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Lightning Grounding System
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Lightning Protection Rod
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Lightning Protection System
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Power Surge Protection Device
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Signal Surge Protection Device
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Ground Enhancement Material
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Lightning Repeller
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Anti Corrosion Coating
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Aircraft Warning Lights
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Stainless Steel Lightning Rod
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Earth Termination System
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Decorative Lightning Rods
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Lightning Protection Plug
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Stainless Steel Retractable Lift Type Portable Lightning Rod
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xPlace Of Origin | China | Material | Stainless Steel |
---|---|---|---|
Color | Green | Type | Retractable Lightning Rod |
High Light | Retractable Portable Lightning Rod,Lift Type Portable Lightning Rod,Retractable Lift Type Lightning Pole |
Retractable Lightning Rod Lift Type Portable Lightning Rod
Including: common lightning rod head, retractable bracket 1, installation accessories and side bracket 1 set
Lightning arrester[edit]
A lightning arrester is a device used on electric power systems and telecommunication systems to protect the insulation and conductors of the system from the damaging effects of lightning. The typical lightning arrester has a high-voltage terminal and a ground terminal.
In telegraphy and telephony, a lightning arrester is a device placed where wires enter a structure, in order to prevent damage to electronic instruments within and ensuring the safety of individuals near the structures. Smaller versions of lightning arresters, also called surge protectors, are devices that are connected between each electrical conductor in a power or communications system, and the ground. They help prevent the flow of the normal power or signal currents to ground, but provide a path over which high-voltage lightning current flows, bypassing the connected equipment. Arresters are used to limit the rise in voltage when a communications or power line is struck by lightning or is near to a lightning strike.
Protection of electric distribution systems[edit]
In overhead electric transmission systems, one or two lighter ground wires may be mounted to the top of the pylons, poles, or towers not specifically used to send electricity through the grid. These conductors, often referred to "static", "pilot" or "shield" wires are designed to be the point of lightning termination instead of the high-voltage lines themselves. These conductors are intended to protect the primary power conductors from lightning strikes.
These conductors are bonded to earth either through the metal structure of a pole or tower, or by additional ground electrodes installed at regular intervals along the line. As a general rule, overhead power lines with voltages below 50 kV do not have a "static" conductor, but most lines carrying more than 50 kV do. The ground conductor cable may also support fibre optic cables for data transmission.
Older lines may use surge arresters which insulate conducting lines from direct bonding with earth and may be used as low voltage communication lines. If the voltage exceeds a certain threshold, such as during a lightning termination to the conductor, it "jumps" the insulators and passes to earth.
Protection of electrical substations is as varied as lightning rods themselves, and is often proprietary to the electric company.
Lightning protection of mast radiators[edit]
Radio mast radiators may be insulated from the ground by a spark gap at the base. When lightning hits the mast, it jumps this gap. A small inductivity in the feed line between the mast and the tuning unit (usually one winding) limits the voltage increase, protecting the transmitter from dangerously high voltages. The transmitter must be equipped with a device to monitor the antenna's electrical properties. This is very important, as a charge could remain after a lightning strike, damaging the gap or the insulators.
The monitoring device switches off the transmitter when the antenna shows incorrect behavior, e.g. as a result of undesired electrical charge. When the transmitter is switched off, these charges dissipate. The monitoring device makes several attempts to switch back on. If after several attempts the antenna continues to show improper behavior, possibly as result of structural damage, the transmitter remains switched off.
NO | Technical indicators | Technical performance | Description |
1 | section number 8 material | aluminum magnesium alloy | 6063B/T5+6063B/T5+ |
2 | Receiver type electric prevention type | ptimization type | Franklin type default 0.5 m Franklin type |
3 | end section of aluminum tube inner diameter with | Φ34mm | two anti-rotation tendons |