Overview
The DHC-1020N High and Low Temperature Circulating Bath is a thermostatic device with a Temperature range of -10 to 160 ° C and a Tank Volume of 20L, suitable for temperature control applications in laboratory and industrial environments.
Features
1. Adopt a fully enclosed environmentally friendly Compressor refrigeration system with multiple overheating and overcurrent protection devices
2. Large screen backlit LCD display, clear working status information display
3. Equipment instrumentation with temperature calibration and self-tuning functions
4. Control part adopts ABS mold design, Overall Appearance streamline design
5. High-performance Stirring cycle motor, using non-heat centrifugal circulation pump
6. Plate and liner made of stainless steel 304, easy to clean and durable
7. Refrigeration coil increases positioning and surface preparation process, fine workmanship
8. The motor impeller is fully enclosed to prevent potential safety hazards
9. The side panels around the equipment can be flexibly disassembled and assembled
10. The circulation interface and drain are all made of stainless steel 304 pagoda joints, and the drain valve is designed with built-in hidden type
11. Standard circulating silicone tube + thermal insulation sleeve, easy for customers to use flexibly
Principle
The High and Low Temperature Circulating Bath achieves temperature control through a fully enclosed environmentally friendly Compressor refrigeration system, combined with a high-performance Stir circulation motor and a heat-free centrifugal circulation pump, ensuring uniform and stable temperature in the Tank.
Applications
Laboratory and industrial environment
Steps
1. Connect the power supply and turn on the device.
2. Set the required temperature parameters
3. Start the refrigeration and circulation system
4. Monitor the working status information display
5. Turn off the device and disconnect the power after use
Notice
• Ensure equipment is placed in a smoothly ventilated environment
• Regularly clean stainless steel platens and liners to maintain hygiene
• Check whether the circulation interface and drain are firmly connected
• Avoid operating equipment under overheating or overcurrent conditions
• Pay attention to safety when removing the side panels to prevent damage to the internal components
