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0908191ef3
Complete ISO 286-1 skill for mechanical designers covering: - Fit selection (clearance/transition/interference) with intake protocol - IT grades 1–16 with required machining processes for bores and shafts - Full functional elements reference: rolling bearings, gears, keys (DIN 6885), Seeger rings, cylindrical pins, plain bushings, lip seals, splined profiles, couplings, linear guides (14 sections total) - Fundamental deviations table (bores A–ZC, shafts a–zc, Ø1–500 mm) - Surface roughness Ra correlation by IT grade - Python calculator (scripts/calculate_fit.py) with JSON data files for exact clearance/interference computation and formatted fit data sheet output - Visual input support: analyses attached drawings, sketches, photos - Description ≤ 1024 chars, written in English for optimal trigger accuracy Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
4.6 KiB
4.6 KiB
Fundamental Deviations — Numerical Values (ISO 286-1)
How to Read This File
Example: Ø50 H7/k6
- Diameter range: 50 mm → rows "30–50" and "50–80"
- Bore H7: lower deviation EI = 0, upper deviation ES = +25 µm (IT7 for Ø50)
- Shaft k6: lower deviation ei = +2 µm, upper deviation es = ei + IT6 = +2 + 16 = +18 µm
- Max clearance = ES − ei = 25 − 2 = +23 µm → clearance
- Min clearance = EI − es = 0 − 18 = −18 µm → interference → Transition fit, in practice predominantly with slight interference
Bore Fundamental Deviations (uppercase) — Lower Deviation EI (µm)
| Bore | 1–3 | 3–6 | 6–10 | 10–18 | 18–30 | 30–50 | 50–80 | 80–120 | 120–180 | 180–250 |
|---|---|---|---|---|---|---|---|---|---|---|
| B | +140 | +140 | +150 | +150 | +160 | +170 | +180 | +200 | +210 | +230 |
| C | +60 | +70 | +80 | +95 | +110 | +120 | +130 | +145 | +160 | +170 |
| D | +20 | +30 | +40 | +50 | +65 | +80 | +100 | +120 | +145 | +170 |
| E | +14 | +20 | +25 | +32 | +40 | +50 | +60 | +72 | +85 | +100 |
| F | +6 | +10 | +13 | +16 | +20 | +25 | +30 | +36 | +43 | +50 |
| G | +2 | +4 | +5 | +6 | +7 | +9 | +10 | +12 | +14 | +15 |
| H | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 |
| JS | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 |
| K (6–8) | 0 | +2 | +2 | +2 | +2 | +3 | +4 | +4 | +4 | +5 |
| M (6–8) | −2 | −4 | −6 | −7 | −8 | −9 | −11 | −13 | −15 | −17 |
| N (6–8) | −4 | −8 | −10 | −12 | −15 | −17 | −20 | −23 | −27 | −31 |
| P (6–7) | −6 | −12 | −15 | −18 | −22 | −26 | −32 | −37 | −43 | −50 |
| R | −10 | −15 | −19 | −23 | −28 | −34 | −41 | −51 | −63 | −77 |
| S | −14 | −19 | −23 | −28 | −35 | −43 | −53 | −71 | −92 | −100 |
| U | −18 | −23 | −28 | −33 | −41 | −53 | −66 | −90 | −109 | −130 |
Note
: For H, ES = EI + IT = 0 + IT (e.g. H7/Ø50: ES = +25 µm)
Shaft Fundamental Deviations (lowercase) — Upper Deviation es (µm)
| Shaft | 1–3 | 3–6 | 6–10 | 10–18 | 18–30 | 30–50 | 50–80 | 80–120 | 120–180 | 180–250 |
|---|---|---|---|---|---|---|---|---|---|---|
| b | −140 | −140 | −150 | −150 | −160 | −170 | −180 | −200 | −210 | −230 |
| c | −60 | −70 | −80 | −95 | −110 | −120 | −130 | −145 | −160 | −170 |
| d | −20 | −30 | −40 | −50 | −65 | −80 | −100 | −120 | −145 | −170 |
| e | −14 | −20 | −25 | −32 | −40 | −50 | −60 | −72 | −85 | −100 |
| f | −6 | −10 | −13 | −16 | −20 | −25 | −30 | −36 | −43 | −50 |
| g | −2 | −4 | −5 | −6 | −7 | −9 | −10 | −12 | −14 | −15 |
| h | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 |
| js | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 | ±IT/2 |
| k | 0 | +1 | +1 | +1 | +2 | +2 | +2 | +3 | +3 | +4 |
| m | +2 | +4 | +6 | +7 | +8 | +9 | +11 | +13 | +15 | +17 |
| n | +4 | +8 | +10 | +12 | +15 | +17 | +20 | +23 | +27 | +31 |
| p | +6 | +12 | +15 | +18 | +22 | +26 | +32 | +37 | +43 | +50 |
| r | +10 | +15 | +19 | +23 | +28 | +34 | +41 | +51 | +63 | +77 |
| s | +14 | +19 | +23 | +28 | +35 | +43 | +53 | +71 | +92 | +100 |
| u | +18 | +23 | +28 | +33 | +41 | +53 | +66 | +90 | +109 | +130 |
Note
: For h, ei = es − IT = 0 − IT = −IT (e.g. h6/Ø50: ei = −16 µm)
Worked Examples
Example 1: Ø30 H7/g6
Bore H7 (Ø30, range 18–30):
- EI = 0
- ES = EI + IT7 = 0 + 21 = +21 µm
- Bore: Ø30 +0.021/0
Shaft g6 (Ø30, range 18–30):
- es = −7 µm
- ei = es − IT6 = −7 − 13 = −20 µm
- Shaft: Ø30 −0.007/−0.020
Clearances:
- Max clearance = ES − ei = +21 − (−20) = +41 µm (0.041 mm)
- Min clearance = EI − es = 0 − (−7) = +7 µm (0.007 mm)
- → Guaranteed clearance fit ✓ (lubricated precision guide)
Example 2: Ø50 H7/p6
Bore H7 (Ø50, range 30–50):
- EI = 0, ES = +25 µm
Shaft p6 (Ø50, range 30–50):
- es = +26 µm
- ei = +26 − 16 = +10 µm
Interferences:
- Max interference = es − EI = +26 − 0 = +26 µm (0.026 mm)
- Min interference = ei − ES = +10 − 25 = −15 µm → clearance possible?
⚠️ This is a transition fit at Ø50! For guaranteed interference on Ø50, p6 gives ei − ES = 10 − 25 = −15: there is still a possibility of clearance. For guaranteed interference on Ø50 use r6 or s6.
→ Always verify numerical values for your specific diameter before finalising the drawing.