LEO proudly introduces its latest dual-frequency ultrasonic cleaning system, integrating automatic lifting and intelligent control for a significant breakthrough in cleaning processes across industrial and medical sectors. This innovation not only enhances cleaning quality and efficiency but also reduces operational risk and labor costs, reinforcing LEO’s core value and competitive edge in precision cleaning technology.
Technology Highlights
- Dual-Frequency Vibration Technology
(e.g., 28/40?kHz, 40/80?kHz, or 40/120?kHz)
- Low frequency (e.g., 28?kHz) produces larger cavitation bubbles, effectively removing heavy contaminants such as grease and sticky residues.
- High frequency (e.g., 80?kHz or 120?kHz) targets fine particles and deep crevices, ideal for delicate areas such as micro wiring on PCBs and optical lens edges.
- The dual-frequency design ensures more comprehensive and uniform cleaning, achieving both efficiency and quality.
- Intelligent Control & Automated Design
- Integrated PLC control system supports timer settings, frequency switching, and automatic lifting, minimizing manual errors in the cleaning process.
- User interface and mechanical structure are ergonomically designed to reduce physical strain and improve usability and safety, meeting the demands of modern manufacturing environments.
- Automatic lifting models allow users to set up hands-free cleaning cycles, with baskets lowering and rising automatically for a highly efficient workflow.
- Durable Stainless Steel Construction & Precise Heating Control
- Constructed with stable-thickness SUS304 stainless steel tanks, offering strong resistance to acids and alkalis, and compatible with various chemical environments and cleaning solvents.
- Heating temperature can be adjusted from room temperature up to 99?°C (practically reaching about 65?°C), accelerating the cleaning process and enhancing results when used with detergents.
Typical Applications & Key Benefits
- Use Cases:
- Semiconductor & Electronics Industry: Cleaning of PCBs, IC packaging components, optical lenses, electronic parts, etc.
- Aerospace & Tooling Industry: High-efficiency cleaning of aircraft tire rims, hand tools, and other precision components.
- Performance & Benefits:
- Significantly reduces cleaning time while enhancing decontamination results.
- Automated systems reduce labor needs and operator error, lowering long-term operational costs.
- Compatible with a wide range of materials and complex geometries, ensuring consistent cleaning quality and improved process reliability.
Industry Trends & Market Alignment
The global ultrasonic cleaning equipment market is steadily expanding—from USD 2.1 billion in 2024 to an estimated USD 3.9 billion by 2035, with a CAGR of approximately 5.8%. Dual-frequency technology, automation, and energy-saving designs have emerged as key industry trends, perfectly aligning with LEO’s technological direction.
Expertise & Future Outlook
With over 30 years of experience in dual-frequency and intelligent ultrasonic cleaning technologies, LEO offers deep R&D capabilities, customized solutions, and international service experience. The company aims to expand its innovations into smart manufacturing platforms by integrating eco-friendly cleaning agents, IoT-based monitoring, and remote control systems—accelerating its global service deployment and achieving higher levels of automation.
Conclusion
This breakthrough dual-frequency ultrasonic cleaning system delivers high-quality, high-efficiency, and high-safety cleaning solutions across industries. It embodies LEO ’s leadership in precision cleaning and smart manufacturing technologies. Looking ahead, LEO is committed to partnering with industry leaders to build a cleaner, greener, and smarter future for ultrasonic cleaning.
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