30W 50W Industrial Flying Co2 Laser Marking Machine Code Printer Water Cooled for PET Bottle Tablet

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Flying Co2 Laser Marking Machine Water Cooled

30W 50W Industrial Flying Co2 Laser Marking Machine Code Printer Water Cooled for PET Bottle Tablet

Industrial marking has undergone significant advancements over the years, with laser technology revolutionizing the process of imprinting codes, logos, and essential information on products.
Among the various laser technologies, the CO2 laser marking machine stands out for its exceptional performance in marking non-metallic materials, including PET bottles and tablets—essential components in industries like pharmaceuticals and beverages.
Equipped with water cooling systems, these machines deliver optimal performance and durability. We will also discuss the importance of selecting the right wattage for specific industrial needs.
Whether you're a production manager, quality control specialist, or business owner seeking efficient and cost-effective marking solutions, this guide is tailored for you.

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30 watt laser marking machine 50w laser marking machine industrial laser code printer co2 laser PET bottle laser mark tablet

Product Description

Overview

laser marking machine

CO2 laser marking technology operates using a gas laser with carbon dioxide as the lasing medium, making it highly effective for marking non-metallic materials like plastics, wood, and glass. The precise laser beam control enables intricate designs and detailed markings.

A key strength of CO2 lasers is their versatility, allowing them to mark various surfaces without affecting material integrity—essential for industries prioritizing high precision and durability, such as pharmaceuticals and food packaging.

How It Works:
The high-energy CO2 laser beam alters the material's surface, creating permanent, indelible marks. This non-contact marking process minimizes wear and tear, extending the lifespan of both the machine and the product.

Key features of CO2 laser marking technology include:

Non-contact marking: Prevents product damage.

High-speed marking: Ideal for fast-paced production lines.

Minimal material handling: Reduces contamination risks.

Overall, CO2 laser technology delivers efficiency, precision, and adaptability, making it indispensable in modern industrial applications.

constant temperature and humidity

Air conditioning system

Constant temperature and humidity+insulation cotton+fully enclosed

High-end/high-speed/protected/anti-interference scanning head

High-speed galvanometer

Dust and waterproof rating IP56，High-speed flight marking special purpose，Strong anti-interference ability

More than 20 language systems

Multi-language operating system

More than 10 languages, Arabic, English, German, French, Japanese, Polish, Spanish, Portuguese, Russian, Thai, Korean, etc.

High integration of accessories

Ultra-high integration

Laser source, boards, power supplies, brackets, fans, rectifiers, photocells, encoders, etc. integrated into small boxes

Communication port

Support RS-232, TCP/IP protocols

Voltage/frequency monitoring

Real-time monitoring data

The Advantages of 30W and 50W CO2 Laser Marking Machines

The 30W and 50W CO2 laser marking machines are versatile tools for industrial marking, combining power, precision, and efficiency.

The 30W laser excels in small, delicate markings, perfect for applications demanding precision.
The 50W laser, with its higher energy output, produces deeper and more visible marks, ideal for robust industrial tasks.

These machines eliminate the need for consumables like ink, resulting in significant cost savings over time. Additionally, their faster marking speeds enhance production line efficiency, crucial for industries handling high-volume outputs.

Advantages at a Glance:

High-quality precision: Clear, detailed marks on complex surfaces.
Cost-efficiency: No recurring consumable expenses.
Flexibility: Suitable for a variety of non-metallic materials.
Enhanced efficiency: Faster processing, minimal downtime.

Why it matters: The 30W and 50W CO2 laser marking machines empower industries to achieve scalable and efficient marking solutions, tailored to diverse production demands.

"Flying" Laser Marking Machines: Revolutionizing Production Lines

"Flying" laser marking machines transform industrial marking by enabling marking on moving products along conveyor belts. This innovation dramatically increases production speed and ensures continuous workflow.

These machines integrate seamlessly into existing setups, offering uninterrupted operation—a must-have for industries where downtime can be costly.

Benefits of flying laser marking machines:

Increased adaptability: Compatible with various production line setups.
On-the-fly marking: Products proceed directly to the next stage, enhancing throughput.
Customizable settings: Easily adjusted for different tasks and products.

By enabling high-speed, non-stop marking, these machines redefine efficiency in industrial operations.

Water Cooling Systems: Ensuring Performance and Longevity

The water cooling system is a vital feature of high-power CO2 laser marking machines, ensuring stable performance during continuous operations.

Superior heat dissipation: Prevents overheating and component damage.
Consistent temperature control: Maintains optimal beam quality, ensuring reliable markings.
Extended lifespan: Reduces wear and tear on the machine and the product.

Why it’s essential: Water cooling enhances durability and performance, particularly in environments where machines operate non-stop. Regular system maintenance further ensures cost-efficiency and longevity.

Parameter

No.	Project	Parameter
1	Model number	HC20XX-AC
2	Laser power	40W/50W/60W/100W （optional）
3	Laser level	Class IV（IEC 60825-1）
4	Laser type	Sealed Co2 laser (RF tube)
5	Wavelength	10.6/10.2/9.3μm
6	Marking field	110110mm-300300mm(optional)
7	Marking depth	＞0.4mm
8	Marking speed	≤10000mm/s(optional)
9	Marking line width	＞0.4mm
10	Min character size	0.5mm
11	Repeat accuracy	0.01mm
12	Cooling method	Water-cooled
13	Laser source expected life	>50,000 hours
14	Standard user interface	Touch panel/PC
15	Consumables	No
16	Temperature	0-45℃
17	Power consumption	700 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	√	Plastic films and foils	Aluminized foil	√√
Rubber	Natural rubber	√√		Polyethylene terephthalate (PET)	√√
Rubber	Synthetic rubber	√√		Oriented polypropylene (OPP)	√√

Excellent Reaction: √√ Good reaction: √ Poor reaction: -

Versatility in Material Marking: PET Bottles and Tablets

The versatility of CO2 laser marking machines shines in their ability to mark PET bottles and tablets.

For PET bottles, common in beverage packaging, these machines produce permanent, tamper-proof markings for labels and expiration dates, ensuring product traceability.
For tablets, the precision of CO2 lasers allows for batch numbers and logos, vital for compliance with pharmaceutical standards.

Additional material compatibility:

Glass
Wood
Leather
Plastics

The ability to handle various materials makes CO2 laser marking machines a cost-effective, adaptable solution for diverse industrial applications.

Comparing 30W vs. 50W: Speed, Depth, and Efficiency

Choosing between the 30W and 50W CO2 laser marking machines depends on your production requirements:

The 30W model is ideal for precise, general-purpose marking tasks.
The 50W model offers faster marking speeds and the ability to create deeper marks, especially on tougher materials.

Key considerations:

Material type: Match laser power to the substrate for optimal results.
Production speed: Faster lasers reduce cycle times, boosting throughput.
Energy consumption: Balance efficiency with power needs to minimize costs.

By assessing your needs, you can achieve optimal performance and cost-effectiveness.

Environmental and Economic Benefits of CO2 Laser Marking

CO2 laser marking machines offer a cleaner, greener alternative to traditional methods.

No chemical waste: Unlike ink-based systems, lasers are environmentally friendly.
Reduced operational costs: Eliminate expenses for consumables and frequent maintenance.
Enhanced durability: Permanent marks reduce the likelihood of recalls and rework.

By combining sustainability with economic efficiency, these machines align with modern industry demands for eco-conscious manufacturing.

Integration, Safety, and Maintenance of Industrial Laser Code Printers

Seamless integration of laser code printers ensures minimal disruption to existing production lines. Their compact design adapts to various setups, enhancing workflow efficiency.

Safety measures: