Durable and Precision-Engineered Aluminium Parallel Groove Clamps
Aluminium Parallel Groove Clamps (commonly known as PG clamps) are essential components for secure conductor connections in electrical power distribution systems. At Conex Aluminium Components, we design and manufacture high-performance aluminium PG clamps engineered for strength, conductivity, and long-lasting reliability.
High-quality aluminium parallel groove (PG) clamps crafted for reliable and secure conductor connections in industrial and utility applications.
Our aluminium parallel groove clamps are crafted from high-grade aluminium alloys, ensuring they are lightweight, corrosion-resistant, and ideal for use in harsh outdoor environments. These clamps provide excellent electrical contact and are suitable for overhead power lines, grounding applications, and various utility and industrial networks.
Key Features of Our Aluminium Parallel Groove Clamps
Manufactured from high-conductivity aluminium
Lightweight yet durable for long-term use
Corrosion-resistant finish for outdoor installations
Available in single and double bolt designs
Easy installation with standard tools
Suitable for AAC, AAAC, and ACSR conductors
Custom sizes and configurations available
Applications of Aluminium Parallel Groove Clamps
Conex’s aluminium PG clamps are widely used in:
Overhead power transmission lines
Electrical distribution systems
Substations and grounding networks
Renewable energy infrastructure (solar & wind farms)
Industrial automation and electrification projects
Our clamps are specifically designed for connecting parallel conductors, providing high mechanical stability and low electrical resistance.
Aluminium PG clamps are used for secure and reliable connections between conductors in utility and industrial electrical systems.
Conex’s PG clamps offer superior conductivity, corrosion resistance, and long-lasting performance for conductor connections in various applications.
Yes, we offer customized PG clamps tailored to specific conductor sizes, designs, and performance requirements for diverse electrical systems.
