RU186625U1 - Re-earthing - Google Patents

Abstract

The utility model relates to the electric power industry and can be used to perform repeated protective grounding and simultaneous grounding of the metal parts of the support on overhead power lines. The required technical result, which consists in expanding the arsenal of means used for re-protective grounding on overhead power lines, while improving reliability and safety of use, is achieved in a device containing a clamp designed to be mounted on an arm of an overhead power line support, and the first and second grounding wires made in an insulating sheath, the first ends of the first and second grounding wires being pressed into the ferrule with the possibility of connection with a die clamp with grounding of the support of the overhead power line, the second end of the first grounding wire is made in the form of a tip and connected to a clamp designed for fastening on the bracket of the support of the overhead power line through a bolt, and the second end of the second grounding wire is made in the form of a sleeve with the possibility of connection piercing clamp with zero residential power line. 1 ill.

Description

The utility model relates to the electric power industry and can be used to perform repeated protective grounding and simultaneous grounding of the metal parts of the support on overhead power lines.

A grounding device is known for isolated overhead power transmission lines with voltages of up to 3 kV [RU 2631859, C1, H01R 4/66, 09/27/2017], comprising a cabinet permanently located on racks of line supports that contains an electrical connection diagram comprising at least three phases of a multiphase electric circuit and one neutral connected directly to the ground electrode, cable lugs for connecting the cabinet electrical circuitry to the cables connected to the line wires, at least one shunt for connecting the cabinet to the ground electrode and to mmutatsionnuyu apparatus, thus, to the top of said support loops secured at its vertical rack so that the ends of the loops can be freely attached to an insulated wire line by means of clamps.

A feature of the device is that, the aforementioned cabinet is mounted on a reinforced concrete rack of a trapezoidal section of an isolated overhead power line through a mounting unit, and the switching equipment consists of a knife switch and a manual drive with a handle.

A disadvantage of the known device is the complexity and relatively large dimensions.

In addition, it is known grounding device for the support of overhead power lines [RU 2288529, C1, H01R 4/66, 11/27/2006], containing an annular ground electrode, buried in the ground, and a vertical electrode connected to it, moreover, the ground electrode has the form of a cylindrical helical spiral with a varying number of turns in depth inversely proportional to the resistivity of the soil layers in the pit, and with a diameter of turns equal to the diameter of the pit drilled in the ground for installation of an overhead power line support, and a sleep ground electrode It is equipped with clamps that regulate the step between the turns and fix their position when filling the foundation pit with earth.

The disadvantage of this device is also relatively large complexity.

Another analogue of the proposed device is [RU 2632804, C1, H01R 4/00, 09/10/2017] containing an electrodynamic circuit formed by planks made of elastic ferromagnetic material arranged along one another, a contact assembly with contacts, a limiter for moving the ground wire, terminals for connecting grounding wires in an insulating sheath, a shank for attaching a clamp to an insulating handle, a grip for catching a grounding wire, surface sections of strips made with increased roughness In addition, the clamp is equipped with a socket for attaching the grounding wires in the insulating sheath and latches that prevent the clamp from being ejected from the grounding wire in emergency mode, the clamp strips are made of plate, the same configuration along the entire length, with the exception of its lower free ends, while one of these free ends are made in a video shank for attaching a clamp to an insulating handle, and the other in the form of a gripper for catching a ground wire, the upper ends of the strips are electrically connected to each other and mechanically The terminals for connecting the grounding wires in the insulating sheath are placed precisely and in the place of their connection, between the upper and lower ends of the strips there is a limiter for moving the grounding wire, indicating the upper boundary of the contact node with the contacts located on the surfaces of the strips facing each other, the lower boundary of the contact node is indicated latches placed horizontally on one or both strips, the portion of the strips between the terminals and the contact node acts as an electrodynamic circuit, in zones e of the contact node on the outer side of the strip ending in the shank, there is a socket for attaching grounding wires in the insulating sheath, and the surface sections of the strips facing each other located below the contact node and having the possibility of contacting the grounding wire when the clamp is in the working position are made increased roughness.

