Adjustable handle ERX.78 P-M10X20-C1 Z014678

Adjustable handle – reliable mounting in confined spaces

The ERX.78 adjustable handle is a solid and functional solution for precise and quick mounting of elements. Made of high-quality glass-fiber reinforced technopolymer, it guarantees durability and resistance to solvents, oils and other chemicals. Its design allows for easy adjustment of the arm in any position, even in places with limited space. This is an ideal choice for both professionals and end-users who value convenience and reliability.

The ERX.78 handle is distinguished primarily by its durability. Laboratory tests confirm its resistance to over 100,000 clamping cycles at a force of 490 N – making it ideal for applications requiring frequent use. Additionally, the use of a spring made of AISI 302 stainless steel ensures smooth and reliable operation of the clamping mechanism.

Design and materials

The handle has been designed for long-term use and resistance to harsh working conditions. Key elements:

• Body: Made of glass-fiber reinforced polyamide-based technopolymer (PA), available in various colors from the Elecolors series (matte or glossy finish). This material is characterized by high chemical and mechanical resistance.
• Clamping element: Made of black glass-fiber reinforced technopolymer, equipped with a knurled protruding part to facilitate initial tightening – this is particularly useful during quick assembly or disassembly.
• Spring: Made of AISI 302 stainless steel, guarantees smooth operation of the mechanism and corrosion resistance.
• Threaded pin: Brass pin with a non-through M10x20 thread provides a stable and secure connection.

Thanks to its well-thought-out design, the ERX.78 handle allows the arm to be adjusted without loosening the clamp – which significantly speeds up the mounting and adjustment process. The clutch mechanism allows for precise positioning of the arm in any position, and after release, it automatically returns to the clamping position thanks to the return spring. This solution is particularly useful in situations where the angle of rotation of the arm is limited by lack of space.