Crank Handles
Crank handles are essential components in a wide range of mechanical applications, providing a reliable and ergonomic way to generate rotary motion. Designed for durability and ease of use, these handles come in various shapes, sizes, and materials to meet specific operational requirements. Whether used for manual adjustments, lifting, or turning mechanisms, crank handles play a crucial role in industries such as manufacturing, automotive, and heavy equipment. At OneMonroe, we offer a diverse selection of crank handles engineered for precision and long-term performance.
Understanding the key attributes of crank handles is vital for selecting the right component for your application. Factors such as handle length, material composition, grip style, and mounting options all contribute to functionality and user comfort. Our selection includes fixed and folding crank handles, available in metal or plastic configurations to accommodate different load capacities and environmental conditions. Explore our range of crank handles to find the ideal solution for your operational needs.
Crank Handles
- Bore Type: The type of hole in the crank handle (smooth bore, threaded bore, square bore) that accommodates the crankshaft.
- Center to Center: The distance from the center of the handle’s base to the center of the crank arm, which indicates the effective radius or arm length.
- Handle Height: Refers to the height from the base to the top of the handle, impacting usability.
- Handle Type: Includes revolving, folding, or fixed handles, each suited to different applications.
- Material: Crank handles are made from plastic, steel, aluminum, cast iron, or stainless steel, affecting their strength and durability.
- Ream: Refers to whether the handle's hole is smooth for a precise, tight fit onto a shaft.
- Size: Refers to the overall size or specific dimension of the crank handle.
- Square: Indicates if the stem or bore has a square shape to prevent rotational slippage.
- Stem Diameter: The diameter of the stem inserted into a mechanism.