Din 5482 Spline Dimensions Calculator [better] Jun 2026
Heavy industrial design, manufacturing departments, and precise CAD modeling. 🌐 Option 2: Web-Based Suite (GWJ eAssistant / TBK)
: Primarily flank-centered, allowing easy slip-fitting for bearings on the major diameter Basic Dimension Formulas For basic calculations, the following relationships apply: Pitch Diameter ( is the number of teeth and is the module) Tooth Height (
: Usually designated with lowercase letters (e.g., 9g , 8f ).
[User Inputs: Nominal Size & Teeth] │ ▼ [Step 1: Database Lookup for Module (m) and Profile Shift (x)] │ ▼ [Step 2: Compute Core Diameters (Pitch, Base, Root, Tip)] │ ▼ [Step 3: Apply Tolerance Classes (e.g., 9H, 8f) & Measuring Wire Dimensions] Measuring Over Pins/Wires
Cloud-based access means no heavy installation is required. It provides excellent CAD plugins to generate 3D models natively in software like SolidWorks or Inventor. It handles continuous standard updates and non-standard geometries with ease. din 5482 spline dimensions calculator
Calculating the dimensions of an involute spline is significantly more complex than calculating a standard spur gear. Because the teeth are involute curves, you cannot simply measure a "pitch diameter" with calipers.
Despite its withdrawn status, working with DIN 5482 components requires a clear understanding of its specific dimensional system. The standard organizes splines by product numbers, which are often denoted as a set of key diameters.
Standard tooth heights are extracted from the DIN coefficients. Apply Profile Shift (
Example output: ( M_min = 19.187 \text mm, M_max = 19.245 \text mm ). It provides excellent CAD plugins to generate 3D
pressure angle, typically based on a 1950 release. Unlike DIN 5480, which is a standardized, modular, and metric system, DIN 5482 is more flexible, making it ideal for customized, non-standardized gear ratios and diameters.
The theoretical diameter where the tooth thickness equals the space width. It serves as the baseline for all geometric calculations. Formula∶d=m×zFormula colon space d equals m cross z 4. Base Diameter (
A common DIN 5482 application might have a 14.5 mm diameter with a tolerance of -0.11negative 0.11
🛠️ A calculator helps you determine if a standard hob or broach can be used or if custom tooling is required. Because the teeth are involute curves, you cannot
If you have a specific DIN 5482 spline to design or analyze, please provide: The (e.g., D × d × m or D × z) The Manufacturing Method (e.g., hobbing or broaching) The Tolerances (if known)
uses the reference diameter (approximate outer diameter) as the primary naming convention (e.g.,
Gear pumps, piston motors, and PTO (Power Take-Off) shafts.