Fully automatic pipetting system

As an outstanding representative of laboratory automation, the fully automatic pipetting system plays an indispensable role in many frontier fields such as life science research and drug development with its excellent efficiency and accuracy. With its sophisticated liquid control technology, this system has completely revolutionized the laboratory operation process, achieving comprehensive acceleration from sample preparation to experimental execution, ensuring rapid acquisition and high accuracy of experimental results.

How the fully automatic pipetting system works and its advantages

• Precision mechanical structure: The system adopts precise mechanical structure design to ensure the stability and accuracy of pipetting operations.
• Advanced control system: Integrating advanced electronic control and program technology, it can accurately control parameters such as pipetting volume, speed and time.
• Automated operation: Automatically perform liquid aspiration, pipetting, mixing and other operations according to preset programs without manual intervention.
• Improve experimental efficiency: Automated operation significantly improves the efficiency and throughput of experimental operations and shortens the experimental cycle.
• Improve accuracy: The high-precision control system ensures the accuracy of pipetting operations and reduces experimental errors.
• Save time and costs: Researchers only need to set parameters and the system will run automatically, significantly saving experimental time and labor costs.
• Flexibility and scalability: The system supports a variety of pipetting modes and parameter settings to adapt to different experimental needs, and is highly scalable and easy to upgrade and maintain.
• Reduce human errors: Automated operations reduce operational errors caused by human factors and improve the reliability of experimental results.
• Strong adaptability: It can work stably under different environmental conditions, such as controlling temperature, humidity, etc., to ensure the stability of experimental results.
• High safety: Automated operation reduces direct contact with harmful or corrosive liquids and improves the safety of experimental personnel.

Working principle

The working principle of the fully automatic pipetting system is based on the three processes of liquid suction, discharge and mixing. The user sets parameters such as the volume, speed and depth of pipetting and discharge through the control system, and then places the reaction materials on the work platform. Next, the system's suction head or needle will automatically absorb the reactants of the set volume, and accurately distribute the absorbed reaction materials to different reactors through the control of solenoid valves, air pumps and other equipment. Finally, the system will also perform a mixing operation to thoroughly mix the liquid and distribute it to the designated reactor.

The importance of fully automated pipetting systems in life science research

1. Precise distribution: The system can accurately distribute samples and reagents from micro to large amounts, ensuring the consistency and accuracy of experimental materials. 2. High-throughput processing: Support high-throughput screening experiments, quickly process a large number of samples, and improve research efficiency. 3. Assistance in complex experiments such as gene cloning: In experiments requiring precise operations such as gene cloning and PCR amplification, the system can automatically complete the pipetting steps, reducing the difficulty of operations. 4. Reduce human errors: Highly precise mechanical operation and control systems reduce errors caused by human operations and ensure the reliability of experimental results. 5. Improve experimental accuracy: Precisely control the pipetting volume, speed and mixing process to ensure strict consistency of experimental conditions, thereby improving the accuracy of experimental results. 6. Improve experimental efficiency: Automated operation greatly shortens experimental preparation and operation time, allowing scientific researchers to focus more on experimental design and data analysis. 7. Adapt to complex experimental needs: parameters can be adjusted according to different experimental needs and flexibly cope with diverse life science research tasks. 8. Enhance experimental reproducibility: Standardized and automated operating procedures improve the reproducibility of experiments and contribute to the verification and advancement of scientific research. 9. Protect the safety of scientific researchers: Automated systems reduce the risk of direct exposure to researchers when handling toxic, hazardous or radioactive materials. 10. Promote scientific research innovation: Efficient automated processing systems provide scientific researchers with more time and energy to explore new scientific research directions and innovative experiments.

As an important equipment for laboratory automation, the fully automatic pipetting system greatly improves experimental efficiency and accuracy, and brings convenience to scientific research and drug development. With the continuous advancement of technology and the expansion of application scope, it is believed that fully automatic pipetting systems will play a more important role in the future and promote the development of scientific research and medicine.