Overview
BDJK HMS-901A heating Magnetic Stirrer is driven by NanoHeat world-class thermal energy technology, no mechanical heating components, dry burning, no electromagnetic field interference and harm. It has ultra-fast heating technology, uniform plate surface temperature, stable Stir performance, suitable for Glass, Pottery and porcelain and metal utensils, widely used in industrial, agricultural, chemical, biological and other experimental heating and Stir.
Features
1. Driven by NanoHeat world-class thermal energy technology, no mechanical heating components, dry burning, no electromagnetic field interference and harm
2. Ultra-fast heating technology, the temperature increases at a rate of 5 ° C per second, the plate surface temperature is uniform, the temperature difference is 1-3 ° C, the liquid temperature difference is accurate to 0.1~ -0.5 ° C, and it only takes 8 minutes to heat up 450 degrees at an extremely fast speed
3. LED display, the specified temperature can be set, the built-in temperature Probe and the external temperature Probe can be freely switched
4. Over-temperature alarm function, setting thermometer function, experiment more convenient
5. German Schott Microcrystalline Pottery and porcelain board surface, acid, alkali, corrosion resistance, easy to clean
6. Stirring performance is stable, using DC motor, low noise, long life, low speed and stable, high speed and strong
7. Free from magnetic interference and hazards, suitable for most electrical appliances: Glass, Pottery and porcelain and metal utensils
Principle
The heating Magnetic Stirrer is heated by NanoHeat thermal energy technology implementation, without mechanical heating components, ensuring no electromagnetic field interference. The Stir function is driven by ND servo motors, providing stable Stir performance, while the built-in and external temperature Probe can be freely switched for precise temperature control.
Applications
Industrial, agricultural, chemical, biological and other experimental heating and Stirring
Steps
1. Connect the power supply and turn on the device.
2. Use the LED display panel to set the specified temperature
3. Switch internal or external temperature Probe as needed
4. Set stirring speed, adjust through digital display and stepless speed regulation
5. Activate heating and Stir functions to monitor temperature changes
6. Use over-temperature alarm and thermometer functions to ensure experimental safety
Notice
• Ensure that the equipment is used in a drying environment to avoid liquid splashing
• Check whether the temperature Probe connection is firm before use
• Avoid dry burning at high temperatures for a long time to prevent damage to the equipment
• Use a soft cloth when cleaning to avoid scratching the German Schott Microcrystalline Pottery and porcelain panels
• Stir to ensure the container is stable and prevents tipping over
• Pay attention to the over-temperature alarm function and adjust the temperature setting in time
