These stunning creations are often the work of advanced 3D laser engraving machines, which have become pivotal in the realms of customization and personalization. These machines are redefining industries by enabling unparalleled precision and creativity. Today, we delve into the fascinating world of large format 3D dynamic laser engraving machines. Whether you're a passionate hobbyist, an ambitious small business owner, or an industrial powerhouse, understanding this technology can unlock a universe of creative possibilities and innovation.
A 3D laser engraving machine utilizes a concentrated laser beam to etch or carve designs into a wide array of materials. Unlike traditional engraving methods, which are typically limited to flat surfaces, these machines excel at laser engraving curved surfaces and irregular shapes. This versatility means you can adorn everything from cylindrical vases to intricate automotive parts with customized designs. The ability to engrave on such diverse surfaces makes these machines indispensable in fields ranging from art and design to manufacturing and engineering.
1. Key performance of 3D galvanometer system
● Large marking range
600mm×600mm marking range: the commonly used 3D galvanometer system can mark in a range of 600mm×600mm, which is suitable for the processing needs of large-size products.
High-precision control: 3D galvanometer system can realize micron-level control precision to ensure consistent marking results over a wide range.
● Z-axis adjustable range
0-150mm Z-axis adjustment: The Z-axis of the galvanometer system is adjustable from 0-150mm, making it possible to mark on material surfaces of different heights. The laser focus position can be automatically adjusted according to changes in the shape and height of the workpiece.
Negative-focus and positive-focus marking: It is possible to engrave both in the negative-focus direction (upward) and in the positive-focus direction (downward), which greatly increases the flexibility and applicability of marking.
2. Wide range of applications
● Complex curved surface marking
Applied to curved and irregular surfaces: The 3D galvanometer system can automatically adjust the laser focus according to the height change of the curved surface to ensure high-quality marking effect on complex curved surfaces. Suitable for the identification and decoration of complex curved products such as automotive parts, aerospace equipment, etc.
● Deep marking
Multi-layer marking: By adjusting the Z axis, the 3D galvanometer system can achieve multi-level deep marking, which is suitable for materials such as metal and stone that require deep engraving.
Efficient processing: High-power laser combined with the efficient scanning capability of the 3D galvanometer can complete deep marking in a short time and improve production efficiency.
High flatness, large engraving area, good thermal conductivity
Professional 3D marking software
EZCAD3/LEN MARK3D
Top laser source
Laser brand:IPG/Raycus/MAX/JPT/nlight/SPI etc.
D80 rotary
Fourth axis, rotary marking
High-precision fine-tuning mobile platform
More accurate positioning, more convenient fixing, and convenient fine-tuning
How Does It Work?
The process begins with a focused laser beam that carves out the design, allowing for adjustments in the laser's intensity, speed, and focus to create different effects. A digital design is first crafted on a computer, which the machine translates into a precise physical engraving. This precision is particularly notable in large format laser engraving, where consistent detail is critical across larger surfaces.
This method offers a level of accuracy that is challenging to achieve manually, ensuring consistency for complex and repetitive tasks. Furthermore, large format fiber laser technology significantly reduces time and labor, making it a valuable tool for artists, manufacturers, and businesses seeking efficiency and quality.
Advantage
Non-consumable
● No need to replace consumables
● Requires only electrical energy
● One-time investment
● Maintenance-free
Cleaner environment
Ink-free ●
Solvent-free ●
Non-pungent ●
Non-toxic ●
Non-corrosive ●
Energy-saving
● Non-wasteful
● 100% utilisation
● No emissions
Permanent mark
Controlled indentation depth ●
Resistant to oxidation ●
No colour loss ●
Traceable ●
Safe and reliable ●
3D engraving functions
● Large-format marking
● Assembly line marking
● Visual positioning marking
● Projection positioning marking
● Curved surface marking
● Curved surface rotation marking
● Relief, 360° engraving
● Function customization
Why Large Format?
Bigger Projects, Bigger Impact
With a large format laser engraving machine, you can handle sizable projects seamlessly, eliminating the need to divide designs into smaller sections. This is especially critical in industries such as automotive, aerospace, and construction, where dealing with oversized parts is common. The ability to engrave expansive surfaces in one go not only saves time but also ensures design uniformity—a vital factor in maintaining the workpiece’s structural and aesthetic integrity.
Increased Efficiency
Large format machines allow the simultaneous engraving of multiple items, boosting productivity. For businesses, this means faster delivery times and the capacity to manage high-volume orders. The efficiency gained through large format 3D laser engraving can translate to increased profitability without compromising quality.
Versatility and Flexibility
These machines aren't limited to industrial applications. They are also perfect for creating large-scale sculptures, architectural models, and custom furniture. The ability to work on a wide range of materials, including wood, metal, glass, and plastic, opens up endless creative possibilities, enabling designers to innovate across multiple industries.
Parameter
No.
Project
Parameter
1
Model number
HF10XX-3D
2
Laser power
30W/50W/100W/200W (optional)
3
Laser level
Class IV(IEC 60825-1)
4
Laser type
Pulse Fiber laser
5
Wavelength
1064nm
6
Marking field
100/150/200/300/400/500/600(optional)
7
Max. Marking depth
20-200mm
8
Marking speed
≤10000mm/s(optional)
9
Marking line width
0.01-0.2mm
10
Min character size
0.015mm
11
Repeat accuracy
0.01mm
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
Materials
Reaction
Materials
Reaction
Metal
Stainless steel
√√
Plastic
PE
√
Aluminum
√√
PP
-
Anodized aluminum
√√
PVC
√√
Brass
√√
PPR
√
Coated metal
√√
ABS
√
Copper
√
PET
-
Gold, silver, nickel, platinum
√
Nylon
√
Carbon steel
√√
MPP
-
Titanium
√√
PC
-
Ceramics
Ceramic
√
Electrical and medical ceramic
Electrical and medical ceramic
√
Excellent Reaction: √√ Good reaction: √ Poor reaction: -
Application
Industrial Uses
In manufacturing, 3D laser engraving machines are used to mark parts with serial numbers, logos, and essential data for traceability and quality assurance. Large format fiber lasers excel in handling oversized components for automotive and aerospace industries, where both precision and durability are paramount.
Custom Art and Decor
Artists and designers leverage 3D laser engraving to create custom decor, intricate glasswork, and detailed wooden sculptures. This technology allows for personalized designs, making it ideal for producing unique art pieces and decor items tailored to individual tastes.
Jewelry and Fashion
In the jewelry and fashion sectors, laser engraving curved surfaces enables intricate patterns on watches, rings, and other accessories. The precision and detail achieved elevate product aesthetics, offering an edge over traditional methods.
