cooling and heating thermoshaker with pid fuzzy control

Cooling and Heating Thermoshaker

Main Features

1. Multi-use design: Independently control heating, oscillation, timing functions for flexible configuration and improved equipment utilization.
2. Metal module design: Excellent thermal conductivity and temperature uniformity; easy module replacement enhances practicality and longevity.
3. Fast heating & accurate temperature control: Rapid heating and precise control ensure reliability of experimental results.
4. Microprocessor control system: Guarantees temperature stability and uniformity, adapting to varied experimental conditions.
5. Low noise DC brushless motor: Ensures stable, quiet operation and long life with minimal maintenance.
6. LCD display: Real-time monitoring of temperature, oscillation speed, and other data for convenient operation and setup.
7. Short oscillation function: Supports rapid, transient mixing/shaking operations for agile sample handling.
8. Temperature calibration: Built-in calibration ensures precise temperature measurement for high-accuracy experiments.
9. Stable oscillation speed: Accurate, low-fluctuation mixing for consistent results with various sample types.
10. Alarm function: Audible signal upon program completion for timely experimental response.
11. Power failure recovery & auto power-on: Automatically resumes operation after outages, preventing data loss.
12. Cooling function (TH10R model): Semiconductor refrigeration enables sample cooling during experiments.

Core Advantages

1. Efficient multi-functional integration: Combines heating, cooling, and oscillation for flexible, efficient experiments without frequent equipment swaps.
2. Accurate temperature control & homogeneous mixing: PID system and oscillation ensure uniform sample temperature and consistent mixing.
3. Fast response & high stability: Rapid heating, precise control, timely cooling, and short oscillation enable high-efficiency experiments.
4. Intelligent control: Automated operation via microprocessor and smart programming, reducing manual input and boosting accuracy/safety.
5. Low maintenance, long life: Brushless motor and modular design reduce upkeep and extend service life.
6. Flexible application: Power recovery, auto power-on, and refrigeration module support complex experimental needs.

Working Principle

1. Heating: Built-in heating module uses PID control for uniform, accurate temperature elevation, preventing sample damage.
2. Cooling (TH10R): Semiconductor refrigeration rapidly cools samples for temperature-sensitive experiments.
3. Oscillation: Brushless motor drives adjustable-frequency mixing (up to 3000rpm) for homogeneous sample preparation.
4. Intelligent control: PID and microprocessor system monitor/adjust temperature and mixing, with power recovery and timer reminders for convenience and safety.

Application Fields

1. Life science & biomedicine: Cell culture, enzyme reactions, protein analysis—stable, temperature-controlled environment for accuracy.
2. Chemical analysis & synthesis: Heating, cooling, and mixing for reactions, catalysis, dissolution, and synthesis.
3. Drug research & production: Enables mixing/reaction under controlled temperatures for synthesis and preparation.
4. Food science & nutrition: Additive research, emulsification, preservation, and temperature-controlled storage.
5. Environmental monitoring: Water, air quality analysis—stable sample conditions for accurate results.
6. Education & scientific research: College labs and research institutions for teaching, mixing, incubation, and basic experiments.