Efficient Co2 Laser Marking Machine for Pill Tablet Package Engraving Code Printer

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Efficient Co2 Laser Marking Machine for Pill Tablet Package Engraving Code Printer

A CO2 laser marking machine is a specialized type of laser code printer that utilizes CO2 gas as a lasing medium. This technology is designed for precision marking on various materials, making it highly effective for pill tablet packages. Its focused laser beam can etch intricate and detailed designs on packaging materials without compromising the pills inside. This precision ensures the integrity and safety of pharmaceutical products, a critical requirement in the healthcare industry.

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Model:
HC2000
Brand:
HND LASER

Efficient Co2 Laser Code Printer Co2 laser marking machine co2 laser printer laser engraving printers medical laser marking

Product Description

Overview

The CO2 laser printer emits a concentrated beam of light that vaporizes the surface material, leaving a permanent mark. This method is perfect for adding codes, batch numbers, logos, or any essential details to pill tablet packages. Unlike traditional ink-based methods, this process requires no consumables like ink or solvents, reducing operational costs significantly.

Furthermore, the non-contact nature of laser marking eliminates the risk of contamination, ensuring high hygiene standards in pharmaceutical packaging. Additionally, the high-resolution laser engravings are resistant to wear and tear, ensuring vital information remains intact throughout the product lifecycle.

laser marking machine

The CO2 laser code printer offers multiple advantages for pharmaceutical manufacturers aiming to improve packaging processes.

1. Unmatched Precision and Accuracy

The CO2 laser marking machine excels in precision, whether marking batch numbers, expiration dates, or barcodes. Its ability to create consistent, clear markings ensures compliance with industry standards. This precision is vital in the pharmaceutical sector, where even minor errors can have significant consequences.

2. High-Speed Marking and Efficiency

The efficient CO2 laser code printer can process packages at remarkable speeds without sacrificing quality. This capability boosts productivity, allowing manufacturers to meet stringent deadlines. Additionally, automation reduces manual intervention, enhancing operational efficiency.

3. Versatility Across Materials

A CO2 laser marking machine is versatile, compatible with a range of materials such as plastic, glass, and metal. This adaptability makes it an invaluable tool for manufacturers handling diverse packaging requirements.

4. Cost-Effective and Sustainable

While the initial investment may seem high, the CO2 laser marking machine provides long-term savings. With no need for consumables and minimal maintenance requirements, it offers an excellent return on investment. Its eco-friendly nature, with no waste or pollution, aligns with sustainable manufacturing practices.

Metal chassis of laser marker

Aluminum-magnesium alloy chassis

Good heat dissipation performance，Light weight，Not rust

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

Compact package

Smaller package size, lighter weight, all-round foam padding

Advantage

no ink, no solvents, no gas

Non-consumable

● No need to replace consumables

● Requires only electrical energy

● One-time investment

● Maintenance-free

No pollution, no toxicity, no pungent smell, no volatility, protect the environment

Cleaner environment

Ink-free ●

Solvent-free ●

Non-pungent ●

Non-toxic ●

Non-corrosive ●

Environmental protection, power saving, energy saving, high photoelectric conversion efficiency

Energy-saving

● Non-wasteful

● 100% utilisation

● No emissions

Permanent mark

Controlled indentation depth ●

Resistant to oxidation ●

No colour loss ●

Traceable ●

Safe and reliable ●

Parameter

No.	Project	Parameter
1	Model number	HC20XXB
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	Air-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: -

How to Choose the Right CO2 Laser Marking Machine

Selecting the ideal laser engraving printer involves considering specific requirements to maximize efficiency and effectiveness.

1. Material Compatibility

Choose a machine that supports your packaging materials, such as plastic or glass, to achieve optimal marking results.

2. Speed vs. Precision

Evaluate your production needs. For high-volume outputs, prioritize speed, whereas intricate designs require high precision.

3. Maintenance and Support

Opt for machines from reliable manufacturers with robust customer support and easy access to parts for seamless maintenance.

4. Budget Considerations

Assess the total cost of ownership, balancing the initial investment with long-term savings from reduced consumables and maintenance.

Future Trends in CO2 Laser Marking Technology

The field of laser engraving printers is constantly evolving, with innovations enhancing performance and sustainability.

1. Increased Automation

Future CO2 laser printers will likely incorporate more automation, further boosting speed and efficiency with minimal human intervention.

2. Eco-Friendly Solutions

Next-generation CO2 laser code printers are expected to focus on reducing energy consumption and material waste, aligning with sustainable practices.

3. Advanced Software Integration

Improved software will enable greater customization, remote operation, and data analysis, making marking processes more intuitive and efficient.

How to work

print on bottle pipe tube

Application

The medical laser marking process is indispensable in pharmaceutical production, ensuring accurate labeling and compliance with strict industry regulations.

Marking on Pill Tablets

The non-contact laser engraving printer marks pill tablets without damaging their surface. This ensures the integrity of the product while allowing for clear labeling of dosage information, manufacturer details, or regulatory symbols.

Packaging and Labeling

The CO2 laser printer is widely used to label packaging with barcodes, batch numbers, and logos. These markings are resistant to wear, ensuring traceability and compliance throughout the supply chain.

Regulatory Compliance and Safety

Accurate and durable labeling with a CO2 laser marking machine ensures adherence to stringent industry regulations. Its precision minimizes errors, enhancing both safety and compliance.