200W 300W 3D FEELTEK Galvo Fiber Laser Marking Engraving Machine 600*600 Area Marking 3D Relief Sculpture

Product Overview

* 3D Dynamic Focus Laser Marking Machine not only can marking on flat surface , but also can engraving on Undulating surface,Curved Surface .

* The most importance is that 3D laser can do relief engraving on metals and Making small metal molds.

* 3D laser compared with the ordinary 2D laser marking machine system, the 3D dynamic focusing system makes each marking point at the correct focal length, so the laser beam energy is stronger and more delicate, and the marking effect is better.

Product Description

In real production, a laser isn’t judged by a demo mark on a flat coupon. It’s judged by what happens at 3 p.m. when the fixture is warm, the operator is moving fast, and the parts are not perfectly flat. That’s where this 200W 300W 3D FEELTEK Galvo Fiber Laser Marking Engraving Machine earns its place. It’s designed to keep your process steady when geometry tries to pull it off track.

Picture a curved housing or a stepped component: on a standard setup, you often hear the process “change its mind” as focus shifts—one area bites cleanly, the next looks washed, and suddenly you’re adjusting settings that were fine ten minutes ago. With a 3D galvo platform and dynamic focusing control, the machine is built to hold a more consistent energy delivery across height variation, so the engraving feels smoother and the result looks more uniform. The surface finish reads clearer, edges look sharper, and the overall mark carries the quiet confidence of a controlled process—less “almost,” more “approved.”

Product Features and Highlights

This machine is best understood as a production tool, not a feature checklist. The benefits show up in the metrics your team actually tracks.

• Better first-pass consistency on non-flat parts
  Dynamic focusing and 3D control help reduce the common defect pattern where one section is crisp and another is under-processed due to height change. That means fewer borderline parts, fewer reworks, and fewer arguments at final inspection.

• Higher throughput through larger working coverage
  A 600 × 600 mm field allows larger panels or multi-part nesting. You can run more parts per setup and cut down on repositioning steps that quietly steal cycle time and introduce alignment risk.

• More room to tune your process window
  High power combined with a wide frequency range gives process engineers more control over contrast, depth, and edge definition across different alloys and surface conditions.

• Lower installation complexity
  Air cooling simplifies maintenance planning and makes deployment easier across workshops that don’t want additional water loops and chiller management.

• Production-friendly workflow
  The control software supports common production tasks such as marking variable data, running repeatable recipes, and managing consistent outputs once a parameter set is validated.

Value Proposition

B2B buyers don’t purchase “a laser.” They purchase reduced scrap, faster takt time, and fewer process surprises. This system targets three expensive pain points that keep showing up in engraving lines.

First, geometry-driven inconsistency. Curved, stepped, or uneven parts often force repeated refocusing, multiple setups, or conservative settings that slow throughput. A 3D dynamic focusing architecture is designed to reduce this penalty so you can standardize more jobs under one validated recipe.

Second, repositioning overhead. When the working field is small, you spend more time moving parts than processing them. A large working area helps your team run larger fixtures, reduce clamps per batch, and keep alignment stable.

Third, process tuning for deep engraving. High power is only useful when it remains controllable. With a broader process window, you can tune for readability, depth, and surface quality without turning every job into trial-and-error. The result is a calmer workflow that scales: fewer operator-dependent “magic settings,” more reproducible outcomes.

3D Dynamic Focusing and FEELTEK Galvo

Traditional 2D marking is comfortable on flat parts because focus remains constant. But the moment your part has height variation, the focal point drifts relative to the surface, changing energy density and altering how material responds. That’s why deep engraving on curved or stepped components can look uneven even when the settings are “correct.”

A 3D galvo platform with dynamic focusing is built to manage that reality. Instead of treating focus as a fixed plane, it enables controlled focus behavior across varying surface heights. For B2B applications, this matters most when you want predictable results on complex parts without slowing production with constant refocusing. It also supports jobs where a single, large working field must remain reliable across the entire area, especially at larger field sizes. If your parts include curves, slopes, recesses, or multi-level features, 3D control reduces the gap between what engineering expects and what production actually delivers.

Large Working Area 600 × 600

A large field is not a marketing number; it’s a workflow advantage. When you can process larger panels or nest more components in one setup, you reduce the hidden costs that rarely appear on purchase orders but dominate real production.

Less repositioning means fewer chances to misalign, fewer operator touchpoints, and fewer “nearly right” marks that fail inspection. It also improves rhythm: operators spend more time loading and unloading efficiently instead of stopping to re-zero, re-check, and re-run. For engineers, it simplifies validation because a stable fixture plan is easier to replicate across shifts. For managers, it turns into a more predictable throughput curve and smoother delivery promises.

If your line runs mixed SKUs, a large working area also gives flexibility in fixture design. You can build modular tooling that adapts across part families, reducing the need to maintain multiple specialized fixtures. That’s a practical path to lowering total cost of ownership without cutting corners on quality.

Laser Performance Window

This machine uses a 1064 nm fiber laser architecture and supports a wide laser frequency range, paired with high power options up to 300W. In practical terms, these specifications provide the tuning space needed for different marking and engraving behaviors.

For high-contrast marking, you often prioritize clarity, edge definition, and minimal heat impact. For deep engraving, you often prioritize stable material removal and a surface texture that remains readable after handling. The frequency range supports recipe development across these use cases, and the high power provides margin when you move from lab samples to real production parts with varied surface conditions.

Air cooling is another production decision: it simplifies maintenance and reduces dependencies. Many facilities prefer fewer auxiliary systems, especially when equipment needs to be moved or deployed across different stations. The more straightforward the infrastructure, the easier it is to keep uptime high and prevent small support failures from stopping a production line.

Software and Workflow

In B2B environments, software matters because it determines how quickly you can go from a design to a stable, repeatable production recipe. The Lenmark 3D control software supports a practical workflow that fits how factories operate: import assets, define marking content, validate parameters, and then lock the recipe so output remains consistent across operators and shifts.

A strong workflow is also about variable data. Many buyers need serial numbers, batch codes, dates, QR codes, and traceability marks that must remain consistent and scannable. A production-ready workflow helps you manage those changes without rewriting the job each time. Once your team approves a recipe, you can focus on throughput instead of constant adjustments. For process engineers, this reduces “tribal knowledge” and makes the operation less dependent on a single expert. For quality teams, it increases auditability because the output becomes more controlled and repeatable.