RU2352042C1 - Mesh lightning conductor - Google Patents

Abstract

FIELD: electrics.

SUBSTANCE: lightning receiver in mesh lightning conductor takes form of close mesh with cell size of 1×1 m, made of lightning protection cables of over 6 mm diametre, suspended at least at four 35-50 m high supports. Each of at least four current discharges is made of flexible cable with the same conductivity as lightning protection cable. Current discharge serves for mesh lifting as well and for that purpose each cable passes through reinforced steel block with rotating roller, mounted on each support. Mesh nod connections and contacts of current discharge with mesh and with earthing are bolt connections with carved cruciform electroconductive pads for conductivity enhancement, and steel block size and positioning depend on dynamic load evolving at mesh lifting to supports.

EFFECT: efficient protection of humans, equipment and construction machinery from lightning discharge hit in regions with high thunderstorm rate.

1 dwg

Description

The invention relates to lightning protection of the country's economy, and more particularly to devices of lightning rods.

Known lightning rod with an air terminal in the form of a mesh of one cell formed by laying a wire with a diameter of 6 mm (wire rod) along the ridge of the roof of the building. This lightning conductor is selected as a prototype (A.M. Ganelin, S.I. Kostruba. Directory of rural electrician. - M .: IN "AGROPROMIZDAT", 1988, p. 285, Fig. 125).

The disadvantage of the prototype is to provide protection only inside the building, and everything that is outside it, for example, a diesel generator standing near the building, etc., is not protected from lightning. The second disadvantage of the prototype is the lack of shunting of the conductors of the air terminal, due to which it is possible to burn the lightning conductor with a lightning current with a direct lightning strike into the air terminal.

The objective of the invention is the effective protection of people, equipment and construction equipment from damage by lightning strikes in areas with increased lightning activity.

As a result of the use of the present invention, it becomes possible to carry out work and maintenance of equipment during a thunderstorm in an open area in a field, at a construction site, etc., without being affected by lightning strikes, without the use of complex and expensive structures, and also the possibility of shunting lightning conductor conductors , which eliminates the burning of lightning conductor conductor with a lightning current with a direct lightning strike into the air terminal due to the presence of a large number of mesh cells.

The above technical result is achieved by the fact that in the proposed mesh lightning conductor, consisting of a mesh lightning rod, pin lightning rods, down conductors and grounding conductors, the lightning rod is made in the form of a fine mesh with a mesh size of 1 × 1 m from lightning ropes with a diameter of at least 6 mm, suspended at least 6 mm than on four supports with a height of 35-50 m, and each of at least four down conductors is made of a flexible cable with a conductivity equal to the conductivity of the lightning protection cable, while These descents simultaneously serve to raise the mesh to a height, for which each cable is thrown through a reinforced steel block with a rotating roller mounted on the top of each support, while the connections in the nodes of the mesh and the connections of the current-lowering descent with the mesh and with the ground electrode are made with bolted cross-shaped conductive steel overlays to increase conductivity, and the steel block has dimensions and is installed taking into account the dynamic loads that arise when lifting the grid to the supports.

A mesh lightning rod made in the form of a grid suspended on at least four wooden or metal supports (masts) with a height of 35-50 m installed along the perimeter of the protected area, for example, a 70 × 50 m rectangle. The proposed mesh lightning rod contains a lightning rod made of lightning protection cables with a diameter of at least 6 mm, at least four pin lightning rods on the masts, at least four down conductors and at least four grounding conductors. The mesh air terminal has the shape of a rectangle, equal in area to the protected area, and cells 1 × 1 m in size and nodes formed by a bolted connection, reinforced with curly cross-shaped conductive steel plates to increase conductivity. Each of at least four down conductors is made of a flexible cable with a conductivity equal to the conductivity of the cable with a diameter of at least 6 mm.

Each of the pin lightning rods is connected to the ground electrode through a conductive release. The down conductors simultaneously serve to raise the mesh to a height, for which each cable is thrown through a reinforced steel block with a rotating roller installed at the top of each support (mast). The cable connections with the grid and with grounding are bolted, reinforced with curly cross-shaped conductive metal plates to increase conductivity.

The air terminal is made in the form of a fine-mesh mesh with a mesh size of 1 × 1 m of lightning protection cables with a diameter of at least 6 mm, suspended on at least four supports with a height of 35-50 m, which meets the requirements of the necessary conductivity with the possibility of shunting when draining lightning discharges with a protective structure and ensuring its mechanical strength under dynamic and static loads.

The invention is illustrated in the drawing, which shows a General diagram of a mesh lightning rod.

The mesh lightning rod contains a fine mesh wire - a lightning rod 1, supports 2, down conductors 3, reinforced steel blocks with rotating rollers 4, pin lightning rods 5, bolt connection with curly cross-shaped conductive steel plates 6, earthing switches 7 installed in the ground 8.

The mesh lightning conductor works as follows.

In a lightning discharge in the direction of the territory protected by a lightning rod, the discharges are captured by a lightning rod 1 and pin lightning rods 5 mounted on supports 2, while charges from the lightning rod 1 and lightning rods 5 flow down through the down conductors 3 connected to ground rods 3 connected to 7 earth 8. At the same time, the lightning rod mesh 1 is made of lightning protection cables fixed between each other by bolted connections with curly cross-shaped conductive steel plates 6, and connected to downstream slopes 3 through reinforced steel blocks 4, mounted on supports 2.

Thus, the workers working on the territory and under the net, as well as equipment, large-sized equipment and other objects exposed to lightning strikes, are fully protected from this effect.

Claims (1)

Mesh lightning rod, consisting of a mesh lightning rod, pin lightning rods, down conductors and grounding conductors, characterized in that the lightning rod is made in the form of a fine mesh with a mesh size of 1 × 1 m from lightning ropes with a diameter of at least 6 mm, suspended from at least four supports with a height of 35-50 m, and each of at least four current-lowering descents is made of a flexible cable with a conductivity equal to the conductivity of the lightning protection cable, while current-lowering descents simultaneously serve to raise the mesh to a height of why, each cable is thrown through a reinforced steel block with a rotating roller mounted on the top of each support, while the connections at the nodes of the grid and the connections of the current-lowering descent with the grid and grounding are made by bolted with curly cross-shaped conductive steel plates to increase conductivity, and the steel block has dimensions and is installed taking into account dynamic loads arising when lifting the grid to the supports.