Marking Machine For Image Marking

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Marking Machine For Image Marking Specification

Marking Speed
7000 mm/s

Marking Area
110mm x 110mm / 200mm x 200mm (Optional)

Condition
New

Laser Type
Fiber Laser

Cooling Mode
Air Cooling

Control Software
EZCAD

Accuracy
0.01 mm

Power
20W / 30W / 50W (Optional)

Dimensions
400mm x 300mm x 700mm

About Marking Machine For Image Marking

Laser Marking Machines employ laser technology to etch orengrave accurate lines that are permanent onto a range of materials. Due totheir adaptability, accuracy, and efficiency, these machines have been widelyused in a variety of sectors. High-powered lasers are used by laser markingmachines to imprint markings, patterns, or codes on materials. Due to itsadaptability to different applications, these machines may be used in a varietyof sectors, including automotive, aerospace, electronics, medical, jewelry, andmore. High-speed operation of these machines ensures effective output andlittle downtime.

Marking Speed Capacity	8000 mm/s
Usage/Application	MARKING ON VARIOUS MATERIAL
Laser Type	Fiber Laser
Marking Depth	AS PER CUSTOMER REQUIREMRNTS
Model Name/Number	PI-20
One pass (depends on material)	DEPEND ON MATERIALS
Min Line Width	0.01 MM
Minimum Line Width	0.1 MM
Whole Machine Power	1 KW
Maximum working Area	300X300 MM AREA

Power

20/30/50

Exceptional Laser Marking Performance

Equipped with a premium fiber laser and advanced optics, this marking machine provides highly detailed, reliable marking at speeds up to 7000 mm/s. The auto-focusing system guarantees sharp, consistent results, even on intricate designs or variable-focus surfaces. The system accommodates both small and large marking areas (110mm x 110mm or 200mm x 200mm), making it versatile for different production requirements.

User-Friendly and Software Integrated

The integrated EZCAD control software streamlines the design-to-marking process, supporting diverse image formats such as JPG, BMP, DXF, and AI for effortless workflow integration. Simple USB connectivity ensures compatibility with various control systems, while the CNC-enabled interface provides automation benefits. The emergency stop button and full protection cover offer maximum operator safety during high-speed operation.

FAQs of Marking Machine For Image Marking:

Q: How does this marking machine ensure precise image marking on different materials?

A: The machine uses a fiber laser with high beam quality (M2 <1.5) and advanced auto-focusing capabilities. Combined with accuracy up to 0.01 mm and adaptable repetition rates and pulse frequencies, it delivers sharp image marking on metals, plastics, ceramics, and leather.

Q: What image formats are supported for importing files into the marking process?

A: This marking machine supports commonly-used formats such as JPG, BMP, DXF, and AI, which enables direct integration of digital artwork and barcode designs into the marking sequence via EZCAD software.

Q: When should I use the emergency stop and how does it enhance safety?

A: The emergency stop should be used if any unsafe condition arises during machine operation. Combined with the protection cover, it provides immediate disengagement of the laser, protecting both the operator and the equipment from potential harm.

Q: Where can this machine be installed and what are the ambient requirements?

A: The machine is designed for industrial or commercial settings and requires a stable 220V/50Hz power supply. It should operate in an ambient temperature range of 0C to 40C, ensuring optimal temperature-controlled performance.

Q: What is the typical process for marking images using this machine?

A: Typically, designs are created or imported in a supported format using EZCAD software. The material is placed within the marking area, auto focusing adjusts for accuracy, and the marking parameters are set. The machine then executes the marking at high speed and precision.

Q: How does air cooling benefit the machines longevity and operation?

A: The integrated air cooling system efficiently dissipates heat, ensuring stable laser operation and prolonging the machines lifespan, which is rated up to 100,000 hours of laser use.

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