Conector de barra colectora de batería con aislamiento por inmersión en PVC
√ La inmersión en PVC proporciona un excelente aislamiento.
√ Previene cortocircuitos eléctricos y reduce el riesgo de daños.
√ El cobre de alta calidad garantiza una transmisión de energía eficiente.
√ Diseñado para un funcionamiento constante y duradero con batería.
We design and manufacture PVC dipping insulated battery busbar connectors for superior electrical conductivity, enhanced safety, and reliable performance in various battery applications. PVC dip molding insulated battery busbar connector is a kind of high efficient conductive and insulating solution designed for new energy battery system, which is mainly used in power battery pack, new energy vehicle, energy storage system and other scenarios. The core is made of T2 copper, the surface is tin-plated or silver-plated to enhance electrical conductivity and corrosion resistance, and the outer layer adopts PVC dip molding process to form a uniform insulating protective layer, which is both flexible, high-temperature-resistant and flame retardant.
| Tipo de producto | Barras colectoras aisladas por inmersión en PVC |
|---|---|
| Conductor: | T2 purple copper (purity ≥ 99.9%) |
| Enchapado: | surface tin or silver plating (optional), to enhance the antioxidant capacity |
| Forma: | support shaped structure (such as bending, punching), customized according to drawings |
| Voltaje de trabajo: | ≥1kV (higher level can be customized according to requirements) |
| Aislamiento: | PVC (polyvinyl chloride) dip molding, thickness can be customized (usually 0.5-3mm) |
| Applicable current: | customized according to section size (typical range 200A-3000A) |
| Espesor: | 1 mm a 10 mm (capa de aislamiento) |
| Ancho: | De 10 mm a 200 mm |
| Longitud: | Personalizable, normalmente hasta 6 metros. |
Fabricante líder de conectores de barra colectora de batería con aislamiento por inmersión en PVC
Como fabricante líder de conectores de barras colectoras de baterías con aislamiento por inmersión en PVC, ofrecemos soluciones de alta calidad diseñadas para lograr una conductividad eléctrica superior, mayor seguridad y un rendimiento confiable en diversas aplicaciones de baterías. Nuestros conectores están fabricados con cobre de primera calidad y un aislamiento de PVC resistente, lo que garantiza una larga durabilidad y una distribución eficiente de la energía.
Production process:
- Pre-treatment: Copper rows are acid washed and alkaline washed to remove oil and oxidized layer to ensure a clean surface.
- Heating: Preheat the copper rows to 180℃-250℃, so that the PVC powder adheres evenly.
- Plastic dipping: Copper row immersed in PVC sol fluidized bed, control the thickness of insulation layer by dipping several times (usually 2-3 times).
- Curing: Curing: Plasticize in hot air circulating furnace at 160℃-200℃ to form a dense insulating layer.
- Post-treatment: After cooling and shaping, the excess insulation layer is removed and the electrical properties are tested.
Diseños de conectores de barra colectora de batería con aislamiento por inmersión en PVC:
1.Shaped integrated structure:
- Characteristics: Adopting the overall bending or stamping process, the main body of the connecting bridge and the bending part (e.g., Z-shaped, L-shaped) are integrated and molded, avoiding the redundancy of sub-parts caused by traditional welding or splicing. For example, fastening planes, extension arms and other structures are formed by bending copper strips, which are directly embedded inside the battery pack, reducing the assembly process.
- Advantages: Reduced processing costs improved mechanical strength (increased vibration resistance), suitable for complex spatial layouts
2. Modular splicing design:
- Features: Tabs and grooves or lug guiding pins on both sides of the connector support splicing and expansion of multiple connectors to adapt to different current capacity requirements. For example, energy storage system bus ducts can be flexibly expanded through modular splicing.
- Advantage: Enhance system integration and reduce customization costs, while ensuring stability after splicing through standardized interfaces.
Conector de barra colectora de batería con aislamiento por inmersión en PVC Tipo de aislamiento:
Aislamiento de PVC estándar
Barras colectoras de uso general con aislamiento básico de PVC para aplicaciones típicas.
Aislamiento de PVC de alta temperatura
Características Aislamiento de PVC clasificado para temperaturas más altas, adecuado para entornos exigentes.
Aislamiento de PVC resistente a productos químicos
Equipado con un revestimiento de PVC que resiste la exposición a productos químicos específicos, ideal para condiciones industriales adversas.
Tipo de conexión del conector de barra colectora de batería con aislamiento por inmersión en PVC:
1.Plug-in design
Characteristics: Plug and socket mating structure, easy plugging and unplugging and low contact resistance (usually ≤ 0.5mΩ). For example, the precision mating design of plug base and socket base is suitable for high-frequency maintenance scenarios .
Advantage: Quick installation and high compatibility, especially suitable for portable equipment or dynamic connection needs.
2.Bolt-on design
Features: High current-carrying (200A-3000A) and vibration-resistant performance is achieved through bolts crimping the contact surface of copper rows, combined with localized openings in the insulation protection layer. For example, the power battery packs of new energy vehicles are fastened with bolts to ensure the stability of high current transmission.
Advantage: solid connection, high current impact resistance, suitable for industrial distribution cabinets and other high-reliability scenarios.
Conector de barra colectora de batería con aislamiento por inmersión en PVC Aplicación:
- New Energy Vehicle: Power Battery Pack internal connection, motor busbar.
- Sistema de almacenamiento de energía: lithium battery pack, UPS room for efficient energy transmission.
- Industrial electrics: high and low voltage switchgear, transformer, rectifier connection.
- Energía renovable: Photovoltaic Inverter, Wind Turbine Conductive Components.
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