The disadvantage of this device is its relatively high complexity, which reduces the reliability of the device and does not allow for quick installation.

The closest in technical essence to the proposed one is a re-earthing switch [RU 177748, U1, H01R 4/00, 03/12/2018] containing a contact assembly and first and second grounding wires made in an insulating sheath, and the contact assembly is made in the form of a clamp with clamping bolt for fastening on the support bracket of the overhead power line, the first ends of the first and second grounding wires are connected to the clamp with a tip, the second end of the first grounding wire is made in the form of a tip with the possibility of connecting a flat chnym clamp earthed overhead line supports, and the second end of the second grounding conductor is formed as a sleeve with

the ability to connect with a piercing clamp to a zero residential power line.

The disadvantage of the closest technical solution is the relatively low reliability and safety of use, due to the fact that the grounding wires are connected in series. Such a connection excludes the possibility of redundant grounding and does not fully meet the requirements of the rules for the operation of electrical installations, according to which a series connection of several elements of the electrical installation by grounding (grounding) conductors is not allowed.

The problem that is solved in the proposed utility model is the development of a device with higher reliability and safety of use.

The required technical result is to expand the arsenal of tools used for re-protective grounding on overhead power lines, while increasing high reliability and safety of use.

The problem is solved, and the required technical result is achieved by the fact that the first ends of the first and second grounding wires are made into the device containing the clamp, intended for fastening on the support bracket of the overhead power line, and the first and second ground wires made in an insulating sheath, according to a utility model the wires are pressed into the lug with the possibility of connecting with a spot clamp to the grounding of the support of the overhead power line, the second end of the first grounding wire is made in the form the tip and is connected with a clamp for attaching the bracket supports the overhead power line through the bolt and the second end of the second grounding conductor formed in a sleeve connectable piercing clamp zero residential power line.

The drawing shows the design of a re-earthing switch, placed on the support of an overhead power transmission line with grounding.

The re-earthing switch contains a clamp 1, intended for fastening to the support bracket of the overhead power line, as well as the first 2 and second 3 grounding wires made in an insulating sheath.

In the re-earthing switch, the first ends of the first 2 and second 3 grounding wires are pressed into the ferrule with the possibility of connecting with a spot clamp 6 to the grounding of the overhead support 4 of the overhead power line, the second end of the first grounding conductor 2 is made in the form of a ferrule and connected to a clamp 1 for mounting on a bracket supports 4 of the overhead power line through a bolt, and the second end of the second grounding wire 3 is made in the form of a sleeve with the ability to connect a piercing clip to the zero core 5 of the line power transmission.

A re-earthing switch is used as follows.

The clamp 1 is mounted on the bracket support 4 of the overhead power line. The first ends of the first 2 and second 3 grounding wires are pressed into the ferrule with the possibility of connecting a spot clamp 6 to the grounding of the support 4 of the overhead power line. The second grounding wire 3 using a sleeve is connected through a piercing clamp to the zero core 5 of the power line.

The uniqueness of the proposed re-earthing switch lies in its versatility, since it combines re-earthing of the power line and grounding of the metal parts of the support, and, in parallel, grounding conductors are connected, which increases the reliability and safety of the use of the earthing switch.

Claims (1)

A re-earthing conductor comprising a clamp for fastening to the support bracket of the overhead power transmission line, and the first and second grounding wires made in an insulating sheath, characterized in that the first ends of the first and second grounding wires are pressed into the lug with the possibility of connecting with a spot clamp to ground the support overhead power line, the second end of the first grounding wire is made in the form of a tip and connected to a clamp designed for mounting on a bracket the support of the overhead power transmission line through a bolt, and the second end of the second grounding wire is made in the form of a sleeve with the ability to connect a piercing clip to a zero residential power transmission line.

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