Year1
- 规格:
- 长度
- ∅50:
- 1.5米。3米
- ∅60:
- 1.5米。3米
it can make lightning impulse current and fault current faster The grounding effect is more significant under harsh soil conditions. The four cutting-edge technologies used in electrolytic ion grounding electrodes include moisturizing formula, ion sustained release, deep grounding, and long-term resistance reduction. They solve the problems of resistance reduction, corrosion resistance, and service life to the greatest extent, making this product It has obvious advantages in various grounding performance and adaptability, and its application fields are very broad.
Breaking through the limitations of soil - the backfill material contained in the electrolytic ion ground electrode has good expansion, water absorption and ion permeability, and achieves water retention through the capillary principle. No matter how the weather or surrounding environment changes, it can maintain a certain humidity in the surrounding soil to achieve the best conductive state, and can gradually expand the conductive range of the surrounding soil over time. It is suitable for different geological conditions
. It can achieve good grounding drop through high-quality construction technology
in black soil, loess, saline-alkali soil, garbage soil, backfill soil, weathered sand soil, fine sand soil, clay, and mountainous areas. Resistance effect.
Advanced technology and materials - the electrolytic ion ground electrode is composed of advanced ceramic alloy compounds. The surface of the electrode is copper alloy to ensure
the highest conductivity and long service life, and is equipped with two types of fillings, internal and external. agent. Experiments have proven that the direct reason for the high soil resistivity is the lack of auxiliary conductive effects of free ions. The backfill material outside the grounding conductor is mainly made of materials with strong water absorption, strong adsorption force and high cation exchange performance. It is equipped with long-lasting, resistance-reducing, strong anti-corrosion functions, high expansion coefficient and is not affected by temperature changes. ,
A variety of chemical materials that are resistant to high voltage shock are used as auxiliary materials.
Electrolytic ion grounding electrodes are mainly used to solve problems such as humidity, ion generation content, and anti-corrosion protection around grounding conductors, so that the conductors are closely integrated with the earth, thereby reducing the contact resistance between the electrodes and the soil and improving It increases the resistivity of the surrounding soil and effectively enhances lightning conduction and release capabilities. The internal filling material of the conductor contains special ionic compounds that can fully absorb moisture in the air. Through deliquescence, active ions are effectively released into the soil, and interact with moisture in the soil and air to further promote the external release of the conductor and reduce resistance, and maintain long-term resistance stability. The compounds inside the conductor gradually transform into a colloidal transparent state over time. We
utilize the conductive properties of colloidal compounds to enable the entire system to be in a state of ion exchange for a long time, thus forming an ideal electrolytic
ion grounding system. After the slow-release filler in the conductor is buried, the ground resistance will gradually decrease and reach a stable value within half a year to one year. The buried slow-release process can last up to a year.
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