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Distribution Deadend Insulator
Brand: WISHPOWER
Catalog ID: FXBW
Standard: IEC61109, ANSI C29.13, GB/T 19519-2014, DL/T 864-2004, DL/T 810-2012
Features: Hydrophobic, silicone polymer for improved contamination performance
Over-molded design to prevent moisture ingress
Lightweight, vandalism resistant, and price competitive compared to porcelain
Designed to meet the requirements of the associated
Color: Red, Grey, Blue, Yellow, Other
The product's dimension, characteristics, connection method, and shed color can be designed and manufactured according to the customer's specific requirements.
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DESCRIPTION

Product Specifications

  • Material:

Core FRP rod
Sheds High-quality silicone rubber
  • Electrical Properties:

Voltage Rating 6 / 10 / 15 / 20 / 24 / 25 / 35 kV
Dielectric Strength 50 kV/mm
Creepage Distance 800 mm
  • Mechanical Properties:

Tensile Strength 70 kN
Compressive Strength 50 kN
Torsional Strength 40 Nm
  • Environmental Resistance:

UV Resistance: ASTM G154
Pollution Class Heavy
Temperature Range -40°F to +140°F (-40°C to +60°C)

The table above is just one of our product parameters. If you want more information, please get in touch with info@wishpower.net or download the file below.

 

What is the Distribution Deadend Insulator?

The Distribution Deadend Insulator is a particular kind of electrical insulator used to provide a dead end or to anchor overhead power lines at the end of a span of distribution or transmission. These insulators are quite important in providing mechanical support for the power line since they support the full tension weight of the conductors, apart from offering the insulation requirement. Usually manufactured from composite polymers, they have mechanical stresses from the tension of the wires they hold, as well as electrical stresses from the voltage they bear. The design of these insulators enables them to support the conductor with a view of preventing it from drooping or touching structures alongside it. They are applied where the direction is changed, or at the end of a transmission phase, or where the line is connected to a substation or other terminal facilities. Reliability and strength are so important to ensure safe and effective power distribution because the failure of these parts may cause power losses or affect the neighboring structures.

 

 

Features

  1. High Tensile Strength:

Deadend insulators are designed to handle the significant mechanical load from the tension of the conductors. Unlike other insulators, which may primarily focus on providing electrical insulation, they must support the full weight and tension of the power line, making tensile strength a critical feature.

  1. Enhanced Stability:

These insulators provide greater stability, especially in applications where the line changes direction or at the termination points of a transmission line. They are engineered to maintain the alignment and tension of the conductors, ensuring consistent and stable operation.

  1. Specialized End Fittings:

They often come with unique end fittings designed to securely anchor the conductors. These fittings provide a more robust connection than those used in other insulators.

  1. Durability Under Environmental Stress:

Because of the location, they are constructed at the most crucial points of the power line, for example during ice, strong winds, or extremely high or low temperatures. This makes them very dependable under all circumstances owing to their durability.

  1. Reduced Conductor Swing:

They assist in reducing a conductor swing problem, particularly in areas with high wind occurrence. By reducing movement, they help prevent mechanical wear and electrical arcing, which could occur if the conductor were to move excessively.

 

Benefits

  1. Low Maintenance Requirements:

Distribution insulators need insignificant amounts of maintenance because they are built to be stout and are made of long-lasting materials. This brings efficiency in the reduction of the total cost and amount of work required to sustain the program of power distribution.

  1. Improved System Reliability:

These insulators reduce the number of critical mechanical failures of conductors and therefore help to increase the reliability of the electrical distribution network. It also increases the reliability of the power supply and decreases the frequency of power failure.

  1. Versatility in Application:

They can be applied to both the rural and urban areas as well as industrial facilities. Thus, they can fit well in various applications of the power distribution and transmission system.

  1. Resistance to Corrosion and Weathering:

These insulators are manufactured from materials that are fairly resistant to corrosion and the effects of weather in hostile environments such as areas near the sea or heavily polluted areas. This also increases their service time and helps maintain efficiency in their usage and purpose.

  1. Enhanced Safety:

In a way that aids in maintaining safe spacing between conductors and the ground as well as fixed structures, they ensure that the lines do not sag or move from their positioned locations. This aims at minimizing incidents of electrical mishaps and improves the safety of all members of the public and those attending to the electricity needs.

 

 

Application

  1. Urban Power Distribution:

In urban areas, it is used at the termination points of power lines where they connect to transformers or substations. They ensure the stability and secure anchoring of the lines in densely populated environments, where space is limited and safety is paramount.

  1. Rural Electrification:

These insulators are used especially in the development of rural electricity where the transmission cables cover large areas of plains. This is employed at the ends of these long spans to keep tension with a view of avoiding droop to ensure the supply of electricity to distant places.

  1. Wind Farm Connections:

It is used in wind farms to fix the cables used in transmitting electricity from the wind electrical generators to the electrical grid. They are very vital when it comes to supporting cables’ position and ensuring that the cables are well aligned, especially in areas where there are high winds.

  1. River and Valley Crossings:

When power lines need to cross rivers, valleys, or other large obstacles, it is used at both ends of the crossing to anchor the conductors securely. These applications require insulators with high mechanical strength to handle the additional tension from the extended span.

  1. Industrial Power Supply:

The distribution line insulators are also applied in industrial sectors whereby the power lines that supply electricity to large establishments are cropped to an end. They give the required support and cushioning which enable a stable and consistent power supply that is very vital in managing industrial processes.

 

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