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Machine Type: Large format 3D dynamic focusing laser marking machine
Main Use: Marking on curved, uneven, stepped, and height-variable surfaces
Typical Work: Logos, serial numbers, QR codes, traceability marks, technical graphics, and selected engraving work
Power Options: 30W / 50W / 100W / 200W / 300W / 500W / 1000W optional, depending on configuration
Marking Field: 100 / 150 / 200 / 300 / 400 / 500 / 600 mm optional
Laser Type: Pulse fiber laser, 1064 nm
Cooling Method: Air-cooled or water-cooled depending on configuration
Optional Accessories: Rotary device, fine-tuning mobile platform, source options, and software configuration
A standard flat-field laser marker is often enough for simple flat parts. The situation changes when the workpiece is curved, stepped, or spread across a larger area. At that point, the issue is usually not whether the laser can mark at all, but whether the result stays consistent from one section of the part to the next.
This 3D dynamic focusing laser marking machine is intended for those more difficult jobs. It is a more practical choice for metal parts with changing surface height, wider marking layouts, and shapes that are not easy to handle with a standard flat-focus setup.
This machine is mainly used where standard flat marking becomes less reliable. Typical examples include formed metal parts, stepped housings, curved surfaces, tooling faces, and workpieces with height differences across the marking area.
In practical terms, buyers usually care about one thing first: whether the machine can keep the marking result stable on their actual part. That is the reason to consider a 3D dynamic focusing system. It is not simply a matter of adding more specifications. It is about making the process more suitable for the workpiece geometry.
For factories dealing with curved parts, broader layouts, or product surfaces that do not stay on one plane, that difference can be more important than power alone.
Used where the surface height changes during marking and the process needs to follow those variations more accurately.
More suitable for larger parts and wider layouts where repeated repositioning would slow the job down or increase alignment difficulty.
Important for surface compensation and path control when the target is more complex than a flat plate or a simple standard part.
Source selection can be matched to the project depending on material, required effect, production pace, and configuration target.
Useful for rings, tubes, and other cylindrical parts where the marking path needs to move around the surface rather than across a flat face.
Helps with setup and positioning when the part requires more controlled placement before processing begins.
For many identification jobs, laser marking removes the routine use of ink and similar consumables. That does not make the process “better” in every case, but it does reduce one source of recurring handling and replacement.
No need to replace consumables regularly
Requires only electrical energy during operation
Suitable for repeated industrial use
Reduces routine handling work
In workshops where cleanliness and process control matter, avoiding ink and solvent handling can make the marking station easier to manage on a daily basis.
Ink-free operation
Solvent-free workflow
Less residue around the machine
More suitable for controlled production areas
This is usually the real reason to consider a 3D dynamic focusing setup. If the part is flat and straightforward, a standard machine may already be enough. If the part has height changes, curves, or a broader working area, this type of system becomes more relevant.
More suitable for curved and stepped parts
Useful for larger marking layouts
Helps keep the process more stable across the workpiece
One of the main reasons industrial users choose this type of machine is the need for information that remains on the product itself through handling, transport, storage, and use.
Useful for traceability and identification
Suitable for long-term product information
Can support logos, codes, and technical content
The system can also be applied to more demanding industrial tasks where the geometry, positioning method, or production workflow goes beyond a simple flat-part job.
Large-format marking
Assembly line marking
Visual positioning marking
Projection positioning marking
Curved surface marking
Curved surface rotation marking
Relief and 360° engraving
Function customization
Sphere
Inclined
Ladder
Segment
Circular Arc
Ring
| No. | Project | Parameter |
|---|---|---|
| 1 | Model number | HF10XX-3D |
| 2 | Laser power | 30W / 50W / 100W / 200W / 300W / 500W / 1000W optional, depending on configuration |
| 3 | Laser level | Class IV (IEC 60825-1) |
| 4 | Laser type | Pulse fiber laser |
| 5 | Wavelength | 1064 nm |
| 6 | Marking field | 100 / 150 / 200 / 300 / 400 / 500 / 600 optional |
| 7 | Z-axis adjustment range | 20–200 mm, depending on configuration |
| 8 | Marking speed | ≤10000 mm/s optional |
| 9 | Marking line width | 0.01–0.2 mm |
| 10 | Minimum character size | 0.015 mm |
| 11 | Repeat accuracy | 0.01 mm |
| 12 | Cooling method | Air-cooled / Water-cooled |
| 13 | Laser source expected life | >100,000 hours |
| 14 | Standard user interface | Touch panel / PC |
| 15 | Consumables | No |
| 16 | Temperature | 0–45 ℃ |
| 17 | Power consumption | 1000 W |
| 18 | Electrical requirement | L/N/PE 100–240 VAC, 50/60 Hz |
This machine is mainly suitable for metal materials such as stainless steel, aluminum, anodized aluminum, brass, coated metal, copper, gold, silver, nickel, platinum, and titanium. It may also be used on selected plastics such as PE, PVC, PPR, ABS, PET, and nylon depending on the material and marking requirement.
| Category | Typical Materials | Reaction |
|---|---|---|
| Metal | Stainless steel, aluminum, anodized aluminum, brass, coated metal, copper, gold, silver, nickel, platinum, titanium | Suitable or application-dependent |
| Plastic | PE, PVC, PPR, ABS, PET, nylon | Depends on material |
It is mainly used for curved surfaces, stepped surfaces, cylindrical parts, larger metal workpieces, and other applications where a standard flat-field marker may not keep the result stable enough.
The main reason is process flexibility. Dynamic focusing helps the machine adapt better when the workpiece height changes during marking.
Typical work includes serial numbers, logos, QR codes, traceability marks, technical graphics, and selected engraving depending on the application.
Please provide material type, product size, marking area, marking content, and expected production requirement so the configuration can be matched more accurately.
Share your material, workpiece size, surface condition, marking content, and expected output, and we can suggest a more suitable configuration.
Sample parts or drawings can also be reviewed before the final setup is confirmed.
Contact HND LASER for quotation and application support.
