Composite insulators for electrified railways have compact structure, strong integrity, good anti-fouling ability, light weight, small size, good internal and external insulation performance, high mechanical strength, and no need for regular cleaning. They are mainly used for high-speed railway and urban light rail transportation construction.
Composite insulators for electrified railways also named railway insulators, electrified railway catenary parts, polymer insulators for electrified railways, railway polymer insulators.
The support arm is made of stainless steel material or Hot dip galvanized cast steel, which has better anti-corrosion performance. It solves the corrosion of products under various climatic conditions such as humidity and acid rain. It can greatly extend the life of the product and provide reliable equipment for the implementation of compact circuit construction.
Electrified railways Composite insulators is suitable for electrified railway tunnels with complex operating conditions, which can effectively prevent pollution flashover accidents and reduce the workload of cleaning and maintenance. Due to its small size, when the tunnel clearance is small, it is a product that porcelain and glass insulators cannot replace.
1)The silicone rubber housing taken shape by whole injection has good hydrophobicity, drophobicity migration and soil resistance, as well as excellent electrical insulation roperties and aging resistance, which could prevent effectively those accidents of pollution flashovers so as to ensure the safe running of high voltage transmission lines.
2)The modified ECR fiberglass reinforced epoxy resin rod is used as it has good resistance to high temperature, stress corrosion &acid attack, as well as fine damping action, high tensile strength( >1200Mpa ) and resistance to creep and fatigue failure, which effectively ensure the internal insulation quality and mechanical strength of insulators.
3)End fittings are crimped onto fiberglass rod with voice-operated displacement type crimper , The insulators with this crimping technique have high mechanical strength and small dispersion.
4)The connection location between end fittings & rods is fused with sheds housing by the overall high tempera- ture vulcanized silicone rubber injection molding as it could minimize the interface.
5)The internal radial multi-seal structure effectively guarantees a long-term reliability of seal around the connection between end fittings & rods.
Note:
1 Applicable stardand:IEC,ANSI,GB and other international standard
2 Normal colour of the composite insulator:red,gray and white.
3 Special design according customer's requirement.
Main Technical Parameter | ||||||||||
Model | Structure height H(mm) | Nominal creepage distance L(mm) | Design creepage distance L(mm) | Nominal dry arc distance (mm) | Design dry arc distance (mm) | Rated mechanical tensile failure load(KN) | Standard lightning impulse withstand voltage peak(KV) | Public frequency dry withstand voltage(KV) | Public frequency wet withstand voltage(KV) | Artificial pollution public frequency withstand voltage(KV) |
FQX-25/100(120)QT | 700±20 | 1200 | 1300 | 500 | 511 | 100(120) | 270 | 160 | 130 | 36 |
FQX-25/100(120)QH | 700±20 | |||||||||
FQX-25/100(120)HH | 700±20 | |||||||||
FQD-25/100(120)HY | 734±20 | |||||||||
FQX-25/160QT | 750±20 | 512 | 160 | 31.5 | ||||||
FQX-25/160QH | 750±20 | |||||||||
FQX-25/160HH | 750±20 |