Designed to handle large sample volumes with reliable performance, the UN Series large-capacity orbital shaker is intended for laboratories requiring high throughput and stable agitation. This instrument utilizes a motor-driven platform to generate precise orbital oscillation, providing a consistently controlled growth environment essential for large-scale cultivation of microorganisms, cells, and tissues. Its ability to manage heavy loads makes it an indispensable tool across demanding scientific fields, including large-scale biological studies, high-volume medical testing, agricultural research involving extensive sample processing, and comprehensive environmental analysis programs.
Description
• Optimized design for high capacity: the MaxiShake series features a streamlined aesthetic developed through advanced molding processes. The design focuses on practicality and robustness, offering a simple yet high-capacity structure suitable for handling large workloads.
Intuitive 7-inch touchscreen control: large-scale experiments can be easily operated and monitored via a 7-inch color touchscreen display. The interface provides clear and simultaneous visualization of key operating parameters, ensuring convenient control and user-friendly interaction.
• Powerful and stable 5D orbital drive: exceptionally stable and low-vibration orbital agitation is achieved through single-axis five-dimensional dynamic balance drive technology. This system operates without mechanical friction loss, ensuring very low noise levels, high energy efficiency, stable performance even under heavy loads, and long operational life.
• Reinforced mechanical structure: the durability and stability required for high-capacity shaking are built into the core of the instrument. Key mechanical components are made from finely processed ductile iron, providing a solid foundation that ensures long-term stability and extended service life under continuous operation.
• Reliability through selected components: dependable performance in high-throughput applications is ensured by the use of core components known for their stability and quality, contributing to overall durability and consistent operation.
• Comprehensive integrated safety and auxiliary functions: operator safety, sample integrity, and equipment longevity are ensured through a range of integrated systems:
• Operator safety: advanced leakage and overcurrent detection technology provides high-level protection, automatically cutting off power in case of electrical anomalies.
Sample protection: a highly sensitive speed monitoring system safeguards samples by detecting abnormal variations. In such cases, the system triggers audible and visual alarms and automatically stops operation to prevent damage or experimental failure.
Advanced operational safeguards: additional auxiliary functions provide multi-level protection, including emergency stop, hardware and software interlocks for safe operation, dedicated audible and visual alarms for overspeed and stall conditions, as well as protection devices against short circuit, electrical leakage, and overload.