If you’re designing parts forPemesinan CNC—whether for CNC milling or lathe work—size limitations aren’t just “rules to follow.” They’re the key to avoiding costly reprints, delayed projects, and parts that don’t fit your needs. This guide breaks down exactly what you need to know about CNC size constraints, dengan contoh dunia nyata, data, and tips to keep your designs on track.
1. Why CNC Size Limitations Matter
Mesin CNC (mills and lathes) can make everything from tiny brackets to large industrial components—but every machine has a “sweet spot” for size. Ignore these limits, and you’ll run into problems like:
- A part too big for the machine’s work area (it won’t fit at all).
- A long, thin lathe part that bends during cutting (ruining precision).
- A large part that can’t be sandblasted or anodized (no post-processing options).
By understanding size rules upfront, you’ll save time, wang, dan kekecewaan.
2. Size Limitations for CNC Milling Machines
CNC milling machines carve parts from blocks of material (like aluminum or steel) using rotating tools. Their size limits depend on one key factor: machine working range (the area the machine can reach along the X, Y, and Z axes).
2.1 What Is “Working Range” (Stroke Limit)?
The working range (or stroke limit) is the maximum distance the machine’s tool can move along each axis:
- Paksi x: Left-right movement (width of the part).
- Y-axis: Forward-backward movement (depth of the part).
- Paksi z: Up-down movement (height/depth of the part).
The machine can’t make a part larger than its stroke limit—but there’s a catch: tool clearance means your part must belebih kecil than the stroke limit.
2.2 Real-World Milling Stroke Limits (Dengan data)
Xometry’s manufacturing network uses high-capacity CNC mills, but even these have clear limits. Inilah yang perlu anda ketahui:
| Paksi | Maximum Stroke Limit (Metrik) | Maximum Stroke Limit (Imperial) | Nota utama (Tool Clearance) |
|---|---|---|---|
| Paksi x | 1625.6 mm | 64 inci | Part width must be ~5–10 mm smaller than X-stroke (for tool access) |
| Y-axis | 812.8 mm | 32 inci | Part depth must be ~5–10 mm smaller than Y-stroke |
| Paksi z | 965.2 mm | 38 inci | Part height/depth must besekurang -kurangnya 25 mm lebih kecil than Z-stroke (critical for deep cuts) |
2.3 Contoh: When Z-Stroke Doesn’t Equal Part Height
A designer needed a 950 mm tall aluminum bracket (close to the 965.2 mm Z-stroke limit). They assumed it would fit—but the machine’s tool needed 30 mm of clearance to reach the top of the part. The bracket was too tall, and they had to redesign it to 930 mm.
Lesson: Always subtract 25–30 mm from the Z-stroke limit for deep features.
2.4 Pro Tips for Milling Size Design
- If your part is larger than the X/Y/Z limits: Split it into smaller parts (Mis., two 800 mm X-axis pieces that bolt together).
- For deep holes or slots: Reduce part height to leave more Z-axis clearance for the tool.
3. Size Limitations for CNC Lathe Machines
CNC lathes spin cylindrical parts (like rods or pipes) and cut them with stationary tools. Their size limits focus on two dimensions: part diameter danpart length—and these two are linked.
3.1 Key Lathe Limits: Diameter vs. Panjang
Lathe parts need balance: a long part must have a wider diameter to avoid bending during spinning. Here’s the breakdown from Xometry’s network:
| Lathe Capability | Spesifikasi (Metrik) | Spesifikasi (Imperial) | Peraturan kritikal |
|---|---|---|---|
| Maximum Standard Diameter | 457 mm | 18 inci | For parts longer than 300 mm, diameter must be at least 25 mm (to prevent bending) |
| Custom Large-Diameter Parts | >457 mm | >18 inci | Requires special lathes (ask your manufacturer first) |
| Maximum Length for Small Parts (≤50 mm diameter) | 300 mm | 11.8 inci | Longer parts will vibrate and lose precision |
3.2 Contoh: Why Length & Diameter Matter
A manufacturer tried to make a 500 mm long steel rod with a 20 diameter mm (too thin for its length). When the lathe spun the rod, it vibrated so much that the cuts were uneven—resulting in a rod that was 19–21 mm in diameter (way off tolerance). They fixed it by increasing the diameter to 30 mm, and the next batch was perfect.
3.3 Pro Tip for Lathe Design
If you need a long part (Mis., 600 mm), increase the diameter or add a “support boss” (a small thick section) to keep it stable during machining.
4. How Part Size Affects CNC Post-Processing
Even if your part fits the machine, its size can block key post-processing steps (like sandblasting or anodizing). Here are the most common issues:
4.1 Post-Processing Limits by Part Size
| Post-Processing Step | Size Limitation | Problem It Causes |
|---|---|---|
| Sandblasting | Parts larger than 1200 mm x 800 mm x 600 mm | Too big for standard blasting cabinets—can’t remove surface burrs |
| Anodizing/Plating | Parts larger than 2000 mm x 1000 mm x 500 mm | Need custom shelves in the anodizing tank—adds cost and lead time |
| Lukisan | Parts larger than 3000 mm in any dimension | Hard to coat evenly—risk of drips or thin spots |
4.2 Contoh: Post-Processing a Large Part
A company made 1500 mm long aluminum frames for a solar panel. They planned to anodize the frames to prevent rust—but standard anodizing tanks only fit parts up to 1200 mm. They had to pay for a custom tank, yang ditambah $50 per part and delayed the project by 2 minggu.
Lesson: Check post-processing size limitssebelumnya finalizing your design.
5. Yigu Technology’s Perspective on CNC Size Limits
Di Yigu Technology, we’ve seen too many projects stall because of overlooked size limits. Nasihat kami: Start with “size first”—match your part’s dimensions to both the machine’s stroke limits and post-processing capabilities. Untuk bahagian besar, Tanya: Can we split it? For long lathe parts, check if the diameter is enough for balance. By aligning design with real-world CNC constraints, you’ll get parts that are precise, tepat pada waktunya, dan pada anggaran.
6. Soalan Lazim: Common CNC Size Limitation Questions
Q1: Can I make a part exactly as big as the CNC mill’s stroke limit?
Tidak. You need tool clearance—usually 5–10 mm for X/Y axes and 25–30 mm for Z axes. Contohnya, a mill with a 1625.6 mm X-stroke can only handle parts up to ~1615 mm wide.
S2: My lathe part is 500 mm long—what’s the minimum diameter I need?
For parts longer than 300 mm, aim for a diameter of at least 25 mm. A 500 mm part should have a diameter of 30 mm or more to avoid vibration and uneven cuts.
Q3: If my part is too big for sandblasting, what’s an alternative?
Untuk bahagian besar, use manual deburring (with files or sandpaper) or chemical etching to remove burrs. Both are slower than sandblasting but work for oversized components.