T-Handle Wrench with Swivelling Hexagon Male End 3mm - Beta Tools 953 3

$71.37
1

Beta Tools T-Handle Wrench with Swivelling Hexagon Male End 3mm. Hexagon Size 3 mm. Overall Length 395 mm. Handle Length 145 mm. Diameter 12.5 mm. Height 5 mm. Norms UNI 6754. Features swivelling mechanism allowing the hexagon male end to be pre-positioned at an angle of up to 50 degrees for access in confined spaces. Reduces tightening effort to 90 degrees in a fixed position. Adjustable hexagon bar can be stopped in any position with a safety catch to prevent it from coming out.

Specifications
SKU
9530130
Brand
Beta Tools
Availability
In Stock (5)
SKU
9530130
Brand
Beta Tools
Availability
In Stock (5)
Shipping OptionsShown at checkout
14-Day ReturnsHassle-free
Easy CheckoutCard friendly
Product details

FULL DESCRIPTION

Beta Tools 953 Series T-Handle Wrench - 3mm Hexagon

The Beta Tools T-Handle Wrench with Swivelling Hexagon Male End is expertly crafted for precision and efficiency in handling hexagon screws. Its innovative swivelling mechanism and robust construction make it an essential tool for professionals seeking reliability and ease of use.

Key Features:

  • Hexagon Size: 3 mm
  • Swivelling Mechanism: Allows the hexagon male end to be pre-positioned at an angle of up to 50°, offering flexibility in accessing screws in confined spaces.
  • Effort Reduction: Reduces tightening effort to 90° in a fixed position during use, enhancing user efficiency and comfort.
  • Adjustable Hexagon Bar: Can be stopped in the required position throughout its length, with a safety catch to prevent the bar from coming out, ensuring secure and stable operation.
  • Norms: Complies with UNI 6754 standards.

Specifications:

  • Overall Length (L): 395 mm
  • Handle Length (L1): 145 mm
  • Diameter (Ø): 12.5 mm
  • Height (H): 5 mm

The Beta Tools 953 3 T-Handle Wrench is perfect for professionals who require a versatile and durable tool for working with hexagon screws. Its precision engineering and user-friendly design make it a dependable choice for achieving optimal results in various applications.