and cables. As a result, unregulated gutter bends, during installation from one side, contribute to excessive deformation of the wires placed in them and damage to the copper coating, which leads to increased corrosion of the bare steel core and the breakage of wires and cables when applying a tensile operational load. On the other hand, due to the high mechanical properties of stranded wires, it is impossible to place cables and wires in zigzag grooves in the field. Such a clamp can hardly be used when installing the contact network in the field, since it is impossible to place the wires in the gutters of the dies without mechanical damage to the wire.

In addition, with unregulated curvature of the gutters, tight contact of the die material with the wires and cables placed in it is not ensured. This leads to an excessive increase in the electrical resistance of the contact node, unforeseen electrical losses and unacceptable heating of the wires at the contact points, which leads to sagging wires and the possibility of violating the integrity of the contact network.

For these reasons, the well-known clamp did not find application in the air contact networks of railway and city transport, since all of its shortcomings listed could lead to breakage of the contact wire during operation.

The closest in combination of essential features and the achieved positive result to the proposed one is the well-known medium anchor clamp, consisting of two dies made by hot stamping from bronze and connected to each other by means of a bolted connection, with a groove for accommodating multicore wires or cables, and with figured gutters, to accommodate the contact wire, and the gutters to accommodate stranded wires or hummocks are made with protrusions 1.0-2.0 mm high, offset relative to each other the other half the distance between them, the length of the protrusions in the grooves for the multi-wire wire is 0.07-0.1-05 the length of the depressions, and at the output of these wires from the clamp, grooves are made with an angle of inclination to the horizontal axis of 10-15 degrees, and grooves for placement of the contact wire made a notch with a height of 1.50-2.0 mm and in increments of 1.5-2.0 mm [2].

The protrusions in the gutters, which are sharp changes in the depth of the gutter with a size of 1.5-2.0 mm, with sharp edges, during the installation of multicore wires in such dies, lead to pinching, deformation and mechanical damage to the wires and cables, creating stress concentrators. With the subsequent application of normative tensile stresses, and constantly acting external loads on the contact network, unnormalized extension of wires occurs during operation and, ultimately, can contribute to wire breakage.

The well-known clamp after conducting operational tests due to low reliability, was banned for use in the contact network of the main branches of electrified railways.

Another disadvantage of the known clamp is that the notches on the grooves designed to accommodate the contact wire with a height of 1.5-2.0 mm and a pitch of 1.5-2.0 mm when clamping the dies with a bolted connection lead to mechanical damage contact wire, since the regulated value for tightening the bolts of the dies 40 and 60 Nm, stipulated by the regulatory documents of the Russian Railways, does not allow incisions of the proposed size to penetrate into the body of the contact wire. With such efforts, the notch damages the surface layer of the contact wire, creating the conditions for an emergency. Reducing the contact area of the plate material with the contact wire reduces the conditions of current transfer. As a result, the electrical resistance of the contact node increases sharply, which leads to unreasonable losses of electricity and excessive heating of certain sections of the contact wire in the clamp area, causing excessive slack during operation.

All of these shortcomings, which reduce the reliability of the known clamp, do not allow its use in contact networks of electrified railways.

The goal, the technical result of the proposed clamping of the middle anchoring is to increase the reliability of the contact network of electrified railways by eliminating the deformation of stranded wires and cables in the clamps of the node of the middle anchoring, and thereby eliminating the likelihood of wire breakage or elongation during operation, increasing the possible tensile load at the joints of the wires, and reduce electrical resistance at the contact points of the contact wire with the die material, due to improved contact wires in the gutter dies.

The technical result is achieved by the fact that in the known clamp of the middle anchor, containing two dies with opposite grooves, with figured grooves, for fastening the contact wire, and half-cylindrical grooves, for fastening the multi-wire anchor wire, moreover, the half-cylindrical grooves are made in the form of a wave with the axis of the cylindrical surface located in a section perpendicular to the plane of the die connector, with the displacement of the ridges and troughs of the wave on the opposing grooves by a distance of 0.5 distance between them, from the groove the output of the multiwire anchor wire from the clamp with an angle of inclination to the horizontal axis of 10-15 degrees, and bolted connections for fastening the dies with each other, characterized in that the transition from the wave crest to the depression in the semi-cylindrical grooves is on an inclined surface, with an angle of inclination 12-15 °, and the wavelength of the semi-cylindrical trough is 2.1-2.7 of the diameter of the multi-wire anchor wire.

The wave amplitude of the semi-cylindrical trough for attaching a multi-wire anchor wire is 0.07-0.12 diameter of a multi-wire anchor wire.

Curly grooves for placing the contact wire are made with a notch, 0.25-0.4 mm high, with a notch pitch of 1.0-1.4 mm and an angle at the apex of 80-100 degrees.

When replaced in the clamp of the contact wire with a multi-wire cable, instead of a figured profile for fastening the contact wire, half-cylinder grooves are made in the dies.

The proposed clip is illustrated by the following figures.

The figure 1 shows a section of a die on a semi-cylindrical groove. The figure 2 shows the appearance of the dies. Figure 3 shows the clamp assembly. Figure 4 shows a notch made on a figured groove for attaching a contact wire.

