Overview
T200 Pro + intelligent numerical control Stirrer is a kind of equipment through digital control technology implementation of stirring process, with precise control and adjustment functions. It is mainly used for mixing and stirring liquids, solutions, suspended liquids in the laboratory, and is widely used in laboratory research and production processes in the fields of chemistry, biology, food science, etc.
Features
1. Using digital control technology, stirring speed, time, temperature and other parameters can be accurately set through the panel or software interface.
2. High Accuracy stirring speed and temperature control to ensure experimental accuracy and repeatability.
3. Equipped with safety features, such as overheating protection, overload protection, etc., to ensure the safe operation of the equipment.
4. Equipped with automation function, it can be programmed to perform the automatic mixing process, thus enhancing the experimental efficiency.
5. Rotation speed memory, dynamic detection, key lock and other practical functions.
Principle
The stirring shaft is driven by a brushless DC motor, and the control knob is used for stepless speed regulation to achieve a Speed range of 50~ 3000rpm. The equipment precisely adjusts the stirring parameters through digitalization control technology, and can be optionally equipped with a temperature measurement module for temperature control.
Applications
Laboratory research and production processes in chemistry, biology, food science, analytical chemistry, biology, etc
Standards
Protection Rating IP40
Steps
1. Select the appropriate capacity and Impeller type according to the experimental needs.
2. Set stirring speed, time and other parameters through the control knob.
3. Start the equipment for the mixing process.
4. The monitoring operation status is displayed through the TFT LCD screen.
5. Turn off the equipment after the experiment is completed.
Notice
• When selecting equipment, choose the appropriate capacity according to the experimental needs
• Pay attention to the safety performance of the equipment to ensure overheating and overload protection
• Permissible Ambient Temperature not more than 40 ℃
• Environmental humidity not more than 80%
• Choose whether to be equipped with temperature control function according to the experimental requirements
Processing capacity and maximum viscosity limits
