Menu

CHRY BLOCK FITTING - FJC

Part #: 2774

The FJC 2774 CHRY Block Fitting is a precision-engineered component designed for professional automotive air conditioning service and repair. This fitting provides a reliable and secure connection within the AC system, specifically tailored for various Chrysler models. It is an essential part for technicians undertaking AC line replacements, compressor installations, or manifold repairs, ensuring leak-free performance.

Key Features

  • Chrysler-Specific Design: Engineered for direct compatibility with a range of Chrysler vehicle air conditioning systems, ensuring a proper fit and function.
  • Durable Construction: Manufactured from high-quality materials to withstand the demanding conditions of automotive environments, resisting corrosion and wear.
  • Professional-Grade Reliability: Designed for technicians, this block fitting delivers dependable connections crucial for maintaining AC system integrity and pressure.
  • Precise Fitment: Helps ensure a tight, leak-proof seal within the AC system, preventing refrigerant loss and maintaining optimal cooling performance.
  • Essential Service Component: Facilitates efficient repair and maintenance tasks on Chrysler AC systems, reducing rework and improving service quality.

Applications

This CHRY Block Fitting is commonly used by professional mechanics and automotive technicians for servicing air conditioning systems on Chrysler vehicles. Its primary applications include connecting or repairing AC lines, replacing manifold blocks, or installing new compressors where a specific block style fitting is required. It is an indispensable item for anyone performing comprehensive AC system diagnostics and repairs, ensuring that all connections meet factory specifications.

Recommended Alternatives

  • FJC
    Other products
    FJC Homepage
  • Model: 251979
  • UPC: 609989003738
  • Manufacturers Part #: 2774
  • Manufactured by: FJC
  • Also Known As: FJC-2774, FJC2774

This product was added to our catalog on Saturday 22 July, 2017.