RU205255U1 - EARTHING DEVICE FOR AIR POWER LINES - Google Patents

Abstract

The utility model relates to the field of power engineering, in particular, to grounding devices of overhead power transmission lines with insulated wires up to 1 kV. The technical result of the utility model is to increase the efficiency of the installation of the device, which is achieved both by increasing the reliability of the installation, by maintaining the integrity of the conductor before it is connected, and due to the convenience, reducing the installation time and ensuring safety when it is put into contact, in particular when carrying out installation work in inconvenient conditions or the impossibility of removing voltage from the line, as well as increasing the reliability of the mounted connection. The grounding device of overhead power transmission lines with insulated wires is a shunt made of a metal rope, made in the form of a flexible grounding conductor, one end of which is connected by means of clamps to a grounding descent fixed to the support post. The other end of the conductor is connected to the insulated neutral core of the self-supporting insulated wire by a piercing clamp without shunt tension, which provides re-grounding of the neutral core of the self-supporting insulated wire and the metal structures of the line support. According to the utility model, at the end of the conductor connected to the grounding descent, there is a mounting terminal element - a tip with the possibility of removing it from the conductor after the installation of the grounding device on the power line. 3 C.p. f-ly, 3 dwg

Description

The utility model relates to the field of power engineering, in particular, to grounding devices of overhead power lines with insulated wires up to 1 kV. On overhead power lines with insulated wires, it is imperative to re-ground the neutral (neutral) core, for example, self-supporting insulated wires, as well as metal structures of reinforced concrete supports (traverses, brackets, hooks, etc.) in order to protect the conductive conductors of wires and the line itself.

A grounding device for overhead power lines with insulated wires is known, which is a shunt made of a metal rope, made in the form of a flexible grounding conductor, one end of which is connected by means of clamps to a grounding descent fixed to a support post, and its second end is connected to an insulated zero conductor of a self-supporting insulated wires by means of a piercing clamp without shunt tension, which provides re-grounding of the zero core of the self-supporting insulated wire and metal structures of the line support rack (RU2636657 C1, publ., 11/27/2017).

The disadvantages of the known device are the low reliability of the device, especially during its installation, due to the uncontrolled unwinding of the conductor, made in the form of a rope, both in preparation for installation, and during installation, which occurs in difficult conditions of the installer at height.

The technical result provided by the implementation of the utility model is to increase the efficiency of the device installation. Efficiency of installation is ensured both by increasing the reliability of installation, by preserving the integrity of the conductor before connecting it, and due to convenience, reducing installation time and ensuring safety when putting it into contact, in particular when carrying out installation work in inconvenient conditions or the impossibility of removing voltage from lines, as well as increasing the reliability of the mounted connection.

The technical problem is solved, and the technical result is achieved by the fact that the grounding device of overhead power lines with insulated wires, which is a shunt fixed on a support, made of a metal rope, made in the form of a flexible grounding conductor, one end part of which is connected by passing through the fastening elements to the grounding descent of the support, and the other end part is connected by means of a piercing clamp to the insulated neutral conductor of the self-supporting insulated wire with the formation in the middle part of a loop that compensates for the vibrations of the wire formed by fixing the flexible grounding conductor on the support elements using an interface element, according to the utility model, the end part of the conductor connected to the grounding descent is equipped with a mounting end element installed on the end part of the conductor to cover the surface of the end part of the conductor and the possibility I will remove it from the said end part.

The technical result is achieved in that the mounting end element is configured to cover the radial and end surface of the end part of the conductor.

The technical result is also achieved by the fact that a part of the mounting terminal element is made with the possibility of providing partial untwisting of the end part of the metal rope when the mounting terminal element is removed after mounting the grounding device on the power transmission line support.

The technical result is also achieved by the fact that the mounting end element is made in the form of a tip made of heat-shrinkable material.

In addition, the technical result is achieved by the fact that the interface element is made in the form of a plate, the length of which exceeds its width 2.5 - 3.2 times.

The utility model is illustrated using drawings.

FIG. 1 shows the mounted device.

FIG. 2 - conductor with elements of its connection.

FIG. 3 - an embodiment of the conductor.

The elements of the device are designated by the following reference numbers:

1 - flexible grounding conductor;

2 - fastening element, ram clamp;

3 - support stand;

4 - grounding (upper) descent;

5 - self-supporting insulated wire;

6 - piercing clamp;

7 - an interface element made in the form of a flat plate;

8 - shank;

9 - hole;

10 - bolt;

11 - clamp;

12 - anchor bracket;

13 - tip.

The described device is a shunt in the form of a flexible grounding conductor 1 made of a metal rope, for example, a galvanized steel cable, the diameter of which is selected in the range of 4 ÷ 20 mm. To re-ground the zero (neutral) conductor of the self-supporting insulated wire, the shunt 1 with the end part intended for connection to the grounding (upper) slope 4 is mounted by passing through the fastening elements placed on the support 3 of the support, and is connected to the grounding (upper) slope 4. The connection can be carried out by means of, for example, ram clamps 2. The second end part is connected to the insulated neutral conductor of the self-supporting insulated wire 5 by means of a piercing clamp 6. When using the self-supporting insulated wire 5 with an uninsulated neutral conductor, the shunt 1 is connected directly to it. In this case, the connection of the shunt 1 is carried out without tension, which is necessary to exclude the possibility of pulling out the flexible grounding conductor of the shunt 1 from the attachment points when the wires of the overhead line vibrate. The attachment point can be structurally combined with the shunt 1 or as a separate part included in the set of the grounding device and connected to the shunt 1 as required. The conductor in the section between the end parts, that is, with its middle part, which is one third of the total length, is attached to the metal structures of the support, on which the self-supporting wire is attached (traverses, brackets, hooks and other metal elements), using interface elements to form a loop in the middle part compensating wire vibrations 5.