The contact wire 6 is clamped with jaws 4 of a shaped profile, with a notch, the dimensions of which are shown in figure 4. The dies 7 and 8 are fastened together by means of bolt joints 5. A semi-cylindrical groove for attaching a lot of wire is made in the form of a wave with ridges 1 and troughs 2, and the transition from the crest of the wave to the depression is carried out on an inclined surface with an inclination angle of 12-15 degrees.

The wavelength of the semi-cylindrical trough is 2.1-2.7 times the diameter of the stranded wire placed in the clamp.

Clamping dies are made by hot forging of bronze from a hot-rolled bar. The configuration of the semi-cylindrical trough is the size of the crests and troughs of the wave, selected on the basis of the overall dimensions of the multi-wire wires that are attached to the clamp. The transition from the wave crest to the depression is carried out along an inclined surface with an inclination angle of 12-15 degrees and a wavelength of 2.1-2.7 diameters of the multi-wire wire.

This configuration of the semi-cylindrical groove completely eliminates the possibility of pinching and damage to the wires in the groove, and a smooth transition from the wave crest to the troughs along the inclined surface creates the effect of a “locking wedge” completely eliminating the possibility of slipping wires in the clamp.

When the angle of inclination of the transition surface from the wave crest to the trough is less than 12 degrees, the effect of a “locking wedge” is not created in the semi-cylindrical trough. Stranded wires placed in the dies can slip in the clamp.

If the angle of inclination of the transition surface from the ridge to the depression is more than 15 degrees, mechanical damage to the multi-wire wire clamped by the clamp dies is possible.

In the proposed clamp, the installation of a rigid multi-wire wire or cable in a die is carried out without any special effort, since the size and configuration of the gutter does not require significant bends of the wire. The wavelength of the semi-cylindrical trench 2.1-2.7 of the diameter of the stranded wire is selected from the calculation of the minimum kinks of the stranded wire when mounting the anchor clamp. When the wavelength is less than 2.1 times the diameter of the stranded wire, difficulties arise when mounting the stranded wire in the clamp due to the high strength of the wire. With a wavelength of more than 2.7 times the diameter of the multi-wire wire, the effect of the “locking wedge” is not sufficient for firmly fixing the wires in the clamp.

The size of the gutter wave - the height and wavelength after fastening the wires in the dies with bolted joints, creates an additional supply of tension of the coupler due to the smooth bending of the wires in the grooves of the die, creating a kind of "locking wedge" in the semi-cylindrical gutters that firmly fixes the multi-wire wires in the clamp, excluding the possibility of slipping wires under load, and most importantly, excluding mechanical damage to the wire, due to the transition from the wave crest to the depression along an inclined surface. In addition, when creating a “locking wedge”, when placing multi-wire wires, the value of the permissible tensile load increases by 20-30%, by eliminating the likelihood of damage to the multi-wire wires in the proposed clip.

The height of the notch on the figured groove, 0.25-0.4 mm in size with an angle at the apex of 80-100 degrees, and in increments of 1.0-1.4 mm, provides for the introduction of a contact wire into the body, to a depth of 0, at a regulated tightening torque of bolted joints , 15-0.25 mm.

The height of the notch exceeds the depth of penetration of the notch into the body of the contact wire for the following reason. The teeth of the notch, penetrating into the body of the contact wire, deform it, squeezing the metal of the contact wire, which fills the gaps between the teeth of the notch. The choice of the height of the notch and the magnitude of the pitch of the notch is selected based on the creation of the necessary free volume for filling the gaps between the teeth of the notch extruded from the body of the contact wire of the metals. Filling the interdental volume of the notch, the material of the contact wire provides the most tight contact of the surface of the contact wire with the surface of the die, and thereby reduces the electrical resistance of the contact and enhances the mechanical adhesion of the contact wire in the butt clamp

References taken into account.

1. RF patent №2115569, Cl. B60M 1/24, 1997. "Clamp for connecting two wires of a chain suspension of a contact network."

2. RF patent №2165860, Cl. B60M 1/24, 2000. "Clamp for the middle anchor assembly."

Claims (4)

1. The middle anchor clamp, containing two dies with opposite grooves, with curly grooves for attaching a contact wire and half-cylindrical grooves for attaching a multi-wire anchor wire, and the semi-cylindrical grooves are made in the form of a wave with an axis of a cylindrical surface located in a section perpendicular to the plane of the die connector, with the displacement of the crests and troughs of the wave on the opposing grooves by a distance of 0.5 distance between them, with the grooves of the output of the multi-wire anchor wire from the clamp with an angle of inclination to the horizontal axis of 10-15 °, and bolt connections for fastening the dies with each other, characterized in that the transition from the wave crest to the depression in the semi-cylindrical grooves is carried out on an inclined surface with an angle of inclination of 12-15 °, and the wavelength is semi-cylindrical the gutter is 2.1-2.7 times the diameter of the multi-wire anchor wire. 2. The average anchor clamp according to claim 1, characterized in that the wave amplitude of the semi-cylindrical groove for attaching the multi-wire anchor wire is 0.07-0.12 diameter of the multi-wire anchor wire. 3. The middle anchor clamp according to claim 1, characterized in that the curly grooves for attaching the contact wire are made with a notch 0.25-0.4 mm high, the pitch of the notch protrusions 1.0-1.4 mm and the angle at the apex 80- 100 °. 4. The middle anchor clamp according to claim 1, characterized in that when replacing the contact wire in the clamp with a supporting multi-wire cable, instead of a curved profile for fixing the contact wire in the dies, semi-cylindrical grooves are made.

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