The interface element is made in the form of a flat plate 7, fixed on the flexible grounding conductor of the shunt 1 and having a shank 8 with a hole 9 for the bolt 10 of the clamp 11, rigidly fixing the plate, for example, on the anchor bracket 12 of the reinforced concrete post 3 of the line support. The opposite part of the plate 7 is fixed by crimping around the shunt cable 1.

To ensure ease of installation in confined spaces, i.e. to increase the efficiency of installation, the geometric dimensions of the plate 7 are chosen by the conditions of exceeding the length of the plate 7 in relation to its width by 2.5-3.2 times. This ratio of dimensions provides an increase in the efficiency of installation, because allows you to use a standard tool. The shorter length of the plate 7 (less than 2.5 times the excess over the width worsens the installation conditions, since it forces the use of a specialized tool, i.e. to change the tool during the installation process. The plate length exceeding its width by more than 3.2 times prevents the device from being placed in the mounting area, creates obstacles for the passage of plates between other elements of the grounded structure.

The embodiment of the conductor shown in FIG. 3, is equipped with additional plates that ensure the connection of the middle part, which is one third of its length, to the elements of metal structures. Such connection is necessary for grounding additional elements, for example, a grounding descent of an additional support, which performs the function of a brace that fixes the position of the main support.

The utility model is implemented as follows.

In accordance with the requirements of the "Rules for Electrical Installations" on the supports of overhead insulated power lines with a voltage of up to 0.4 kV, the neutral (neutral) core of self-supporting insulated wires must be re-grounded, and the metal elements of the supports must have an electrical connection with the upper grounding slopes of the supports. To ensure such connections in the claimed technical solution, a shunt 1 in the form of a flexible grounding conductor and clamps 11, for example, of a bolt type, are used. In particular, the bracket 12 on the support 3 of the supports of overhead insulated power lines is connected to the upper grounding slope 4 of the reinforced concrete support 3 of the support using a flexible grounding conductor by clamping the plate 7 fixed to it by the bolt 10 of the clamp 11 installed on the bracket 12 of the intermediate support for suspension self-supporting insulated wire 5. The flexible grounding conductor itself, as previously mentioned, is connected to the upper grounding slope 4 of the reinforced concrete pillar 3 of the support by means of ram clamps 2 (Fig. 1). The end part of the conductor 1, connected to the grounding escapement 4, is provided with a mounting end element 13. The element 13 is a tip / cap made of metal or non-metallic material. The tip is made and placed so that it can be removed / removed from the shunt 1 after the installation of the grounding device on the power line.

Making the tip made of metal can be accompanied by the placement of an insulating material between the tip and the shunt 1. The insulating material performs two functions: firstly, it prevents direct electrical contact of the shunt 1 with elements of electrical installations that may be energized during installation work; secondly, it facilitates the removal of the mounting end piece 13, in the form of a tip or a cap, upon completion of mounting.

Since the shunt 1 is made of a rope woven from several strands / strands, the strands of the rope that are not fastened to each other or are not fixed by any covering element can become untwisted. In other words, the end part of the rope is subject to loosening / unraveling, which causes certain difficulties in the installation of the device.

In particular, the unbraided end of the conductor 1 does not allow it to be inserted into the clamp 2, which greatly complicates the installation of the device, especially when carrying out high-rise installation. To prevent untwisting of the rope of the conductor 1, a removable mounting element (tip) 13 is installed at its end, which allows the end of the conductor to be threaded into the mating nodes. Making the tip of non-metal reduces friction in the mating assemblies during installation. Removing the tip 13 after the clamping of the end of the conductor 1 promotes unraveling of the strands / strands of the rope, which increases the reliability of the connection obtained by preventing the unbraided end of the conductor from being pulled out of the clamp 2 even if the clamp is loose.

The proposed device, designed to perform re-grounding of zero (neutral) cores of self-supporting insulated wires, as well as metal structures of reinforced concrete supports of overhead power lines with insulated wires up to 1 kV, is quite simple in design and effective in terms of optimal overvoltage protection of overhead power lines of this class.

Thus, the claimed utility model makes it possible to increase the efficiency of the installation of the grounding device, which is ensured both by increasing the reliability of the installation by preserving the integrity of the conductor before connecting it, and due to the convenience, reducing the installation time and ensuring safety when it is put into contact, in particular when implementation of installation work in inconvenient conditions, as well as increasing the reliability of the mounted connection.

Claims (4)

1. Grounding device of overhead power lines with insulated wires, which is a shunt made of a metal rope, made in the form of a flexible grounding conductor to ensure re-grounding, one end part of which is configured to be connected to the grounding slope of the support, and the other end part is made with the possibility connection to an insulated zero core of an insulated wire and provided with an interface element rigidly attached to the conductor and made in the form of a plate with the possibility of attachment to the support, characterized in that the end part of the conductor, made with the possibility of connecting to the grounding run of the support, is equipped with a mounting terminal element located with the provision of covering the surface of the end part of the conductor and the possibility of its removal from the said end part after the installation of the grounding device. 2. The device according to claim 1, characterized in that the mounting end element is configured to cover the radial and end surface of the end part of the conductor. 3. The device according to claim. 1, characterized in that part of the mounting terminal element is configured to provide partial untwisting of the end part of the metal rope when the mounting terminal element is removed after installation of the grounding device. 4. The device according to claim. 1, characterized in that the mounting end element is made in the form of a tip made of heat-shrinkable material.

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